˙ Œ - Krypto Security · and design, Pyronix reserve the right to amend specifications without giving prior notice. A copy of our warranty can be obtained from the above address

THIS GUIDE SUPPORTS MATRIX 424 & 832 CONTROL PANELS

Software Version V1 08 RINS 295 – ISSUE 4 DECEMBER 2001

��

2

WARRANTY This product is sold subject to our standard warranty conditions and is warranted against defects in workmanship for a period of 2 years. In the interest of continuing improvement of quality, customer care and design, Pyronix reserve the right to amend specifications without giving prior notice. A copy of our warranty can be obtained from the above address.

3

Section 1: Contents

PAGE

3\URQL[�$VVRFLDWLRQ�RI�6HFXULW\�6SHFLDOLVWVInstaller support

The Association Awards Catalogue

Product Consultation

To join the PASS Association please contact the Marketing or Technical Support [email protected]

[email protected]

As a new member of the PASS association a free phone number will be issued to you.

THE PASS ASSOCIATION IS FOR USE IN THE UK.

The Pyronix Association of Security specialists has been developed with the focus on what you the installer would like to see from one of the worlds leading manufactures of security equipment.

The philosophy behind the association is that you will receive tangible benefits, which are applicable to both thework and home environment.

By collecting the tokens which are printed on Pyronix product packaging you can redeem against a collection of high quality products from the association’s Award Catalogue. In total there are over sixty quality items covering

five award categories providing every one with a choice.

Catalogue includes pages on the following - Pyronix products, Merchandise selection, Installation accessories,Voucher section and Branded items.

Product training and consultation evenings are provided up and down the country.

�

4

Section 1: Contents

1 CONTENTS Page 4 2 TECHNICAL SPECIFICATIONS & SYSTEM OVERVIEW Page 7 2.1 Technical specifications Page 7 2.2 Battery capacity calculations Page 8 2.3 System Overview Page 9 3 SAFETY AND APPROVALS Page 13 3.1 Certificate of test Page 14 4 PARTS LISTING AND ASSEMBLY Page 15 4.1 Parts Listing Page 15 4.2 Panel assembly and AC power supply Page 15 5 CABLING RULES FOR MATRIX BUS Page 17 5.1 System Examples Page 18 6 OPERATING MODES Page 20 7 KEYPAD / READER SYMBOLS & LED INDICATION MEANING Page 21 7.1 The LED keypad Page 21 7.2 The LCD keypad Page 22 7.3 The Proximity reader Page 23 8 PROGRAMMING THE SYSTEM Page 24 8.1 Addressing the LCD or LED keypads Page 25 8.2 Addressing the proximity reader Page 26 8.2.1 Connection of MX PROX to a PC Page 26 8.3 Factory default settings of Matrix system Page 27 8.3.1 Engineer code Page 27 8.3.2 Global system options Page 27 8.3.3 Zone types, zone attributes and zone settings Page 27 8.3.4 User codes, User code attributes & proximity card allocation Page 28 8.3.5 Keypads & proximity readers partition allocation Page 28 8.3.6 System & tamper faults partition allocation Page 29 8.3.7 Partition allocation Page 29 8.3.8 Arm options Page 29 8.3.8 System timers Page 29 8.3.9 Programmable outputs Page 30 8.3.10 Digital communicator Page 30 8.3. 11 Communicating formats Page 30 8.3.12 Events Page 31 8.4 Enter and Exiting engineer mode & changing engineer code Page 32 8.4.1 Entering engineer mode Page 32 8.4.2 Exiting engineer mode Page 32 8.4.3 Changing engineer code Page 32 8.5 Global system options Page 33 8.5.1 System option 1 Page 36 8.5.2 System option 2 Page 36 8.6 Zone types, Configuration, Attributes & Partition allocation Page 37 8.6.1 Zone types Page 40 8.6.2 Zone configuration Page 40 8.6.3 Zone names programming from LCD keypad Page 42 8.7 User codes & User attributes Page 43 8.7.1 Programming user codes Page 46 8.7.2 User code partition allocation Page 46 8.7.3 User code attributes allocation Page 46 8.7.4 Tempory code – number of uses allowed Page 46 8.7.5 Assigning / clearing proximity card to / from user code Page 46 8.8 Ketpads and proximity reader partition allocation Page 47 8.8.1 LED Keypad programming Page 49 8.8.1.1 LED Keypad partition allocation

5

8.8.1.2 LED keypad private / public mode Page 49 8.8.2 LCD Keypad programming Page 50 8.8.2.1 LCD Keypad partition allocation Page 50 8.8.2.2 LCD Keypad private / public mode Page 50 8.8.2.3 Change label messages on LCD keypad Page 51 8.8.2.4 Allocation label number to message displayed in disarmed mode Page 53 8.8.2.5 Set the contrast of the LCD keypad Page 54 8.8.3 Proximity reader programming Page 55 8.8.3.1 Proximity reader partition allocation Page 55 8.8.3.2 Proximity reader private / public mode Page 55 8.8.3 Change default language Page 55 8.9 System faults & tamper alarms warning allocation Page 56 8.9.1 System faults warning partition allocation Page 56 8.9.2 Tamper alarms warning partition allocation Page 56 8.10 Partition Options Page 57 8.10.1 Partition options 1 Page 59 8.10.2 Partition options 2 Page 59 8.11 Arm options Page 60 8.11.1 Exit terminator type for A arm mode Page 62 8.11.2 Exit terminator type for B arm mode Page 62 8.11.3 Exit terminator type for C arm mode Page 62 8.11.4 Exit terminator type for D arm mode Page 62 8.11.5 Exit terminator type for C arm mode Page 63 8.11.6 Partition dependency Page 63 8.11.7 Keyswitch zone arm mode allocation Page 63 8.11.8 Number of rearms Page 63 8.12 System timers Page 64 8.12.1 Bell time Page 66 8.12.2 Bell time delay Page 66 8.12.3 Entry time Page 66 8.12.4 Exit time Page 66 8.12.5 Final exit delay Page 66 8.12.6 Auto – Arm commencing time – Every day Page 66 8.12.7 Inactivity Auto – Arm Page 67 8.12.7 AC Fail warning a report delay Page 67 8.12.8 AC Fail warning and report delay Page 67 8.12.9 Telephone line fail warning and report delay Page 67 8.12.10 Seconds in last minute of the day Page 67 8.13 Programmable outputs Page 68 8.13.1 PGM Type and Polarity Page 70 8.13.2 Zone to follow in partition Page 70 9 Communication programming Page 71 9.1 Digital Communicator Page 72 9.1.1 Account codes and A/C partition allocation Page 74 9.1.2 Up / Down loading access control Page 74 9.1.3 Digital Communication options Page 74 9.1.4 Test dial time Page 74 9.1.5 Test dial interval Page 74 9.1.6 Telephone number 1 allocation Page 75 9.1.7 Telephone number 2 allocation Page 75 9.1.8 Telephone number 3 allocation Page 75 9.1.9 Test dial sequence (Group reporting) Page 75 9.2 Reporting formats Page 76 9.2.1 Telephone number programming Page 79 9.3 Send options and Group reporting Page 80 9.3.1 Disarmed mode events and send options Page 82 9.3.2 Arm mode A events send options Page 82 9.3.3 Arm mode B events send options Page 82 9.3.4 Arm mode C events send options Page 83 9.3.5 Arm mode D events send options Page 83 9.3.6 Restoral events send options Page 83 9.3.7 Telephone numbers allocating to alarm types in partitions Page 83

6

10 Events Memory Log and System Maintenance Page 85 10.1 Reading the event log Page 85 10.1.1 Viewing event log memory Page 86 10.1.2 Resetting the event log memory Page 86 10.2 System faults and maintenance Page 89 10.2.1 Engineer code NVM reset to factory default Page 90 10.2.2 Programmable outputs Page 90 10.2.3 Walk test Page 90 10.2.4 Scan for devices on the bus Page 90 10.2.5 Local Up / Down loading using RS232 Output Page 90 11 UDL PC Software Data Management Page 91 11.1 Customer Explorer Page 91 11.2 Editing Customer Information Page 93 11.3 Panel details and dialing the panel Page 95 11.3.1 Normal dial to the panel Page 96 11.3.2 AMC Dial to the panel Page 97 11.3.3 Sending data to the panel Page 97 11.3.4 Getting data from the panel Page 97 11.3.5 Verifying panel details Page 97 11.4 Modem settings Page 99 11.4.1 Configuring communication ports Page 99 11.4.2 Configuring dial options Page 100 11.4.3 Configuring dial back options Page 101 11.4.4 Configuring Keypad display options Page 101 11.4.5 Configuring computer network options Page 102 11.4.6 Configuring other options Page 102 12 Useful Wiring Diagrams and Applications Page 104 12.1 Matrix 832 PCB explanation Page 104 12.2 Matrix 424 PCB Explanation Page 106 12.3 Matrix Zone Expanders Page 108 12.3.1 Local plug on 8 zone expander Page 108 12.4 Matrix PGM Expanders Page 109 12.4.1 Remote PGM relay expander Page 109 12.4.2 Remote transistor PGM expander Page 110 12.5 Keypads and Proximity reader connections Page 111 12.5.1 Connecting single keypad Page 111 12.5.2 Connecting multiple keypad (Daisychain) Page 111 12.5.3 Connecting multiple keypad (Star configuration) Page 112 12.5.4 Connecting Proximity readers Page 112 12.6 Digital communicator connections Page 113 12.7 Zones Wiring Diagrams Page 114 12.7.1 Zone doubling Page 114 12.7.2 Double end of line resistors Page 114 12.7.3 Normally closed zones Page 115 12.8 Programmable Output Connections Page 116 12.8.1 Belle connections to matrix Page 116 12.8.2 Decibell connections to matrix Page 116 12.8.3 Twin alert connections to matrix Page 117 12.8.4 Vocaliser connections to matrix Page 117 12.8.5 Two wire fire detectors connected to matrix Page 118 12.8.6 Four wire fire detectors connected to matrix Page 118 12.8.7 Buzzer, LED and any siren connection to matrix PGM Page 119 12.9 Partition Management Page 119 12.9.1 Example 1 Page 119 12.9.2 Example 2 Page 120 13 Quick Engineer Programming Procedures Guide Page 122

7

Section 2: Technical Specifications & System Overview

2.1 Technical Specifications

MATRIX 832

MATRIX 424

ZONES INCLUDING BT & GT Zone loop current -

0.54 mA - maximum 0.54 mA max (BT & GT not available) Zone activation resistance -

6.9 K Ohms - minimum 6.9 K Ohms - minimum Zone loop activation timer -

0.35 sec 0.35 sec Zone protection -

18V Varister 18V Varister (Optional) PGM OUTPUTS

PGM – On main board - 1. PGM1 – RELAY CONTACTS Max. Switching voltage: 125Vac, 60Vdc Max. Switching current: 1A 2. PGM2 – 500mA 3. PGM3 – 250mA 4. PGM4 – 10mA

1. PGM1 – 500mA 2. PGM2 – 250mA 1. PGM3 – 250mA 2. PGM4 – 10mA

PGM – transistor expander - 1. Supply Voltage: 12V typical (9-15V range) 2. Current Consumption: 225mA @13.8V 3. Tamper Loop:

1. Supply Voltage: 12V typical (9-15V range) 2. Current Consumption: 225mA @13.8V 3. Tamper Loop:

PGM – relay expander - RELAY CONTACTS 1. Max. Switching voltage: 125Vac, 60Vdc 2. Max. Switching current: 1A

RELAY CONTACTS 1. Max. Switching voltage: 125Vac, 60Vdc 2. Max. Switching current: 1A

PGM expanders – mechanical - 1. Dimensions: 107 x 71 x 14mm 2. Weight: 3. Color:

1. Dimensions: 107 x 71 x 14mm 2. Weight: 3. Color:

AUXULIARY DC OUTPUT SUPPLY Regulated 13.8v DC Regulated 13.8v DC

CURRENT CONSUMPTION (NO KEYPADS) 1. In disarmed mode – 100mA 2. In armed mode – 100mA 3. In alarm mode – 100mA

1. In disarmed mode – 100mA 2. In armed mode – 100mA 3. In alarm mode – 100mA

DIGITAL COMMMUNICATOR Telephone line monitoring -

Yes – with status indication Yes – with status indication Telephone connection -

Allows other telephone on the line Allows other telephone on the line Digital communicator -

Analogue line Analogue line Lightning protection -

Heavy duty lightning protection 5.6kv/125Amps Heavy duty lightning protection 5.6kv/125Amps POWER SUPPLY

Power input - 1. Power Input – 17v AC 2. Fuse quick blow - 2 A

1. Power Input – 17v AC 2. Fuse quick blow - 2 A

Low voltage output - 1. 13.8v DC 2. Max capacity power output including control

panel – 1.25 A 3. Max power available for external devices

excluding battery – 0.8 A

1. 13.8v DC 2. Max capacity power output including control

panel – 1.25 A 3. Max power available for external devices

excluding battery – 0.8 A Fuse Control -

8

1. Siren low voltage output – 1Am quick blow 2. AUX low voltage output – 1Am quick blow

1. Not Available 2. AUX low voltage output – 1Am quick blow

Battery charging capability - 2 batteries 7.2 A/h 2 batteries 7.2 A/h

BATTERY Type – Lead Acid rechargeable Type – Lead Acid rechargeable Battery Charge commencing – min 6v Battery Charge commencing – min 6v Battery Capacity – 2.8A/h – 7.2A/h Battery Capacity – 2.8A/h – 7.2A/h

Protection on BAT terminals - Short circuit & battery reverse protection Short circuit & battery reverse protection

MECHANICAL Dimensions, material & color -

228 x 243 x 75 mm 228 x 243 x 75 mm Cabinet material - Polymer Cabinet material - Polymer White White

ENVIROMENTAL

0 to +400 C (+32 to +1040 F). 0 to +400 C (+32 to +1040 F).

-20 to +60 0 C (-4 to +1720 F). -20 to +60 0 C (-4 to +1720 F). VIBRATIONS

Install the system on firm not vibrating surface Install the system on firm not vibrating surface 2.2 Battery Capacity Calculations

It is recommended that the rechargeable battery used with the Matrix 832 control panel should be capable of powering the alarm system for a minimum of 8 hours, and that this time period should include 20 minutes of bell/strobe operation. The minimum battery capacity should be calculated from the current consumption of the individual system components. Standby condition 7h 40min Non alarm current for control panel (7h 40min) : 130mA (0.130 A) Steady state current for detectors : 120mA (0.120 A) (e.g. 8 x 15mA for 8 hours - Pyronix PIRs) Typical standby current for external sounder : 50mA (0.050 A) Typical on state current for external sounder (20 mins) : 350mA (0.35 A) Alarm state current for control panel (20 mins) : 130mA (0.13 A) Typical current for external strobe (8 hours) : 150mA (0.15 A) Alarm condition for 20 mins (0.333 h) Alarm state current for control panel : 0.130 8 detectors @15mA : 0.120 External sounder : 0.350 External strobe : 0.150 Standby current for external sounder : 0.050 Single remote keypad : 0.015 Required capacity for alarm condition = 0.815 x 0.333 = 0.271h Capacity required for standby 7hrs 40 mins (7.67 hrs) Non alarm current for control panel : 0.130 8 detectors @ 15mA : 0.120 External strobe : 0.150 Standby for external sounder : 0.050 Single Remote keypad : 0.015 Required capacity for standby condition = 0.465 x 7.67 = 3.57h Total minimum required battery capacity = 0.271 + 3.57 = 3.84h NOTE: For the above example it is recommended that you use a battery of not less than 6 AH.

9

2.3 System Overview

MATRIX 832

MATRIX 424

ZONES

Zones on main board - 8 fully programmable zones (16 using zone doubling option)

4 fully programmable zones (8 using zone doubling)

Zone expander - 1. 8 fully programmable zones & local plug In

expander (16 using zone doubling option) 2. 8 fully programmable zones & remote

expander (16 using zone doubling option)

1. 8 fully programmable zones & local plug In expander (16 using zone doubling option) 2. Not Available

Maximum zones capacity - 32 zones using zone doubling option and zone expander

24 zones using doubling option and zone expander

Zone configurations - 1. Normally closed 2. DEOL – 2 end of line resistors 3. Zone doubling – 1 end of line resistor

1. Normally closed 2. DEOL – 2 end of line resistors 3. Zone doubling – 1 end of line resistor

Zone types - 1. Entry / Exit 2. Access 3. Immediate 4. PA 5. Fire 6. 24hr 7. Medical 8. Keyswitch 1 9. Keyswitch 2 10. Unused 11. Omitted (Bypassed)

1. Entry / Exit 2. Access 3. Immediate 4. PA 5. Fire 6. 24hr 7. Medical 8. Keyswitch 1 9. Keyswitch 2 10. Unused 11. Omitted (Bypassed)

Zone attributes - Chime, Test, Mask Chime, Test, Mask

Additional zones- 1 global tamper, 1 Bell tamper Not Available

PROGRAMMABLE OUTPUTS

PGM – On main board 1. PGM1 – Relay 2. PGM2 – Open collector 3. PGM3 – Open collector 4. PGM4 – Open collector

1. PGM1 – Open Collector 2. PGM2 – Open collector 3. PGM3 – Open collector 4. PGM4 – Open collector

PGM attributes - 1. PGM1 – N/O / N/C 2. PGM2 – Active High / Active Low 3. PGM3 – Active High / Active Low 4. PGM4 – Active High / Active Low

1. PGM1 – Active High / Active Low 2. PGM2 – Active High / Active Low 3. PGM3 – Active High / Active Low 1. PGM4 – Active High / Active Low

PGM Output expander - 1. 8 open collector – Installable remotely on

keypad bus 2. 8 relay expander – installable remotely on

keypad bus

1. 8 open collector – Installable remotely on keypad bus

2. 8 relay expander – installable remotely on keypad bus

PGM options- 1. Off 2. PIR remote LED enable (E-) 3. PIR Latch memory (C+) 4. Follow Arm m/ Disarm 5. Follow zone 6. Follow line fail 7. Follow kiss off 8. Shock / Fire reset

1. Off 2. PIR remote LED enable (E-) 3. PIR Latch memory (C+) 4. Follow Arm m/ Disarm 5. Follow zone 6. Follow line fail 7. Follow kiss off 8. Shock / Fire reset

10

9. Follow strobe 10. Follow Fire Alarm 11. Follow P.A 12. Confirmed Alarm 13. Follow Tamper Alarm 14. External Bell 15. GND Fire detector – PGM 4 only 16. Twin Alert – PGM 3 only

9. Follow strobe 10. Follow Fire Alarm 11. Follow P.A 12. Confirmed Alarm 13. Follow Tamper Alarm 14. External Bell 15. GND Fire detector – PGM 4 only 16. Twin Alert – PGM 3 only

KEYPADS

Keypad type - Two 7 segments LED keypad LCD 32 character keypad

Two 7 segments LED keypad LCD 32 character keypad

Dedicated buttons - PA button, Fire button, Medical button PA button, Fire button, Medical button

Max number of keypads - 4 devices 4 devices

Keypad settings - 1. Private - system status indicated during

arming 2. Public - system status indicated in arm mode

1. Private - system status indicated during arming

2. Public - system status indicated in arm mode

PROXIMITY READER Proximity reader module -

1. Proximity reader arming disarming module on the bus with private and public settings

2. MX proximity reader 3. MX proximity card

1. Proximity reader arming disarming module on the bus with private and public settings

2. MX proximity reader 3. MX proximity card

Max number of readers - 4 devices 4 devices

PARTITIONS

Number of partitions - 4 independent with common partition option 4 independent with common partition option

Partition independent settings - 1. Keypads 2. Proximity readers 3. User codes 4. PGM’s 5. Timers

1. Keypads 2. Proximity readers 3. User codes 4. PGM’s 5. Timers

Arm modes - 4 arm modes per partition (A,B,C,D) 4 arm modes per partition (A,B,C,D)

Home / Away allocation - Programmable individual arm modes Programmable individual arm modes

Timer auto – arm - 1. Programmable non activity auto – arm 2. Programmable time for auto-arm every day

1. Programmable non activity auto – arm 2. Programmable time for auto-arm every day

Arming options - 1. Final door 2. Timed exit 3. Silent arm

1. Final door 2. Timed exit 3. Silent arm

Timers - 1. Entry / Exit 2. Siren activation delay 3. AC fault delay 4. Tel line fault delay 5. Non activity arm time 10-990min 6. Auto arm commencing timer – time per day 7. Final door delay 8. Quartz correcting factor

1. Entry / Exit 2. Siren activation delay 3. AC fault delay 4. Tel line fault delay 5. Non activity arm time 10-990min 6. Auto arm commencing timer – time per day 7. Final door delay 8. Quartz correcting factor

Real time clock - 1. AC frequency based 2. Quartz based

1. AC frequency based 2. Quartz based

11

USER CODES Number of user codes -

32 codes (4/6 digits) 32 codes (4/6 digits) User code types -

1. Master user codes per partition 2. Limited user codes 3. Duress code 4. Engineer code 5. Arm only code – can be used as a patrol code 6. Disarm only code - can be used as a patrol

code 7. Omit (Bypass) codes 8. Temporary codes

1. Master user codes per partition 2. Limited user codes 3. Duress code 4. Engineer code 5. Arm only code – can be used as a patrol code 6. Disarm only code - can be used as a patrol

code 7. Omit (Bypass) codes 8. Temporary codes

PROGRAMMING OPTIONS

Number of Rearms - Programmable per partitions 1-9 or infinity Programmable per partitions 1-9 or infinity

Battery fail warning - Enabled / Disabled Enable / Disable

AC fail warning - Enabled / Disabled Enable / Disable

Alarm in line fail - Enabled / Disabled Enable / Disable

AC frequency - 50 or 60 Hz – for different countries 50 or 60 Hz – for different countries

Real time clock - AC based or Quartz based AC based or Quartz based

Display open zones in alarm - Enabled / Disabled Enable / Disable

Display open zones in disarmed mode - Enabled / Disabled Enable / Disable

Bell time - Seconds / Minutes Seconds / Minutes

Omit (Bypass) zones on re-arm Enable / Disable Enable / Disable

MONITORING EVENTS / DIGITAL COMMUNICATOR (CMS – CENTRAL MONITORING STATION)

CMS telephone numbers - 9 telephone numbers shared with pager, Pyronix PC format and digital communication formats

9 telephone numbers shared with pager, Pyronix PC format and digital communication formats

Communication protocols - 1. Contact ID 2. Pager Format 3. BSIA Fast Format 4. Pyronix PC Format

1. Contact ID 2. Pager Format 3. BSIA Fast Format 4. Pyronix PC Format

Group reporting to CMS - 1. Events sent to 1 number only 2. Events sent to 2 numbers 3. Events sent to first number with backup of

second number

1. Events sent to 1 number only 2. Events sent to 2 numbers 3. Events sent to first number with backup of

second number Send options programmable As enabled / disabled for communication to CMS -

1. In disarmed mode 2. In arm modes A,B,C and D 3. Restorals 4. Alarms 5. PAs 6. Fire 7. Maintenance 8. Open / Close 9. Medical

1. In disarmed mode 2. In arm modes A,B,C and D 3. Restorals 4. Alarms 5. PAs 6. Fire 7. Maintenance 8. Open / Close 9. Medical

12

Test call -

Programmable in days, hours and minutes Programmable in days, hours and minutes Telephone line monitoring -

Yes – with status indication Yes – with status indication Telephone connection -

Allows other telephone on the line Allows other telephone on the line Digital communicator -

Analogue line Analogue line Lightning protection -

Heavy duty lightning protection 6.7kv/125Amps Heavy duty lightning protection 6.7kv/125Amps

OTHER Software support -

1. UDL Programming software 2. Monitoring software to be used with Pyronix

PC Format

1. UDL Programming software 2. Monitoring software to be used with Pyronix

PC Format Memory event log -

300 events with time and date 300 events with time and date Power supply -

1 A – capable of charging 2 X 7 Ah batteries 1 A – capable of charging 2 X 7 Ah batteries

13

Section 3: Safety & Approvals

CAUTIONHOT

SURFACES

1. The mains electrical installation should be carried out in accordance with National and local regulations by a technically competent person.

2. Always remove / isolate the mains supply before carrying out servicing of the panel.

3. Connect the unit to a single pole fused spur. If the neutral cannot be identified use a double pole disconnect version.

4. The equipment should be mounted so that no access can be gained to the electrical cable entry point.

5. Always mount the equipment vertically. This will ensure the correct airflow inside the unit under a full load.

6. On completion of wiring, all cables should be tied together to prevent any possibility of a loose wire causing a safety hazard.

7. There are no user serviceable parts inside.

- For continued protection against the risk of fire replace only with the same type and rating of fuse.

- 12V (See Section 2 - Technical Specifications)

- Designed to comply with EN60950 and IEC950

- Meets required standards

Fuses

Batteries

Electrical Safety Standards

Telecommunications Safety Standards �

Labels

Protective Earth:must

For continuing electrical safety in the event of a failure of the electrical safety insulation this equipment be earthed.

Functional earth: To allow the equipment to operate correctly.

Double insulation:

Has two layers of electrical insulation and therefore does not require any protective earthing.

Hot surfaces: Surfaces, which may cause injury.

14

15

Section 4: Parts Listing & Assembly

4.1 Parts Listing

Main Unit Part UK Export Accessories Main board Main board MX-1X16 (Internal on board input 8/16 expander) Keypads Keypads MX-RIX16 (Remote 8/16 input exp. – MX832 only) Metal Cabinet Proximity Reader MX-ROX8T (Remote 8 transistor output expander) TRF MX-ROX8R (Remote 8 Relay output expander) Mains connector MX-PROX (Matrix proximity reader) Tamper kit MX-PCARD (Matrix proximity card) MX TAG (Matrix proximity tag) MX-UDL (Upload/download software) MX-MON (Modem & Matrix monitoring software) MX-RS232L (RS 232 PC Link cable) 4.2 Panel assembly and AC power supply / battery connections

The following steps illustrate the basic setup procedure for mains and battery connections. (See section 10 for complete wiring diagrams) Step 1 - Remove the case lid from the matrix panel and check all parts and components are in place. Step 2 - Decide where the matrix panel will be situated. The matrix panel may be housed in the loft or different rooms in the premises. (A discrete and concealed place is advised as only the Matrix keypads need to be seen). Step 3 - Secure the matrix panel to a sturdy and stable surface, using the mounting screws provided. First mark the wall where the panel is to be situated (using the mounting holes), drill holes in the wall, then fasten the panel base to the wall, with screws supplied.

Tamper Switch Wall fixing hole

Wall fixing holeBattery supportBattery

support tray

Cableentryholes

Wall fixing hole

16

Step 4 - Before the panel base is completely secured to the wall feed cables for keypads / AC power supply / and accessories through the cable entry holes as illustrated. Battery connections = Battery + to BAT+ (Red cable)

= Battery - to BAT- (Black cable) AC Mains supply = Earth connects to the panel. Step 5 - Using the wiring diagrams supplied in section 10, connect devices required to the matrix panel, then replace the lid. Ensure the tamper switch is properly activated and a small amount of force will not cause an activation.

��

�$ % & '

� � �

� � � �

� �

��

��

(17V)

T

support tray

amper Switch

Battery

Wall fixin hol

NC

Relay

C

Bell Fuse 1Amp

Aux fuse 1Amp

AC fuse 2 Amp

NVM Reset

RS232

+ -

g eBattery support

PCB

Mainscableentryholes

Signalscableentryholes

!IMPORTANT: Connect the ground connection to ensuring Lightning protection of the digital communicator

17

Section 5: Cabling Rules For Matrix Bus

Care must be taken when connecting devices to the bus over long cable runs. This is to ensure the systems integrity under all circumstances (battery backup etc.). The maximum number of devices connected to the bus on any one system is limited to six - this may not be exceeded. Although six is the system limit other restrictions apply to each cable run. It is important to restrict the amount of current carried along each length of cable to limit voltage drops across the system. Voltage drops apart from being affected by current magnitude are also dependent upon the length of cable and the types of devices fitted. The following tables provide a means of determining suitable cable run configurations for different systems. NOTE: It is the length of cable between panel and end device which is important rather than the overall length on the entire bus. Table 1: “KEN” (Keypad Equivalent Number) values for each serial module Device

Description & Configuration

KEN

MX-LCD Matrix LCD Keypad 3

MX-LED Matrix LED Keypad 1

MX-RIX16 Matrix Remote Zone Expander. 1

MX_PROX Proximity Reader 2

MX-ROX8R 8 Way Relay Output Module *1*2 4

MX-ROX8T

8 Way Transistor Output Module (max. total transistor outputs current sink < 30mA)

1

MX-ROX8T


2

MX-ROX8T


3

MX-ROX8T


4

MX-ROX8T

8 Way Transistor Output Module (max. total transistor outputs current sink > 210mA)

1+Sink Current(A) – 0.03 0.06

*1 The Above KEN assignments for Relay type output modules assume that all power supplying the switched contacts (devices switched on/off by the output expander) is supplied via a different feed/ PSU. *2 Remember that the maximum allowable current draw from the Matrix for External devices is 0.8A. Any requirement exceeding this must be provided by a separate power supply. Where a power supply is added for use with an output expander, the 0V of the supply should be communed at the expander. Table 2: Number of ‘KEN’s Allowed for different Cable lengths. Length of Cable (meters)

Number of KEN allowed with Single core cable per signal

Number of KENs with standard cable 0V return doubled (2 cables)

100 3 4

75 4 6

50 6 9

25 13 18

18

5.1 System Examples

A Matrix System is required to provide the following:- 6 PIR Detectors @ 15mA each. A bell-box (max. current draw 400mA) connected to PGM1. 2 Matrix LED Keypads (one 50m away and the other 100m away). A Matrix Transistor Output Expander (30mA) with 3 LEDs (10mA each) and 3 buzzers (12mA each) controlled by the outputs (accompanying the keypad 100m away) power supply. The total current drawn from the panel is: 6 X 0.015 + 1 X 0.4 + 2 X 0.06 + 1 X 0.03 + 3 X 0.01 + 3 X 0.012 = 0.706A The maximum current available for external devices from the Matrix PCB is 0.8A. It is therefore acceptable to power the system from a Matrix panel alone – an additional power supply is not required. Before we can calculate an acceptable wiring arrangement we must know the ‘KEN value for each device on the keypad bus. From Table 1 we know that each keypad has a KEN of 1. The Transistor Output expander controls the LEDs and buzzers which together give a total current of 66mA (3x10mA + 3x12mA). From table 1 a transistor output expander with a current sink of 66mA falls into the <90mA criteria which corresponds with a ‘KEN’ of 2. Example 1: The most straightforward wiring approach would be to daisy-chain the devices on one run as below. However, this is an un-acceptable solution because there are 4 ‘KEN’ on a 100m length of cable. Table 2 shows that a maximum of 3 ‘KEN’ is acceptable on a 100m length of cable – the fact that one keypad is just 50m away does not affect these rules.

AUX+

KD

AUX-

Keypad 1 (1 KEN)

Keypad 2 (1 KEN)

Output Expander (2 KEN)

50m. 100m.

NOT ACCEPTABLE

19

Example 2: This is now an acceptable solution because the ground return is shared by 2 cores of cable. Referring to table 2, the second column shows that by doubling up the ground return it is acceptable to have up to 4 ‘KEN’ on a 100m length of cable.

Example 3: This is now an acceptable solution because there are now two separate cables connecting the devices back to the Matrix control panel. The 100m length is now supporting 3 ‘KEN’ which is now in accordance with table 2 and the 50m cable is supporting 1 ‘KEN’ which is well within the limits.

AUX+

KD

AUX-

Keypad 1 (1 KEN)

Keypad 2 (1 KEN)


50m. 100m.

ACCEPTABLE SOLUTION

AUX+

KD

AUX-

Keypad 1 (1 KEN)

Keypad 2 (1 KEN)


50m. 100m.

ACCEPTABLE SOLUTION

20

Section 6: Operating Modes

DISARMED MODE This is the state of the panel when disarmed. Fire, Personal Attack, Medical, Tamper and 24 Hr inputs however remain active for 24 hours a day. ARMED MODE When the panel is armed an activation of any Access, Immediate or 24 hour zone will cause an alarm condition. When an alarm condition is generated the internal / external sounders and strobe outputs will operate for the length of time the panel is programmed, or until the panel is reset by the user. ARM MODE When arming the control panel, any one of four arm modes can be selected and programmed with different configurations within each individual partition area. Example: Partition 1 Partition 2 Partition 3 Partition 4 Arm A Arm A Arm A Arm A Arm B Arm B Arm B Arm B Arm C Arm C Arm C Arm C Arm D Arm D Arm D Arm D

Arm A: Whole system armed, no body on premises – Away Arm B: Upstairs disarmed, downstairs armed – Home Arm C: Upstairs armed, downstairs disarmed – Home Arm D: Garage armed, the house disarmed – Home ENTRY / EXIT MODE Entry - When the panel is armed and an Entry zone is triggered the Entry timer will begin to countdown. During this period an Entry / Exit tone (Single repeated bleep) will be produced by the internal sounder and any zones which are programmed as Access zones will be ignored. If a correct user code is entered before the end of the count down period the panel will return to disarmed mode. If the timer is allowed to elapse before a user code is entered the panel will go into alarm state, in this case the system needs to be disarmed, and will enter FTA mode (See below) disarmed Exit – Timed Exit, Silent Exit, Final Exit – Matrix control panels use different types of exit procedures. The most popular exit type used is Timed Exit that can operate in two different ways depending on how the Global System Options 2 are programmed: Procedure 1 - from disarmed mode enter user code. The panel will start arming. If any zones are open then the exit timer will be delayed until the relevant zones are closed. At the end of exit time and providing that all zones have been closed the panel will arm. Procedure 2 – from disarmed mode enter user code. If any zones are open except Entry/Exit and Access the panel will give an error tone and come back to disarmed mode. If all zones are closed except Entry/Exit and Access the panel will start arming. If the Entry/Exit and Access zones are still open at the end of the exit time the panel will go into alarm. If these are closed then it will arm. If during arming time Immediate zones open then the panel will go into alarm too. ALARM MODE With the panel is in “Disarmed” or “Armed” mode, any of the 24h zones triggered by the system will be put into alarm condition. With the panel in “Armed” mode, any of the Immediate zones triggered by the system will be put into alarm condition. FIRST TO ALARM MODE When the system is in alarm mode it resets either automatically or by the user code. When the system is reset entering the user code the first zone to alarm will be displayed on the 7 segment display. One further code entry of the code will clear the FTA and reset the panel to disarmed mode. ENGINEER MODE The Engineer mode gives total access to the programming facilities of the system to the engineer by using the engineer code. USER MODE The User mode allows Arming / Disarming the panel and access to the user menu (See User guide for complete user programming).

21

Section 7: Keypad/Reader Symbols & LED Indication Meaning

Section 7.1: The LED Keypad

When the panel is in Fire alarm the LED will flash and a zone number will be displayed on the 7 segment display.

When the panel is in PA alarm the LED will flash and a zone number will be displayed on the 7 segment display.

When the panel is in tamper alarm the LED will flash and a zone number will be displayed on the 7 segment display.

Indicates the panel is disarmed.

Indicates the panel is armed.

Indicates AC / DC power supply to panel.

No AC power supply to panel.

Indicates a fault or tamper on system.

Engineers mode is active.

Indicates the panel is in user mode.

No fault on panel.

Armed.

Open zone.

.

Indicates the panel is in disarmed mode.

All zones are closed and panel is ready to be armed.

��

��

��

Flashing light indicates no DC power suppy.

SUPPLY

DISARMED

FAULT

READY

ARMED ALARM

PA

FIRE

TAMPER

Flashing ready light indicates the programming function is active.

MX LED

22

Section 7.2: The LCD Keypad

NOTE: Before you start programming the system if you use LCD keypad there is an option to choose a language that this keypad will be operated in, see [FUNC 360] from page 55

0$75,;

:(/&20(�(1*,1((5


No AC power supply to panel.

Indicates a system fault.

Engineers mode is active.

No fault on panel.

Open one or more zones.

.

All zones are closed and panel is ready to be armed.

Flashing light indicates no DC power supply.

Flashing ready light indicates the programming function is active.

Supply

Fault

Ready

LCD Display In this mode of operation the LCD display (Liquid crystal display) displays text menus for each functional operation.

23

Section 7.3: The Proximity Reader

Partition 1 or Arm Mode A in alarm.

Partition1 or Arm Mode A disarmed.

Partition 1 or Arm Mode A armed.


No AC / DC power supply to panel. .

Flashing light indicates system fault.

Partition 2 or Arm Mode B in alarm.

Partition 2 or Arm Mode B disarmed.

Partition 2 or Arm Mode B armed.

Partition 3 or Arm Mode C in alarm.

Partition 3 or Arm Mode C disarmed.

Partition 3 or Arm Mode C armed.

Partition 4 or Arm Mode D in alarm.

Partition 4 or Arm Mode D disarmed.

Partition 4 or Arm Mode D armed.

1

-1-

-2-

-3-

-4-

-5-

MX PROX

24

Section 8: Programming The System

This section of the manual has been designed to demonstrate complete programming procedure. NOTE: Programming procedure is the same for both Matrix 832 & 424 Examples of both the PC software and LED/LCD keypad functionality are shown with explanations of all the programming options (PC software can be down loaded from the Pyronix web site at www.pyronix.com). NOTE: The following key is used in each of the programming sections, to show the following functionality –

PC Programming Procedure :

0($1,1*

Programmable Options Explanation :

68 33/<

)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �

Keypad Programming Procedure :

IMPORTANT: 1. Before commencing with any of the programming procedure, each of the individual keypads

and readers must be allocated a keypad number using the switch on the back of each keypad/proximity reader. (See Section 8.1/8.2 “Switch settings for keypads & proximity readers”). The Matrix panel recognizes each keypad by the allocated keypad number.

2. All the programming options will be shown on two 7-segment displays on the LED keypad,

during the programming procedure. 3. The programming functions on the LCD keypad are operated in the same way as with the LED

keypad.

25

Section 8.1: Addressing The LCD or LED Keypads

KEYPAD 1

ID 1

KEYPAD 2

KEYPAD 3

KEYPAD 4

�$ % & '

� � �

� � � �

� �

� � ��

��

�$ % & '

� � �

� � � �

� �

��

��

�$ % & '

� � �

� � � �

� �

� � ��

��

�$ % & '

� � �

� � � �

� �

� � ��

��

ID 2

ID 3

ID 4

NOTE: Before you start programming the system enter [ ][754] from engineer mode to scan for all devices on bus. This option must be run every time a device is added to the bus.

26

Section 8.2: Addressing The Proximity Reader

The Matrix panel recognizes individual MX PROX readers by the link settings on the back of each MX PROX reader.

NOTE: Before you start programming the panel enter [ ][754] from engineer mode to scan for all devices on bus. This option must be run every time a device is added to the bus. 8.2.1 Connection of MX PROX to a PC

NOTE: In order to allocate proximity cards to user code the proximity reader MX PROX should be connected to the PC serial communication port as shown on the diagram bellow. This procedure can be done from the keypad too, see User Guide. K- should be connected to pin No 5. PC should be connected to pin No 2.

For information regarding the programming procedure from PC see Section 8.7.

MX PROX CONNECTORS

DTR 4

DSR 6

RTS 7

CTS 8

DCD 1

TXD 3

RXD 2

GND 5

27

Section 8.3: Factory Default Settings Of Matrix System

NOTE: This section provides default settings for Matrix 424 & 832 control panels. 8.3.1 Engineer Code

ENGINEER CODE = [9999]

NOTES____________________________

8.3.2 Global System Options

SYSTEM OPTIONS 1

NOTES____________________________

1 AC Fail Warning = [enabled] 2 Battery Monitoring = [enabled] 3 NVM Reset = [Link Only] 4 Log and Event Reporting = [No Limit] 5 Alarm in Tel Line Fail = [disabled] 6 Global Tamper Alarm = [0v removed] 7 AC Frequency = [50-Hz] 8 Real Time Clock = [A.C. Derived]

SYSTEM OPTIONS 2

NOTES____________________________

1 Tamper alarm on device missing = [enabled] 2 Put zone restorals in the log = [enabled] 3 Engineer lockout when armed = [disabled] 4 Allow arm if H, P, I, F, M zones open = [enabled] 5 Immediate zones open on exit = [does not cause

alarm]

6 Suspend exit timer on open zone = [enabled] 8.3.3 Zone Types, Zone Attributes & Zone Settings

ZONE TYPES

NOTES____________________________

1 Normally Closed Zones = [enabled] 2 DEOL = [disabled] 3 Zone Doubling = [disabled] 4 Fast Zones = [disabled] 5 Zone 1 Fast Zone = [disabled]

ZONE ATTRIBUTES

NOTES____________________________

1 Chime = [disabled] 2 Test = disabled] 3 Mask = [disabled]

ZONE SETTINGS

Zone No

Arm A

Arm B

Arm C

Arm D

Attribute

Partition No

Z01 [Entry/Exit] [Entry/Exit] [Entry/Exit] [Entry/Exit] [_Off_] [_1_] Z02 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z03 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z04 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z05 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_]

28

Z06 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z07 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z08 [Tamper] [Tamper] [Tamper] [Tamper] [_Off_] [_1_] Z09 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z10 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z11 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z12 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z13 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z14 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z15 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z16 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z17 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z18 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z19 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z20 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z21 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z22 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z23 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z24 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z25 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z26 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z27 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z28 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z29 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z30 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z31 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_] Z32 [Immediate] [Immediate] [Immediate] [Immediate] [_Off_] [_1_]

8.3.4 User Codes, User Code Attributes & Proximity Card Allocation

USER CODE ATTRIBUTES

USER CODE 01

USER CODES 02-32

NOTES____________

Uses of code [Unlimited] [Unlimited] Master user Enabled - [1234] Disabled - [XXXXXX] Omit (Bypass) zones [enabled] [enabled] Duress code only [disabled] [disabled] Duress arming/disarming [enabled] [enabled] Allow arm [enabled] [enabled] Allow disarm [enabled] [enabled] Active in partition [_1_] [_1_] Proximity cards allocated [No Cards] [No Cards]

8.3.5 Keypads & Proximity Readers Partition Allocation

ID

KEYPADS

NOTES_______________________________

1 [Partition 1] [Public Mode] 2 [Partition 1] [Public Mode] 3 [Partition 1] [Public Mode] 4 [Partition 1] [Public Mode] ID

MX PROX

NOTES_______________________________

1 [Partition 1] [Public Mode] 2 [Partition 1] [Public Mode] 3 [Partition 1] [Public Mode] 4 [Partition 1] [Public Mode]

29

8.3.6 System & Tamper Faults Partition Allocation

SYSTEM FAULTS INDICATION

TAMPER FAULTS INDICATION

NOTES____________

[Partition 1] [Partition 1] 8.3.7 Partition Options

PARTITION 1, 2, 3, 4 OPTIONS 1

NOTES_______________________________

1 PA alarm = [audible] 3 Tamper alarm = [internal and external] 4 Display open zones in disarmed = [enabled] 5 Omit (Bypass) zones on ream = [enabled] 6 Bell squawk = [disabled] 7 Kiss off confirmation = [disabled] 8 Display open zones in alarm = [enabled]

PARTITION 1, 2, 3, 4 OPTIONS 2

NOTES_______________________________

1 Bell time = [in minutes] 8.3.7 Arm Options

ARM OPTIONS IN PARTITION 1, 2, 3, 4

NOTES_______________________________

1 ARM A = [Timed exit in Away mode] 2 ARM B = [Timed exit in Home mode] 3 ARM C = [Timed exit in Home mode] 4 ARM D = [Timed exit in Home mode] 5 Partition dependency = [disabled] 6 Keyswitch zone configuration = [Arm A]

8.3.8 System Timers

PARTITION 1, 2, 3, 4 TIMERS

NOTES_______________________________

1 Bell time = [4 min] 2 Entry time = [20 sec] 3 Exit time = [20 sec] 4 Bell delay time = [0 sec] 5 Final exit delay time = [7 sec] 6 Inactivity auto-arm = [disabled] 7 Number of rearms = [infinite] 8 Commencing auto-arm at = [disabled]

GLOBAL TIMERS

NOTES_______________________________

1 AC fail report delay = [10 min] 2 Telephone fail report delay = [1 min] 3 Seconds in last minute of the day = [60 sec]

30

8.3.9 Programmable Outputs

PGM NO

PGM OPTIONS

PARTITION

NOTES______________________________

1 [External bell] [_1_2_3_4_] 2 [Follow strobe] [_1_2_3_4_] 3 [Follow arm/disarm] [_1_] 4 [Follow PA alarm] [_1_2_3_4_] 5 [Not used] [_1_2_3_4_] 6 [Not used] [_1_2_3_4_] 7 [Not used] [_1_2_3_4_] 8 [Not used] [_1_2_3_4_] 9 [Not used] [_1_2_3_4_] 10 [Not used] [_1_2_3_4_] 11 [Not used] [_1_2_3_4_] 12 [Not used] [_1_2_3_4_]

8.3.10 Digital Communicator

PARTITION

ACCOUNT CODE

NOTES______________________

1 [XXXX] 2 [XXXX] 3 [XXXX] 4 [XXXX] UP/DOWN LOADING CODE = [1234]

NOTES______________________

TEST DIALS

NOTES______________________

1 Test dial time = [disabled] 2 Test dial interval = [disabled] 3 Group reporting = [Send to Tel 1 with Tel 2 as a backup] 4 Telephone 1 = [disabled] 5 Telephone 2 = [disabled] 6 Telephone 3 = [disabled]

TELEPHONE LINE OPTIONS

NOTES______________________

1 Telephone line monitoring = [disabled] 2 Handshake filter = [standard] 3 Dial = [tone] 4 AMC mode = [enabled] 5 Reporting events = [low priority] 6 Send open after alarm = [enabled]

8.3.11 Communicating Formats

No

TEL NUMBER

FORMAT

NOTES______________________

1 [XXXXXXXXXX] [Contact ID] 2 [XXXXXXXXXX] [Contact ID] 3 [XXXXXXXXXX] [Contact ID] 4 [XXXXXXXXXX] [Contact ID] 5 [XXXXXXXXXX] [Contact ID] 6 [XXXXXXXXXX] [Contact ID] 7 [XXXXXXXXXX] [Contact ID]

31

8 [XXXXXXXXXX] [Contact ID] 9 [XXXXXXXXXX] [Contact ID]

Porting 8.3.12 Events Reporting

ALARM

PA

FIRE

MAINTENANCE

OPEN -CLOSE

MEDICAL

PARTITION

DAY [On] [On] [On] [On] [Spare] [On] [_1_2_3_4_] A [On] [On] [On] [On] [Off] [On] [_1_2_3_4_] B [On] [On] [On] [On] [Off] [On] [_1_2_3_4_] C [On] [On] [On] [On] [Off] [On] [_1_2_3_4_] D [On] [On] [On] [On] [Off] [On] [_1_2_3_4_] Restorals [On] [On] [On] [On] [Off] [On] [_1_2_3_4_] Tel 1 [Off] [Off] [Off] [Off] [Off] [Off] [_1_2_3_4_] Tel 1+2 [Off] [Off] [Off] [Off] [Off] [Off] [_1_2_3_4_] Tel 2 back [On] [On] [On] [On] [On] [On] [_1_2_3_4_] Tel 1 [Off] [Off] [Off] [Off] [Off] [Off] [_1_2_3_4_] Tel 2 [Off] [Off] [Off] [Off] [Off] [Off] [_1_2_3_4_] Tel 3 [Off] [Off] [Off] [Off] [Off] [Off] [_1_2_3_4_]

32

Section 8.4: Entering/Exiting Engineer Mode & Changing Engineer Code

Engineer mode must be used to program and change the functionality of the matrix panel. This includes changing the engineer code, programming zones, partitions etc. Whilst in engineers mode you are also able to remove the case lid without creating a tamper alarm. The system also operates an engineer option timer - The system will exit engineer mode after 20 min if no operation is acknowledged.

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.4.1 Entering Engineer Mode

To enter engineers mode press [ ] [ ] and enter a valid engineer code [XXXXXX]. An acceptance tone will be heard and the fault light will begin to flash. NOTE: Whilst in engineer mode all master user options are accessible by prefixing the user

option number by – [1]. For instance to change the date enter [ ] [122] (where [ ] [22] is the master user procedure to change the date). 8.4.2 Exiting Engineer Mode

To exit Engineer mode press [ ] [0]. – It will take a few moments for the panel to become functional again whilst the new parameters are being set up. The fault light will stop flashing. 8.4.3 Changing Engineer Code

Factory Default

Engineer Settings

Engineer Code [9999] [___ ___ ___ ___ ___ ___]

[ ] [125]. Enter from engineer mode the 4,5 or 6 digits of the new engineer code [XXXXXX],

press [ ] to end code entry if number is shorter than 6 digits.

Enter the new engineer code again [XXXXXX], an acceptance tome will be heard.

NOTE: New devices added to the bus must be added to NVM before they will operate, press [ ] [754] from engineer mode any time adding new devices to the system and before start programming.

33

Section 8.5: Global System Options


The PC screen illustrated below shows how to program the global system options from the PC software. Once an option has been chosen press “save” and proceed to next screen. Screen 1

0($1,1*


System Options 1

AC Fail Warning: No – This function will disable both A.C. mains fault warning on the keypad and the A.C. fail report to the Central Monitoring Station. Yes – This function will enable both A.C. mains fault warning on the keypad and the A.C. fail report to the Central Monitoring Station. NOTE: It is possible to program AC mains fault delay time from Section 8.12.9. Battery Monitoring: Yes – This function will enable both D.C. low battery fault warning on the keypad and the D.C. fail report to the Central Monitoring Station. No – This function will disable both D.C. low battery fault warning on the keypad and the D.C. fail report to the Central Monitoring Station. NVM Reset: Enginer Code & Link – This option allows the engineer to reset the system back to factory default from

engineer’s mode by shorting the NVM pins, and entering from the keypad [ ] [751]. Link Only - This allows the reset of the system back to factory default by powering the system up with the NVM pins shorted together.

34

Limit Log and Event Reporting: Yes – This option allows the engineer to limit the event log entry and report to the Central Monitoring Station for a total of 16 events for one arm period. No - This option allows the engineer to set the event log entry and report to the Central Monitoring Station for unlimited number of events. Alarm in Tel Line Fail: Yes - When a telephone line fail occurs, an alarm will activate. A fault will also be generated on the keypad. To operate this option the “Tel Line Monitoring” option must be activated from Section 9.1. No – When a telephone line fail occurs, only a system fault will be generated on the keypad and no alarm will be activated. NOTE: It is possible to program a telephone fault delay time from Section 8.12.9. Global Tamper Alarm: 12V – This option will enable the engineer to set a change of state sense for the global tamper circuitry to 0v applied. The global tamper will be activated at applying 0v. 0V - This option will enable the engineer to set a change of state sense for the global tamper circuitry to 0v removed. The global tamper will be activated at removing 0v. AC Frequency: 60Hz – This option allows the engineer to set the A.C. mains supply frequency to 60Hz. 50Hz - This option allows the engineer to set the A.C. mains supply frequency to 50Hz (Europe). Real Time Clock: Quartz - This option will set the clock accuracy driven by the integrated quartz chip. Mains – This option will set the clock accuracy driven by the A.C. mains frequency. NOTE: We recommend using the A.C. derived time-base option and leaving the default value in the correction factor. Only use quartz derived time-base with unstable A.C. supplies. System Options 2

Tamper On Device Missing: On – The system scan the system bus for all its components (keypads, proximity readers, zone/output expanders). If a component is missing from the panel, a tamper alarm will be created and E6 condition will be generated and displayed on the keypad. Off – If a component is missing from the panel, no tamper alarm will be created but still a system fault 07 will be generated and displayed on the keypad. Put Zone Restorals In the Log: On – This option allows the engineer to enable the system putting all zone restoral events into the memory log. In this case both zone alarm events and zone restorals will be put into the log. Off – This option allows the engineer to disable the system putting all zone restoral events into the memory log. In this case only zone activation will be put into the log. Engineer Lockout When Armed: Yes – This option will prevent the engineer to access the engineer mode if any of the partitions are armed. No – If this option active then the engineer will be able to access the engineer mode even if all partitions are armed from any of the keypads available. Allow Arm When H, P, I, F, M Zones Open: Yes – When this option is enabled it will be possible to start arming the panel even if the 24 h, PA, Immediate, Fire and Medical zones are open. In this case the panel will start arming but it will not arm until all open zones are closed. No – When this option is disabled then if any of the 24 h, PA, Immediate, Fire and Medical zones are open the panel will not start arming. First these zones must be closed and only then will be possible to start arming procedure. However if Entry/Exit and Access zones are open the panel will still start arming. Immediate Zones Open On Exit: Causes Alarm – When this option enabled, if during arming the control panel an Immediate zone opens then the panel will go into alarm condition. Does Not Cause Alarm – When this option is enabled, if during arming the panel an Immediate zone opens then the panel will continue the arming procedure and no alarm will be created.

35

Suspend Exit Time On Open Zone: Yes – This option enabled will suspend the exit timer during arming the panel if any zones are open. The panel will arm only when all zones are closed. No – When this option is enabled then the exit timer will not be suspended if any zones are left open at the end of the exit time the panel will go into alarm condition. If all zones are closed then the panel will arm.

36

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.5.1 System Options 1

[ ] [200]. To select Option No use [ ] and [ ] buttons. To choose Option No enter [ ]

button. To save the changes press [ ], an acceptance tone will be heard.

Option No

Option off = Alarm LED off

Option on = Alarm LED on

F/D

1 AC Fail Warning enabled AC Fail Warning disabled [Off] 2 Battery Monitoring disable Battery Monitoring enable [On] 3 Link Only NVM Reset Engineer code and link NVM Reset [Off] 4 No Limit Log and Event Reporting Limit Log and Event Reporting [Off] 5 No Alarm in Tel Line Fail Alarm in Tel Line Fail [Off] 6 Global Tamper Alarm at 0V Global Tamper Alarm at 12V [Off] 7 50Hz AC Frequency 60Hz AC Frequency [Off] 8 A.C. Derived Real Time Clock Quartz Derived Real Time Clock [Off]

8.5.2 System Options 2



Option No



F/D

1 Fault warning On Device Missing Tamper Alarm On Device Missing [On] 2 Put Zone Restorals In the Log disabled Put Zone Restorals In the Log

enabled [On]

3 Engineer lockout when armed disabled Engineer lockout when armed enabled

[Off]

4 Do not Allow Arm When H, P, I, F, M Zones Open

Allow Arm When H, P, I, F, M Zones Open

[On]

5 Immediate Zones Open On Exit does not cause alarm

Immediate Zones Open On Exit cause alarm

[Off]

6 Do not Suspend Exit Time On Open Zone

Suspend Exit Time On Open Zone [On]

Display shows the indications, which are shown on entering system Option 1 and Option 2. ��

� �

37

Section 8.6: Zone Types, Configuration, Attributes & Partition Allocation


The PC screen illustrated below shows how to program zone types, arm modes, zone partition allocation, and zone attributes from the UDL software. Once an option has been chosen press <save> and proceed to the next screen. Screen 2

NOTE: The system has been designed to allow the engineer to divide the panel into 4 fully independent subsystems. Any zone can be allocated to one of the 4 available partitions, and within each partition the zone can be assigned any of the 4 different arm mode options. The zone attribute option determines how the zone will operate.

0($1,1*


Zone Types: Normally Closed (N/C) - This is a normally closed zone configuration. One zone can be dedicated to one zone configured as alarm or tamper. Double End of Line (DEOL) -This configuration uses end of line resistors, 2K2 and 4K7, which allows the detection of both zone states Alarm and Tamper on the same zone input connection. Zone Doubling - This option allows the engineer to double the number of zones on the panel. By using 2 resistors 2K2 and 4K7 all zones will be split in 2 alarm zones. For instance zone 1 will become – zone 1 and zone 17. For the way zones are split please see the table bellow (By default the normally closed option will be disabled and the end of line option enabled when zone doubling is selected), see table bellow. Fast Zones: All Zones – In normal condition the minimum sensitivity of all zones is 350ms. When this option is enabled the zone sensitivity will be converted from 350ms to 100ms. This is a global option applying the option to all zones. Only Zone No 1 – When this option enable then only zone No 1 will be converted to be high sensitivity zone. It will be converted from 350ms to 30ms. Zones from 2 to 32 will be still sensing 350ms. No – This is the default sensitivity of all zones that normally is used and it is 350ms.

38

NOTE: When zone doubling is enabled the matrix panel must be powered down and then powered up before the change will take place. NOTE: If zone doubling is used only one detector per zone may be used. Table 1 – Zone Doubling with MATRIX 832

Zones configuration on the Main PCB in N/C, DEOL and Zone Doubling modes

Zone inputs N/C zones DEOL zones Zone Doubling Z1 Z1 – ALARM Z1 – ALARM Z1 – TAMPER Z1 – ALARM Z17 – ALARM Z2 Z2 – ALARM Z2 – ALARM Z2 – TAMPER Z2 – ALARM Z18 – ALARM Z3 Z3 – ALARM Z3 – ALARM Z3 – TAMPER Z3 – ALARM Z19 – ALARM Z4 Z4 – ALARM Z4 – ALARM Z4 – TAMPER Z4 – ALARM Z20 – ALARM Z5 Z5 – ALARM Z5 – ALARM Z5 – TAMPER Z5 – ALARM Z21 – ALARM Z6 Z6 – ALARM Z6 – ALARM Z6 – TAMPER Z6 – ALARM Z22 – ALARM Z7 Z7 – ALARM Z7 – ALARM Z7 – TAMPER Z7 – ALARM Z23 – ALARM Z8 Z8 – ALARM Z8 – ALARM Z8 – TAMPER Z8 – ALARM Z24 – ALARM Zones configuration on the Zone expander in N/C, DEOL and Zone Doubling modes Zone inputs N/C zones DEOL zones Zone Doubling Z9 Z9 – ALARM Z9 – ALARM Z9 – TAMPER Z9 – ALARM Z25 – ALARM Z10 Z10 – ALARM Z10 – ALARM Z10 – TAMPER Z10 – ALARM Z26 – ALARM Z11 Z11 – ALARM Z11 – ALARM Z11 – TAMPER Z11 – ALARM Z27 – ALARM Z12 Z12 – ALARM Z12 – ALARM Z12 – TAMPER Z12 – ALARM Z28 – ALARM Z13 Z13 – ALARM Z13 – ALARM Z13 – TAMPER Z13 – ALARM Z29 – ALARM Z14 Z14 – ALARM Z14 – ALARM Z14 – TAMPER Z14 – ALARM Z30 – ALARM Z15 Z15 – ALARM Z15 – ALARM Z15 – TAMPER Z15 – ALARM Z31 – ALARM Z16 Z16 – ALARM Z16 – ALARM Z16 – TAMPER Z16 – ALARM Z32 – ALARM

Table 2 – Zone Doubling with MATRIX 424

Zones configuration on the Main PCB in N/C, DEOL and Zone Doubling modes

Zone inputs N/C zones DEOL zones Zone Doubling Z1 Z1 – ALARM Z1 – ALARM Z1 – TAMPER Z1 – ALARM Z17 – ALARM Z2 Z2 – ALARM Z2 – ALARM Z2 – TAMPER Z2 – ALARM Z18 – ALARM Z3 Z3 – ALARM Z3 – ALARM Z3 – TAMPER Z3 – ALARM Z19 – ALARM Z4 Z4 – ALARM Z4 – ALARM Z4 – TAMPER Z4 – ALARM Z20 – ALARM Zones configuration on the Zone expander in N/C, DEOL and Zone Doubling modes Zone inputs N/C zones DEOL zones Zone Doubling Z9 Z9 – ALARM Z9 – ALARM Z9 – TAMPER Z9 – ALARM Z25 – ALARM Z10 Z10 – ALARM Z10 – ALARM Z10 – TAMPER Z10 – ALARM Z26 – ALARM Z11 Z11 – ALARM Z11 – ALARM Z11 – TAMPER Z11 – ALARM Z27 – ALARM Z12 Z12 – ALARM Z12 – ALARM Z12 – TAMPER Z12 – ALARM Z28 – ALARM Z13 Z13 – ALARM Z13 – ALARM Z13 – TAMPER Z13 – ALARM Z29 – ALARM Z14 Z14 – ALARM Z14 – ALARM Z14 – TAMPER Z14 – ALARM Z30 – ALARM Z15 Z15 – ALARM Z15 – ALARM Z15 – TAMPER Z15 – ALARM Z31 – ALARM Z16 Z16 – ALARM Z16 – ALARM Z16 – TAMPER Z16 – ALARM Z32 – ALARM

Arm Modes and Partitions: The system can be divided into up to 4 independent subsystems. One zone can be allocated to one partition. Within each subsystem the zones can be operated in 4 different Arm Modes configurations – A, B, C and D. Example: Partition 1 Partition 2 Partition 3 Partition 4 Arm A Arm A Arm A Arm A Arm B Arm B Arm B Arm B Arm C Arm C Arm C Arm C Arm D Arm D Arm D Arm D Arm A: Whole system armed, no body on premises – Away Arm B: Upstairs disarmed, downstairs armed – Home Arm C: Upstairs armed, downstairs disarmed – Home Arm D: Garage armed, the house disarmed – Home

39

NOTE: The engineer has the ability to configure the Matrix panel to the users exact requirement Zone Configuration Options Available: E = Entry / Exit This is a zone that allows limited-time access to the premises in order to arm or disarm the system. This zone is typically connected to a magnetic door contact. A = Access This is a zone which, on arming the panel, allows access to the Entry / Exit zone. However, if the panel is armed and an Access zone is triggered before an Entry / Exit zone then an alarm will be generated immediately. I = Immediate This is a zone, which will when activated, create an instant alarm when the panel is armed. 0 = Omitted (Bypassed) A zone programmed as an Omitted zone by the Engineer, will be ignored by the panel. It allows the user to continue to use the alarm system even if a fault has been discovered on one or more zones. F = Fire Triggering the fire zone will always cause an alarm activation regardless of whether or not the panel is armed. A fire alarm is identified by a three note-ringing sound, which is easily distinguished from all other tones. The external sounder will operate at 1 second intervals. P = Personal Attack Triggering the Personal Attack (P.A.) zone will always cause an alarm activation regardless of whether or not the panel is armed. The P.A. zone may be programmed as silent. A silent P.A. activation will not cause the bell or strobe to operate, but the central station will be informed of a P.A. activation. One of the programmable outputs will operate if the system has been programmed to do so. H = 24-Hour Zone Triggering a 24H zone will always cause an alarm activation regardless of whether or not the panel is armed (Fire, Personal Attack and Tamper are all 24 hour zones). T = Tamper Triggering the Tamper zone will always cause an alarm activation regardless of whether or not the panel is armed. From system options, it may be programmed to activate the internal siren only or internal and external sounder, in disarmed mode. However in armed mode both sounders will operate. D = Latch Keyswitch It is possible by using this type of zone to arm / disarm the system in any arm mode by using an external latched switch. Y = Momentary Keyswitch It is possible by using this type of zone to arm / disarm the system in any arm mode by using an external pulsed switch. U = Unused This zone is completely ignored by the system, however it is good practice to close the zone by linking it with a 2K2 resistor. M = Medical zone The medical zone will send an emergency message to the central receiving station, or emergency services. Zone Attributes: Each zone can be allocated one of the following attributes. This will determine the zone operation from any of the system modes of operation. Chime - During an activation of any zone that has been allocated with this attribute, the internal speaker/siren (Twin Alert) and keypad sounder will emit a chime tone informing the occupant of a presence in that area. Test - Any zone allocated with this attribute will cause a zone activation during armed mode to be stored in the memory log. However no alarm will be created and no communication report will be sent. Mask - If this attribute is allocated to a zone the system will not arm until the user walk tests the zone. E.g. enter the user code to arm the system, a low tone will be emitted from the keypad sounder (or internal sounder/siren Twin Alert) and the arming timer countdown will not start until the zone is open / close at least once. This option can be used for high security installation purposes when particular zones can be exposed to the public and there is a risk of masking detectors attached to them.

40

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.6.1 Zone Types



Option No



F/D

1 Double End of Line Zones Normally closed Zones [On] 2 Zone Doubling disabled Zone Doubling enabled [Off] 3 Fast Zones disabled Fast Zones enabled [Off] 4 Zone 1 Fast Zone disabled Zone 1 Fast Zone enabled [Off]

8.6.2 Zone Configuration

NOTE: The programming procedure for zones is as follows - 1 programming the zone type for each of the 4 arm modes options - 2 programming the zone attribute for each of the 4 arm modes options - 3 and finally chose a partition number to assign the zone and arm modes to.

[ ] [251] followed by zone number from [01]…[32]. ---The zone type for Arm A will then be displayed ---

Use [ ] or [ ] buttons to choose zone type. Press [ ] to accept and save the new zone type. ---The zone type for Arm B will then be displayed---

Use [ ] or [ ] buttons to choose zone type. Press [ ] to accept and save the new zone type. ---The zone type for Arm C will then be displayed---

Use [ ] or [ ] buttons to choose zone type. Press [ ] to accept and save the new zone type. ---The zone type for Arm D will then be displayed---

Use [ ] or [ ] buttons to choose zone type. Press [ ] to accept and save the new zone type. ---The attributes for Arm A will now be displayed---

To select an Option Number use the [ ] and [ ] buttons. To change an option setting press the

[ ] button. To save the changes press [ ], an acceptance tone will be heard.

Option No



F/D

1 Chime disabled Chime enabled [Off] 2 Test disabled Test enabled [Off] 3 Mask disabled Mask enabled [Off]

Display shows the indications, which are shown when entering zone types. ��

� �

41

---The attributes for Arm B will now be displayed---

To select Option No use [ ] and [ ] buttons. To choose Option No enter [ ] button. To save

the changes press [ ], an acceptance tone will be heard.

Option No



F/D


---The attributes for Arm C will now be displayed---



Option No



F/D


---The attributes for Arm D will now be displayed----



Option No



F/D


---The partition number allocated to this zone will then be displayed---

Enter partition number [1], [2], [3] or [4] to allocate the zone to. Press [ ] to save partition allocation, an acceptance tone will be heard. ---The procedure will now return to the beginning to program next zone. Repeat the above procedure for each zone to be programmed---

Press [ ] [ ] to exit zone type programming.

42

Screens displayed through zone programming sequence - Section 8.7: User Codes Attributes & Proximity Cards Allocation

8.6.3 Zone Names Programming from LCD Keypad

[ ] [252] ---The following screen will be displayed ---

Use the [ ] and [ ] keys to select the required zone and enter [ ] ---The following display will now be shown ---

Use the [ ] and [ ] keys to scroll along the zone name and edit one character at a time. Use the numerical number keys to edit the different letters for the zone name.

Enter [ ] to accept the changes

Enter [ ] to exit this option See table 1.1 for the full list of letters available on each key.

��

� �

��

� �

��

� �

��

� �

Zone numbers: Enter the zone number 01 – 32 and press To continue.

Zone configurations: Use the keys to scroll through zone types. Press

and repeat 4 times for part sets A,B,C and D.

Zone attributes: Use the keys to change option number, and key to

change setting, then press to save and repeat 4 times for part sets A,B,C and D.

Allocating zones to partition No: Enter partition number 1 – 4 and press

To continue.

0$75,;

6(/(&7�=21(��=21(��

0$75,;

(',7�7(;7��=21(��

43

Section 8.7: User Codes & User Attributes


The PC screen illustrated below shows how to program user codes and names, engineer codes, engineer names and user attributes from the PC software. Once you have chosen an option press “save” and proceed to next screen (See User guide for complete Limited user programming information). Screen 3 NOTE: The system allows the programming of up to 32 user codes and one engineer code that might be composed of 4 to 6 numbers. Any of the user codes can be assigned to one or more partitions. Any of the user codes can be allocated to any of the user attributes. Proximity Cards allocation to user code from PC

Step 1: Connect the reader to the PC as shown in Section 8.2. Step 2: From the menu bar select <Tools>. Then select <Options>. Once in options screen select <Comms> tab. Now select the Proximity Reader PC communication port to be used (normally com 2). Step 3: Select User code number to assign the card to. Step 4: Press <Assign Card>, (see Screen 3). A Screen <Waiting To Read The Card> will be displayed for 15 seconds. Step 5: Present the card or tag to the reader. A screen <Card Read Completed> or <Card Not Accepted> will be displayed. The first will confirm the card programming. If the second is displayed then repeat the procedure. Step 6: Once the cards read save the new data and disconnect the reader from the PC. Step 7: Reconnect the UDL software to the panel and upload the new data, - Now the panel will recognise the newly programmed proximity cards and tags.

44

Removing Proximity Cards allocated to user code from PC

In an event that a card is stolen or lost it is important this to be removed from the system ASAP. The removal procedure is indicated as follow bellow: Step 1: Connect the reader to the PC as shown in Section 8.2. Step 2: From the menu bar select <Tools>. Then select <Options>. Once in options screen select <Comms> tab. Now select the Proximity Reader PC communication port to be used (normally com 2). Step 3: Select User code number to delete the card from. Step 4: Press <Clear Card>, (see Screen 3). Step 5: A screen <Card Clear Completed> will be displayed. This will confirm the card clearance. Step 6: Once the card cleared save the new data and disconnect the reader from the PC. Step 7: Reconnect the UDL software to the panel and upload the new data, - Now the panel will delete the cleared proximity cards and tags. NOTE: If no card is programmed to user code then the screen <No Cards Programmed For User> will be displayed after clicking on the user code No, see Screen 3. If there is a card programmed to user code then after clicking on user code No <Card Programmed For User> will be displayed, see Screen 3.

0($1,1*


User Code Types: Limited user code – This code allows the user to arm / disarm the system, duress arming / disarming, omit (bypass) zones if allowed by the engineer, Fire / PA / Medical keypad alarm activation, display open zones if allowed by the engineer, silence fault tones,view event log, change volume, change brightness. The system will treat any user code as a limited user if no master user attribute is allocated to this code. Master user code – This attribute allocates master user functions to the user code. It will be allowed to change any user code configurations within the same partition that these are allocated (e.g. if for partition 1 there are 4 user codes allocated and user number one is master then this code will be able to act only on the remaining 3 user codes). The master user code allows all limited user functions plus programming of limited user codes, changing time and date, pulse programming output, open 1H up / down loading window. Editing User Code Attributes: User Code – Use this option to allocate a user code that can be min 4 up to 6 digits length. User Name - Use this option to allocate a name to the user number. User Allowed (0) Uses Of Code (Temporary / Cleaner / Patrol Code) – This option determines how many times this code can be used to arm / disarm the system within one master or limited user code arm / disarm period. It can be used for cleaner, maintenance or patrol purpose. Example: To the temporary code are allocated 2 uses and the code is used by a cleaner or patrol personnel:

Morning: In the morning the master or limited user arms the system with its own user code. Then the cleaner or patrol will be able to once disarm the system and then once arm it again. More attempts will not be accepted. Evening: In the evening the master or limited user disarms the system with its own user code again. Then following to that the temporary code will be possible to be used for another 2 times.

Master User – this option allocates to the user code master user functions. If a code is used as a master then all user attributes should be allocated to this code. Omit (Bypass) Zones – This attribute enables the user code to omit (bypass) zones. Duress Code Only – It is possible to dedicate a separate duress code to be used from all users. When the panel is armed / or disarmed using this code no visual alarm will be activated. However the digital communicator will still send a transmission and the PGM programmed as Follow PA Alarm will be activated. Duress code disabled – If enabled this attribute will permit the duress arming / disarming by reversing the third & fourth digits of any of the user codes (e.g. if the user code is 123456 then the duress code will be 124356). This option will still be available if a separate duress code only is allocated.

45

Allow Arm – Allows the User code to arm the panel. Allow Disarm – Allows the user code to disarm the panel. NOTE: A standard user code must be allocated either Allow arm and Allow disarm to work. These options allow the engineer to dedicate codes for arming or disarming the system. Active in partition – The selected user code may be active in partitions 1,2,3 or 4 by ticking the appropriate box. NOTE: If one common keypad is used and different user codes are allocated to 4 separate partitions, for instance partition 1 is allocated to flat 1, partition 2 is allocated to flat 2, partition 3 is allocated to flat 3 and partition 4 is allocated to flat 4. Then if user one from partition 1 chooses code 1234 and user 1 from partition 2 chooses the same code they will be able to arm / disarm both flats. To prevent this from happening the engineer must allocate the first number of the user codes to each partition. For instance all codes in partition 1 start with 1 followed by 5 numbers that the user chooses, all codes in partition 2 start with 2 followed by 5 numbers that the user chooses and so on. If 4 keypads are used (one allocated to each partition) then if user codes are repeated they will arm / disarm only the partition the keypad is allocated to.

User Code Attributes Master User Limited User Temporary User Cleaner Duress Code User Code 123456 345678 444555 222345 987654 User Name John Anna Rosa Phillipa Duress User Allowed (0) Uses Of Code

0 0 2 20 0

Master User Yes No No No No Omit (Bypass) Zones Yes No No No No Duress Code Only No No No No Yes Duress Code Disabled Yes Yes Yes Yes No Allow Arm Yes Yes No Yes No Allow Disarm Yes Yes Yes No No Active in partition 1 1 1 1 1

Proximity Card Information: To any of the 32 user codes it is possible to allocate a proximity card. This may be used with the MX PROX reader. The card or tag will behave exactly as the user code it is allocated to is programmed to behave. It may be used to arm / disarm the panel in different arm modes within one partition or partitions. It may be master user card or limited user card. Cards can be allocated using the PC or manually. No Card Programmed for User – This tab informs the engineer if to the chosen user code have or not been allocated proximity cards. If there have been allocated cards then the tab will display <Card Programmed for User>. Card Clear – This tab is used to clear a card that have been assigned to a chosen user code. The procedure for clearing cards from user code is described in the PC programming part of this section. Assign Card – This tab is used to assign a card to a chosen user code. The procedure for assigning cards for user code is described in the PC programming part of this section.

46

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.7.1 Programming User Codes

The engineer should only program the user codes attributes. Codes should be allocated by the master user only following the procedures from the user menu. See the user guide. 8.7.2 User Code Partition Allocation

[ ] [300] followed by the two digits of the user number [01]…[32]. To select Option No use [ ]

and [ ] buttons. To choose Option No enter [ ] button. To save the changes press [ ], an acceptance tone will be heard. .

Option No



F/D

1 Not assigned to partition 1 Assigned to partition 1 [On] 2 Not assigned to partition 2 Assigned to partition 2 [Off] 3 Not assigned to partition 3 Assigned to partition 3 [Off] 4 Not assigned to partition 4 Assigned to partition 4 [Off]

8.7.3 User Code Attributes Allocation

[ ] [301] followed by the two digits of the user number [01]…[32]. To select Option No use [ ]

and [ ] buttons. To choose Option No enter [ ] button. To save the changes press [ ], an acceptance tone will be heard.

Option No



F/D

1 Omit (Bypass) Zones Disabled Omit (Bypass) Zones Enabled [On] 2 Normal User Code Duress Code Only [Off] 3 Duress Code Disabled Duress Code Enabled [On] 4 Disallow Arm Allow Arm [On] 5 Disallow Disarm Allow Disarm [On] 6 Spare Spare [Off] 7 Spare Spare [Off] 8 Limited User Code Master User Code [On]

8.7.4 Temporary Code – Number Of Uses Allowed

[ ] [302] Followed by the two digits of the user code number from [01]…[32]. To choose option

enter from [00]*…[99]*. To save the changes press [ ], an acceptance tone will be heard. *[00] = Unlimited use of user code.

*[01] = Once only – after one use the code is deleted from memory.

*[02]…[99] = A number between 2-99 represents the amount of times the user code may be used – after the programmed number of use the code is deleted from memory. 8.7.5 Assigning / Clearing Proximity Card to / from User Code

The engineer should only program the user codes attributes. Codes and proximity cards should be allocated by the master user only following the procedures from the user menu. See the user guide.

47

Section 8.8: Keypads & Proximity Readers Partition Allocation


The PC screen illustrated below shows how to assign a keypad to a partition from the PC software. Once an option has been chosen press <save> and proceed to next screen. Screen 4 NOTE: Each keypad & proximity reader can be assigned to one or more partitions. In addition to this the brightness and volume of each keypad may be adjusted. Before you start programming the matrix system it is important to allocate the keypads and proximity readers with the correct ID number, see Section 8.1 and Section 8.2.

0($1,1*


Devices: LED Keypad 1 / LED Keypad 2 / LED Keypad 3 / LED Keypad 4 – Each system can be allocated up to 4 LED keypads that are identified by ID number 1, 2, 3 and 4. For each keypad It is possible to attribute different keypad attributes as indicated in the following paragraph. These ID numbers are used to identify one keypad from another and must be preset as indicated in Section 8.1. Proximity Reader 1 / Proximity Reader 2 / Proximity Reader 3 / Proximity Reader 4 – To each system can be allocated up to 4 Proximity Readers that are identified by ID number 1, 2, 3 and 4. To each reader It is possible to attribute different reader attributes as indicated in the paragraph bellow. These ID numbers are used to identify one reader from another and must be preset as indicated in Section 8.2. LCD Keypad 1 / LCD Keypad 2 / LCD Keypad 3 / LCD Keypad 4 – To each system can be allocated up to 4 LCD keypads that are identified by ID number 1, 2, 3 and 4. To each keypad It is possible to attribute different keypad attributes as indicated in the paragraph bellow. These ID numbers are used to identify one keypad from another and must be preset as indicated in Section 8.1.

Day Message – This message can be programmed by the installer to display text appearing on the LCD display while the control panel is in disarmed mode. It is possible to chose a message to be displayed from “LCD Keypad Text 1”. This can be message such as DISARMED, SERVICE TEL NUMBER, COMPANY NAME and so on. Armed Message – This message can be programmed by the installer to display text appearing on the LCD display while the control panel is in armed mode. It is possible to chose a message

48

to be displayed from “LCD Keypad Text 1”. This can be message such as ARMED, SERVICE TEL NUMBER, COMPANY NAME and so on. RKP Controlled Output Text - This message can be programmed by the installer to display text in connection with the available user option to activate output from keypad. It is possible to chose a message to be displayed from “LCD Keypad Text 1”. This can be message such as OPEN DOOR, RESET FIRE DETECTORS, ACTIVATE LIGHTS and so on. Language Number – Number 1 is English. To allocate other languages available with this LCD version choose a language number between 2 and 4.

NOTE: See the LCD keypad guide for information regarding the available languages.

LCD Keypad Text 1 – There are 26 text labels available the text of which can be freely programmed and allocated to be displayed each of the 4 LCD keypads used by the system. LCD Keypad Text 2 – This option instead contains text labels that can be allocated to the display while the panel is in engineer mode. LCD/LED Keypads & Proximity Readers: Active in partition – This enables keypads/proximity readers 1,2,3 and 4 to be allocated to operate with different partitions. It is possible to allocate keypads/proximity readers to 1 or more partitions. If allocated to one partition the keypad / reader will operate and display system information only within this partition. Private/Public– This option enables the visual information on a keypad to be programmed as private or public. If enabled the system status will only be shown while the panel is being armed. If disabled then the system status will be shown in any state of the panel. Brightness – This option allows the brightness of individual keypads to be adjusted to different levels. By sliding the brightness handle on the PC screen to the left the brightness will decrease. By sliding the brightness handle on the PC screen to the right the brightness will increase. Volume – This option allows the volume of individual keypads to be adjusted to different levels. By sliding the volume handle on the PC screen to the left the volume will decrease. By sliding the volume handle on the PC screen to the right the volume will increase. NOTE: See user guide for the procedure to adjust brightness and volume from the keypad.

49

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


Section 8.8.1: LED Keypad Programming

8.8.1.1 LED Keypad Partition Allocation

[ ] [350] Followed by 1 digit to choose keypad ID number from [1]…[4]. Enter [1]…[4] to assign

partition to the keypad. To save the changes press [ ], an acceptance tone will be heard. ---The option will repeat from the beginning---

Press [ ] [ ] to exit the programming. 8.8.1.2 LED Keypad Private / Public Mode

[ ] [351] followed by the one digit for the desired keypad ID number [1]…[4]. To select Option No

use [ ] and [ ] buttons. To choose Option No enter [ ] button. To save the changes press

[ ], an acceptance tone will be heard.

Option No Option off = Alarm LED off Option on = Alarm LED on Factory Default 1 Keypad Public enabled Keypad Private enabled [Off]

��

� �Display shows the indications, which are shown on entering private/ public mode.

50

Section 8.8.2: LCD Keypad Programming 8.8.2.1 LCD Keypad Partition Allocation

[ ] [352] Followed by 1 digit to choose keypad ID number from [1]…[4]. The current keypad partition allocation will be shown Enter [1]…[4] to assign partitions to the keypad.

To save the changes press [ ], an acceptance tone will be heard. ---The option will repeat from the beginning---

Press [ ] [ ] to exit the programming. 8.8.2.2 LCD Keypad Private / Public Mode

[ ] [353] followed by the one digit for the desired keypad ID number [1]…[4].

To choose a number press the [ ] and [ ] buttons. To change a setting press the [ ] button.

To save the changes press [ ], an acceptance tone will be heard.

Option No Option off Option on Factory Default 1 Keypad Public enabled Keypad Private enabled [Off]

51

8.8.2.3 Change Label Messages on LCD keypad

NOTE: This option allows the engineer to edit and change the text on all available label messages. There are 32 (1 – 32) different labels that can be selected. The engineer can edit any of these labels.

[ ] [354] ---The following display will be shown---

Use the [ ] and [ ] keys to choose the required label and enter [ ] to select it ---The following display will now be shown---

Use the [ ] and [ ] keys to scroll along the label text to edit. Use the numerical number keys on the keypad to change the text.

Enter [ ] to accept the changes.

Enter [ ] to exit this option.

0$75,;

6(/(&7�/$%(/��',6$50('

0$75,;

(',7�7(;7��',6$50('

52

LCD RKP – Editable label text and allocation table

LABEL NoKEYPAD DEFAULT TEXT ALLOCATION

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

DISARMEDLCD 1

LCD 4

LCD 2

LCD 1

LCD 1

LCD 3

LCD 2

LCD 2

LCD 3

LCD 3

LCD 4

LCD 4

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

NONE

DISARMED

DISARMED

DISARMED

ARMED

ARMED

ARMED

ARMED

LABEL 9

LABEL 10

LABEL 11

LABEL 12

LABEL 13

LABEL 14

LABEL 15

LABEL 16

LABEL 17

LABEL 18

LABEL 19

LABEL 20

LABEL 21

LABEL 22

LABEL 23

LABEL 24

LABEL 25

LABEL 26

PULSE PGM 1

PULSE PGM 2

PULSE PGM 3

PULSE PGM 4

LCD Keypad 1 - DAY message




LCD Keypad 1 - ARMED message (Private mode only)




Free for re-allocation


















LCD Keypad 1

LCD Keypad 2

LCD Keypad 3

LCD Keypad 4

31

32

LCD 1 - 4

LCD 1 - 4

WELCOME

ENGINEER

Common engineers message for all LCD keypads

Common engineers message for all LCD keypads

53

8.8.2.4 Allocating a label number to a keypad, to be displayed in disarmed mode.

[ ] [355] Followed by a keypad ID number [1]…[4]. of the keypad to assign the disarmed message to. ---the following display will be shown---

Use the [ ] and [ ] keys to select the required label number. (1 to 26)

Enter [ ] to confirm. An acceptance tone will be heard

Factory Default Settings for Messages Displayed in Disarmed Mode Disarmed LCD Keypad 1 Disarmed LCD Keypad 2 Disarmed LCD Keypad 3 Disarmed LCD Keypad 4 8.8.2.5 Allocating a label number to a keypad to be displayed in Armed mode.

[ ] [356] Followed by a keypad ID number [1]…[4]. of the keypad to assign the armed message to.

Use the [ ] and [ ] keys to select the required label number. (1 to 26)

Enter [ ] to confirm. An acceptance tone will be heard

Factory Default Settings for Messages Displayed in Armed Mode Armed LCD Keypad 1 Armed LCD Keypad 2 Armed LCD Keypad 3 Armed LCD Keypad 4

0$75,;

'$<�/$%(/��',6$50('

54

8.8.2.6 Set the Contrast & Volume of the LCD Display

[ ] [357] ---The following display will be shown---

The [ ] key reduces the contrast value

The [ ] key increases the contrast value

Enter [ ] to accept the new contrast setting. The LCD contrast controls the darkness of the characters shown on the LCD display. By default the contrast is set to maximum and will not automatically need to be changed. Care must be exercised when changing the contrast so as not to loose the display completely

0$75,;

��$GMXVW�FRQWUDVW8VH�XS��GRZQ�NH\V

55

Section 8.8.3: Proximity Reader Programming

8.8.3.1 Proximity Reader Partition Allocation

[ ] [358] Followed by 1 digit to choose proximity reader ID number from [1]…[4]. Enter [1]…[4] to

assign partitions to the reader. To save the changes press [ ], an acceptance tone will be heard. ---The option will repeat from the beginning---

Press [ ] [ ] to exit proximity reader partition allocation programming. 8.8.3.2 Proximity Reader Private / Public Mode

[ ] [359] followed by the one digit for the desired proximity reader ID number [1]…[4]. To select

Option Number use [ ] and [ ] buttons. To change an option setting enter [ ] button.


Option No Option off = Alarm LED off Option on = Alarm LED on Factory Default 1 Proximity Reader Public

enabled Proximity Reader Private enabled

[Off]

Section 8.8.3: Change Default Language on LCD Keypad

[ ] [360] ---The following display will be shown--- Enter the keypad number [1] to [4] for the keypad you wish to change the language for - ---The following display will be shown---

Use the [ ] or [ ] keys to select a language

Enter [ ] and the language will be accepted. The function will automatically exit. Note: The language change will take effect only after leaving engineers mode

0$75,;

6(/(&7�/$1*8$*(��(1*/,6+

0$75,;

.(<3$'��B��>��WR��@

56

Section 8.9: System Faults & Tamper Alarms Warning Allocation


The PC screen illustrated below shows how to assign system faults and tamper alarms to a partition from the PC software. Once an option has been chosen press <save> and proceed to next screen. Screen 5

0($1,1*


Active in Partition: System faults Notification Partition Allocation – this option allows the engineer to program, which partitions the system will be able to display system faults in. “0” stands for disable. Bell and Tamper Faults Partition Notification - this option allows the engineer to program, which partitions the system will be able to display bell and tamper faults in. “0” sands for disable.

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.9.1 System Faults Warning Partition Allocation

[ ] [380] Followed by partition number [0]* or [1]…[4] to allocate faults notification to. To save the

changes press [ ], an acceptance tone will be heard. *[0] = use to allocate the option to all partitions. 8.9.2 Tamper Alarms Warning Partition Allocation

[ ] [381] Followed by partition number [0]* or [1]…[4] to allocate faults notification to. To save the

changes press [ ], an acceptance tone will be heard.

*[0] = use to allocate the option to all partitions.

57

Section 8.10: Partition Options


The PC screen below shows partition attributes 1 and 2 for partition 1 of the PC software. On the left hand side of this screen shot is a partition selection box, which should be used to change between desired partitions. 1,2,3 and 4 Information in one partition can be copied in to other partitions by selecting a partition number in the partition selection box and clicking the “>>” tab. Once all desired options have been chosen press <save> and proceed to next screen. Screen 6

0($1,1*


Partition Options 1

PA Alarm: Silent - If the Personal Attack zone is activated in silent mode the internal or external sounders will not sound. Dial out will occur if the panel has been programmed to do so. Audible - The Personal Attack zone activation will cause both internal and external sounders to operate. Dial out will also occur if the panel has been programmed to do so. Spare: Not used (options may be added in future development). Tamper Alarm: Internal And External - This option will cause both internal (keypad sounders) and external sounders to activate on a tamper alarm when the panel is in disarmed mode. Internal Only - This option will cause only the internal (keypad sounders) sounder to activate upon a tamper alarm when the panel is in disarmed mode. In armed mode both sounders will always operate Display Open Zones In Disarmed Mode: Yes - When the panel is in disarmed mode, any open zones will be displayed on the keypad. To arm the system all zones should be closed. If all zones are closed the ready LED will be activated on the keypad and only then the system should be armed. If there are zones open the highest zone number will be

58

displayed on the keypad, if more than one zone is open on the LED keypad displaywill start flashing. To

view the open zones numbers use the and keys. No - When the panel is in disarmed mode these zones are not displayed on the keypad, although the

and keys will still work. Omit (Bypass) Zones on Rearm: Yes – After the end of the alarm time the system will automatically arm again and any zone that is still open will be omitted for this arming period. The zone will not cause any subsequent alarms. However this event will be entered into the memory log and an omit event will be transmitted to the CMS. No – After the end of the alarm time the system will automatically arm again and any zone that is still open will be ignored. Any ignored zone can cause an alarm if closed and then opened. Bell Squawk: Yes – When the system arms the bell output will be activated for 1 sec when armed and for 2 pulses per 1 sec when disarmed. This option will provide the user with outdoor (from the external sounder) audible confirmation of arming / disarming the system. No – Upon arming the system the bell output will not be activated. Kiss off Confirmation Tone: Yes – After completing a successful event transmission to the Central monitoring station, the keypad sounder and internal sounder (Twin Alert) will emit a confirmation tone for successful transmission. No – After completing the transmission no confirmation tone will be emitted from the keypad and the internal sounder. Display Open Zones in Alarm: Yes - When the panel is in armed mode the last activated zone will be displayed on the keypad. To view

the zone numbers for the zones that have been open during this alarm period use the and keys. The LCD keypad will display the zone names If the zone If the zone displayed on the LED RKP flashes this indicates that the zone is currently open. Similarly, the LCD RKP displays an ‘ ! ‘ symbol next to the zone name. No - When the panel is in armed mode these zones are not displayed on the keypad. Partition Options 2

Bell Time: Seconds – the bell time is normally programmed in minutes. However it is also possible to program the bell time in seconds. Minutes – the bell time will be programmable in minutes.

59

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.10.1 Partition Options 1

[ ] [400] followed by the one digit for the desired partition number [1]…[4].

To choose an option number use the [ ] and [ ] buttons.

To choose an Option setting, press the [ ] button.


Option No Option off = Alarm LED off Option on = Alarm LED on F/D 1 PA Alarm Audible PA Alarm Silent [Off] 2 SPARE SPARE [Off] 3 Internal Sirens on Tamper alarm Internal And External sirens on

Tamper Alarm [On]

4 Display Open Zones In Disarmed Mode disabled

Display Open Zones In Disarmed Mode enabled

[On]

5 Omit (Bypass) Zones on Rearm disabled

Omit (Bypass) Zones on Rearm enabled

[On]

6 Bell Squawk off Bell Squawk on [Off] 7 Kiss-off Confirmation Tone off Kiss-off Confirmation Tone on [Off] 8 Display Open Zones in Alarm

disabled Display Open Zones in Alarm enabled

[On]

8.10.2 Partition Options 2

[ ] [401] followed by the one digit for the desired partition number [1]…[4].

To choose an option number use the [ ] and [ ] buttons.

To change an option setting, press the [ ] button.


Option No Option off = Alarm LED off Option on = Alarm LED on Factory Default 1 Bell Time is minutes Bell Time is seconds [Off]

60

Section 8.11: Arm Options


The PC screen below shows arm options of PC software. On the left hand side of this screen shot is a partition selection box, which should be used to change between desired partitions. 1,2,3 and 4 Information in 1 partition can be copied in to other partitions by selecting a partition number in the partition selection box and pressing the “>>” tab. Once all desired attributes have been chosen press <save> and proceed to the next screen. Screen 7 NOTE: There are 3 different exit terminator types for arm modes – A,B,C and D. Each of these arm modes must be programmed in either Home or Away mode. Home and Away allocation will also enable programming of partition dependency if more than one partition is selected.

0($1,1*


Arm Modes: There are 4 arm modes that can be programmed to arm different zones within one partition area. Example : Partition 1 Partition 2 Partition 3 Partition 4 Arm A Arm A Arm A Arm A Arm B Arm B Arm B Arm B Arm C Arm C Arm C Arm C Arm D Arm D Arm D Arm D Arm A: Whole system armed, no body on premises – Away Arm B: Upstairs disarmed, downstairs armed – Home Arm C: Upstairs armed, downstairs disarmed – Home Arm D: Garage armed, the house disarmed – Home

61

Arm Mode Attributes: Timed Exit – To arm the system the user needs to enter his code from the keypad. This will activate the countdown of entry / exit time (see Section 8.12.4 on System Timers to program the entry / exit time). At the end of this time the panel will arm. Final Exit – To arm the system the user needs to enter his code from the keypad. This will activate the countdown of entry / exit time (see Section 8.12.5 on System Timers to program the entry / exit time). However the system will not arm until the last zone is closed (it is recommendable to program several seconds delay for the final zone sense, see Timers). Silent Arm – During the exit time the keypad sounder will audibly inform the user at the beginning of the countdown. This option will turn off the keypad sounder during the exit time. This option is typically used for arming the system during the night. Keyswitch Arm Configuration – This option allows the engineer to program which arm mode the zone programmed as a keyswitch will arm. This option can be used with external keyswitch arming/disarming module via radio etc. Arm Mode Types: Home – this option is used when the system is armed in one of the arming modes but the users are still in the premises (for instance first floor armed but the second not), such as arm mode B discussed in an earlier example. Away – this set option is used when the system is fully armed and no one is in the premises for instance when all zones are armed, such as arm mode A as discussed in an earlier example. Common Partition Programming: Auto arm Partition when These Partitions Arm (Partition dependency): In some instances there is a need to program one or more partitions as common partitions. For instance if we use partition 2, 3 and 4 to protect 3 separate flats we might need to use partition 1 as a common partition protecting the lobby area. In order to achieve this we need to program the following options: Step 1: Allocate user code 2 to partition 1+2, allocate user code 3 to partition 1+3, allocate user code 4 to partition 1+4. Step 2: Program the partition dependency option so that partition 1 to arm when partition 2, 3 and 4 are armed in away mode. Step 3: If 3 keypads are used – one in each flat - allocate keypad 2 to partition 1+2, Allocate keypad 3 to partition 1+3, allocate keypad 4 to partition 1+4. Arming Partition: To arm for instance partition 2 enter user code number 2, then select partition 2 from the keypad and press FUNC to confirm the procedure. The partition will start arming. When partition 2+3+4 are armed in away mode partition 1 that is common will arm automatically. Disarming Partition: To disarm for instance partition 2 enter your user code 2, them disarm partition 1+2, to disarm partition 3 enter user code 3 and disarm partition 1+3, to disarm partition 4 enter user code 4 and disarm partition 1+4. Number of re-arms: Number of times the partition will re-arm automatically after the bell timer expires. “0” stands for continuous arming after alarm.

62

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.11.1 Exit Terminator Type For A Arm Mode

[ ] [450] Followed by one digit for the desired partition number [1]…[4]. To select the type of arm

mode press [00], [01] or [02]. To save the changes press [ ], an acceptance tone will be heard.

Arm Mode

Description

Factory Default

Partition 1 Partition 2 Partition 3 Partition 4 00 Timed Exit [On] [On] [On] [On] 01 Final Exit [Off] [Off] [Off] [Off] 02 Silent Arm [Off] [Off] [Off] [Off]

8.11.2 Exit Terminator Type For B Arm Mode



Arm Mode

Description

Factory Default


8.11.3 Exit Terminator Type For C Arm Mode



Arm Mode

Description

Factory Default


8.11.4 Exit Terminator Type For D Arm Mode



Arm Mode

Description

Factory Default


63

8.11.5 Home & Away Allocation

[ ] [454] Followed by one digit for the desired partition number [1]…[4]. To choose an option

number use [ ] and [ ] buttons. To change an option setting press [ ] button. To save the


Option No

Arm Mode

Option off = Alarm LED Off

Option on = Alarm LED On

Factory Default

1 A Home Away [On] 2 B Home Away [Off] 3 C Home Away [Off] 4 D Home Away [Off]

8.11.6 Partition Dependency

[ ] [455] Followed one digit for the desired partition number from [1]…[4]. To choose an option

number use [ ] and [ ] buttons. To change an option setting press [ ] button. To save the


Option No



Factory Default

1 Partition will not arm with Partition 1 Partition will arm with Partition 1 [Off] 2 Partition will not arm with Partition 2 Partition will arm with Partition 2 [Off] 3 Partition will not arm with Partition 3 Partition will arm with Partition 3 [Off] 4 Partition will not arm with Partition 4 Partition will arm with Partition 4 [Off]

8.11.7 Keyswitch Zone Arm Mode Allocation

[ ] [456] Followed by one digit for the desired partition number from [1]…[4]. To choose an option

number press from [01]…[04]. To save the changes press [ ], an acceptance tone will be heard.

Option No Description Factory Default P 1 P 2 P3 P 4 01 Arm Mode A [Off] [Off] [Off] [Off] 02 Arm Mode B [Off] [Off] [Off] [Off] 03 Arm Mode C [Off] [Off] [Off] [Off] 04 Arm Mode D [Off] [Off] [Off] [Off]

8.11.8 Number Of Rearms

[ ] [457] Followed by one digit for the desired partition number from [1]…[4]. To select number of

auto-arms enter [0]*…[9]*. To save the changes press [ ], an acceptance tone will be heard. *[0] – continuous auto-arm.

*[1]…[9] – fixed number of auto-arms from 1 to 9 times.

64

Section 8.12: System Timers


The PC screen below shows how to program system times from the PC software. On the left hand side of this screen shot is a partition selection box, which should be used to change between desired partitions. 1,2,3 and 4 Information in 1 partition can be copied in to other partitions by selecting a partition number in the partition selection box and pressing the “>>” tab. Once all desired attributes have been chosen press <save> and proceed to next screen. Screen 9

0($1,1*


Partition Timers: Bell Time – This is the duration of the alarm. It can be set from 2 to 20 minutes or seconds (this depends on the setting in Partition Options 2, Section 8.10.2). Entry Time - This is the countdown time that allows the user to enter the premises and disarm the system. It can be set from 2 to 99 seconds. Exit Time - This is the countdown time that allows the user to exit the premises before the system arms. It can be set from 2 to 99 seconds. Bell Delay - This is a siren activation delay time that can be set from 0 to 99 seconds. However the event will be reported independently of the bell delay setting. Final Exit Delay - This is time delay for the last zone to close and can be set from 0 to 99 second. This must be programmed in case one of the arming attributes is set to Final zone, see Section 8.1. Inactivity Auto Arm – The system can be programmed to auto arm if there is no activity in the premises in programmable interval of time. It can be set from 0 to 99. After the specified time of inactivity the panel will arm. This value is in minutes multiplied by 10, so a value of 1 = 10 minutes, 5 = 50 minutes and 99 = 990 minutes. If you set the value to 0 (zero) then this is disabled.

65

Auto Arm Commencing Time Every Day – The system can be programmed to auto-arm every day at preprogrammed time (0000 = No Auto Arm timer). Example: If the time programmed is 15’00 the arming procedure will follow in 4 different stages during 30 min before the system actually arms.

Step 1 15’00 will be emitted a warning tone from the keypad – auto arm commence time started Step 2 15’10 will be emitted another warning tone Step 3 15’25 will be emitted 3rd warning tone Step 4 15’30 system arms

To stop the auto-arming procedure master or limited user code should be digited on the keypad during this 30 min “auto-arm started” warning procedure. Global Timers: A.C. Fail to Report Delay – This is a delay timer for the A.C. fail report to the central monitoring station. It can be programmed in minutes and is particularly useful for installations on sites where the A.C. supply is often cut. Telephone Fail Report Delay - This is a delay timer of the telephone line fail report to the central monitoring station. It can be programmed in minutes and is particularly useful for installations on sites when often the telephone line is cut. Seconds In Last Minute Of The Day – The Correction factor is required by the RTC when Quartz derived RTC Time-base option is selected. The correction factor is actually the number of seconds in the last minute of each day. Only change this option if the time in the panel appears to be running slow or fast. For example if test calls are occurring 10 seconds earlier every day (1/2 hour per month) then the correction factor needs to be 70. NOTE: We recommend using the A.C. derived time-base option and leaving the default value in the correction factor. Only use Quartz derived time-base with unstable A.C. supplies.

66

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.12.1 Bell Time

[ ] [500] Followed by the one digit for the desired partition number from [1]…[4]. To change the

time enter two digits [00]…[99] (in minutes or seconds, see Option 2 ). To save the changes press

[ ], an acceptance tone will be heard. 8.12.2 Bell Time Delay


time enter two digits [00]…[99] (in minutes ). To save the changes press [ ], an acceptance tone will be heard. 8.12.3 Entry Time


time enter two digits [00]…[99] (in seconds ). To save the changes press [ ], an acceptance tone will be heard. 8.12.4 Exit Time


time enter two digits [00]…[99] (in seconds ). To save the changes press [ ], an acceptance tone will be heard. 8.12.5 Final Exit Delay


time enter two digits [00]…[99] (in seconds ). To save the changes press [ ], an acceptance tone will be heard. 8.12.6 Auto-Arm Commencing Time – Every Day


time enter four digits [0000]*…[2359] for the time the partition will arm every day. An acceptance tone will be heard.

[0000]* = Auto-Arm time disabled

67

8.12.7 Inactivity Auto-Arm


time enter two digits [00]*…[99]* (multiple per 10 min ). To save the changes press [ ], an acceptance tone will be heard. [00]* = auto-arm disabled

[99]* = auto-arm at 990 minutes non activity registered 8.12.8 AC Fail Warning & Report Delay

[ ] [507] To change the time enter two digits [00]…[99] (in minutes ). To save the changes press

[ ], an acceptance tone will be heard. 8.12.9 Telephone Line Fail Warning & Report Delay

[ ] [508] To change the time enter two digits [00]…[99] (in minutes ). To save the changes press

[ ], an acceptance tone will be heard. 8.12.10 Seconds in Last Minute Of The Day

[ ] [509] To change the time enter two digits [00]…[99] (in seconds ). To save the changes press

[ ], an acceptance tone will be heard.

68

Section 8.13: Programmable Outputs


The PC screen below shows how to program output options and allocated partitions from PC software. Once an option has been chosen press “save” and proceed to next screen. Screen 9 NOTE: This system has 4 PGMs expandable to 12 that can be programmed to activate on activation of different events and can be allocate them to one or more partitions. The polarity of these outputs may be changed between 12v to 0v or 0v to 12v.

0($1,1*


Output Types: [00] = Off. Disable the output [01] = PIR remote LED enable (E-) This option will allow the PIR LED’s to be enabled during walk test mode if they have been originally disabled by removing the link pin. When the system in walk test mode this output will emit 0V that will enable the LED. On exiting the walk test mode the LED will be disabled. This option will only work if the detectors have a remote LED enable facility (e.g. Pyronix Enforcer Super, Octopus Super, Equinox AM). [02] = PIR Latch memory (C+) This feature is used to reset the latch option of detectors that have this function. When the panel is armed the LEDs of any triggered detector on the zone will latch causing their LEDs to flash on and off when the panel is disarmed. Any time that an user code is entered the output will change state. To reset the latch enter user code and within 5 sec enter it again. This feature will only work if the PIR has a latch memory facility (e.g. Pyronix Enforcer Super, Octopus Super, Equinox AM). [03] = Keypad controlled

This option operates 5 seconds switch output. Enter from master user mode. The output will change state for 5 sec. It may be used e.g. to electronically unlock a door. [04] = Follow Arm / Disarm

69

By using this option the programmable output will change state as the panel is armed and disarmed. This may be used for example to electronically lock a door when the panel is armed and unlock it when the panel is disarmed, or with radio-transmitters etc. [05] = Follow zone This option will allow the programmable output to switch on and off when a preprogrammed zone is entered and exited. If you select this then enter in the zone you want to follow in the “Zone to Follow” input. This can be 0 = disabled or 01 – 32 = zone 1 - 32 [06] = Follow Line fail This option will allow the programmable output to switch on when a telephone line fail occurs and switch off when the line is active again. [07] = Follow Kiss off This output option will allow the programmable output to switch on for a few seconds when a communication kiss off has been successfully completed from the Central monitoring station. [08] = Shock / Fire sensor reset This output option enables automatic reset of shock and fire sensors with latch option after alarm condition. When the panel is disarmed after an alarm condition with one of the user codes the power to the shock / fire sensors will be momentarily disconnected. [09] = Follow Strobe When an alarm occurs this output will change state until the alarm is reset with one of the user codes. [10] = Follow Fire Alarm When fire alarm occurs this output will change state until the alarm is reset with one of the user codes. [11] = Follow PA Alarm When PA alarm or duress arm / disarm occur this output will change state until the alarm is reset with one of the user codes. [12] = Confirmed Alarm When at least two zones are activated this output will change state until the alarm is reset with one of the user codes. [13] = Follow Tamper Alarm When tamper alarm occurs this output will change state until the alarm is reset with one of the user codes. [14]= External Bell When alarm occurs this output will change state until the end of bell time programmed or the alarm is reset with one of the user codes. [15] = GND Fire Detector This output option enables the system to detect 2 wire fire detectors. If used after an activation of the fire detector a fire alarm will be activated and report to the Central monitoring station NOTE: This option can be used only with programmable output 4. [16] = Twin Alert This output option enables the use of an internal siren, eg Twin Alert. NOTE: This option can be used only with programmable output 3. Active in partition: This option enables the engineer to allocate a PGM to a partition number. One PGM can be allocated to one of more of the partitions available. PGM Polarity: 12V – If this option is chosen in normal state the PGM will be 0v. If activated it will change state from 0v to 12v (Depending on the PGM option programmed it will normally return to normal state after 5sec) 0V – If this option is chosen in normal state the PGM will be 12V. If activated it will change state from 12V to 0V (Depending on the PGM option programmed it will normally return to normal state after 5sec). Zone to follow in partition: If the option “Follow Zone” is chosen the engineer should program which zone to follow in which partition.

70

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


8.13.1 PGM Type & Polarity

[ ] [550]. To choose a PGM output enter two digits for the PGM number from [01]…[12]. To

change the PGM option type enter two digits from [00]*…[16]. To save the changes press [ ], an acceptance tone will be heard. [00]* = disabled … [16]* = Twin Alert (See Output Types)

---The PGM polarity option will now be displayed---

To choose an Option use [ ] and [ ] buttons. To change an option setting press [ ] button. To

save the changes press [ ], an acceptance tone will be heard.

Option



F/D

0-12 0V – active low 12V – active high [Off] ---The PGM partition allocation now will be displayed--- Enter partition number [0]*, or from [1]…[4]. [0]* = use to allocate PGM to all partitions. ---The option will repeat from the beginning to program next PGM---

Press [ ] [ ] to exit PGM programming. 8.13.2 Zone To Follow In Partition

[ ] [551] Followed by the one digit for the desired partition number from [1]…[4]. The current zone number allocation will be displayed.

Enter two digits for the zone number from [01]*…[32]* (zone to be followed by PGM ). To save the


71

Section 9: Communication Programming

The Matrix 832 & 424 are integrated with digital communicator, which using internationally recognised formats will allow the panel to communicate with Central Monitoring Stations and different service companies. Communications programming allows the installation engineer to access the control panel from any desired location or premises to program the system or run diagnostics procedures.

72

Section 9.1: Digital Communicator


The PC screen below shows how to program the digital communicator options from PC software. Once an option has been chosen press <save> and proceed to next screen. Screen 10

0($1,1*


Account & Up/Down Load Codes. Test Call Dials.

Numbers: Account codes – There are 4 to 6 hexadecimal digit codes that are used to identify each partition when reporting to the monitoring station. These codes are used as well as customer identification numbers for the UDL and PC Monitoring software. It is possible to allocate the same or different account codes to each partition. Up / Down Code – This is 4 decimal code that is used for security purposes when the engineer uses the PC software to program and assist the system. Connecting to the system will be only possible if the code on the PC software is the same as the one programmed on the panel. NOTE: The Up/Down Code must be changed from factory default (1234) if the system is connected to the telephone line. Test Dials : The panel will dial to the CMS and send test report at any programmable time and interval. This is used to report to the CMS that the system is OK and no other events have been created during the programmed interval of time. Test Dial Time – This may be programmed to any time to when test dial is required. Test Dial Interval – This may be programmed in days, hours or minutes depending on the Central

Monitoring Station policy. If the interval is [00], the time becomes the amount of hours and minutes between each test call (e.g. 0030 would dial every 30 min, 0100 would dial every hour).

73

Telephone Numbers 1, 2, 3 allocation - This option allows the engineer to allocate up to 3 telephone numbers to be used to communicate the test call to CMS. These numbers are chosen from 9 available numbers that are programmed in a way shown in the next Section 9.2. Test Dial Sequence – It is possible to split the test dials between the first two numbers. Send test call to Telephone Number 1 ; send test call to Both Numbers ; send test call to Telephone Number 1 and if not communication acknowledged to Telephone Number 2 . NOTE: If telephone number 3 is programmed then the panel will always call this number after the communication to numbers 1 or 2. The telephone number 3 must be used only when 1 or 2 are programmed. If only telephone number 3 is programmed then it will not operate. Telephone Line Options

Telephone Line Monitoring: Enabled – This option enables the system to monitor the telephone line and in case of line fail activate system fault that is displayed on the keypad and alarm if enabled by the engineer (see Section 8.5). Disabled – If the system is used as a local (not connected to the telephone line) this option disables the telephone line monitoring that allows the system to operate as a local. Handshake Filter: Wide – Gives a wider range of receivable from the Matrix digital communicator handshake frequency sent from the Central Monitoring Station. Use only if the panel does not acknowledge Kiss Off tone from CMS. Standard – This setting is the default and will only reliably detect the correct handshake frequencies. Dial: Pulse – For use with pulse dialing telephone lines. Tone - For use with tone dialing telephone lines. AMC Enabled: Yes – This option will allow the panel to respond to an incoming call in Answer Machine Compatible mode for up / down loading session. No - This option will disable the acceptance of all incoming calls. However if a service session needed the master user may generate a one hour time window from the keypad to allow the connection of a PC. NOTE: Answer Machine Compatible mode (AMC). This provides a way of connecting the panel on the same line with other telephone equipment. To remotely access the panel in AMC mode, dial in and wait for a single ring, then hang up and wait for at least 10 seconds, but no more than 40, then dial back in. The panel will now answer instantly. Reporting Events: High Priority – This option will stop any downloading sessions from a PC if alarm activation occurs during this period. Then the event will be transmitted. Low Priority – This option will not cut the downloading session from PC if an alarm occurs. The event will be transmitted only after finishing the downloading session. Send Open After Alarm: Yes – This option will still allow the system to transmit disarmed (user disarm) event after alarm. This option is very useful when open/close report messages to CSM are disabled from “send options”. Often monitoring companies use this in order not load the CSM with too many calls, for instance in the morning each day when users arm their systems. No – Open / close reporting will follow the send options settings.

74

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


9.1.1 Account Codes & A/C Partition Allocation

[ ] [600] Followed by the one digit for the desired partition number from [1]…[4].

---The current account code will be displayed (To delete account code press [ ] button, to leave the

same code press [ ] )---

To change the account code use the numerical buttons from [0]…[09] or Enter [ ] button followed

by [2, 3, 4, 5, 6] for inputting letters from [B, C, D, E, F].

Press [ ] to save new Account Code, an acceptance tone will be heard. 9.1.2 Up / Down Loading Access Code

[ ] [601] The current code will be displayed

Enter 4 digits for the code from [1]…[9], an acceptance tone will be heard. 9.1.3 Digital Communicator Options

[ ] [602] To select Option No use [ ] and [ ] buttons. To choose Option No enter [ ]


Option No



F/D

1 Telephone Line Monitoring disable Telephone Line Monitoring enable [Off] 2 Standard Handshake Filter Wide Handshake Filter [Off] 3 Tone Dial Pulse Dial [Off] 4 AMC Disable AMC Enable [On] 5 Reporting Events Low Priority Reporting event High Priority [Off] 6 Send Open After Alarm disabled Send Open After Alarm enabled [On]

9.1.4 Test Dial Time

[ ] [603] The current time will be displayed

Enter digits for the desired time [00]’[ 00] (e.g. 2300 for dial at 11’00pm). An acceptance tone will be heard as the 4th digit entered. 9.1.5 Test Dial Interval

[ ] [604]. Enter the test dial interval from [00]*…[99]*. [00]* = the time in hours and minutes between each dial, ie 00’30 = 30 mins

[01]* = once every day at the time programmed in [603].

[28]* = once every 28 days programmed in [603].

Press [ ] to save new number, an acceptance tone will be heard.

75

9.1.6 Telephone Number 1 Allocation

[ ] [605]. Enter a telephone number from [1]…[9] to be used as the 1st telephone number. Press

[ ] to save new number, an acceptance tone will be heard. 9.1.7 Telephone Number 2 Allocation

[ ] [606]. Enter a telephone number from [1]…[9] to be used as the 2nd telephone number. Press

[ ] to save new number, an acceptance tone will be heard. 9.1.8 Telephone Number 3 Allocation

[ ] [607]. Enter a telephone number from [1]…[9] to be used as the 3rd telephone number. Press

[ ] to save new number, an acceptance tone will be heard. 9.1.9 Test Dial Sequence (Group Reporting)

[ ] [608]. Enter a dial sequence from [1]*…[3]*. [1]* = test dial to be sent only to telephone number 1

[2]* = test dial to be sent to telephone 1 and telephone 2

[3]* = test dial to be sent to telephone 1 and if no transmission then to telephone 2

Press [ ] to save new number, an acceptance tone will be heard.

76

Section 9.2: Reporting Formats


The PC screen illustrated below shows how to select the appropriate reporting format, and program telephone numbers. Once an option has been chosen press <save> and proceed to next screen. Screen 11 NOTE: The system allows the engineer to program up to 9 telephone numbers to which events can be transmitted. In addition it is possible to allocate a different reporting format to each telephone number.

0($1,1*


Telephone numbers: Up to 9 telephone numbers may be programmed with a total length up to 32 digits. Use a comma ( , ) to denote a 2 second pause. Reporting Formats: Contact ID – This is vide events reporting format the event numbers of which is preprogrammed automatically. Handshake specification of CID: Handshake frequency = 1400hz for 100 mil sec / silence 100mil sec / 2300hz 100 mil sec Handshake duration frequency = 100 mil sec Handshake delay time = 250 mil sec Handshake duration time = 100 mil sec Max. handshake wait time = 40 mil sec Acknowledgement tone duration time = 750 mil sec Contact ID check sum = Yes

77

Digital event CID number send to the Station digital receiver: The digital event code displayed on the station receiver = [AAAA] [CC] [Q] [EEE] [PP] [SSS] [m] [AAAA] = Account number will first be displayed [CC] = Reporting format = 18 for CID [Q] = Event qualifier: “0” – Close / Restoral and “1” - Open / Alarm. [EEE] = Digital event code [PP] = Group or partition number [SSS] = Zone number / User number [m] = Check sum Example digital event CID number displayed on station receiver:

Table CID events reported by Matrix system: HEXADECIMAL EVENT NUMBER

ENGLISH EQUIVALENT

NOTES

Group 1 (ALARM)

QX 130 Normal Alarm Zone QX 133 24 Hour Alarm Zone QX 134 Entry / Exit Alarm Zone QX 137 Alarm From Tamper On Case/Keypad/Expander QX 139 [Vx.x] Confirmed Alarm QX 143 [Vx.x] Expander Fail QX 146 Silent Burglary (bell delay) QX 321 Bell 1 Tamper QX 383 Sensor Tamper

Group 2 (Personal Attack)

QX 121 Duress Arm / Disarm QX 122 Silent PA from Keypad or PA Zone QX 123 No Silent PA from Keypad or PA Zone

Group 3 (FIRE)

QX 110 Fire

Group 4 (MAINTENANCE)

QX 301 AC Loss QX 302 Low Battery QX 607 Walk Test Mode Entered / Left QX 627 Engineer Mode Entered QX 628 Engineer Mode Left

Group 5 (OPEN / CLOSING)

QX 401 Open / Close by User QX 403 Closing On Power Up QX 409 O/C by Keyswitch Zone QX 570 Normal Zone Bypassed On Arm QX 571 Fire Zone Bypassed On Arm QX 572 24 hour Zone Bypassed On Arm

Group 6 (MEDICAL)

QX 100 Medical Alert

R0083 L01 #12345TrblZ# 4201/01 10:26P *E1/1

78

BSIA Fast Format – this is a fast reporting format that reports up to 8 general events. Handshake specification of Fast Format: Handshake frequency = 1400hz for 100 mil sec / silence 100mil sec / 2300hz 100 mil sec Handshake duration frequency = 100 mil sec Handshake delay time = 250 mil sec Handshake duration time = 100 mil sec Max. handshake wait time = 40 mil sec Acknowledgement tone duration time = 750 mil sec Check sum = Yes Digital event BSIA fast format send to the Station digital receiver: The digital event code displayed on the station receiver = [ACCT] [Q] [XYZ] [GG] [CCC] [ACCT] = Account number will first be displayed [Q] = Event qualifier: “1” - New event / operation. “3” New restoral or close. “6” Previous

reported of normal event [XYZ] = Digital event code [GG] = Group or partition number [CCC] = 1. Sensor no 2. User no 3. Set level (arm mode) Pyronix PC Format – This format is designed to allow the panel to report the same codes as per Contact ID instead to a Digital Receiver to a PC by using the Pyronix Maintenance & Monitoring software and std. US Robotics modem supplied by Pyronix. NOTE: The Pyronix Format should be used only for maintenance purposes by servicing the Central Monitoring Station companies and is not considered to be a replacement of the Digital Receiver. Pager Format – This protocol can be used the panel to dial to a pager service station or mobile phone. It allows the panel to transmit numeric if used with pager service messages or DTMF tones if used with mobile phone to the user informing for Alarm, PA’s, Maintenance, Medical alarm, Open/Close and Fire alarm. It repeats the event numbers indicated in the Contact ID table but ignores handshake and kiss-off signals from the monitoring station. If this protocol is used should be considered the type of pager service available and make sure it can be transmitted by the service provider. Example programming this protocol: Step 1: Program the telephone number – 01709 700 100 Step 2: Add as many as needed 2 sec pauses after the number to allow more rings in order that the user picks up the phone or connect to the pager station – 01709 700 100 ,,,,,,,,,, Step 3: If used with mobile phone add DTMF tones to be transmitted – 01709 700 100 ,,,,,,,,,,5555,,,,,,,,,, Step 4: If used with pager station ad the entry DTMF tone required by the pager service provider followed by 2 sec pauses – 01709 700 100 ,,,,,,,,,,9,,,,,,,,,, NOTE: This protocol will activate only one call to the user after any of the above indicated events have been activated if programmed by the engineer. The system has no way to acknowledge if the communication using the pager format has been successful.

79

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


9.2.1 Telephone Numbers Programming & Allocation to a Communication Format

[ ] [650]. Enter a telephone number from [1]…[9] - representing telephone number to be edited. The current number will be displayed. Enter up to 32 digits for the telephone number.

---Use the [ ] key to insert a (2 sec pause), (d) will be displayed;

---Use [ ] [2] to insert (*), (b) will be displayed;

---Use [ ] [3] to insert (#), (C) will be displayed---

Enter [ ] to save the number. Use the [ ] button at the start of programming to delete the number. ---Reporting format for this number will now be displayed--- Enter [0] to chose Contact ID format, [1] to choose BSIA Fast format, [2] to choose Pyronix Format or

[3] to choose Pager Format. Enter [ ] to save the format allocation and the telephone number. ---The option will repeat from the beginning for programming next telephone number---

Enter [ ] [ ] to exit the option.

80

Section 9.3: Send Options & Group Reporting Sequence


The PC screen below shows send options for partition 1. On the side of this screen shot is a partition selection box, containing all 4 partitions. Information in 1 partition can be copied in to other partitions by selecting a partition number in the partition selection box and pressing the “>>” tab. Once all desired attributes have been chosen press <save> and proceed to next screen. Screen 12 NOTE: The system allows the engineer to split the event reporting to different telephone numbers for any of the system modes. It is possible as well to allocate to each of the partitions available the same or different telephone number.

0($1,1*


System and Arm Modes event reporting allocation: Disarmed – When the panel is disarmed the engineer can chose which events to report to the central monitoring station from Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information. Arm A - When the panel is armed in Arm A mode the engineer can choose which events to report to the central monitoring station from Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information. Arm B - When the panel is armed in Arm B mode the engineer can choose which events to report to the central monitoring station from Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information. Arm C - When the panel is armed in Arm C mode the engineer can choose which events to report to the central monitoring station from Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information. Arm D - When the panel is armed in Arm D mode the engineer can choose which events to report to the central monitoring station from Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information.

81

Restorals - When the panel is armed any of the above modes the engineer can choose to enable or disable events restorals reporting to the central monitoring station from Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information. Telephone 1, 2, 3 – The system allows the engineer to allocate 3 different CMS telephone numbers from the 9 numbers available for reporting each of the following events: Alarms, PA alarms, Fire alarms, Maintenance information, Open / Close and Medical information. For instance all events can be sent to Telephone number 1 and 2 and alarm events only to Telephone number 3. In this case Telephone No 1 would be 1st CMS number, Telephone No 2 would be 2nd CMS number and Telephone No 3 would be user pager number. Group events reporting option: These option allow the engineer to decide which groups of alarms are transmitted to the Central Monitoring Station in the various modes of the Panel. This option should be used to prevent call jam to the CMS in pick times: Only send to 1 – Events to be send only to telephone number 1. Always send to both – Events to be send to both telephone numbers. Only to 2 as backup – Events to be send to telephone number 1 and if no communication acknowledged send to telephone number 2. NOTE: If telephone number 3 programmed then the panel will always call this number after the communication to numbers 1 or 2. If only telephone 3 programmed then the panel will not call.

82

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


9.2.1 Disarmed Mode Events Send Options

[ ] [700] followed by one digit for the desired partition number from [1]…[4]. To choose an option

number use the [ ] and [ ] buttons. To choose an option setting press the [ ] button. To save


Option No Option off = Alarm LED off Option on = Alarm LED on Factory Default 1 Alarms are not sent Alarms are sent [On] 2 PA are not sent PA are sent [On] 3 Fire are not sent Fire are sent [On] 4 Maintenance are not sent Maintenance are sent [On] 5 Open/Close are not sent Open/Close are sent [Off] 6 Medical not sent Medical are sent [On]

9.2.2 Arm Mode A Events Send Options


number use the [ ] and [ ] buttons. To choose an option setting press the [ ] button.



9.2.3 Arm Mode B Events Send Options

[ ] [702] followed by the one digit for the desired partition number from [1]…[4]. To choose an

option number use the [ ] and [ ] buttons. To choose an option setting press the [ ] button.



83

9.2.4 Arm Mode C Events Send Options





9.2.5 Arm Mode D Events Send Options





9.2.6 Restoral Events Send Options





9.2.7 Telephone Numbers Allocating to Alarm Types in Partitions

[ ] [706] followed by one digit for the desired partition number from [1]…[4]. Enter the alarm type

from [1]*…[6]*. [1]* =Alarm, [4]* =Maintenance,

[2]* =PA, [5]* =Open/Close,

[3]* =Fire, [6]* = Medical Alarm ---Programming for telephone number 1 will follow---

84

Enter a number from [1]…[9], which is the telephone number 1 to use for this alarm type.

Enter [ ] to save, an acceptance tone will be heard. ---Programming for telephone number 2 will follow--- Enter a number from [1]…[9], which is the telephone number 2 to use for this alarm type.

Enter [ ] to save, an acceptance tone will be heard. ---Programming for telephone number 3 will follow---

Enter a number from [1]…[9], which is the telephone number 3 to use for this alarm type.

Enter [ ] to save, an acceptance tone will be heard. ---Programming for group reporting sequence will follow--- Enter a number from [1]*…[3]*, which is the telephone sequence allocation for numbers 1 & 2.

Enter [ ] to save, an acceptance tone will be heard.

[1]* =Only send to number 1

[2]* =Both telephone numbers

[3]* =Send to 2 only if 1 is busy ---The option will repeat from the beginning---

Enter [ ] [ ] to exit the option. NOTE: Telephone numbers 1 & 2 are only affected by the sequence setting. They will generally be used for reporting to the central station. Telephone number 3 would normally be used to report to a third party. E.g. Pager or Installer. If a telephone number allocation is not required set the number to 00.

85

Section 10: Events Memory Log & System Maintenance

Matrix 424 & 832 have event memory log of 300 events. These are displayed with time and date and can be read from both LCD and LED keypads or using the UDL software from a PC.

Section 10.1: Reading The Event Log


Downloading the log from the panel: Connect to the control panel with modem or using the RS232 output. To retrieve data from the panel log press on the <Read the log> button from the tab of the main programming screen.

Read The Log tab on main programming screen. Before downloading the log you can choose events to view as shown in the screen bellow:

0($1,1*


Read Log Options: Last Log - Will not download a new log from the panel but will instead show the stored logs. All the log - This will download all 100 events from the panel. The last 50 events The last 100 events The last number of events - You enter in XX yourself, this can be a value from 1 to 300. Download New Events - When you use the New Events option then the events you download are added to an Complete Log of all events that have occurred in the panel. Events are not added to the Complete Log if you use any of the other options. It is highly recommended that you do a New Events download of the log because this way you will get a complete history (if the log wraps around before you download events or someone does a log reset then events might be lost) of the panel. Downloading the log in any of the other ways will not add the downloaded events to the complete log. See "Reading the Complete log" below. A progress bar is shown on screen showing you how much of the transfer has been completed. The bar will stop around half way through and then restart, this is because the PC is processing the log. If the transfer fails then the program will show an error message. If this happens select the option again. The PC screen below shows alarm events, which have been entered in to the log.

86

Screen 12

0($1,1*


Last – This option enables the last log to be down loaded Previous 1, Previous 2, Previous 3 – This shows the previous 3 logs downloaded Complete History – This shows all events downloaded using the !new events! Download option. Partitions To View – Select the partitions, which you want to view the log event in. [0] – system events [1] – events for partition 1 [2] – events for partition 2 [3] – events for partition 3 [4] – events for partition 4

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


10.1.1 Viewing Event Log Memory

NOTE: To view the event log please use the event table bellow to understand the meaning of the event symbols displayed on the keypad.

[ ] [113]. Use the [ ] and [ ] buttons to scroll through the events. 10.1.2 Resetting The Event Log Memory

[ ] [750]. The Log will be cleared. An acceptance tone will be heard.

87

LED Keypad Interpretation Event Log Table:

PRESS OR AGAIN FOR ZONE NUMBER / USER CODE

ALARM TYPE MEANINGSPRESS ORTO SCROLL THROUGH ALARM TYPES

LED INDICATION

EE

00 - 32

00 - 32

01 - 32 Alarm FlashingBurglary on zone, number signifies zone

01 - 32

00 - 32

.t

.t

.rt

01 - 32

01 - 32

01 - 32

01 - 32

01 - 32

01 - 32

PC

PC

PC

PC

PC

PC

PC

PC

PC

PC

PC

.t

.t

.t

.t

.t

L

O

Tamper Flashing

None

Tamper

Tamper

Tamper

Tamper

Tamper

Tamper

Tamper

Line fail alarm

Omit zone

Device tamper

PA steady

Alarm steady

Fire steady

Tamper steady

Alarm steady

None

None

None

None

None

None

None

None

None

None

None

None

Tamper on zone, number signifies zone

Medical alarm number signifies zone, 00 = keypad

Global tamper loop broken

Bell tamper loop broken

Zone expander board not present

Fire detector tamper

Remote device missing caused tamper

Key press tamper

A remote device has triggered a tamper

Telephone line fail alarm

Zone omitted, number signifies zone

Remote device auxiliary tamper

Personal attack restore

Zone restore

Fire restore

Global tamper restore

Alarm restore

Medical restore

Panel answered the telephone

Panel hung up the telephone line

Full data down load from panel

Partial upload to panel

Upload data to panel complete


Download data from panel complete

Incorrect UDL code

UDL code accepted

Time / Date changed by PC

Local connection expected

X

X

X

X

X

X

01

02

03

04

05

06

09

X

01 - 32

01 - 99

X

X

X

X

X

X

00

01

02

03

04

05

06

07

08

09

10

Entry / Exit time expired

PA zone activated, number signifies zone, 00 = keypad

Fire activated, number signifies zone, 00 = keypad

Alarm

PA Flashing

FIRE Flashing

UP / DOWN LOADING EVENTS

88

PRESS OR AGAIN FOR ZONE NUMBER / USER CODE

ALARM TYPE MEANINGSPRESS ORTO SCROLL THROUGH ALARM TYPES

LED INDICATION

A

B

C

D

U

At

AP

UP

r 1

r 2

EO

E1

01 - 32

X

X

X

1

2

3

4

01 - 32

01 - 64

01 - 64

1

2

3

4

5

6

7

8

01 - 32

01 - 32

01 - 32

01 - 32

01 - 32

X

X

X

Armed in mode A by user, number signifies code used

Armed in mode B by user, number signifies code used

Armed in mode C by user, number signifies code used

Armed in mode D by user, number signifies code used

Disarmed by user, number signifies code used

Armed due to inactivity timer

Armed due to dependency on other partitions

Disarmed due to dependency on other partitions

User code after alarm - number signifies user

Bell time expired

Bell time expired

Engineer mode entered

Walk test entered

Walk test exited

Log cleared

NVM Reset to factory defaults

Time & date changes by user, number signifies code used

Remote device found on bus - number refers to type / ID

Remote device lost on bus - number refers to type / ID

Bell fuse fail / (restore)

Auxiliary fuse fail / (restore)

Battery missing / (restore)

Battery low voltage / (restore)

Mains fail / (restore)

Telephone line fail / (restore)

Remote device has gone missing / been found on bus

Failed to report to central station

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

None

RESTORE

SYSTEM EVENTS

SYSTEM FAULTS

OPEN / CLOSE

td

??

?

O(r)

O(r)

O(r)

O(r)

O(r)

O(r)

O(r)

O(r)

89

LCD Keypad Interpretation Event Log Table:

Entry Exit

Personal Attack

Fire alarm

Alarm Burglary on zone, number signifies zone

Zone tamper

Medical alarm

Tamper

Tamper

Tamper

Tamper

Tamper

Tamper

Tamper

Tamper

Line fail alarm

Omit zone

Device tamper

Zone restore

PA restore

Fire restore

GT restore

Alarm restore

Medical restore

Panel ans tel.

Panel hug tel

Full upload

Full download

Partial upload

Upload complete

Down load

Bad UDL code

UDL code OK

Time + date

LC expected

Zone restore

Personal attack restore

Fire restore

Global tamper restore

Alarm restore

Medical restore Medical restore

Panel answered the telephone

Panel hung up the telephone line

Full data download from panel

Partial upload to panel



Download data from panel complete

Incorrect UDL code

UDL code accepted

Time / Date changed by PC

Local connection expected

Tamper on zone, number signifies zone

Medical alarm number signifies zone, 00 = keypad

Global tamper loop broken

Bell tamper loop broken

Zone expander board not present

Fire detector tamper

Remote device missing caused tamper

Key press tamper

Key press tamper

X X

X

X

Zone name

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

X

User name

X

X

X

Zone name

X

Zone name

Zone number

Zone number

Zone number

Zone number

Zone number

Zone number

User name

User name

User name

User name

User name

XX = device number

Zone number

Zone number

Zone number

Zone number

Zone number

01

02

03

04

05

06

08

09

X

X

X

X

X

X

X

X

X

X

X

X

01 - 32

XX 01 - 99

A remote device has transmitted a tamper

Telephone line fail alarm

Zone omitted, number signifies zone

Remote device auxiliary tamper

Entry / Exit time expired



PRESS ORTO SCROLL THROUGH ALARM TYPES LCD BOTTOM LINE LCD TOP LINE EXPLANATION

UP / DOWN LOADING EVENTS

PRESS THE KEY TO VIEW ZONE NUMBER / USER CODE AND MEANING

90

Armed

Armed

Armed

Armed

Disarmed

Inactivity Arm

Arm depend

Disarm depend

UC after alarm

Bell time end

Power on

Engineer end

Engineer Start

Walk test enter

Walk test end

Log cleared

NVM reset

Time & Date

Device found

Device lost

Bell fuse fail

Aux fuse fail

Battery missing

Battery low

Mains fail

Telephone fail

Device fail

Fail to report

Engineer mode exited

Engineer mode entered

Walk test entered

Walk test exited

Log cleared

NVM reset to factory defaults

Time and date changed, number signifies code used



Bell fuse fail / (restore)

Auxiliary fuse fail / (restore)

Battery missing / (restore)

Battery low voltage / (restore)

Mains fail / (restore)

Telephone line fail / (restore)

Remote device has gone missing / found on bus

Failed to report to central station / (restore)

01 - 32 A User name

User name

User name

User name

User name

X

X

X

User name

01 - 32 B

01 - 32 C

01 - 32 D

01 - 32

01 - 32

X

01 - 32

01 - 32

X X

XX

X X

X

X

X

X

X

X

X

X

X

X

X

X

01 - 32 User name

01 - 64

01 - 64

X (restore)

X (restore)

X (restore)

X (restore)

X (restore)

X (restore)

X (restore)

X (restore)

X

X

X

X

X

X

X

X

Armed in mode A by user, number signifies code used

Armed in mode B by user, number signifies code used

Armed in mode C by user, number signifies code used

Armed in mode D by user, number signifies code used

Unset by user, number signifies code used

Armed due to inactivity timer

Armed due to dependency on other partitions

Disarmed due to dependancy on other partitions

User code after alarm - number signifies user

Bell time expired

Panel powered up

PRESS THE KEY TO VIEW ZONE NUMBER / USER CODE AND MEANING PRESS ORTO SCROLL THROUGH ALARM TYPES

OPEN / CLOSE

RESTORE

SYSTEM EVENTS

SYSTEM FAULTS

LCD BOTTOM LINE LCD TOP LINE EXPLANATION

91

Section 10.2: System Faults & Maintenance

0($1,1*


NOTE: See system faults in the memory log table in Section 10.1 for descriptions of possible faults, which may occur. NVM Reset to factory default

The system may be programmed for two different ways of reset to factory default. Link Only Reset - If the panel is configured by the engineer from System Options - Section 8.5, resetting the system back to factory settings is achieved by powering up the system with the NVM reset pins shorted together.

Proceed as follow: Step 1: Locate the NVM reset pins on the PCB, using the link pin provided connect the two pins together. Step 2: Power down the system (A.C. and D.C. supply). Step 3: Restore power. Three tones will be heard on power up and a further three beeps after approximately 25 seconds. Step 4: Remove the pin when the panel is operating correctly.

Engineer Code and Link Power Up Reset - If the panel is configured by the engineer from System Options – Section 8.5 to do so follow the procedure bellow:

Step 1: From engineer mode locate the NVM reset pins on the PCB without powering down the panel Step 2: Using the link pin provided connect the two pins together Step 3: Enter the procedure from the keypad as indicated bellow in Section 10.2.1. Step 4: Remove the pin when the panel is operating correctly.

This option is used for factory reset when higher security application is required. Programmable outputs test

This option allows the engineer to test the operation of the programmable outputs from engineer mode. Walk test

This function allows the engineer to walk test the system from engineer mode. Scan for devices on the bus

This option must be run every time something is added to the bus. Upon completion of the installation or addition or removal of devices on the KD line the panel must be aware of the changes, otherwise a system fault may occur. This function is automatic and only requires starting by the installer. The keypad, which is being used for Engineer mode will show the current device being checked for, all devices in numeric order, upon finding a device the panel will reset and send the operational information required. Additionally the found device will be entered into the log for later reference, please refer to the log information table. Log information table related to the event table (remote devises on buss ID) device types/Ids: LH digit - Type RH digit - ID Device type 0 1-4 LCD Keypad 1 1-4 LED Keypad 2 1-4 Proximity card reader 3 1-4 4-Way output expander 4 1-4 8-Way output expander

92

5 1-4 8-Zone expander Local Up / Down loading session (RS232)

Local up/downloading can take place via the on-board RS232 port. In order for the panel to see the local PC this function must be started. The panel busy display will be shown on the keypad while the PC is connected to the panel and the devices on the KD line will become totally unusable, this includes all outputs and keypads. If no PC is found or the PC is disconnected the remote devices will recommence operation within 30 seconds.

68 33/<)$8 /7 $50('

3�$�5 ($' <

7$0 3(5

), 5(

' $<

$/$50

��

$ % & '

�� 6(7

)81&

3�$�

),5(

� � � �

� �


10.2.1 Engineer Code NVM Reset to Factory Default

[ ] [751]. Three tones will be heard and a further three beeps after approximately 15 seconds. 10.2.2 Programmable Outputs Test

[ ] [752] Followed by [01]*…[12]*. Enter [ ] button to toggle the state of the output. Enter

[ ] to exit the option and restore outputs, an acceptance tone will be heard.

[1]…[12]* = PGM1 to PGM12, 10.2.3 Walk Test

[ ] [753] Followed by [1]*…[4]*. Enter [ ] to exit the option. [1]*…[4]* = Arm Mode A, B, C, D. 10.2.4 Scan For Devises On the Bus

[ ] [754] to scan for all devices on bus. 10.2.5 Local Up / Down Loading Using RS232 Output

[ ] [755] to initiate Local up/down loading session.

93

Section 11: UDL PC Software Data Management

This section shows how to create groups, customer details, and default records from PC software. Dial options and configuration are also shown in detail.

Section 11.1: Customer Explorer


After entering your name and pass word to enter the P.C. software, you will be presented with the main customer entry screen. In this first screen different groups must be created for all customer details. (Customer details may be edited and copied into different groups from this screen)

0($1,1*


Groups: Groups management - The PC software has two default groups, which are included as examples only. The engineer can divide its customers into different groups as for instance Commercial - Could be used to store commercial customers, or Domestic - Could be used to store domestic customers. Or by cities the customers are based in and etc. Groups are used so that the system can be split up and managed more easily, Groups can be created and named after locations, Panel types, Installation engineers, Dates and customers.

94

Customers: On the right hand side of the main entry screen is a selection of keys for entering customer details from the different groups already created. There are 4 buttons on the tool bar for customers.

This will add a new group and show the group edit screen.

This will edit group and show the group edit screen.

This will add a new group and show the group edit screen.

This will delete a group. You will be prompted for confirmation before the group is deleted, and you cannot delete a group that contains customers, you will need to delete or move customers from the group.

This will add a new customer.

This will delete the currently highlighted customer. You will be prompted for confirmation before the customer is deleted

This will edit the currently highlighted customer and will show the customer edit screen.

The search for customer key will find customer folders

You can display the list as small icons, large icons, List or details. In the example above the customer you do this on does not have to be the one that is highlighted already

95

Section 11.2: Editing Customer Information


From the Customer Explorer Screen first select a group in which new customer details need adding,

then click on to edit the new customer details. The customer details screen will appear. Edit customer details and press save, to save changes.

0($1,1*


Tabs Associated with Customer Details Screen:

Close the screen. If you have made any changes since you last saved then you are prompted to save or discard any changes you made

Saves the current data to the database

Reverts back to the last saved record for the customer

Prints out the customer details. To print out the customer panel details as well use the print on the panel details screen.

Displays the customer history

96

Customer Events: For each customer on the system you can create events that can occur in the future or have already occurred in the past. You can also set a reminder so that you are warned when that event is due to be completed. The customer events are listed on a screen that is loaded when you first run the software. You will find this window minimized in the bottom left corner of the screen.

NOTE: If you close this window then no alarms will be activated.

Add an event for the customer

View all events for the customer

Delete the customer

Displays the panel details for the customer based on the panel type selected

Displays the log for the customers panel based on the panel type selected

Minimize this window. Or if you are viewing events for one customer input screen then this will close this window instead

To print the list of events

97

Section 11.3: Panel details & Dialing The Panel


From the Customer Details screen click on to edit the new programming details for the selected customer from the previous screen. The panel details screen will appear. Edit panel details and press save to save changes.

0($1,1*


Tabs Associated with this screen:

Undo changes.

Minimize this window. Or if you are viewing events for one customer input screen then this will close this window instead

Reverts back to the last saved record for the customer

To print the list of events

Saves the current data to the database

Save changes to a default record tab

98

11.3.1 Normal Dial to the Panel

To perform Normal Dial to the panel press this icon. Before performing this operation the

master user needs to press followed by on a keypad connected to Panel to enable the its digital modem to detect ringing from the PC. The software will not dial the panel immediately but instead will display the following screen:

You can choose not the dial a panel by pressing Cancel. To dial the panel press dial.

Dials directly the panel

Dials a panel in Answer Machine Compatible mode

Hangs up the panel you are connected to.

Get data from a panel. This is only available when you are connected to a panel.

Send data to a panel. This is only available when you are connected to a panel

Send the changes you have made on the database to a panel. This is only available when you are connected to a panel.

Read the panel log

Verify the panel configuration with your database. This is only available when you are connected to a panel

Displays the panel details for the customer based on the panel type selected

Displays time

99

11.3.2 AMC Dial to the Panel:

There are 2 types of Answer Machine Compatible Dialing, Manual and Automatic. Automatic - This will call the panel and then hang up, after a set number of seconds the program will call the panel again. You define how long this is in the Options screen or you can define this for each customer in the Customer Dial Properties screen. Manual - With this you have to hang up manually by pressing a button, after a set number of seconds the program with call the panel again.

Press the “After 1 Ring Press This Button” to hang up the phone. The panel will now wait the set number of seconds and will call the panel again. 11.3.3 Sending Data to a Panel

11.3.4 Getting Data from a Panel

A progress bar is shown on screen showing you how much of the transfer has been completed. If the transfer fails then the program will show an error message. If this happens select the option again. 11.3.5 Verifying Panel Details

Verify - This will download the panel information and check this against what is stored on the PC. The information is displayed in two lists, one showing the differences and one showing all the panel details. Your Reference No -This is a unique code that you enter for the customer. You only enter this when you are adding a customer, once you have saved the customer you cannot change this number. Panel Type -This is a list of available panel types. Select the panel that the customer has. The panel selected here is used when showing the customer panel details. Group -This shows the group that the customer belongs to. You cannot change this on this screen, use Customer Explorer to do this. Title - This is a list containing Mr, Mrs, Miss, Ms, (other). If you select (other) then you can type something else into the (other) input. Forenames and Surname - Enter the customers name in here.

When connected to the panel press on the data to panel button to send data to the panel.

When connected you can send only the changes made to the panel details. Use this if you have only changed a few parameters as it will speed up the upload

When connected, to get data from a panel press on the Data From Panel Button.

This will check the information that the panel holds is the same as the record on the PC

100

Address, Town, County, Postcode - There are 4 line for the address. Additionally there are separate fields for Town, County and Postcode. Telephone Number - This is the customers phone number. Panel Telephone Number - This is the telephone number that the panel is on. This is used when you dial the panel. Dial Properties - This allows you to set individual dialing properties for AMC Dialing etc. See Dial Properties for more information. Keyholders, Telephone Numbers - There is room to enter 3 keyholders with telephone numbers. Notes - Any additional information about a customer can be entered in this field. If the double-click the mouse button on this it will open up onto a new bigger window.

101

Section 11.4: Modem Settings


From the Main screen click on “Tools” and then on “Options” to edit the new modem settings. The panel “Options” screen will appear. Edit “Options” and press save to save changes.

0($1,1*


11.4.1 Configuring Communications Options

Modem Port - Select either Com 1, Com 2, Com 3 or Com 4. See your modem settings in Windows to find out which port your modem is attached to. Modem DTE - This is the speed that your modem talks to your computer at. If you have a fast modem 28.8k or above then set this to 9600, if you have a slow modem then set this to 300. If your modem is only capable of 300 baud then the DTE should be set to 300 baud as your modem will not talk to your computer/faster. Init Modem On Startup - This will attempt to initialise your modem every time you start your software. If your modem has not been initialised at startup this will be done when you try and dial a panel. Listen To Modem When Connected - This will let you hear the noises being made by the communication between panel and computer when you are connected. Normally when you use a modem you will hear the modem dial and connect but then you will not here anything more. If you select this option the modem will continue to make noises whilst connected. Fast Carrier Detect (Matrix Panels Only) - As a general rule if you have a Rockwell based modem then uncheck this option and if you have a US Robotics modem then check this option. If you find you are having connection problems then it is better to have this option unchecked but upload/download will be slower. PC Wait Time (Atlas Panels Only) - This is a value from 0 to 10. This will help a PC with a non US Robotics modem communicate with a panel when connecting to an Atlas panel on a bad telephone line

102

which may have a long settling time. The default value is 0, if you cannot connect to the panel then increment this value by 1 until you can connect to the panel. On a good telephone line this value can be left alone as it will work for all panels. This value is also useful if you have a slow or fast PC, you are using Windows 3.1x or Windows 95/98 and you are not using the recommended US Robotics modem. This option only applies to the Atlas 4, 8 or 8+ panels. ATS10=255 Compatible Modem - Most new modems do not allow the S register 10 to be set to 255, see your modem manual for a description of what the S10 register does. Set this option if you are connecting to an Atlas panel and you find that the PC hangs up after around 25 seconds. The new range of panels to not require this option to be set. If you buy a new US Robotics modem like a 56k Fax modem (modem 5630) you will need to check this option. Modem Initialization String - This is any additional AT commands that you need to use in order for your modem to work. The default is ATZ0 which uses profile 0 of your modem. See your modem manual for more information on AT commands. With some modems is recommended to use ABT string too. Direct Connection - If you are connecting to a panel via an RS-232 cable then set the com port. Proximity Reader Connection - If you are connecting to a PC the MX PROX this option enables you to set the communication port of the PC to use with the MX PROX. 11.4.2 Configuring Dial Options

Dial Type - Select whether your phone line uses pulse or tone dialing. Dial Timeout -The timeout occurs when the software has been unable to connect with a panel (e.g.when engaged). It is advised that you do not go under 20 seconds for this timeout and not above 60 seconds. Answer Machine Compatible (AMC) Dialing - There are two types of AMC Dialing, Automatic and Manual Automatic - The software will dial the panel twice. After dialing the first time the software will hang up, wait a few seconds and dial again. Hang-up after - This is the number of seconds the software will wait after dialing the number before it hangs up. Redial after - This is the number of seconds the software will wait before dialing the number again. It is recommended that you leave this at the default value of 10 seconds.

103

11.4.3 Configuring Dial Back Options

Dial back number - This is the number that the panel is going to dial. Answer Tone Time - This is in seconds from 1 to 51. This is how long the panel will wait for the PC to answer after dialing. Answer Machine Compatible (AMC) Dialing - There are 2 types of AMC dialing, Automatic and Manual Wait for panel to dial for - This is in minutes and seconds. This is how long the PC will wait before timing out. 11.4.4 Configuring Keypad Display Options

You can select what colors the RKP is displayed in. Select the part of the keypad from the drop down list. This part of the keypad is also displayed on the screen as well.

104

11.4.5 Configuring Computer Network Options

This will allow you to permanently use another database. This could be a directory on a network so that multiple PCs can share the same customer information. If you setting this up for the first time then follow steps 1 to 5. If you have already setup networking on the PCs then only do steps 2 and 4. Create directory on Network - Using Windows Explorer create a directory on your network. Make sure that all the people who are going to use the software have access to use the directory that you have created. You can call the directory anything you want. Select the directory in the options screen - Either enter the directory path in the text box or press Browse to select the correct drive on your network. Copy database to the Network - Press on the button Copy Database To Network. Restart Software - Exit the software and then restart. Giving other PC access to the network - To setup other PCs on your network for this feature then repeat Steps 2 and 4 on that PC. 11.4.6 Configuring Other Options

105

Print out every time you save - Select this to get a print out when you save a record. Adjust time in Atlas 8 plus log - Will follow the clocks going backwards and forwards by adjusting times by 1 hour. This is done based on UK time. Auto save Details before a Data to Panel - This will save the details you are working on before the data is sent. If there is a problem with the data then the data is not sent. If you have Printing turned on and you get a Printer Error then the data is still sent. Warn about incomplete customer details when saving - When you are editing customer information you do not need to enter data for all the fields. With this option check you are warned about any fields that you have not entered, to stop this message appearing then uncheck this option. Check the Pending customer events every - You can enter a value from 0 to 60 minutes. This will display any events stored for a customer that are due to be actioned, see Events Overview for more information. Enter a value of 0 (zero) to turn this feature off.

106

Section 12: Useful Wiring Diagrams & Applications

Section 12.1: Matrix 832 PCB Explanation

0($1,1*

17V The Matrix 832 requires a 17Vrms, 21VA transformer or 18Vdc 1.25 A supply unit. (Connect

the 17V supply to the terminals as illustrated). +BAT- In order for the Matrix 832 to operate without mains power, the backup battery is required. B+ Positive supply to the Bell (Protected by a 1Amp fuse) B- Negative supply to Bell. BT Bell Tamper – Negative Tamper return from the Bellbox (Normal condition connected To OV) GT Global tamper negative tamper return (Normal condition connected to 0V) NC To be used with RELAY version of panel C To be used with RELAY version of panel PR1 Relay - 2A, 24V change over, contacts. PR2 250mA open collector output. PR3 250mA open collector output. PR4 10mA current sink (Current limited to 50mA) RS-232 Connection to computer serial port via a pyronix RS-232 cable (RCON095) KD Keypad data line to be connected to KD terminals on all keypads / expanders on the system. Z1 Programmable Zone. COM Common connection for zones (Ov).

NC C

Bell Fuse 1Amp

Aux fuse 1Amp

AC fuse 2 Amp

Spade Terminal - For lightning protectionConnect to mains supplyterminal block

Gas DischargeTube

NVM Reset

RS232

RS232 - Connection to computer serial portvia a pyronix RS-323 cable (RCONO95)

Relay

107

Z2 Programmable Zone. Z3 Programmable Zone. COM Common connection for zones (Ov). Z4 Programmable zone. +AUX- Auxilary supply for detectors, keypads etc (Protected by a 1Amp fuse) Z5 Programmable zone. COM Common connection for zones (Ov). Z6 Programmable zone. Z7 Programmable zone. COM Common connection for zones (Ov). Z8 Programmable zone. RING Connections to analogue PSTN telephone line. TIP To be connected directly to the telephone line. R1 Series connection of telephone line. T1 To be connected to remaining telephone line equipment within the installation. Fuse Protection: Bell fuses = 1Amp Aux fuse = 1 Amp AC fuse = 2 Amp

108

Section 12.2: Matrix 424 PCB Explanation

0($1,1*

17V The Matrix 832 requires a 17vrms, 21VA transformer or 17vdc 1.25 A supply unit. (Connect the

17V current to the terminals as illustrated) +BAT- In order for the Matrix 832 to operate without mains power the backup battery is required. B+ Positive supply to the Bell (Protected by a 1Amp fuse) B- Negative supply to Bell. NC To be used with RELAY version of panel C To be used with RELAY version of panel PR1 High Current Programmable Output 500mA open collector output. PR2 250mA open collector output. PR3 250mA open collector output. PR4 10mA current sink (Current limited to 50mA) RS-232 Connection to computer serial port via a pyronix RS-232 cable (RCON095) KD Keypad data line to be connected to KD terminals on all keypads / expanders on the system. Z1 Programmable Zone. COM Common connection for zones (0v) Z2 Programmable Zone. +AUX- Auxilary supply for detectors, keypads etc (Protected by a 1Amp fuse)

NC C�%(//�

Bell Fuse 1Amp

AC fuse 2 Amp

RS232

109

Z3 Programmable Zone. COM Common connection for zones (0v) Z4 Programmable zone. RING Connections to analogue PSTN telephone line. TIP To be connected directly to the telephone line. R1 Series connection of telephone line. T1 To be connected to remaining telephone line equipment within the installation. Fuse Protection: Aux fuse = 1 Amp AC fuse = 2 Amp

110

Section 12.3: Matrix Zone Expanders

12.3.1 Local plug on 8 zone expander

MX-IX 16Connection for MX-IX 16

+ AUX-

+ AUX-

Z5

Z1

Z6

Z2

Z7

Z3

Z8

Z4

CO

MC

OM

CO

MC

OM

Z9

Z13

Z14

Z15 Z16

Z10

Z11

Z12CO

MC

OM

CO

MC

OM

+AUX-

+AUX-

NC C

Bell Fuse 1Amp

Aux fuse 1Amp

AC fuse 2 Amp

NVM Reset

RS232

+ AUX-

+ AUX-Z

5Z

1

Z6

Z2

Z7Z3

Z8

Z4

CO

MC

OM

CO

MC

OM

Z9

Z1

3

Z1

4

Z15 Z16

Z10

Z11

Z12

CO

MC

OM

CO

MC

OM

+AUX-

+AUX-

The MX-IX 16 should be connected to the Matrix PCB as illustrated�

111

Section 12.4: Matrix PGM Expanders

12.4.1 Remote (bus) PGM Relay Expander

NC = Normally Closed C = Common NO = Normally open The ROX8R is an additional feature to the Matrix panel, which will enable all 12 programmable outputs on the matrix panel to be used. (Internal sounders, smoke detectors may be connected to the output expander. See cabling restrictions in section 4 for the KEN values, which may be used with the output expander. NOTE: The relay output expander provides voltage free change over contacts. (This is more flexible and can isolate the circuit from the system) . When Connected initiate scan for devises

on the bus .

NC C

NVM Reset

NC

NC

NC

NC

12

7

10

65

11

8

9

NC

NC

NC

NC

N0

N0

N0

N0

N0

N0

N0

N0

C

C

C

C

C

C

C

C

K-

KD

K+

T T

RE

LAY

RE

LAY

RE

LAY

RE

LAY

RE

LAY

RE

LAY

RE

LAY

RE

LAY

Tam

per

switc

h

�$ % & '

� � �

� � � �

� �

��

KT

KT

R K-

KD

K+

Relay

NC

NC

NC

NC

12

7

10

65

11

8

9

NC

NC

NC

NCN

0

N0

N0

N0

N0

N0

N0

N0

C

C

C

C

C

C

C

C

K- KD K+ T T

RELAY RELAY

RELAY RELAY

RELAY RELAY

RELAY RELAY

112

12.4.2 Remote (bus) Transistor PGM Expander

The ROX8T is an additional feature to the Matrix panel, which will enable all 12 programmable outputs on the matrix panel to be used. (Internal sounders, smoke detectors may be connected to the output expander. See cabling restrictions in section 4 for the KEN values, which may be used with the output expander. NOTE: The relay output expander provides voltage free change over contacts. (This is more flexible and can isolate the circuit from the system) . When Connected initiate scan for devises

on the bus .

10

12

68

57

911

NC

NC

NC

NC

N0

N0

N0

N0

PR

PR

PR

PR

CC

CC

CC

CC

K- KD K+ T T

PR

PR

PR

PR

NC C

NVM Reset

�$ % & '� � �

� � � �

� �

��

KT

KT

R K-

KD

K+

10 12

6 85 7

9 11

NC NC

NC NC

N0 N0

N0 N0PR PRPR PR

C C

C C

C C

C C

K-

KD

K+

T T

PR PRPR PR

Relay

113

Section 12.4: Matrix PGM Expanders

12.4.3 Remote (bus) PGM Input expander

Headers 1. Both headers on = All 8 zones are active (Device number 61 is indicated on the log table) 2. One header on = Only half the zones work

(Device number 51 is indicated on the log table for zones 9 to 12) (Device number 52 is indicated on the log table for zones 13 to 16)

LED’S An LED illuminates to show which zones are active, the corresponding LED flashes when the set of zone has successfully found by the Matrix. Note: The Matrix panel cannot support more than 16 real zones, so if a local expander is fitted remote expanders will be ignored, conversely if a remote expander is present the local expander will be ignored. When changing between local or remote on an already installed system, it is better to remove all the zone expanders, local or remote and perform a scan, then add the expander and perform another scan. This way the Matrix control panel will reliably detect the expander. Note: When up / down loading the Matrix panel will stop talking to the input expander, and because there is no communication, the fault light will start flashing. The Remote Input Expander NOTE: The relay output expander provides voltage free change over contacts. (This is more flexible and can isolate the circuit from the system) . When Connected initiate scan for devises

on the bus .

.��

.�'

.�� 77

=�

&20

=��$8;�

=��

&20

=��

=��

�$8;�

&20

=��

=��

=��

&20

ON

ON

ON

OFF

OFF

FAULT

OFF

114

Section 12.5: Keypads & Proximity Readers Connections

12.4.1 Connecting Single Keypad

12.4.2 Connecting Multiple Keypad (Daisy Chain)

KT

KT

R K-

KD

K+

NC C

NVM Reset

ON

1 2

RKP1

LED Keypad

17v A.C.Input

+ -

BAT

�$ % & '

� � �

� � � �

� �

��

Relay

Keypads wired in daisy chainconfiguration.

Each of the 4 Matrix keypads may be connected as illustrated.

KT

KT

KT

RK

TR

K-

K-

KD

KD

K+

K+

LED KEYPAD

LED KEYPAD

LED KEYPAD

LED KEYPAD

KT

KT

KT

RK

TR

K-

K-

KD

KD

K+

K+

NC C

NVM Reset

17v A.C.Input

+ -

BAT

RKP 1

RKP 4

RKP 2

�$ % & '

� � �

� � � �

� �

��

Relay

115

12.4.3 Connecting Multiple Keypad (Star Configuration)

12.4.4 Connecting Proximity Readers

13.7 13.8 13.9 13.10 13.11 13.12 13.13 13.14 13.15 13.16 13.17 13.18 13.19 13.20 13.21 13.22 13.23 13.24 13.25 13.26 13.27 13.28 13.29 13.30 13.31 13.32 13.33 13.34 13.35 13.36 13.37

KT

KT

KTR

KT

RK-

K-

KD

KD

KD

KD

AU

X-

AU

X-

AU

X-

AU

X+

AU

X+

AU

X+

KDK+

K+

LED KEYPAD LED KEYPADLED KEYPAD LED KEYPAD

KT

KT

KT

R

KT

RK-

K-

KD

KD

GT

K+

K+

Keypads wired in starconfiguration.

Each of the 4 Matrix keypads may be connected as illustrated.

NC C

NVM Reset

17v A.C.Input

+ -

BAT

RKP 1 RKP 4RKP 2

�$ % & '

� � �

� � � �

� �

��

Relay

KT

KT

R K-

K-K-

KD

KD

KD

K+

K+K+

NC C

NVM Reset

17v A.C.Input

+ -

BAT

�$ % & '

� � �

� � � �

� �

��

��

ID 1ID 3ID 1

Relay

Note: See 7.1.1 for proximity reader ID settings.

116

Section 12.6: Digital Communicator Connections

NC C

NVM Reset

17v A.C.Input

+ -

BAT

Telephone Network

Rest ofPremises

Relay

117

Section 12.7: Zones Wiring Diagrams

12.7.1 Zone Doubling

12.7.2 Double End Of Line Resistors

+ N / C T T + N / C T T

4K7

NC C

NVM Reset

17v A.C.Input

+ -

BAT

2K2 +AUX-+AUX-

Zone 17 Zone 1 Magnum UltraMagnum Ultra

Relay

Any unused zones should be linked by a 2k2 resister

2K2 4K7

Spare Alarm

C N

MAGNET

PERSONAL ATTACK BUTTON

For door Contact

+AUX-

2K2 4K7

Spare C N

+ N / C T T+ N / C T T

+AUX-2K2

4K7

2K2

4K7

NC C

NVM Reset

17v A.C.Input

+ -

BAT

2K2

2K2

2K2

2K2

Zone 7 Zone 8Magnum Ultra Magnum Ultra

Relay

See section 7.4 zone types for complete explanation of zone doubling.

118

12.7.3 Normally Closed Zones

NC C

NVM Reset

17v A.C.Input

+ -

BAT

+AUX-

+ N / C T T+ N / C T T

+AUX-

Spare CN

Zone 7� Zone 8Magnum Ultra

Relay

119

Section 12.8: Programmable Outputs Connections

12.8.1 Belle Connection to Matrix

12.8.2 Decibell Connection to Matrix

B-

B+

BA

ST

B

SP

AR

E

BT

TF

BELLE

IMPORTANT

The Belle may be connected / programmed using different programmable outputs.

In this instance Pr1 is programmed as “Follow Bell”and Pr3 is programmed as “Strobe” - See section 5.11

Pr1 = BA = BELL OUTPUTPr3 = STB = STROBE TRIGGER

NC C

NVM Reset

17v A.C.Input

+ -

BAT

Relay

BA

ST

B

TF

BT

B-

B+

DECI BELL

IMPORTANT

The Deci-Bell may be connected / programmed using different programmable outputs.

In this instance Pr2 is programmed as “Follow Bell”and Pr4 is programmed as “Strobe” - See section 5.11

Pr2 = BA = BELL OUTPUTPr4 = STB = STROBE TRIGGER

NC C

NVM Reset

17v A.C.Input

+ -

BAT

Relay

120

12.8.3 Twin Alert Connection to Matrix

12.8.4 Vocaliser Connection to Matrix

TWIN ALERT

IMPORTANT

Twin Alert must be connected to Matrix panelas illustrated.PR3 must be programmed as Twin Alert

In this illustration Pr1 should be programmed as‘follow bell’

See section 7.11

NC C

NVM Reset

17v A.C.Input

+ -

BAT

T T BA

SP

K

AU

X-

AU

X+

Relay

To Tamper Loop IMPORTANT

See Vocaliser User guide for completeVocaliser programming options.

In this instance programmableoutputs are programmed as follows

Pr1 = “Follow Bell”Pr2 = “Follow PA”Pr3 = “Follow Fire”Pr4 = C+

See section 5.11

NC C

NVM Reset

1234AB TT

FLT

AC

K

12V

0V+BAT-

SP

KM

-M

+

A1

B1

MIC

17AC

Vocaliser Connectionswith 4 programmable outputs

Relay

121

12.8.5 Two Wire Fire Detectors Connection to Matrix

12.8.6 Four Wire Fire Detectors Connection to Matrix

IMPORTANT2 wire fire detectors must only be connected to Pr4.

Pr4 should be programmed as 2 wire fire detectorSee section 5.1112V, 2 wire fire detectors

2 WireSmoke

2 WireSmoke

2 Wire Heat

1K

NC C

NVM Reset

17v A.C.Input

+ -

BAT

- - -

+ + +

Relay

4k7

-

-

+

+

C

C

N

N

Spare

2k2

IMPORTANT

4 Wire Smoke Detectors

Zones are programmed as fire

See section 5.5

DOUBLE POLE EXAMPLE

NC C

NVM Reset

17v A.C.Input

+ -

BAT

Relay

122

12.8.7 Buzzer, LED & any Siren Connection to Matrix PGM

Section 12.9: Partition Management

12.9.1 Example 1

The following example represents an office area with 3 independent departments and 1 reception common area.

Common Area

Proximity Reader

Key

pad

4K

ey p

ad 1

Key pad 3

Key pad 2

Area 3Independant

Area 3Independant

Area 3Independant

NC C

NVM Reset

17v A.C.Input

��9�%8==(5

-

-

+

+

IMPORTANTBuzzer and LED may be connected to any of the programmable zones.

Siren must be connected to Pr1 500mA

Siren

10.16

1K

A(+)

C(-)

LED

A(+)

C(-)

10.17

10.18

+AUX-

Relay

123

Area 1 = partition 1 = independent User Code 1 - Limited User - operative only in partition 1 User Code 2 - Limited User - operative only in partition 1 User Code 3 - Limited User - operative only in partition 1 User Code 4 - Limited User - operative only in partition 1 User Code 13 - MASTER USER - operative in partitions 1, 2, 3, 4 Keypad 1 - Allocated only to this partition (no system faults display, private) Area 2 = partition 2 = independent User Code 5 - Limited User - operative only in partition 2 User Code 6 - Limited User - operative only in partition 2 User Code 7 - Limited User - operative only in partition 2 User Code 8 - Limited User - operative only in partition 2 User Code 13 - MASTER USER - operative in partitions 1, 2, 3, 4 Keypad 2 - Allocated only to this partition (no system faults display, private) Area 3 = partition 3 = independent User Code 9 - Limited User - operative only in partition 3 User Code 10 - Limited User - operative only in partition 3 User Code 11 - Limited User - operative only in partition 3 User Code 12 - Limited User - operative only in partition 3 User Code 13 - MASTER USER - operative in partitions 1, 2, 3, 4 Keypad 3 - Allocated only to this partition (no system faults display, private) Area 4 = partition 4 = common partition / area User Code 13 - MASTER USER - operative in partitions 1, 2, 3, 4 User Code 14 - Temporary Patrol/Cleaner Code - operative only in partition 4 User Code 15 - Duress Code - operative only in partitions 1, 2, 3, 4 and given to all users User Code 16 - Arm / Disarm Only Code - operative only in partition 4 - given to all department managers to arm / disarm reception area only Keypad 4 - Allocated to partitions 1, 2, 3, 4 - Any of the departments could be armed / disarmed by using this keypad (display system faults, commune) Proximity Reader - Allocated to partitions 1, 2, 3, 4 - Any of the departments could be armed / disarmed by using this keypad (commune) In this example when a user from department 1 comes to work he should disarm first the reception area with Code 16 (This code normally would be given to department managers only). Then with Code 1, 2, 3 or 4 the user/s would disarm department 1, the same picture: 12.9.2 Example 2

The following example represents 3 independent flats with 1 lobby common area. Area 1 = partition 1 = independent User Code 1 - MASTER USER - operative only in partition 1 User Code 2 - Limited User - operative only in partition 1 User Code 3 - Limited User - operative only in partition 1 User Code 4 - Limited User - operative only in partition 1 User Code 16 - Temporary Cleaner - operative only in partition 1 Keypad 1 - Allocated only to this partition (system faults display, private) Area 2 = partition 2 = independent User Code 5 - MASTER USER - operative only in partition 2 User Code 6 - Limited User - operative only in partition 2

124

User Code 7 - Limited User - operative only in partition 2 User Code 8 - Limited User - operative only in partition 2 Keypad 2 - Allocated only to this partition (system faults display, private) Area 3 = partition 3 = independent User Code 9 - MASTER USER - operative only in partition 3 User Code 10 - Limited User - operative only in partition 3 User Code 11 - Limited User - operative only in partition 3 User Code 12 - Limited User - operative only in partition 3 Keypad 3 - Allocated only to this partition (system faults display, private) Area 4 = partition 4 = common partition / area User Code 1 - MASTER USER - operative only in partition 1 User Code 2-3-4 - Limited User - operative only in partition 1 User Code 16 - Temporary Cleaner - operative only in partition 1 User Code 5 - MASTER USER - operative only in partition 2 User Code 6-7-8 - Limited User - operative only in partition 2 User Code 9 - MASTER USER - operative only in partition 3 User Code 10-11-12 - Limited User - operative only in partition 3 User Code 13 - Duress Code - operative in partitions 1, 2, 3 and 4 User Code 14 - Temporary Cleaner Code - operative only in partition 4 User Code 15 - Temporary Patrol Code - operative only in partition 4 Keypad 4 - Allocated to all partitions - Any of the flats could be armed / disarmed by using this keypad (no display system faults, commune) Proximity Reader - Allocated to all partitions - Any of the flats could be armed / disarmed by using this reader (commune) WHEN FLAT 1, FLAT 2, FLAT 3 ARMED IN AWAY MODE THE LOBBY / COMMON AREA WILL ARM AUTOMATICALLY.

125

Section 13: Quick Engineer Programming Procedures Guide

= SYSTEM OPTION 1 Page 36

= SYSTEM OPTION 2 Page 36

= ZONE TYPES Page 40

= ZONE CONFIGURATION Page 40

= ZONE NAMES PROGRAMMING FROM Page 42 LCD KEYPAD

= USER CODE PARTITION ALLOCATION Page 46

= USER CODE ATTRIBUTES Page 46

= USER CODE MAX COUNTER Page 46

= KEYPAD PARTITION ALLOCATION Page 49

= PRIVATE MODE Page 49

= LCD KEYPAD PARTITION ALLOCATION Page 50

= LCD PRIVATE / PUBLIC MODE Page 50

= CHANGE LABEL MESSAGES ON LCD Page 51 KEYPAD

= ALLOCATION LABEL NUMBER TO Page 53 MESSAGE DISPLAYED IN DISARM MODE

= ALLOCATION LABEL NUMBER TO Page 53 MESSAGE DISPLAYED IN ARMED MODE

= SET CONTRAST ON LCD KEYPAD Page 54

= PROXIMITY READER ALLOCATION Page 55

= PROXIMITY READER PRIVATE / Page 55 PUBLIC MODE

= CHANGE DEFAULT LANGUAGE ON Page 55 LCD KETPAD

= SYSTEM FAULTS WARNING Page 56 PARTITION ALLOCATION

= TAMPER ALARMS WARNING PAGE 56 PARTATION ALLOCATION

= PARTITION OPTIONS 1 Page 59

= PARTITION OPTIONS 2 Page 59

126

= EXIT TERMINATOR TYPE FOR ARM A Page 62

= EXIT TERMINATOR TYPE FOR ARM B Page 62

= EXIT TERMINATOR TYPE FOR ARM C Page 62

= EXIT TERMINATOR TYPE FOR ARM D Page 62

= HOME AND AWAY ALLOCATION Page 63

= PARTITION DEPENDANCY Page 63

= KEYSWITCH ZONE ARM MODE CONF Page 63

= NUMBER OF RE-ARMS Page 63

= BELL TIME Page 66

= BELL DELAY TIME Page 66

= ENTRY TIME Page 66

= EXIT TIME Page 66

= FINAL EXIT TIME Page 66

= AUTO ARM TIME OF EVERY DAY Page 66

= INACTIVITY AUTO ARM Page 67

= A.C FAIL REPORT DELAY Page 67

= TELEPHONE FAIL REPORT DELAY Page 67

= SECONDS IN LAST MINUITE OF THE DAY Page 67

= PGM POLARITY Page 70

= ZONE TO FOLLOW IN PARTITION Page 70

= PROGRAMMING ACCOUNT CODES Page 74

= PROGRAMMING UP / DOWN LOADING CODE Page 74

= TELEPHONE LINE OPTIONS Page 74

= TEST DIAL TIME Page 74

= TEST DIAL INTERVAL Page 74

= TELEPHONE NUMBER 1 ALLOCATION Page 75



= TEST DIAL SEQUENCE Page 75

= TELEPHONE NUMBER PROGRAMMING Page 79

= DISARMED MODE SEND OPTIONS Page 82

= ARM A SEND OPTIONS Page 82

= ARM B SEND OPTIONS Page 82

= ARM C SEND OPTIONS Page 83

= ARM D SEND OPTIONS Page 83

127

= EVENTS RESTORL SEND OPTIONS Page 83

= ALLOCATING TELEPHONE NUMBERS Page 83 TO ALARM TYPES

= RESETTING OF THE EVENT LOG Page 86

.= ENGINEER CODE NVM RESET Page 90

= OUTPUT TEST Page 90

= WALK TEST Page 90

= SCAN FOR DEVICES ON BUS Page 90

= LOCAL UP / DOWN LOAD Page 90

Documents

˙ Œ - Krypto Security · and design, Pyronix reserve the right to amend specifications without giving prior notice. A copy of our warranty can be obtained from the above address