1 / 46

BOOT MODE 1

6. ENABLE COMM FAIL RELAY CONTROL. 1. RUN MODE 1. 7. RELAY OFF / ON COMM FAIL. 2. RUN MODE 2. 1. RUN MODE 1. 1. BOOT MODE 1. 2. RUN MODE 2. 2. BOOT MODE 2. 3. BIOS COMMUNICATION. 4. DEFAULT CONTROLLER. 1. RUN MODE 1. 2. RUN MODE 2. ENABLE COMM FAIL RELAY CONTROL.

Download Presentation

BOOT MODE 1

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. 6 ENABLE COMM FAIL RELAY CONTROL 1 RUN MODE 1 7 RELAY OFF / ON COMM FAIL 2 RUN MODE 2 1 RUN MODE 1 1 BOOT MODE 1 2 RUN MODE 2 2 BOOT MODE 2 3 BIOS COMMUNICATION 4 DEFAULT CONTROLLER 1 RUN MODE 1 2 RUN MODE 2 ENABLE COMM FAIL RELAY CONTROL RELAY OFF / ON COMM FAIL DRM MODULE ENABLED 1 RUN MODE 1 INVERT RELAY OPERATION 2 RUN MODE 2 5 6 3 7 ADDRESS 1 4 8 5 INVERT RELAY OPERATION 8 DRM MODULE ENABLED RELAYS NOT INVERTED DRM MODULE DISABLED 5 INVERT RELAY OPERATION 8 DRM MODULE ENABLED RELAYS INVERTED DRM MODULE ENABLED

  2. 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 ADDRESS 1FLOOR 1 TO 16 ADDRESS 2FLOOR 17 TO 32 ADDRESS 3FLOOR 33 TO 48 ADDRESS 4 FLOOR 49 TO 64 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 ADDRESS 5 FLOOR 1 TO 16 ADDRESS 6 FLOOR 17 TO 32 ADDRESS 7 FLOOR 33 TO 48 ADDRESS 8 FLOOR 49 TO 64

  3. 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 ADDRESS 9 ADDRESS 10 ADDRESS 11 ADDRESS 12 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 ADDRESS 13 ADDRESS 14 ADDRESS 15 ADDRESS 16

  4. +12V AUX 16VAC 40VA MAX TRANSFORMER50/60Hz 40VA MAX LED MAINS INPUT AC AC B+ B- ST TP TP AC AC B+ B- ST TP TP 1K5 OHM

  5. TP TP F+ F- AC AC B+ B- ST TP TP 4Ah (MIN)GEL CELL BACKUP BATTERY N+ N- NA NB FIRE CONTROLSYSTEM 12 - 32VDC6 - 21mA TO NEXTELEVATORCONTROLLER

  6. N+ N- NA NB N+ N- NA NB N+ N- NA NB CONTROLLER 12V 0V B- A+ EOL ON

  7. S+ S- SA SB N+ N- NA NB TO FIRST SLAVE FLOORCONTROL MODULE.PRT-PX16 IN FLOORCONTROL MODE. TAMPER SWITCH N+ N- NA NB TP TP NETWORK COMMUNICATIONSINPUT FROM SYSTEMCONTROLLER OR PREVIOUSPROTÉGÉ SYSTEM MODULE

  8. NO COM NC RELAY 1 NO COM NC RELAY 1 FLOOR SELECT BUTTONIN ELEVATOR CAR FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM NORMAL CONNECTION REMOVED LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROL SYSTEM FLOOR SELECT BUTTONIN ELEVATOR CAR FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM NORMAL CONNECTION REMOVED LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROL SYSTEM

  9. + IN1 - + IN2 - NO COM NC RELAY 1 BUTTON VOLTAGECOMMON IN ELEVATORCONTROL SYSTEM INPUTS ON THE DRMDAUGHTER BOARD FLOOR SELECT BUTTONIN ELEVATOR CAR FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM RELAY CONTACTSON THE MAIN ELEVATOR CONTROL BOARD SEE TEXT LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROL SYSTEM NORMAL CONNECTION REMOVED

  10. + IN1 - + IN2 - NO COM NC RELAY 1 BUTTON VOLTAGECOMMON IN ELEVATORCONTROL SYSTEM INPUTS ON THE DRMDAUGHTER BOARD FLOOR SELECT BUTTONIN ELEVATOR CAR FLOOR INPUT TERMINALSIN ELEVATOR CONTROL SYSTEM SEE TEXT RELAY CONTACTSON THE MAIN ELEVATOR CONTROL BOARD NORMAL CONNECTION REMOVED LOOP TERMINAL ADDED BYELEVATOR COMPANYLOCATED IN ELEVATOR CONTROL SYSTEM

  11. + IN1 - + IN2 - POWER CONNECTOR ON MAIN ELEVATOR CONTROL BOARD AC AC B+ B- + - ST INPUTS ON THE DRMDAUGHTER BOARD

  12. EOL EOL EOL ON EOL OFF 350mA 350mA 700mA 700mA FIRE FIRE OVERRIDE OVERRIDE

  13. 1 ADDRESS 1 2 ADDRESS 2 3 ADDRESS 4 4 ADDRESS 8 5 ADDRESS 16 6 ADDRESS 32 7 ADDRESS 64 8 SPECIAL FUNCTION 1 ADDRESS 1 1 ADDRESS 1 1 ADDRESS 1 2 ADDRESS 2 2 ADDRESS 2 2 ADDRESS 2 3 ADDRESS 4 3 ADDRESS 4 3 ADDRESS 4 4 ADDRESS 8 4 ADDRESS 8 4 ADDRESS 8 5 ADDRESS 16 5 ADDRESS 16 5 ADDRESS 16 6 ADDRESS 32 6 ADDRESS 32 6 ADDRESS 32 7 ADDRESS 64 7 ADDRESS 64 7 ADDRESS 64 8 SPECIAL FUNCTION 8 SPECIAL FUNCTION 8 SPECIAL FUNCTION

  14. N+ N- NA NB N+ N- NA NB N+ N- NA NB PC OR HOST CONTROLSYSTEM CONNECTED TOA ACC-485 SERIAL INTERFACE +12 0V A+ B- EOL OFF EOL OFF EOL ON

  15. TP TP F+ F- AC AC B+ B- + - ST 7.5AhGEL CELL BACKUP BATTERY N+ N- NA NB FIRE CONTROLSYSTEM 12 - 32VDC6 - 21mA TO NEXTIRC RELAYCONTROLLER

  16. N+ N- NA NB TP TP F+ F- FROM PREVIOUS CONTROLLER TO NEXT IRC CONTROLLER TAMPER SWITCH

  17. COLD WATER PIPE GROUNDINGEARTH PEG GROUNDING ROD TO OTHER EARTHCONNECTIONSALREADY ATTACHEDTO THE EARTH PEG ORWATER PIPE AC AC B+ B- ST TP TP MIN AWG#14SINGLE SOLIDCONDUCTORCOPPER WIRE

  18. N+ N- NA NB N+ N- NA NB N+ N- NA NB MODULE OR CONTROLLERSUPPLYING POWER TONETWORKED DEVICES AUX+ AUX- NEXT MODULESON NETWORK

  19. N+ N- NA NB N+ N- NA NB S+ S- SA SB READER EXPANDER SUPPLYING NETWORKPOWER AUX+ AUX- SLAVE DEVICES CONNECTED TO THE READER EXPANDER SLAVECOMMUNICATION INTERFACE USETHE N+, N-, NA AND NB TERMIANLS. NEXT FLOORCONTROL MODULE

  20. CONNECT THE READERSHIELD TO A SUITABLEEARTH POINT.DO NOT CONNECT THE SHIELD TO A GROUND ORNEGATIVE CONNECTION. - + POWER SUPPLY 12VDC PRX-NANO NANO PROXPROXIMITY READER SHIELD +12V RED 0V BLACK DATA 0 GREEN DATA 1 + - D0 D1 L1 L2 BZ WHITE GREEN LED ORANGE RED LED BROWN BEEPER BLUE YELLOW YELLOW OUTPUT CARD PRESENT SIGNAL FACTORY OPTION PRX-SAMREADER CONNECTION

  21. SHIELD ENTRY UNIT READER #1 INPUT CONNECTION +12V RED 0V BLACK DATA 0 GREEN DATA 1 + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 WHITE GREEN LED BROWN RED LED ORANGE READER #2 INPUT CONNECTION BEEPER BLUE SHIELD EXIT READER RED BLACK GREEN DATA 1 + - D0 D1 L1 L2 BZ R2 R2 R2 R2 R2 R2 R2 WHITE BROWN ORANGE BLUE

  22. SHIELD +12V RED 0V BLACK DATA 0 GREEN DATA 1 + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 WHITE GREEN LED BROWN RED LED ORANGE BEEPER BLUE SHIELD +12V RED 0V BLACK DATA 0 GREEN DATA 1 + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 WHITE GREEN LED BROWN RED LED ORANGE BEEPER BLUE

  23. - + POWER SUPPLY12VDC PRX-SAMINTERFACE CONNECTIONS ELECTRICLOCKING DEVICE +- 1N4007 DIODE(SUPPLIED) ALARMOUTPUT NC COM NO P1 I3 I2 I1 BUZZERINPUT DOOR CONTACTNORMALLY CLOSED REQUEST TO EXITNORMALLY OPEN

  24. - + POWER SUPPLY12VDC PRX-SAMINTERFACE CONNECTIONS ELECTRICLOCKING DEVICE +- 1N4007 DIODE(SUPPLIED) NC COM NO P1 I3 I2 I1 DOOR CONTACTNORMALLY CLOSED DB9RS232 REQUEST TO EXITNORMALLY OPEN PIN 2RXD PIN 3TXD PIN 5GND

  25. - + POWER SUPPLY12VDC PRX-SAMINTERFACE CONNECTIONS ELECTRICLOCKING DEVICE +- 1N4007 DIODE(SUPPLIED) NC COM NO P1 I3 I2 I1 DOOR CONTACTNORMALLY CLOSED RS485 REQUEST TO EXITNORMALLY OPEN NA NB COM

  26. - + POWER SUPPLY12VDC PRX-SAMINTERFACE CONNECTIONS ELECTRICLOCKING DEVICE +- 1N4007 DIODE(SUPPLIED) ALARMOUTPUT NC COM NO P1 I3 I2 I1 BUZZERINPUT DOOR CONTACTNORMALLY CLOSED REQUEST TO EXITNORMALLY OPEN

  27. CONNECTION SHOWN FOR LOCK RELAY 1 ELECTRICLOCKING DEVICE +- 1N4007 DIODE(SUPPLIED) NC - + POWER SUPPLY FOR LOCKINGDEVICES MAX 30VDC

  28. ZONE INPUT SHOWNFOR ZONE 1 N.C. TAMPER CONTACT AUX AUX Z1 COM Z2 Z3 COM Z4 + - DOOR1 REX1 SEN1 REN1 1K 1K RESISTORS SHOULD BELOCATED AT THE DEVICEATTACHED TO THE ZONE N.C. ZONE CONTACT ZONE INPUT COMMON N.C.

  29. ZONE INPUT SHOWNFOR ZONE 1 AUX AUX Z1 COM Z2 Z3 COM Z4 + - DOOR1 REX1 SEN1 REN1 N.C. ZONE CONTACT ZONE INPUT COMMON N.C.

  30. CONNECTION SHOWN FORPGM RDxxx:03 +12V AUX 1 ADDRESS 1 2 ADDRESS 2 3 ADDRESS 4 4 ADDRESS 8 5 ADDRESS 16 6 ADDRESS 32 LED 7 ADDRESS 64 8 DEFAULT / RUN + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 1 ADDRESS 1 1K5 OHM 2 ADDRESS 2 3 ADDRESS 4 4 ADDRESS 8 5 ADDRESS 16 6 ADDRESS 32 7 ADDRESS 64 READER EXPANDERADDRESS 079

  31. READER EXPANDERRJ45 ETHERNETCONNECTOR ETHERNET CROSSOVERDIRECT ETHERNETCONNECTION 8 PORT ETHERNET HUB READER EXPANDERRJ45 ETHERNETCONNECTOR ETHERNET MULTIPLE ETHERNETCONNECTIONS USINGA ETHERNET HUB

  32. N+ N- NA NB N+ N- NA NB N+ N- NA NB SYSTEM CONTROLLER SUPPLYING NETWORKPOWER AUX+ AUX- STANDARD ZONE EXPANDERS CONNECTED TO THE SYSTEM CONTROLLERCOMMUNICATION INTERFACE USETHE N+, N-, NA AND NB TERMIANLS. NEXT MODULEON NETWORK

  33. N+ N- NA NB MODULE NETWORKCOMMUNICATIONS

  34. SYSTEM CONTROLLERRJ45 ETHERNETCONNECTOR ETHERNET CROSSOVERDIRECT ETHERNETCONNECTION SYSTEM CONTROLLERRJ45 ETHERNETCONNECTOR 8 PORT ETHERNET HUB SYSTEM CONTROLLERONE ETHERNET MULTIPLE ETHERNETCONNECTIONS USINGA ETHERNET HUB SYSTEM CONTROLLERTWO ETHERNET

  35. T2i R2i T1i R1i T1o R1o TELEPHONELINE CONNECTIONTERMINAL COLD WATEREARTH PIPE PRIMARY TELCOLINE OUT PRIMARY TELCOLINE RING AND TIPINPUT (T1i and R1i) SECONDARY TELCOLINE RING AND TIPINPUT (T2i and R2i)

  36. N.C. ZONE CONTACT Z1 Z2 Z3 COM Z5 Z6 Z7 DR1 REX1 SEN1 DR2 REX2 SEN2

  37. N.C. ZONECONTACT N.C. TAMPER 1K 1K Z1 Z2 Z3 COM Z5 Z6 Z7 DR1 REX1 SEN1 DR2 REX2 SEN2

  38. CONNECTION SHOWN FOR BELL/SIREN 1CP001:01 12VDC SIRENWARNING DEVICE +- B1+ B1- B2+ B2- P3 P4

  39. CONNECTION SHOWN FOR CP001:03 +12V AUX LED B1+ B1- B2+ B2- P3 P4 1K5 OHM

  40. L H 350mA 700mA L H 350mA 700mA L H FIRE FIRE OVERRIDE OVERRIDE

  41. SYSTEM CONTROLLERMODULE NETWORK CONNECTION N+ N- NA NB N+ N- NA NB ACC-485 RS485CONVERTOR +12 0V TX RX RTS AUX + - SYSTEM CONTROLLERAUXILLARY TERMINALS USE SERIAL CABLE SUPPLIED WITHACC-485 TO CONNECT TO THE PC SERIAL PORT

  42. CONNECT THE READERSHIELD TO A SUITABLEEARTH POINT.DO NOT CONNECT THE SHIELD TO A GROUND ORAUX- CONNECTION. CONNECTION SHOWN FOR PROTÉGÉ SYSTEMREADER 1 PORT SINGLE LED READER CONTROL PRX-NPROXNANO PROXPROXIMITY READER SHIELD +12V RED 0V BLACK GREEN + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 WHITE BROWN ORANGE BLUE YELLOW YELLOW OUTPUT CARD PRESENT SIGNAL FACTORY OPTION ORANGE IS NOT USED IN SINGLE LED OPERATION N.O. BUTTON

  43. CONNECT THE READERSHIELD TO A SUITABLEEARTH POINT.DO NOT CONNECT THE SHIELD TO A GROUND ORAUX- CONNECTION. CONNECTION SHOWN FOR PROTÉGÉ SYSTEMREADER 1 PORT SINGLE LED READER CONTROL WITH BUTTON INPUT CONNECTION PRX-NPROXNANO PROXPROXIMITY READER SHIELD +12V RED 0V BLACK GREEN + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 WHITE BROWN ORANGE BLUE YELLOW YELLOW OUTPUT CARD PRESENT SIGNAL FACTORY OPTION ORANGE IS USEDFOR BUTTON INPUT CONNECTION N.O. BUTTON

  44. INLINE +5V REGULATOR 50mA MAX OUTPUT PART CODE REG-5V REG-5V WIRING RED = INPUT (+9 TO +12V) COM = 0V WHITE = OUTPUT (+5V) OUT COM IN CONNECTION SHOWN FOR PROTÉGÉ SYSTEMREADER 1 PORT OMRON READERMAGNETIC STRIPE READER TRACK 2 +5V +12V YELLOW 0V 0V GREEN CLOCK CLOCK RED DATA DATA + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 BROWN CARD PRESENT ORANGE IMPORTANT NOTE THE STANDARD OMRON/MAGTEK CARD READERS CAN HAVE AN INTERNAL MODIFICATION TO ALLOW THEM TO OPERATE FROM +12V WITHOUT THE INLINE REGULATOR AS SHOWN IN THIS DIAGRAM. PLEASE CONTACT ICT FOR FURTHER INFORMAITON. FOR THE CONNECTION OF OTHER MAGNETIC CARD DEVICES REFER TO MANUFACTURERS INSTALLATION MANUAL

  45. CONNECT THE READERSHIELD TO A SUITABLEEARTH POINT.DO NOT CONNECT THE SHIELD TO A GROUND ORAUX- CONNECTION. CONNECTION SHOWN FOR PROTÉGÉ SYSTEMREADER 1 PORT PRX-NANO NANO PROXPROXIMITY READER OR WIEGAND READER 4 CORE CONDUCTORBETWEEN READER AND CONTROLLER SHIELD +12V RED 0V BLACK DATA 0 GREEN DATA 1 + - D0 D1 L1 L2 BZ R1 R1 R1 R1 R1 R1 R1 WHITE GREEN LED ORANGE RED LED BROWN BEEPER BLUE YELLOW YELLOW OUTPUT CARD PRESENT SIGNAL FACTORY OPTION FOR OTHER PROXIMITY READER CONNECTIONS REFER TO THE MANUFACTURERS INSTALLATION MANUAL

More Related