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System 4/5 Manual - Corby Industries Inc.

1. CARD READER AC SURGE PROTECTOR SYSTEM 5 EVENT PRINTER FOR SYSTEM 5 O ONLY SYSTEM 5 VDT FOR PROGRAMMING g Er MCU TO SCU RS 232 DATA CONNECTION 0 3 t 1 1 ZONE Z I as I INPUTS LE i MAG MODEL 1 CON 78 18 VAC SYSTEM 4 YAN OR5 SYSTEM4 YSTEM 4 PROGRAMMING MAG MODEL 2 ACCESS 9 ONG KEYPAD CON 78 SLAVE CONTROL i MODEL 3 PIR 78 en Corby LLL STANDBY a LI MODEL 4 BATTERY PIR 78 EVENT PRINTER FOR SYSTEM 4 T nes OUTPUTS INPUTS OUTPUTS 1234 5678 5678 Earth Ground Earth Ground EXTERNAL POWER SUPPLY S TO EXTERNAL EXTERNAL POWER SUPPLY S TO POWER RIMS EXTERNAL POWER RIM POWER POWER OR ADAPTER SUPPLY S SUPPLY S TO POWER TO POWER LOCKS LOCKS NOT USED Eee Dans WITH ZRM S READER READER READER IN THI
2. RED m B 5 REL B OUTPUT e HE 2 5 ED D gt 3 el MT e 1 O EE 222995252 e l9 u 5 2 3 Model 4141 Reader Interface Module gt ORANGE SHIELD TO MCU OR SCU CONNECTED TERMINAL 18 TO EARTH GROUND REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN BUTTON IS PRESSED SEE FIGURE 19 FOR FAIL SAFE CONNECTIONS 500 FT MAX FROM RIM TO READER 8 CONDUCTOR SHIELDED 22 AWG NON TWIST n ELD WIEGAND READER REAR VIEW OF 4042 SHOWN MODEL 4042 4044 4046 ORANGE YELLOW ISOLATION DIODE FOR DOOR AJAR SWITCH 1N4002 OR EQUIV HOLD IS NOT USED ORANGE NOT USED vgl ow NOT USED DOOR AJAR TIME CANCEL 5 E MAG CONTACT OPEN CIRCUIT lt 5 CONTACT CLOSES WHEN THE jo gt DOOR OPENS SHIELD ORANGE YELLOW SHIELD Figure 10 RIM To Proximity With Door Ajar amp RTE TO MCU SCU WIRE NUT CONNECTIONS e BLUE YELLOW o000000 TOUS STROBE LE LED 798797297 5VDC OUTPUT 3 LED READER LED 00609196 J O R2 R3 Model 4141 Reader Interface Module lO D1 12V
3. e RED STROBE H Model 25 5 8 n Q 5 LED DATA 1 I ds PPPHPPHHY 5 WHITE DATA 4 n DATA 5 hd NEG g WIRE NUT F CONNECTIONS re 12VDC RED GREEN BLUE BROWN GREEN ie u l8 a Install J1 to program each batch of data chips Remove TEST J1 for normal operation POINT SHIELD CONNECTS TO EARTH GROUND N V ORANGE TO RTE TERMINAL 5 3 E m REQUEST TO EXIT RTE 5 BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN EN BUTTON IS PRESSED E Q SEE FIGURE 19 FOR i d RED iEn FAIL SAFE CONNECTIONS g 5 BROWN GREEN LED GREEN RED LED E S BLUE NIGHT LIGHT g 2 BLACK NEGATIVE DATA LINE SHI ORANGE RED RED YELLOW BROWN _ BROWN ISOLATION DIODE FOR GREEN GREEN DOOR AJAR SWITCH 1N4002 OR EQUIV T 8 ORANGE BLUE BLACK BLACK NOT USED YELLOW GREY WHITE e Wire DOOR AJAR TIME CANCEL Connections MAG CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE SHIELD DOOR OPENS N Models 4307 NOT ORANGE Y USED SHE SYSTEM 4 amp 5 MANUAL swipe 119 System 4 amp 5 Version 1 5 1 6H SYSTEM 4 amp 5 MANUAL insert System 4 amp 5 Version 1 5P 1 6H 120 SYSTEM 4 amp 5 MAN
4. SHIELD SHIELD TO TERM 1 EARTH GND TO TERM 1 EARTH GND lt MODEL 4011 PROGRAMMING KEYPAD MUST LOCATED NEXT TO THE PRINTER Q z WIRE HARNESS o SUPPLIED WITH z KEYPAD WIRE NUT CONNECTIONS o 5 BLACK BLACK a WHITE WHITE m YELLOW SHIELD CONNECTS TO THE GROUND SCREW ON THE KEYPAD CIRCUIT BOARD MALE DB25 PIN CONNECTOR i 20 DTR DIP SWITCH SETTINGS CORBY MODEL GND 4007 SERIAL PRINTER 7 3 DATA Corby DE wy SHIELD Wey ee UDO NOT CONNECT 3 CONDUCTOR SHIELDED NON TWISTED 22 AWG 500 FT MAX DISTANCE Figure 5 SYSTEM 5 Terminal Connections Baud Rate Setti 8 S Qo w 12345678 SYSTEM 5 MCU 4021 BOARD ATTACHES A TO MCU USING THIS 50 PIN DUAL ROW HEADER GE BSS SESS a a GE E SSeS SSeS NOT USED NOT USED SHIELD 3 CONDUCTOR SHIELDED 22 AWG 500 MAXIMUM S
5. TO DIAL UP TO DIAL UP PHONE LINE PHONE LINE AT VDT LOCATION AT SYSTEM 5 LOCATION MODULAR MODULAR PHONE PHONE CORD CORD MODEL 4121 MODEL 4120 MODEM MODEM TO THE MODEM 5 SERIAL DATA CABLE SUPLLIED WITH SYSTEM 5 OR CORBY P N 3661 5 SERIAL DATA CABLE MODEL 3661 CONNECTS THE TERMINAL MALE DB25 END TO AUX PORT DIP SWITCH SETTINGS FOR THE 4007 PRINTER MODEM PORT MODEL 4100 DISPLAY TERMINAL 12345678 OPTIONAL CORBY MODEL 4007 SERIAL PRINTER Corby TO ACTIVATE THE AUX PORT FOR THE PRINTER PRESS CTRL SHIFT PRINT AUX WILL APPEAR AT THE TOP OF THE VDT Baud Rate Set 0 12345678 4021 BOARD 5 TO MCU USING THIS 50 PIN DUAL ROW HEADER U m m m m m m m m m m m m m m m m m m m m m m m m TE ESL ES LES E ET ES ET ES ET ESI E EST ET ES ES EST ES EL E ETE RED WHITE BLUE NOT USED DIP SWITCH SETTINGS FOR THE 4007 PRINTER 0 ID Q4 Im OFF 12345678 OPTIONAL CORBY MODEL 4007 SERIAL PRINTER NOT USED Corby CONNECTION
6. PORT 1 CONNECTIONS ARE SHOWN PORTS 2 4 COULD ALSO BE USED Y 20 21 RELAY 1 IAIN RELAYS ARE 5 AMP 30V SHOWN IN THE RESTING STATE LN LUN IN Model 4000 4004 4009 4070 or 4405 22 23 24 25 26 27 28 29 30 31 32 133 34 35 36 Y2 3 4 Figure 18 Magnetic Lock and DC Power Supply 12 VDC MAGNETIC DOOR HOLDER Q AC POWER LED CORBY MODEL 4094 POWER SUPPLY BLACK NEGATIVE 1N4001 DIODE MUST BE USED 12VDC 1 AMP MAX Q DC OVERLOAD LED 12 VOLT 6 AH LEAD ACID RECHARGEABLE BATTERY 19 26 31 132 33 34 35 36 PORT 1 CONNECTIONS ARE RELAY 2 RELAY 3 SHOWN PORTS 2 4 COULD ALSO BE USED IAIN RELAYS ARE 5 AMP 30V SHOWN IN THE RESTING STATE Model 4000 4004 4009 4070 or 4405 Figure 19 Fail Safe Operation for Request To Exit CORBY MODEL 4094 POWER SUPPLY 12VDC 12 VDC MAGNETIC DOOR HOLDER CORBY P N 4035 REQUEST TO EXIT RTE BUTTON 1N4001 DIODE MUST BE USED PORT 1 AND RELAY 1 CONNECTIONS ARE SHOWN PORT 2 4 AND RELAY 2 4 COULD ALSO BE USED les RELAY 1 RELAY 2 RELAY 3 MAIN RELAYS ARE 5 AMP 30V SH
7. 74 11 5 Printers SYSTEM 4 Only Gave oec are re eae ee ae 74 1126 Transformer 2 2 IHREN IHRE Es HE ED ER HE 74 11 7 Standby Battery a 2 Hr a ie ea el BE rt Me XR vga 75 T1571 Standby Times uum cat ee sassa urn ar f Fear 75 11 72 Battery Replacement uuu usu Rem laku nis Whe de ea 75 1127 3 Testing The Battery u Bere In 75 CHAPTER 12 TROUBLESHOOTING gt tee rel Ae Bra re ARR Fre ea OR 77 12 1 Before You Start eR ar Eee nee are 77 12 2 Check Volts And Current 4 77 12 9 3RESET sr a a pa qabri RR 77 12 4 Testing User Keypads cence u uta sg ete ne da Ode eRe Ra are 78 12 S A xiliary Terminal Test 2 sme ee an a ets a ROUES Ue eR aa pele 78 12 6 Festing the RIM ar ri DIC UEM PIU INE 79 12 7 Testing the Data Chip Adapter 79 0 In This M nu l uuum RE ETE SEE Arena 81 A 2 FGG Gompllanee w bay a ama Meee fen NH EROS 82 APPENDIX B SYSTEM 5 BACK UP RESTORE EMULATE SYSTEM 83 B 1 Back up Restore Overview 83 B 2 Terminal Emulation Overview 83
8. 103 Figure 16 Data Chip Reader to Adapter with Door Ajar and Request To Exit 104 Figure 17 Door Strike and DC Power Supply 7 0 105 Figure 18 Magnetic Lock and DC Power Supply 106 Figure 19 Fail Safe Operation for Request To Exit 4 107 Figure 20 SYSTEM Expansion using a 4009 SCU 204 108 Figure 21 Expansion using Short Haul Modems 1 4 109 Figure 22 Add Four Zones to SCU with a Model 78 Relays 110 Figure 23 Connecting SYSTEM 5toa PC 111 Figure 24 SYSTEM 5 using Phone Modems 1 112 Figure 25 SYSTEM 5 using Short Haul Modems 113 Figure 26 Adding a Corby Zone Reporter Module 114 Figure 27 Connections using the Line Extender Module 115 Figure 28 Shunt a Closed Circuit Alarm Contact 116 Figure 29 Model 4307
9. 4 7 2 1 Terms Usediln This M n dl 2 ur REG er ar MESE Dh aan ra Peale 7 2 2 System Programming Keypad SYSTEM 4 Only 7 2 3 Digital Keypads aa ea I PLE E ERI EMEN 7 2 3 1 Digital Keypad Status LEDS 8 2 3 2 Planning For Anti Passback Digital Keypads 8 2 3 3 Planning For Back To Back Keypads 8 2 3 4 Weatherproof amp Special Purpose Keypads 8 2 3 5 Optional Keypad Tamper Methods 2 8 2 4 What Are Wiegand Corby Cards 1 2 2 9 24 1 Superior Gard Securlty s cela e RR oh ace Sa te wate 9 2 4 2 Sequential Numbering Of Cards 9 2 4 3 How To Use Hostage Duress Cards 9 2 44 Proximity Readers uu gs ce Yd ee AE be AO rear ME ee A ve Meade FEQ 9 2 4 5 Proximity Cards And Tags seca une xD ee ren Wee EIER ES 10 2 5 Card Reader Interface Module RIM 1 1 4 0 10 2 50 41 RIM Specitications 00 eee ie Bi ce ei ee 10 2 5 2 Wire Requirements emis t ass ede OS aku uy MES DS nao a
10. 31 3 15 10 Connections To The LED Drivers 31 3 15 11 Powering Up The System MCU 31 3 15 12 How To Boot System 1 32 3 15 18 Connecting The SCU To The MCU 10 32 3 15 14 ReBooting The MCU With SCU Attached 33 3 16 Installing Proximity Readers 1 0 1 33 3 16 1 Wiring Proximity Readers 4 33 3 16 2 Operation Of Proximity Readers 34 3 17 Programming Batch Number into Data Chip 34 System 4 amp 5 Version 1 5P 1 6H iv TABLE OF CONTENTS SYSTEM 4 amp 5 MANUAL Section Page CHAPTER 4 INSTALLING TELECOMMUNICATIONS 35 4 1 Installing The Telecommunications Option 35 4 1 1 Remove The Screw From PCB SYSTEM 4 Only 35 41 2 Set The Baud Rat ra ne a 42 242 HH A REPE M RR eae gig hie 35 4 1 3 Plug The Telecommunications Module PCB On The Header SYSTEM 4 Only 35 4 1 4 Reboot The System With Telecommuni
11. 99999 BLACK g O O h2voc Model 4302 to 4307 D a Install 1 to program each batch of data chips Remove TEST J1 for normal operation POINT CN NOT mx USED TO MCU TERMINAL 1 SEE FIGURE 4 ORANGE TO MCU OR SCU TERMINAL 18 5 x a lt S REQUEST TO EXIT RTE T 5 BUTTON OPEN CIRCUIT o CONTACT CLOSES WHEN gt Er BUTTON IS PRESSED SEE FIGURE 19 FOR 5 FAIL SAFE CONNECTIONS ul x lt n gt cc E 5 a z e SHIELD NW ORANGE ISOLATION DIODE FOR DOOR AJAR RED LED SWITCH 1N4002 OR EQUIV YELLOW 3 LED n ORANGE ol 2 2 0 BLACK BLUE N PLACE RING CONNECTOR BEHIND THE PLATE SCREW NOT Wire Connections DOOR AJAR TIME CANCEL MAG CONTACT OPEN CIRCUIT N w x CONTACT CLOSES WHEN THE E DOOR OPENS SHIELD z m GROUNDING TRAP 4 N MUST BE USED FOR BLUE PROTECTION NOT ORANGE 7 USED ER SHIELD Figure 17 Door Strike and DC Power Supply 12 VDC DOOR STRIKE AC POWER LED CORBY MODEL INPUT 4094 POWER SUPPLY BLACK INPUT NEGATIVE 1N4001 DIODE MUST BE USED 12VDC 1 AMP MAX DC OVERLOAD LED 12 VOLT 6 AH LEAD ACID RECHARGEABLE BATTERY 19
12. gt YELLOW WHITE GREEN RED EARTH GROUND OR COLD WATER PIPE PORT 1 CONNECTIONS ARE SHOWN PORTS 2 4 COULD ALSO BE USED ORANGE CONNECTION MUST BE USED FOR STATIC AND ELECTRICAL NOISE PROTECTION 8 CONDUCTOR SHIELDED 22 AWG NON TWISTED PAIRS 1000 FT MAXIMUM REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN THE BUTTON IS PRESSED SEE FIGURE 19 FOR FAIL SAFE CONNECTIONS BROWN USE A PIECE OF INSULATION TO PREVENT SHORTS 4000 SERIES KEYPAD O OH SHIELD CONNECT TO THE GROUND SCREW ON THE CIRCUIT BOARD LED WIRES x YELLOW RED SHIELD O ORANGE BLUE e E BROWN e oi BLACK BLACK e WHITE WHITE GREEN e GREEN YELLOW e YELLOW RED e RED ISOLATION DIODE gt P FOR DOOR AJAR SWITCH 1N4002 OE EQUIV Q WIRE NUT CONNECTIONS WIRE HARNESS DOOR AJAR TIME CANCEL CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE DOOR OPENS SUPPLIED WITH KEYPAD Figure 7 RIM Power Supply Connections OPTIONAL AC SURGE PROTECTOR MODEL 4240 PLUG INTO A 110 VOLT OUTLET IF USING A SURGE PROTECTOR PLUG INTO THE SOCKET ON THE SURGE PROTECTOR 12 VOLT 6 AH LEAD ACID RECHARGEABLE BATTERY Q AC POWER LED CORBY MODEL D INPUT 4094 POWER SUPPLY INPUT NEGATIVE 12VDC 1 AMP MAX RED DC OVERLOAD LED
13. sen ee eee Be er een 56 GHAP TER 9 DAYEIGHT SAVINGS TIME um eee a ress a ar a RACE ee RR d 57 9 1 Programming Fass rain uu A 57 CHAPTER 10 PROGRAMMING CODES CARDS amp RELAYS 1 59 10 1 Setting Access Code Length 71 1 59 10 2 Assign User Codes ug euge RE Del Per a ue Roi Be ur pns 60 10 2 1 Valid Godes i RISE ea ee EUN PP URL ead 60 10 2 2 Keypad Butler usce iR Re NX veers Tu E EI RE e S maa GINGER M WE ATE gre 60 10 2 3 Ways Assigm Godes us ue Rer ERA RE RU Roa RN as 61 V System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL TABLE OF CONTENTS Section Page 10 3 Assign Relays To Godes ee nae d Re ae a er Ra oe Ee ale 63 10 4 Assign Time Schedules visse ER a ent gr eager a dace ene ek a 63 10 5 Automatic User Codes 64 10 6 Change User Information 66 10 7 Delete Codes visit ade pea eld dee Su v chest Ge baa 67 10 8 Set Facility GOdes wer ss ern a ER ERR er a aS asa a el 67 10 9 Change Password sisse usur deta Rl ur wwe se 67 0 10 Set Relay Functions ze twi eee See A ee A EE TAERA 68 1021 1 Recall Last 25 250 EVents cree cu
14. RER CORE RE 48 To HowTo Test TIme Zones naeh au ah a a an ge ee Eee 49 CHAPTER 8 AUTOMATIC RELAY TIMED OPERATION 1 51 OVerVieW oe pertice ds Re era eed dus e New catia wae nha 51 8 11 Sharing Time Schedules Z z toes er Pere eee 51 8 1 2 Default Status Of The Time Schedules 51 8 1 3 The Momentary Relay AUX 9 52 8 1 4 How To Arm amp Disarm Security Systems With Relay 49 52 8 1 5 Automatic Relay Operation With Latching Relays 52 8 1 6 Momentary Relays Will Change To Latching 52 8 2 Understanding Relay Operation 1 53 8 3 Software Logic Descrip oM ics ce ep Rd ELS RR LS 54 8 4 limitations CERERI nn ae ee RUE na 55 8 44 Midnight n Bt a a I RYE 55 8 4 2 Identical Cells amp Holidays 55 8 4 3 Time Tolerance oss a hele as RENE M ex aa a Pa A REI pd 55 8 4 4 Extended Relay Times uu sus a RR b aa MuR RU 55 8 4 5 Door Ajai RR 55 8 5 How To Test Auto Relays 2 2 2 2
15. m gt ORANGE TO MCU OR SCU TERMINAL 18 ISOLATION DIODE FOR DOOR AJAR SWITCH 1N4002 OR EQUIV DOOR AJAR TIME CANCEL MAG CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE DOOR OPENS SHIELD SHIELD CONNECTED TO EARTH GROUND REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN BUTTON IS PRESSED SEE FIGURE 19 FOR FAIL SAFE CONNECTIONS NOT USED ORANGE ORANGE YELLOW 500 FT MAX FROM RIM TO READER I 8 CONDUCTOR SHIELDED 22 AWG NON TWIST n ELD Figure 14 Data Chip Adapter Power Supply Connections OPTIONAL AC SURGE PROTECTOR MODEL 4240 12 VOLT 6 AH LEAD ACID RECHARGEABLE BATTERY PLUG INTO A 110 VOLT OUTLET IF USING A SURGE PROTECTOR PLUG INTO THE SOCKET ON THE SURGE PROTECTOR O AC POWER LED CORBY MODEL INPUT 4094 POWER SUPPLY BLACK INPUT NEGATIVE 12VDC 1 AMP MAX RED DC OVERLOAD LED TEST Install J1 to program each POINT batch of data chips Remove J1 for normal operation Q e I o Kal 55 ee LED ADAPTER MODULE MODEL 4301 Figure 15 Data Chip Adapter to SYSTEM 4 5 SCU or DPM EARTH GROUND LEAD ACID Model 4000 4004 4009 4070 or 4405 BACK UP BATTERY
16. olece LED ee 5 OUTPUT 1 2 Amp Model 4141 Reader Interface Module Figure 8 RIM to SYSTEM 4 5 SCU or DPM m 33 34 35 36 1 2 3 4 LED OUTPUTS SWITCH FUSED AT 1 2 Amp TOTAL LEAD ACID REQUEST TO EXIT OR AUX INPUT KR COMMON DATA INDIVIDUAL INPUTS STROBE INPUTS EARTH GND H Q9 8 1 4 2 0 1 2 3 4 4 5 6 i 8 9 10 11 12 1 14 18 Model 4000 4004 4009 4070 or 4405 YELLOW ORANGE EARTH GROUND OR COLD WATER PIPE CONNECTION MUST BE USED FOR STATIC amp ELECTRICAL NOISE PROTECTION PORT 1 CONNECTIONS ARE SHOWN PORTS 2 4 COULD ALSO BE USED uj a lt a E o z E DD 2 z 4 12VDC ON INPUT 8 3 ge d 20000000 WN 5 DO 22 s gt gt 5 Di 55 e 7 POSITION E WIRE HARNESS 9 a BLUE 3 LED e mm a WHITE e 5 GREEN 5VDC E rom OUTPUT 5 SHIELD NOT USED ORANGE USE FOR REQUEST TO EXIT BUTTON Model 4141 Reader Interface Module 50 FT MAXIMUM TO MCU SCU Figure 9 RIM To Wiegand Reader w Door Ajar amp RTE
17. The system can sense if a door is open seven seconds longer than its programmed momentary door release time If the door is held open it prints a DOOR AJAR message with the location ID time amp date and IF SPECIFICALLY PROGRAMMED it can also activate the MCU auxiliary relay 9 when the seven second time delay expires When the door is closed it will print DOOR CLOSED with the location ID and time amp date stamp No additional wires are required to be run to the MCU or SCU Connections are only made at the keypad or through the RIM To enable the Door Ajar function the specific door must be programmed for a momentary time 1 250 seconds or the default two seconds and an open circuit magnetic switch must be installed on the door jam and connected with two wires to the adjacent keypad or RIM which controls the door If the wire run exceeds 10 feet use shielded wire connect the magnetic switch to the red and white wires of the keypad Or if using a card reader connect it to the RIMs red and white wires To program the MCU relay 9 to activate upon a Door Ajar signal use the Door Relay Data menu and the Enable Door Ajar Alarm sub menu 2 9 1 Using A Sense Switch To Cancel Remaining Time The system can sense when a controlled door is first opened and then closed As soon as the door is closed the system will cancel any remaining door release time and reset it to zero Even if the door release time is set to 250 seconds as soon
18. There are three fuses located at the bottom left side of the PCB F1 is the AC fuse rated two amps F2 is the battery fuse rated three amps F3 is the LED fuse rated 1 2 amp These ratings are calculated to provide protection to the MCU Inserting fuses with different ratings can only cause problems and will void any existing warranty 11 3 4 System RESET A watchdog circuit constantly checks random areas of RAM and checksums current data On occasion this circuit will perform a system RESET which can be noted with the printing of a system error message MCU RESET This is known as a warm hard boot and is a normal condition It is rare but if a problem occurs a manual system RESET warm hard boot can be performed by pressing the system RESET button located at the bottom left of the PCB Memory is not affected by a warm boot 11 4 Keypads Keypads used in the system consist of a three part assembly 1 A 12 button keypad with a black plastic bezel white plastic keytops with a double shot molded insert Buttons numbered 0 through 9 plus and Button layout is standard touch tone telephone format MTBF is in excess of 1 000 000 cycles using conductive rubber technology with gold plated PCB contacts Decimal output is via a 13 pin header which mates to a BCD interface module 2 BCD interface module This interface PCB snaps on the rear of the keypad and converts the keypad decimal output to a negative common BCD output which i
19. 03 26 92 03 26 92 03 26 92 03 26 92 03 26 92 03 26 92 03 26 92 03 26 92 03 26 92 03 26 92 56 SYSTEM 4 amp 5 MANUAL CHAPTER 9 DAYLIGHT SAVINGS TIME 9 1 Programming This system has a real time clock and time control software to enable the internal clock and calendar to automatically set the clock ahead one hour on the 1st Sunday of each April and set the clock back one hour on the 4th Sunday in October The system default is NOT to automatically change the time To enable this function you must enter the Times Dates Time Schedules Holidays sub menu When the menu is displayed select option 3 The following message will be printed DST ENABLED Will change time automatically The Times Dates Time Schedules Holidays sub menu will then be printed If you TOUCH 3 again the message printed will be DST DISABLED Will not change time automatically This function toggles or switches between enabled and disabled Whatever message prints last will be the condition of the Daylight savings time function After you TOUCH 3 the Times Date Schedules sub menu will be displayed TIMES DATE SCHEDULES 1 Set Time 2 Set Date 3 Set Daylight Savings 4 Program Holidays 5 Program Schedules 6 Print All Schedules 0 Return to Previous Function ENTER SELECTION gt Prompt Expecting a number 0 through 6 TOUCH 0 to return to the Main Selections menu and end this programming session If you are
20. INDIVIDUAL STROBE INPUTS m COMMON DATA B INPUTS 8 1 4 2 0 1 34 35 1 2 3 LED OUTPUTS SWITCH FUSED AT 1 2 Amp TOTAL 2 3 1 4 11 12 EARTH GROUND OR COLD WATER PIPE CONNECTION MUST BE USED FOR STATIC amp ELECTRICAL NOISE PROTECTION SHIELD YELLOW RED PORT 1 CONNECTIONS ARE SHOWN PORTS 2 4 COULD ALSO BE USED ORANGE Not Used BROWN When remotely locating the adapter use 8 conductor shielded non twisted cable 500 ft max wire distance from MCU to the adapter module ORANGE USE FOR REQUEST TO EXIT BUTTON SHIELD NOT CONNECTED lt gt If the adapter is mounted inside the control cabinet the 8 conductor cable will not be needed AT THIS END STROBE ADAPTER MODULE MODEL 4301 Q LED 5 EIL 599999999954 999999 r5 o L9 2VDC IN Install J1 to program each batch of data chips Remove J1 for normal operation TEST POINT TO MCU SCU Figure 16 Data Chip Reader To Adapter w Door Ajar amp RTE ADAPTER MODULE MODEL 4301 Ca LED LO 2 999999999 a RED STROBE DATA8 LED DATA 1 WHITE DATA 4 WIRE NUT CONNECTIONS
21. 28 31 33 35 39 74 77 82 87 124 126 Twisted Pair 7 11 26 33 123 125 126 TXD 18 24 72 126 VDT 1 2 4 16 18 23 24 32 36 37 39 41 43 72 77 81 83 85 123 126 Video Display Terminal 1 24 36 81 126 Watchdog 1 2 73 82 126 Weatherproof Keypads 25 73 126 Wiegand 1 2 4 5 9 11 33 34 81 87 123 125 126 Wire 2 4 6 7 10 11 14 17 19 24 26 33 36 39 71 72 74 78 79 81 84 123 125 126 Wire Requirements 10 11 126 Zone Relay 13 17 126 131 System 4 amp 5 Version 1 5P 1 6H
22. If distances greater than 500 feet are necessary a Line Extender Module Corby P N 4056 must be installed Use eight wires with shield if Door Ajar and or RTE is needed DATA CHIP READERS require a minimum of three wires with shield to the Data Chip Adapter Maximum distance is 500 feet Use eight wires with shield if Door Ajar and or RTE is needed PRINTER WIRE is three conductor shielded limited to 500 feet DOOR AJAR TIME CANCEL SWITCH requires a switch that is open when the door is closed When the door opens the switch contacts close Shielded one pair cable is required This connection can be made utilizing the same cable as the card reader or keypad provided that the eight conductor shielded cable is used 19 System 4 amp 5 Version 1 5 1 6H SYSTEM 4 amp 5 MANUAL DOOR STRIKES may be used but AC strikes are not recommended Electromagnetic door holders almost never wear out and rarely need service External power supplies are required for all door lock devices A two conductor 16 or 18 gauge is suggested for door lock wire it is OK to use shielded wire but it is not required Be sure to install a diode across the coil of the DC powered door lock at the lock AUXILIARY INPUT TERMINAL requires two conductor shielded wire from the device equipment to the MCU PASSWORD SOFTWARE SERIAL NUMBER is necessary to program or test the system Request To Exit SWITCHES are normally open and require two wires with a shield bet
23. System is thinking If you have a SYSTEM 5 Touch 3 to change the user info by knowing the user Name or Touch 4 to change the user info but knowing the user code This example shows changing data by code Enter code 12345 Code User Name 12345 Tom Smith Sales Change User Name and Data Press lt Y gt es or lt N gt o Change Duress Press lt Y gt es or lt N gt o Change Doors Press lt Y gt es or lt N gt o Change Time Schedules Press lt Y gt es or lt N gt o Change Antipassback Press lt Y gt es or lt N gt o 12345 0001 Working 12 System 4 amp 5 Version 1 5P 1 6H User Data Port Access 66 Enter the code to change Duress Schedules AP Enter Y to change N to leave as is Enter Y to change N to leave as is Enter Y to change N to leave as is Enter Y to change N to leave as is Enter Y to change N to leave as is Displays new user info System is thinking SYSTEM 4 amp 5 MANUAL 10 7 Delete Codes While in tne Program User Data menu If you have a SYSTEM 4 touch 5 to delete a user code the system will ask Enter Code Card to Delete Enter the code to delete the system will print the user info and ask Delete Press 1 for Yes 2 for No if you press 1 that user code will be deleted if 2 is pressed it remains in memory If you have a SYSTEM 5 touch 6 to delete a user code the system will ask Enter Code Card To Delete Enter the code to delete the system
24. if discharged directly into an integrated circuit can destroy the device Extreme caution should be taken to prevent inducing any static charge to the MCU printed circuit board or its components This warning does not apply to the keypads because they only contain diodes and are not sensitive to static 3 5 Mounting The MCU SCU 21 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL Choose a suitable location in a secure area forthe MCU SCU The locking cabinet circuit board and battery weigh 12 Ibs 4 5 kg Itis usually not necessary to gain access to the MCU SCU after installation except to use the manual RESET button replace fuses and replace the battery every three to five years It is not necessary to remove the printed circuit board from the cabinet for installation 3 6 Using The MCU SCU Mounting Template Corby supplies an actual size paper mounting template Position the template in place and mark the exact center of all four mounting screws Installation is easier if you pre drill the screw holes Using 8 pan head screws install the top two screws and tighten to within 1 16 in about the thickness of a penny Hang the MCU SCU on the top two screws and slide the MCU down so the screws align in the cabinet slots Install the bottom two screws and tighten securely Do not attempt to adjust or tighten the top two screws Five 3 4 in knockout holes are provided in the lower half of the cabinet for installation of intercon
25. or 5 digits 2 Program new user codes by manual or automatic modes 3 Change user code data by code number or name SYSTEM 5 only 4 Print all codes entered into the system 5 Delete an individual code or card 6 Change the system password 7 Set the range of facility codes 8 Clear All Memory TOUCH 3 Relay Port Settings and you will enter the sub menu that enables you to 1 Print out Program of current relay data 1a Set the relay time 1b Assign time schedules to relays for automatic operation 1c Select the relay input for keypad card or both 2 Enable the aux relay to activate when a valid Door Ajar occurs on any port 3 Select normal operating mode follow mode or elevator control mode independent mode 4 Enable either Request To Exit RTE or aux input 5 Manually turn on or off a relay System 4 amp 5 Version 1 5P 1 6H 42 SYSTEM 4 amp 5 MANUAL 6 2 Main Selection Menu Overview continued TOUCH 4 List Last 25 SYSTEM 4 250 SYSTEM 5 Events and you will print the last 25 SYSTEM 4 only 250 SYSTEM 5 only events which occurred including any events not normally programmed to print This function is useful if AC was disconnected from the printer there was a major power outage or the printer was switched off or out of paper When assigning an active schedule to relay all input strobes are disabled during the auto relay activation input strobes include Request To Exit RTE Door Ajar and or keypad
26. shunt and the alarm system will return to the normal state 2 10 Using The Auxiliary Input Terminal Of The MCU Terminal 18 of the MCU may be used to monitor an alarm system door or other electrical device or condition Each time the event occurs it will print MCU AUX ON or MCU AUX OFF with a time amp date stamp The SCU does not have this feature When this option is invoked and programmed active the Request To Exit RTE option described in the next section will be disabled on the MCU only To disable this option and enable the RTE function use the Door Relay Data menu System 4 amp 5 Version 1 5P 1 6H 14 SYSTEM 4 amp 5 MANUAL 2 10 1 How The AUX Terminal Normally Works The MCU aux terminal 18 is normally high positive and is triggered by a momentary connection to MCU terminal 5 When terminal 18 is forced low or negative by a switch or other device MCU AUX ON will print When terminal 18 is allowed to go open or float positive MCU AUX OFF will print Any negative going signal can be used to trigger this input BUT the system and the source of the trigger must share acommon DC negative Response time is 750 ms Terminal 18 can monitor almost any device including the status of the arm disarm condition of an alarm control panel and in some cases protective loops For complete isolation use the relay contacts of an optional Corby Model 78 a very low level electronic relay module which has bo
27. 14 2 10 Using The Auxiliary Input Terminal Of The MCU 14 2 10 1 How The AUX Terminal Normally Works 15 2 10 2 Planning For Request To Exit RTE Switches 15 2211 Power Transformer eer erI vU uem decem Rn er el 16 iii System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL TABLE OF CONTENTS Section Page 212 Standby Battery 2 EIE ae Rd ER Ra RE 16 25S Security EvVentsPrinter gt iso gee aS est e pte aen M wk Ae dele un ROTE tied Rs 16 2 14 Master Control Unit MCU 14 0 16 2 15 Slave Control Unit SCU 17 2 15 1 The SCU Supports Four Alarm Zones 1 17 2 16 What Is The Telecommunications Module 0 18 GH APTER S INSTAELATION 02 fermen aaa DI De RE PR 19 3 1 Planning Tihe lnstall tion ua cz ru e ere A u Aa oe Da Pod Pe we eee ed 19 9 2 What Kind Of Wire TOUSE 4s RR uw uu Sulu aa Sau een fale 21 3 3 Planning For Door Strikes and Mag Locks 21 3 4 Handling Static Sensitive Parts
28. 27 41 60 64 67 77 78 123 124 Cable 7 8 10 11 16 19 24 26 30 33 71 72 74 79 83 84 123 125 Cameras 5 123 Cards 1 2 4 6 9 12 18 25 34 45 49 59 61 64 65 67 79 123 126 Change Password 67 Change User Information 66 CMOS RAM 2 16 123 Cold Boot 32 35 37 123 Cold Water Pipe 29 71 81 123 Common Strobe 10 15 30 31 55 123 Corby Cards 1 2 5 9 10 65 67 123 124 1 Crosstalk 22 123 Data Bits 5 9 24 36 74 124 Data Chip 6 11 12 19 20 29 34 68 69 72 79 81 87 123 126 Daylight Savings Time 3 42 43 48 57 124 Decals 11 Default Value 41 47 124 Delete Codes 67 124 Desktop Keypad 2 7 124 Digital Keypads 7 8 12 123 124 Diode 20 21 27 31 72 81 87 88 124 Door Ajar 2 7 11 14 15 19 27 31 33 42 43 52 55 68 69 72 87 123 126 Door Strikes 12 19 21 28 31 72 75 124 Duplicate Corby Cards 9 124 Duplication 25 60 124 Duress 2 5 9 13 16 27 31 49 52 61 62 64 66 72 123 124 Earth Ground 23 24 29 33 35 39 71 74 79 81 123 126 Electromagnetic Door Holders 12 20 124 Elevator Control Mode 13 42 68 70 124 Emulator 81 Energy Management 3 7 12 16 51 124 EPROM 1 2 16 17 39 72 81 85 124 126 Expansion 1 3 7 35 54 63 87 124 129 System 4 amp 5 Version 1 5 1 6H SYSTEM 4 amp 5 MANUAL Facility Code 42 59 61 62 64 65 67 79 123 124 Fail Safe 87 Fingernail Damage 20 124 Fol
29. 4308 Data Chip Reader To Adapter w Door Ajar amp RTE Green LED Only 117 Figure 30 Model 4307 4308 Data Chip Reader To Adapter w Door Ajar amp RTE Bi color LED amp Night Light 118 Wiegand swipe reader 1 44 04 1 1 4 119 Wiegand insertion reader dimensions 1 1 1 1 42 4 120 87 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL CAUTION If you use this system to operate a DC door strike magnetic lock relay or any device that has a coil inductive load that is powered from a DC source you MUST install a diode in parallel across the coil terminals Use a 1N4001 1N4002 or equivalent Connect the stripe side of the diode to the coil terminal that becomes positive Connect the other side of the diode to the other end of the coil Proper installation of this diode will prevent the high voltage spike that occurs whenever a coil is de energized If you do not use this diode you will eventually damage the system and any other electronic device attached to it Corby supplies the necessary diodes with this product please use them System 4 amp 5 Version 1 5P 1 6H 88 AC SURGE PROTECTOR SYSTEM 4 5 Block Diagram OPTIONAL MODEMS FOR REMOTE PROGRAMMING
30. 600 baud Accept data format of 1 start bit 8 data bits and 1 stop bits Must generate line feed for every CR received CR LF on this RS 232C line Corby does not furnish a LF to the receiving end Qro eon s 11 6 Transformer The main power source for this system is a UL listed transformer manufactured by Basler Electric Co Part No BE116340CAA Primary 120V 60hz 48A Secondary 18VAC 40 VA If the 18VAC output terminals are shorted the fuse will open and the transformer will be useless It should be noted that the fuse is almost impossible to repair as the case is ultrasonically welded and the correct fuse wire can never be found Attempting to repair it is dangerous and also voids the UL Listing It measures 2 75 x 2 625 x 3 875 69 8 mm x 66 6 mm x 98 4 mm Outside of the United States a different transformer may be supplied or used with the system In no case may the transformer exceed the following specifications 1 16VAC to 18VAC 2 20VA to 40VA It should be noted that the 40VA transformer will operate at a much lower temperature than the 20VA unit and therefore a rating of 40VA is recommended System 4 amp 5 Version 1 5P 1 6H 74 SYSTEM 4 amp 5 MANUAL 11 7 Standby Battery Upon loss of AC power a 4 0 Amp hr fully charged standby battery will supply power to the system for up to 55 hours almost 2 1 2 days A message indicating power loss will be printed unless power has also been lost at the printer I
31. 9 1 Wiring The Printer Connector SYSTEM 4 Only Locate the 25 pin D male computer connector It is necessary to solder this connector to the printer side of the MCU three conductor shielded cable Use a good soldering iron small tip suitable for electronic components For an RS 232C line SIGNAL GROUND IS NOT THE SAME AS EARTH GROUND Do not connect the shield of the printer cable to terminal 1 of the 25 pin D connector This printer is factory preset at 600 BAUD when it is shipped with a SYSTEM 4 Connections are as follows Printer MCU Connection Your Wire Color 25 Pin D 20 To MCU terminal 15 Printer Status Line 25 Pin D 7 To MCU terminal 16 Signal Ground Line 25 Pin D 3 To MCU terminal 17 Printer Data Line 3 9 2 Connecting The Printer To The VDT Terminal SYSTEM 5 Only Locate the 10 ft data cable with 25 pin D computer connectors on each end Plug one end into the VDT terminal connector marked AUX Plug the other end of the data cable into the printer connector on the right side of the printer The printer and VDT terminal are factory set at 9600 BAUD when shipped with a SYSTEM 5 The baud rate may be changed to a lower rate if long cable lengths are required or use of a modem is required provided the same rate is programmed into the VDT terminal and the telecommunications board 3 9 3 Turning The Printer ON OFF Through The VDT Terminal SYSTEM 5 Only The printer may be turned ON OFF through the VDT terminal Fo
32. A HIGH QUALITY DEVICE WHICH HAS A STAGE RATED AT ONE NANOSECOND CLAMP TIME DO NOT USE 20 NANOSECOND DEVICES AS THEY ARE SLOW AND PROVIDE NO PROTECTION TO THE MCU OR SCU A CORBY SURGE DEVICE PART 4240 IS APPROVED Ensure there is at least 10 feet of class 11 wire between the surge protected transformer the MCU SCU 2 12 Standby Battery Up to 55 hours of emergency standby power is supplied to the MCU or SCU by a 12VDC four amp hour maintenance free lead acid type standby battery If installed with this system a separate battery is supplied for the SCU This battery is designed to be mounted inside the metal cabinet and connects to the MCU and SCU charging circuits with two six inch wires and quick disconnect tabs The battery should be replaced every 36 months to keep these specifications See the Technical Data Chapter for more details 2 13 Security Event Printer The system is shipped with a hi speed dot matrix security event printer that prints 80 columns of data and uses standard plain perforated tractor feed paper This paper is available from any computer supply or office supply store The printer is UL listed and requires 110 120VAC 60HZ 7AMP It requires a three prong grounding outlet and comes with a five ft cord For SYSTEM 4 users serial data is sent to the printer via an RS 232C data link which requires a three conductor shielded cable Connection to the printer is through a male 25 pin D computer connector w
33. Any User to the Exact Minute of Any Day 0 Supports Normally Open Request To Exit Switches Located Inside a Secure Area O SYSTEM 5 Supports IBM PC Back up Restore O SYSTEM 5 Supports Off Site Programming Door Control Recurring Revenue 1 6 SCU Eight Door Expansion One Corby SCU Slave Control Unit will connect to the MCU using three wires shield All the features of the MCU are retained but now the system will Control Passage Through Eight Doors by Person Date Time Automatically Activate Any One of Nine Different Relays at Any Time on Any Date Events Stored in the Event Buffer Can Be Printed With Time Date Location Audit Trails Activate a SPST Relay Output if Any Zone Has Been Violated and provide a Time amp Date Stamp O Also Print SCU AC FAILURE SCU AC RESTORED SCU RESET ZONE n VIOLATED ZONE n OK Interface Zones with IR Beams Ultrasonics and Energy Management Devices O Monitor amp Reports Status of Each of the Four Normally Closed Alarm Zones 3 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 1 7 Differences Between SYSTEM 4 5 SYSTEM 5 is an enhanced version of SYSTEM 4 The SYSTEM 5 does everything the SYSTEM 4 does plus User capacity is increased to 750 users Programming is made easier with the use of a VDT instead of keypad Telecommunications Back up Restore capabilities are built in Names can be used instead of just users numbers Descriptions can be added t
34. Back up Restore Emulate Over The Telephone 83 B 4 Installation of The Back up restore emulate Software 83 B 5 Required Equipment iue ec a ee dx RUE E 84 B 6 Gable Elook DD e 8 RR a rn an Edi cec WR er wale oed ro peu 84 System 4 amp 5 Version 1 5P 1 6H Vi TABLE OF CONTENTS SYSTEM 4 amp 5 MANUAL Section Page B 6 1 Connecting SYSTEM 5 An On 84 B 6 2 Connecting SYSTEM 5 Modem 84 B 6 3 Connecting A Modem 1 7 0 84 B 7 System Gonfiguratlon 1 ele red aa ee de PETER 85 APPENDIX G WIRING DIAGRAMS Dur Sana ee Rabe a RH 87 C 1 Wiring Diagram Table of Contents 87 INDEX te an ea ale E gh ORG ie ee ee 123 vii System 4 amp 5 Version 1 5P 1 6H Page intentionally left blank System 4 amp 5 Version 1 5P 1 6H viii SYSTEM 4 amp 5 MANUAL CHAPTER 1 SYSTEM OVERVIEW 1 1 Introduction The universal adaptability of SYSTEM 4 and 5 satisfy requirements for a high performance card and digital keypad access control system that allows precise control of all users in the system and provides a printed audit trail of their actions with at
35. Data by Name 4 Change User Data by Code 5 Print All Users 6 Delete a User 7 Set Facility Code 8 Program Password 9 Clear ALL Memory 0 Return to Previous Function ENTER SELECTION Sub Menu Title Choose 1 2 3 4 or 5 digits Issue new Codes Change Configuration of Code Prints all codes in System Deletes a current User Code Set facility code range Change or Assign Password Clears All System Memory Return to the Main Menu Enter a number 0 through 7 Sub Menu title Choose 1 2 3 4 or 5 digits Issue New Codes Change Configuration by Name Change Configuration by Code Prints all Codes in System Deletes a Current User Code Set facility code range Change or Assign Password Clears ALL System memory Return to the Main Menu a a mls Enter a number 0 through 8 TOUCH 1 to set the code length When you touch 1 the system responds with the current system status If this is the first time you are using this portion of the system the following will be displayed CURRENT DATA Code Length 5 Users Available 500 Facility Code 00 through 00 ENTER CODE LENGTH 1 5 Sub Menu heading title Five digit Code now in use SYSTEM 4 750 SYSTEM 5 Enter 1 through 5 or abort The system default is an access code length of five digits You can change the code length to any length between one and five digits Increasing the number of digits in the
36. ES E ET ES ET ES ET ESI ES EST ET EST ES ET ES EST E E E ELE ET ES ESL ES E ES ET ES ET ES E ET ET ES ET ESI E ETE ELE bd NOT USED DIP SWITCH SETTINGS FOR THE 4007 PRINTER 12345678 ON OFF en ee NOT USED OPTIONAL CORBY MODEL 4007 SERIAL PRINTER Corby CONNECTION TO PRINT EVENTS IN REAL TIME SHIELD TO TERMINAL 1 ON THE MCU NOT CONNECTED AT THIS SIDE 2 CONDUCTOR SHIELDED 22 AWG Figure 26 Adding Corby Zone Reporter Modules 19 20 21 22 23 24 25 26 27 28 129 30 31 132 33 134 35 36 SYSTEM45 10 CIRCUIT BOARD LEAD ACID BACK UP hist een en 271 i e ge G Ollas 4 2 oag P E E E s e Bo Be e Ba 5 e br s x 2 f THIS IS AN EXAMPLE a m gt O USING PORT 4 ANY OF THE FOUR PORTS CAN BE USED FOR THE STROBE INPUT S E Wire Descriptions BROWN TRIGGER BLUE BCD 8 WIRE HARNESS lt gt dd 9060 9996 5046 YELLOW DATA BCD 1 ue LEE MCN WHITE DATABCD4 VE LED GREEN DATA BCD 2 O 66066060660 8 ORANGE STROBE BLACK 12VDC _ TRIGGER RED
37. INPUT line and the specific OUTPUT terminal that supplies 12VDC to the LED at that keypad or card reader location System 4 amp 5 Version 1 5P 1 6H 10 SYSTEM 4 amp 5 MANUAL 2 6 Data Chip Corby Data Chips can be used as an alternative to cards and keypads Each Data Chip contains an IC and is bonded to the inside of a stainless steel canister This packaging allows the Data Chip to resist dirt moisture corrosion and static discharge It can be attached to any surface including existing ID badges When the Data Chip is touched to the reader 48 bits of digital data is transferred from the Data Chip to the reader The reader contains no electronics and can be located up to 500 feet from the adapter module The adapter module converts Data Chip information into keypad like data that the SYSTEM 4 5 can recognize This module mounts inside the SYSTEM 4 5 control cabinet and one is required for each port Up to four readers can be connected to a single adapter module however readers connected this way will act as one Reads are available in flush mount single gang versions or flush mount slim line versions with one or two LEDs The read head is also sold separately For surface mount applications a reader is available with a bi color LED and night light 2 6 1 Wire Requirements The Data Chip adapter module connects to the reader with a minimum of 3 conductor shielded 22GA non twisted pair cable Additional conductors are required for Req
38. Programming Chapter 3 16 Installing Proximity Readers A Reader Interface Module RIM is required for Corby proximity readers when used with a Corby access control system Itis possible to operate two proximity readers from one card reader interface When this is done both proximity readers will report as one Corby Proximity readers require 12VDC power They connect directly to the 12VDC power supply used by RIM do not use the 5VDC output on the RIM DO NOT CONNECT A 5VDC WIEGAND READER DIRECTLY TO THE RIM 12VDC POWER SUPPLY 3 16 1 Wiring Proximity Readers Wiring proximity readers to the system requires 22 or 24 gauge multiconductor cable with an overall foil shield DO NOT use twisted pair cable It should be noted however that all multiconductor cable has some twist to it which is fine Use five conductor shielded cable to make the connection from the card Reader Interface Module RIM to the proximity reader Use eight conductor shielded cable if Door Ajar and or Request To Exit functions are needed The maximum length is 500 feet Use six conductor shielded to make connections from the proximity reader s remote electronics unit to the remote read head maximum distance is 50 feet NOTE Models with remote read heads have two negative connections BLK wire and ORG wire The BLK and ORG wires connect to terminal A of the remote electronics unit only Connecting these wires together at any other point will cause a reduction in the r
39. Sunday as day 1 Monday as day 2 Saturday as day 7 and any holiday as day 8 For each day there is a START time and an END time The START time is the time when a user code becomes valid The END time is the time when the user code becomes invalid Each time schedule contains eight time zones each containing two cells i e START and END for a total of 64 time zones Each time zone is fully programmable Any time schedule or combination of schedules maximum total of eight may be assigned to any user code for time control Assigning a time schedule to a user code card is optional and is done when you assign a unique code to auser If no time schedule s is assigned to a user code card the system will ignore these schedules when dealing with that user code card The user will then have 24 hour access If an employee s END time for a time zone is listed as 15 15 00 in military time the latest this employee can use that code is 59 seconds past 3 15 PM or 15 15 59 The code will not function at 3 16 00 PM If one or more time schedules have been assigned to a user code or card and this code card is used outside all time zones in the assigned time schedules the system will refuse access and the printer will report that code card as being invalid usage along with a location and time amp date stamp If the cells of a day s time zone have a START time of 00 00 and an END time of 00 00 access will be denied But if a time
40. TOUCH 113707 If the current time is in the afternoon add 12 to the current hour Example Current time is 2 15 PM military time would be 14 15 00 and you would TOUCH 141500 The time you selected is printed Time 14 15 00 The system uses military time format for all functions When you have finished setting the time the system will return to the last sub menu you were in and reprint it 43 System 4 amp 5 Version 1 5 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 44 SYSTEM 4 amp 5 MANUAL CHAPTER 7 USER TIME SCHEDULES Time schedules control employee user codes time of access and or activate relays automatically If you want a user to have 24 hour access no schedule is required We will first describe the use of time schedules for controlling access of employee user codes or cards In the next chapter automatic relay activation will be discussed 7 1 Eight Schedules Available This is what a system time schedule looks like Programmable Time Zone Contains two Time Cells Day Start End 1 SUNDAY 00 00 00 00 This is a sample Time Schedule 2 MONDAY 08 00 18 00 3 TUESDAY 08 00 18 00 4 WEDNESDAY 08 00 18 00 5 THURSDAY 08 00 18 00 6 FRIDAY 08 00 18 00 7 SATURDAY 07 00 12 00 8 HOLIDAY 07 00 13 00 There are eight complete time schedules available Each time schedule has the seven days of the week plus one holiday Each day is numbered with
41. access code also increases the level of security A five digit code length produces 99 999 possible combinations WARNING If there are user codes already programmed into the user code data list changing the code length will IMMEDIATELY erase all existing codes The system is looking for this possible error and if there are existing codes in the data file it will notify you of such IF YOU DO NOT WANT TO ERASE THEM TOUCH TO ABORT This feature also allows you to get familiar with the system by entering test codes and when you are ready to enter your final code set erase all the old ones simply by resetting the code length System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 10 1 Setting Access Code Length Continued If you have ports programmed as card only and change code length from five to four digits ports automatically change to keypad only inputs Even if you change back to five after going to four digits the relays will not change back You will have to reprogram the relay section 10 2 Assign User Codes This section deals with user codes PIN personal identification number The system is digital and requires a sequence of numbers to be entered into a keypad in an exact order The number of digits that must be entered depends on the software that is supplied with the system Typically it will accept one two three four or five digits Needless to say the more digits in a user code the higher level of security you
42. amp 5 MANUAL 1 4 SYSTEM 4 amp 5 Standard Features The system MCU Master Control Unit is shipped ready to use All you need to supply is hookup wire electric type locks for the doors and power for the electric door locks The following features and equipment are included in both the SYSTEM 4 and SYSTEM 5 MCUs Supports Proximity Cards and Readers Smart Socket Provides Internal Memory Battery Back up Automatic or Manual Programming of Digital Codes or Cards D Battery amp Low Power CMOS Circuits Provide Standby Reserve D UL Listed Fused Transformer 120VAC Input 16 5VAC Output 40VA O Electronic Watchdog Circuit Monitors Internal Memory Conditions and AC Power O Controls One to Four Doors Relays Alarm Systems or Other Electrical Equipment Supports High Security 30 Bit Wiegand Corby Cards and Insertion or Swipe Readers Four Programmable SPDT Five Amp Heavy Duty Relays With Separate 12VDC LED Drivers O The Supplied 80 Column RS 232C Printer Can Print All Security Events for Audit Trail One Programmable SPST Relay to Signal Duress Door Ajar or Activate Alarm Systems Automatically All Relays Are Programmable For Either Latching or Momentary Operation 1 to 250 Seconds D All System Events Are Recorded Printed With a Time Date Location Stamp For Tracking Access Cards and Digital Codes Can Be Programmed to Activate the Duress Relay Output D User Friendly Software With All Programming Instructions Displaye
43. as the person enters and the door is closed the door will be re locked This means the keypad card reader can be located very far away from the door it controls Install a magnetic switch that the contacts are open when the door is closed on the door jam and connect it for Door Ajar operation Remember that this time cancel feature is disabled if the relay for that port is programmed for latching operation A valid code or card will activate the door release device If the door ajar switch is installed when the door opens and then closes any excess door release time remaining will be canceled preventing unauthorized follow Throughs In addition if the door is not closed when the programmed strike release activation time has elapsed plus seven seconds a DOOR AJAR Message will print and IF SO PROGRAMMED the MCU auxiliary relay 9 will activate 2 9 2 Bypassing Protected Alarm Systems To shunt the door out of an active alarm system loop during a valid entry use a Corby Model 25 SPST relay wired across in parallel with the DC door strike coil Wire the relay contacts of the 25 so they shunt the alarm contact of the protected door whenever the door strike is active If you are using magnetic door holders wire the relay contacts so they shunt the alarm contact while the door magnetic holder is deactivated As soon as the door is opened and then closed the door control device will be deactivated the Model 25 relay will remove the
44. but it will print AUTO RELAY START There will be no change in the relay state and it WILL NOT be relatched or unlatched This is NOT TRUE for momentary relays If it s a momentary relay numbered 1 through 8 the auto relay function will latch it up It will stay latched until the END time call disables the relay It then resumes momentary operation If a LATCHING relay is currently unlatched deactivated state the system WILL ignore any valid END time cell but is will print AUTO RELAY END This feature allows manual override at any time and ensures the system will not reverse any manual setting This concept is easy to understand working with latching relays If the system encounters any valid START or END time cell AND a latching relay is ALREADY in the state it is supposed to be in the START or END command is ignored Caution should be used to inspect all time schedules assigned to any relay to ensure there never will be a conflict There are several relay day schedule worksheets located in the Appendix Section of this manual Please fill them out and use them Keep them on file so if you have a time conflict problem you can refer to them 58 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 8 3 Software Logic Description A few words should be said about the internal software programs of the system to help you understand the logic of time schedules The system always knows what time it is and every sixty seconds at the t
45. can manage a large number of remote SYSTEM 5 s from one central location B 4 Installation of The Back up restore emulate Software Before using the back up restore emulate software it must be installed onto a hard drive or floppy disk A user friendly installation program is provided to make the installation process even easier To install the back up restore emulate software follow the simple steps listed below 1 Insert the back up restore emulate diskette into drive A 2 Type INSTALL at the A gt prompt 3 Enter the source disk of the back up restore emulate the drive containing the back up restore emulate disk A 4 Enter the path you wish to install the back up restore emulate to If you wish to install the back up restore emulate to C type C 5 Select a color or monochrome monitor 6 Press lt ENTER gt at START INSTALLATION to start the installation 7 To run Enter the directory back up restore emulate is installed into and type DOWNLOAD After a restore be sure to do the following 1 Set time menu 1 option 1 2 Set date menu 1 option 2 83 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL B 5 Required Equipment PC REQUIREMENTS 100 IBM PC XT AT compatible with 640K RAM minimum 3 1 2 floppy drive hard disk is optional At least 1 serial port 1 through COMMA can be used Either Color or Monochrome video adapter and monitor DOS 3 3 or greater B 6 Cable Hook Up B 6 1 Conne
46. eS OPER RS sa 10 2 ot faced Ae E ah og 11 2 6 1 Wire Requirements uu a ne Ren Ia PS ER 11 2 6 2 Power 11 2 7 Planning For Card Readers 23550 mern E eR EE 11 2 7 1 Other Wiegand Card Reader Styles And LED Information 11 2 7 2 Using Keypads amp Readers Together 12 2 7 3 Planning For Anti Passback Readers 12 2 7 4 Planning For Back To Back Readers 12 2 8 Relays And How They Work u us x RE Rok nee 12 2 8 1 Understanding Momentary Relay Operation 12 2 8 2 How Latching Relays Work 13 2 8 3 Understanding The MCU Auxiliary Relay 13 2 8 4 The Four SCU Main RelayS 2 uuu asul se are beeen ae 13 2 8 5 How The SCU Zone Relay Works 13 2 8 6 Understanding Relay Operation 1 13 2 8 7 Understanding Elevator Control Mode Independent Mode 13 2 9 How To Use Door Position Sense Switches
47. from the original installation site by unauthorized personnel it is recommended that a Corby backbox complete with the backbox tamper switch s be used in conjunction with an alarm circuit to secure the installation Use a Corby Model 11 12 or 14 backbox Readers should be bolted to the wall using Corby s optional mounting kit for swipe readers System 4 amp 5 Version 1 5P 1 6H 8 SYSTEM 4 amp 5 MANUAL 2 4 What Are Wiegand Corby Cards Corby Cards are designed to stand up to many years of hard service Hundreds of engineering hours have been spent to ensure that they are the best The Corby Access System will only accept Wiegand Corby Cards as valid cards These cards are the ultimate in high security and are manufactured to exact Corby specifications 2 4 1 Superior Card Security Corby Cards use high security Wiegand effect wires embedded inside the vinyl Each card is unique and contains 30 high security data bits in a random pattern Duplicate Corby Cards do not exist They are virtually impossible to counterfeit or duplicate Each card contains a site code the encoded card number and other secret data The five digit number of the card is also the cardholders PIN for the system These numbers are placed on the card with a printed label during distribution and may be removed prior to putting the card into use Duplicate Wiegand cards are not available in any form Cards are available in standard Corby Card two color format and two Phot
48. going to test this function and change the system time using the set time function you must let the internal clock normally pass through 02 00 00 hours Otherwise your results may be experimental If you set the internal clock to 01 59 00 the change will occur at 01 59 59 In April it will jump ahead to 03 00 00 and in October it will jump back to 01 00 00 If you are using time amp relay schedules read those chapters for limitations in using this option with those functions Remember that the default flag is off For the daylight savings time to automatically adjust it s internal clock requires action on your part If political changes cause the dates to be revised please contact Corby Industries for software updates 57 System 4 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 58 SYSTEM 4 amp 5 MANUAL CHAPTER 10 PROGRAMMING CODES CARDS amp RELAYS 10 1 Setting Access Code Length TOUCH 2 while you are in the Main Selections menu to set the number of digits in the user codes The following will be printed SYSTEM 4 ONLY PROGRAM USER DATA 1 Set Code Length 2 Program New Users 3 Change User Data by Code 4 Print All Users 5 Delete User 6 Set Facility Code 7 Program Password 8 Clear ALL Memory 0 Return to Previous Function ENTER SELECTION gt SYSTEM 5 ONLY PROGRAM USER DATA 1 Set Code Length 2 Program New Users 3 Change User
49. has taken place If you remove a time schedule from a relay the port will turn the relay off by itself This is a powerful tool that can work for you but it will also work against you if done incorrectly 8 1 1 Sharing Time Schedules Any or all time schedules can be assigned to any or all relays In addition any or all relays CAN SHARE ANY OR ALL time schedules which may or may not be assigned to a user code or card Normally there are only two possible modes of system relay configuration 1 Momentary where a relay is programmed to operate for a specific period of time ranging between 1 250 seconds or 2 Latching where the relay operates identical to a toggle switch which is latched on and latched off TIME SCHEDULES WILL CHANGE THIS NORMAL OPERATION 8 1 2 Default Status Of The Time Schedules The default status of the system ensures that time schedules are not initially assigned to any relays For automatic relay operation YOU must assign the valid time schedules to a relay 51 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 8 1 3 The Momentary Relay AUX 9 For the purpose of automatic relay operation the MCU auxiliary relay is unique because it is the only relay that always maintains its independent status as being fully programmable for EITHER momentary or latching operation This is not true of the other relays in the system ifthe AUX 9 relay is programmed momentary AUX 9 will be activated contacts mom
50. i e for 6 seconds enter 006 The last option for a port is automatic time schedule selection If a relay time schedule is needed the schedule s must be entered followed by 0 The system asks ACTIVATE BY SCHEDULE 0 8 If schedule 1 is to be used enter 1 followed by 0 TOUCH 2 to enable the auxiliary relay to close upon any Door Ajar condition DOOR AJAR ALARM ON TOUCH 2 AGAIN to toggle the Door Ajar alarm OFF 69 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL TOUCH 3 to set the relay operating mode Relays can operate in conjunction with a matching keypad or Independently of any keypad Select 1 for normal operating mode or 2 for elevator control mode SYSTEM 4 OR 5 SET OPERATING MODE Asks which mode of operation to use 1 Normal Operation Mode Default setting used most of the time 2 Elevator Control Use for elevator control ENTER SELECTION TOUCH 4 to manually override a given port Note the manual override toggles the port relay to the opposite position and keeps it there until either a time schedule start or end time occurs or you manually change the relay back The port input will NOT operate if the relay is toggled on This option also allows a time schedule to be turned off early snow etc Relay 1 IS OFF current status of port door 1 relay Relay 2 IS OFF current status of port door 2 relay Relay 3 IS OFF current status of port door 3 relay Relay 4 IS OFF current status of port door
51. in the User Data menu TOUCH 2 to assign or change existing codes The system responds with PROGRAM NEW USERS Sub Menu title 1 Load Manually 2 Batch Load Codes Automatic Mode 3 Batch Load Cards Automatic programming of cards ENTER SELECTION Prompt Enter 0 3 The system is now ready to operate in the manual or automatic mode The system programmer has the option of manually entering user codes or allowing the system to automatically generate codes for all users The system also allows each user to have several codes including a duress code that will activate the auxiliary relay When entering codes in the manual mode there is a three second delay while the system performs a memory test TOUCH 1 to enter the manual programming mode Current Code data is displayed by the printer SYSTEM 4 ONLY CURRENT DATA Sub Menu heading title Code Length 5 Four digit Code in use Users Available 500 500 Codes are available Facility Code 01 through 04 How many in This Group gt Enter of codes to enter 005 050 etc Enter User 0000 to Quit gt Needs 4 digits 0001 0002 etc Enter Code Digits or Card gt Enter code or card Is This a Duress User Press 1 for Yes 2 for No Enter 1 for duress 2 for no duress Allow Access to Doors Ports 0 4 gt Enter the door s followed by 0 Allow Access by Time Schedules 0 8 Enter schedule s followed by 0 Restrict with Anti passback Enter 1 for Y
52. keypad or card reader will be reported as port 2 and or location ID 2 If it was connected to the SCU it would be reported as port 6 and or location ID 6 If a digital keypad and a card reader will be used together to operate a door the keypad strobe line and RIM strobe line must be connected to the same strobe input terminal That port should be programmed to recognize both units The default port setting is keypad To operate the system in this manner the card must be used first and then the user has 15 seconds to enter the correct five digit PIN in the keypad The system programming keypad SYSTEM 4 only strobe line red wire MUST be connected to MCU terminal 10 This is the ONLY terminal that will accept programming instructions from a keypad System Keypad 0 to MCU 10 Ports 1 5 to MCU SCU 11 Ports 2 6 to MCU SCU 12 Ports 3 7 to MCU SCU 13 Ports 4 8 to MCU SCU 14 3 15 4 Connect The Zone Wires To The SCU If zones will be used with the SCU one side of all the zones must be tied together as acommon Connect this common strobe line to SCU terminal 10 which is port 0 If zones will be used the diodes MUST be used as shown in the wiring diagram Otherwise the SCU unit will not work because all the strobe lines will be shorted together Zone 0 Common to SCU 10 Zone 1 to SCU 7 Zone 2 to SCU 9 Zone 3 to SCU 8 Zone 4 to SCU 6 3 15 5 Connect The Printer Cable To The MCU SYSTEM 4 only Connect the shi
53. keypad similar to the system keypad described above is recommended It is designed to be flush mounted on a wall about 60 inches above the floor level It has one green LED factory installed to provide the end user with visual feedback of the door relay status This keypad and LED require an eight wire multiconductor cable with shield to be run between the MCU and each keypad Do not use twisted pair type cable Installation requires two wires for the LED four wires for the keypad BCD output data one wire for the keypad common which is known as the strobe line and one wire for the Request To Exit RTE this eight conductor shielded wire is available from Corby One keypad is supplied with each system MCU Each of the four data input ports 1 2 3 4 on the MCU and 5 6 7 8 on the SCU will accept data from any one of three programmable methods 1 Keypad or Data Chip 2 Card reader only 3 Keypad and card reader combination BCD data outputs from any keypad are identical and keypads may be substituted or interchanged anywhere in the system including the programming keypad 7 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 2 3 1 Digital Keypad Status LEDS Each MCU and SCU supply four 12VDC 25 ma voltage outputs to drive indicator LEDs at the keypad remote location NO OTHER AC DC AUXILIARY POWER IS AVAILABLE FROM THE SYSTEM The green LED installed in the keypad is rated 12VDC 18 ma The current limiting resistor is sea
54. must be programmed into each Data Chip adapter To program the batch number into the adapter install the jumper across the two pins of jumper J1 on the adapter then touch one of the Data Chips to the reader or the test point on the adapter The LED will flash on the adapter and at the reader to indicate the batch number was accepted The jumper should then be removed from J1 and placed over only one of the two pins This will put the adapter into normal mode System 4 amp 5 Version 1 5P 1 6H 34 SYSTEM 4 amp 5 MANUAL CHAPTER 4 INSTALLING TELECOMMUNICATIONS 4 1 Installing The Telecommunications Option If you are installing a telecommunications module and if the system has booted successfully and the printer is connected and working you are ready to install the telecommunications module printed circuit board YOU MUST REMOVE ALL AC AND OR DC POWER SOURCES TO THE MCU AND SCU If you install the telecommunications board while the MCU is powered hot you stand an excellent chance of destroying one or two printed circuit boards 4 1 1 Remove The Screw From The PCB SYSTEM 4 Only With a straight edge screwdriver remove the screw located at the top right hand corner of the MCU printed circuit board The screw is directly above a black 50 pin expansion header marked H3 Locate a small metal standoff in the parts package Using your fingers screw the threaded end of the standoff into the threaded hole which had the screw in it Do n
55. not use dry cell or ni cad type batteries They may explode if connected to this system 11 7 3 Testing The Battery After the battery has been charged for at least 24 hours the voltage measured across the battery terminals with the charging circuit still connected should be 13 5 to 13 8 volts A digital voltmeter is required for this measurement To test the quality of the battery disconnect the battery from the system and attach a 33 ohm 10 watt resistor to the battery terminals with jumper leads or test clips Measure the battery voltage with a voltmeter If after 60 seconds the voltage falls below 12 0 volts the battery should be replaced CAUTION The 33 ohm resistor will get hot if the battery has a full charge 75 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 76 SYSTEM 4 amp 5 MANUAL CHAPTER 12 TROUBLE SHOOTING 12 1 Before You Start Connect AC ammeter in series with the 18V AC transformer and MCU terminal 2 Apply AC power to the MCU If the AC current exceeds 800 ma abort the test and check carefully for shorts and or mis wires Typical AC current for an MCU or SCU is only in the range of 60 to 120 ma with no relays active If you are outside the USA and using a 16VAC transformer the current readings should be the same In the Appendix section of this manual locate a picture of the system printed circuit board The M
56. of Data from Data Chip to Reader O Three Wire Reader Connection Up To 500 Feet Attach Data Chips to Existing Photo ID Cards Extremely Low Cost Reader Instant Visual Feedback of a Good Read System 4 amp 5 Version 1 5P 1 6H 6 SYSTEM 4 amp 5 MANUAL CHAPTER 2 HARDWARE OVERVIEW 2 1 Terms Used In This Manual This manual is a comprehensive discussion of the entire SYSTEM 4 5 product line Your specific system may or may not include all of the products and or features discussed on the following pages For a review of the different system products and most of their major features please refer to pages 1 through 6 of this manual If your installation consists of four doors or less an SCU expansion unit is probably not included or needed in this system and you should ignore any references made to the SCU In most cases the term keypad is used but you can usually substitute a card reader in its place The terms ports relays and doors are used interchangeably An access control system would control the doors using the relay contacts of the system If the system was being used as an energy management system it would use the relays to automatically or manually control air conditioning or lights Input ports can accept digital keypads card readers zone inputs a programming keypad Request To Exit switches and Door Ajar switches Although this manual is written from a security point of view dealing with access control of
57. or negative with a switch or other device MCU AUX ON will print When terminal 18 is allowed to go open float positive MCU AUX OFF will print Any negative going signal can be used to trigger this input provided the system and the source of the trigger share a common negative i e Terminal 5 must be connected to the negative of the triggering device alarm equipment etc This terminal can monitor the status of the arm disarm condition of an alarm control panel and provide printed reports of the TIME amp DATE when a system was armed or disarmed The event is also stored in the buffer for later recall Response time is 750 ms IF THIS OPTION IS PROGRAMMED ACTIVE THE Request To Exit FEATURE WILL BE DISABLED ON THE MCU ONLY The Request To Exit feature is always available on the SCU Use Main menu selection 3 to enable or disable this function for the MCU 27 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 3 12 How To Install Surge Protection For the systems distributed in the USA the factory tested 18V AC plug in transformer is UL listed and has a built in fast acting fuse which CANNOT be replaced If the 18VAC secondary output is shorted EVEN FOR AN INSTANT the entire transformer must be replaced Always choose an unswitched 110VAC wall outlet A VOLTAGE SURGE SUPPRESSION DEVICE RATED AT ONE NANOSECOND MUST BE USED Single stage 20 nanosecond devices are far too slow for any computerized device If th
58. personnel there is virtually no limit on what the system can do including using it as a process controller which can open valves on an oil rig at specific times of the day 2 2 System Programming Keypad SYSTEM 4 Only A desktop keypad is supplied with every SYSTEM 4 Master Control Unit It s a small compact single gang 12 button Corby key mounted on a small plastic housing with rubber feet which can be placed up to 500 feet 170m away from the SYSTEM 4 MCU If this is an installation with more than four doors a Slave Control Unit SCU is required to be connected to the MCU The programming keypad is only connected to the MCU Two programming keypads are not required nor are two printers required This keypad is designed to be placed on a desk next to the Corby printer This placement makes programming the SYSTEM 4 fast and simple because all instructions and programming prompts are displayed directly on the printer paper in clear English text A LED is not installed on this keypad or required for programming This keypad requires a five wire multiconductor cable with shield Do not use twisted pair type wire This programming keypad is necessary to program the SYSTEM 4 MCU SCU and add change delete employee or user access data If the password option has been invoked the password must be entered at this keypad prior to entering the program mode 2 3 Digital Keypads If a keypad is to be used for primary access control a 12 button
59. port or 0 to get menu Description Port Relay Access Mode Time Mode Activated by Scheds Front Door 1 Card Only 005 Secs 1 2 Keypad or Data Chip 002 Secs 3 Keypad or Data Chip 002 Secs 4 Keypad or Data Chip 002Secs 9 002 Secs Select option 1 to set port relay data the system will print the current port settings The system prompts you to enter the port to change data for Select the port 1 2 3 or 4 if slave is connected up to 8 to change The SYSTEM 5 allows up to 15 digits to be assigned for a port name the SYSTEM 4 does NOT have this feature The system will now ask Is Port 1 Keypad or Data Chip 2 Card 3 Both enter 1 for keypad only 2 for card reader only or 3 if you for card AND keypad Note if both is selected a card and a keypad code entry must be entered to gain access If card or keypad is needed to open the same door two ports must be used one set for card only and the other set for keypad only The output relays for the two ports must be tied together so either will open the door The system will now ask Set Relay For 1 Momentary 1 250 secs 2 On Off enter 1 if a momentary relay closure is needed enter 2 if On Off or latching operation is needed If momentary is selected the system will ask ENTER TIME 1 250 SEC enter the time in seconds that you want the relay contacts to activate for each time a valid code card is entered For the SYSTEM 4 enter three digits
60. type cable Always spare out unused wires and do not connect these spares at either end Total cable length for all keypads in the system should not exceed 4000 feet Cable length for the printer should not exceed 500 feet See the Technical Chapter for exceptions and specifications WARNING Class Il wiring practices must prevail as defined by the National Electrical Code If metal conduit is used door strike wires or any AC voltage may not be run in the same conduit with keypad card reader or printer wires Depending on voltages and the actual type cable used electrical noise will be a problem at any distance greater than five feet Do not run wires on or near fluorescent light fixtures 3 3 Planning For Door Strikes and Mag Locks Direct current door strikes or DC magnetic door holding devices mag locks require a diode installed across the door lock coil A 1N4001 diode or equivalent is wired at the door lock parallel to the coil with the striped end cathode to the positive side of the coil 3 4 Handling Static Sensitive Parts CAUTION STATIC SENSITIVE PARTS ARE USED ON THE MCU PRINTED CIRCUIT BOARD Before handling any part of the PCB or terminal strips DISCHARGE YOURSELF BY TOUCHING A GROUNDED OBJECT and NEVER WIRE THIS UNIT WHILE IT IS POWERED ALWAYS DISCONNECT AC POWER AND BATTERY If the temperature and or humidity conditions are low it is common for a person to build up a static charge in excess of 20 000 volts This high voltage
61. will have If you only use one digit the maximum number of possible combinations is 10 Use five and this rises to about 100 000 If your system uses cards readers you must use a five digit Code There cannot be a duplication of any code in the system Each code is assigned to a user and a user have more than one code A code can never be assigned to more than one user 10 2 1 Valid Codes A code can be as valid as you want it to be It can be valid for all times and all events or it can be restricted to do nothing We recommend that a code never be deleted Just change the access levels down to zero That way there is always an audit trail on who owned the code even two years from now 10 2 2 Keypad Buffer At each digital keypad there is a buffer which stores the digits being entered If a wrong code is entered the system will deny access and a printed report will be made If someone enters six digits the system only looks at the first five digits and the sixth will remain in the buffer Even if the next five digits are perfect the system will reject the code as invalid because that sixth digit was still in the buffer and was read as digit number one In computer terms this is known as an infinite loop one that will last forever It is suggested that all users of the system enter a prior to entering their code The pound sign always clears the buffer and any digits entered after the will be considered as v
62. will print the user info and ask Delete Press lt Y gt es or lt N gt o if you press lt Y gt that user code will be deleted if lt N gt is pressed it remains in memory 10 8 Set Facility Codes Every Corby Card has a unique code which will never be duplicated This code is comprised of a five digit card and a two digit facility code Corby adds one to the facility code after every 100 000 cards So there may be more than one card with the same card NO two cards will ever have the same facility code The SYSTEM 4 and 5 allow a range of facility codes to work in a system This is useful if there is a long period of time between your initial card order and subsequent orders This range consists of alow range and a hi range any valid card within that range will work card outside that range will be ignored Example if you select a range of 02 to 03 any valid card in your system with a facility code of 02 or 03 will be read If a card with a facility code of 04 was entered at a reader it will not read and there will be no print out because the card is ignored The default facility code range is 00 00 This allows any card to work in your system we recommend that it be changed if you cards all have the same facility code for higher security While in the Program User Data menu If you have a SYSTEM 4 touch 6 to set the range of facility codes for your SYSTEM 4 Your facility code is printed on the back of your Corby Cards If you have a
63. zone is set to a START time of 17 00 and an END time of 17 00 access will be granted for all 24 hours of that day 17 00 is only used as an example Any other numbers except 00 00 may be used as long as they are identical If a time schedule is NOT assigned to a user code or card then that code or card WILL NOT have any time or date restrictions attached to it It will be valid 24 hours a day 45 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 7 2 Using A Single Time Schedule For this programming example we will set up a time schedule that allows a maintenance crew to enter a protected area ONLY on Tuesdays and Thursdays between the hours of 5 45 00 PM and 11 45 59 PM AND on holidays from 5 45 00 AM until 12 00 59 noon These instructions assume you are using the time schedule worksheets located in the Appendix Section of this manual and will only cover setting up one time schedule because the procedure is identical for all eight time schedules While the Times Dates Time Schedules Holidays sub menu is displayed TOUCH 5 to set up a new time schedule or change an existing schedule System prints this message Enter Schedule 1 8 0 to Quit Enter 1 through 8 or zero to end TOUCH 1 to change time schedule 1 If data has not been previously entered or changed it will contain the system default values of 00 00 and 00 00 and print as follows Day Start End This is Time Schedule 1 1 SUNDAY 00 00 00
64. 00 2 MONDAY 00 00 00 00 3 TUESDAY 00 00 00 00 4 WEDNESDAY 00 00 00 00 5 THURSDAY 00 00 00 00 6 FRIDAY 00 00 00 00 7 SATURDAY 00 00 00 00 8 HOLIDAY 00 00 00 00 Enter Day 1 8 0 To Quit 6 Expects numbers 0 8 or abort TOUCH 3 to enter and set times for Tuesday day 3 The following is printed Enter Start Time Sub Menu routine heading Use 24 Hour Format hhmmss Enter Time gt Six digits are required or abort TOUCH 174500 to enter Tuesdays START time for the maintenance crew to enter building After 174500 is entered the system responds with this printed message Time 17 45 00 Enter End Time Sub Menu routine heading Use 24 Hour Format hhmmss Enter Time gt Six digits required or abort TOUCH 234500 which is the END time for the maintenance crew to leave System prints message Time 23 45 00 Enter Day 1 8 0 to Quit Enter the next day to change or 0 to quit TOUCH 5 which is day 5 Thursday Set the START time for 17 45 and the END time for 23 45 Repeat the process for day 8 which is the holiday Set the holiday START time for 05 45 00 and the END time for 12 00 00 Programming the maintenance crew time schedule 1 is done System 4 amp 5 Version 1 5P 1 6H 46 SYSTEM 4 amp 5 MANUAL 7 2 Using A Single Time Schedule Continued TOUCH 0 and the new time schedule for the maintenance crew will be printed Day Start End This is revised Time Schedule 1 SUN
65. 00 2400 and 9600 THE BAUD RATES FOR EACH CHANNEL MUST BE SET Even if there is nothing connected to channel B it must be set to one of the baud rates Baud rates for channel may be different than channel B The module supports RXD TXD and signal ground signals System 4 amp 5 Version 1 5P 1 6H 18 SYSTEM 4 amp 5 MANUAL CHAPTER 3 INSTALLATION 3 1 Planning The Installation PLAN THE JOB UNDERSTAND THE EQUIPMENT READ THE MANUAL This short section is included in this manual to aid you in analyzing the job requirements to ensure that the system will perform to specifications and that the job will be completed successfully MCU SCU LOCATIONS should be in a secure area Unswitched 110VAC must be available Wires from the MCU SCU to door strikes or door controls should be secure and protected from tampering A one nanosecond surge protection device is required Corby P N 4240 PROGRAMMING KEYPAD PRINTER should be located in the system manager s office for easy programming and to ensure the printed reports of user events remain confidential Maximum distance from the MCU to the printer is 500 feet of three conductor shielded cable The programming keypad requires five wires with shield 110VAC is required for the printer cord which is five feet long A one nanosecond surge protection device is required KEYPAD WIRE runs should be limited to 4000 feet total for each MCU or SCU It must be multiconductor not twisted pairs and MUST be shi
66. 1 21 3 5 Mounting The MCU SCU eR e a ra Kayu RR EE 22 3 6 Using The MCU SCU Mounting Template 2 22 3 7 Desktop System Program Keypad SYSTEM 4 Only 22 3 8 Wiring The System Program Keypad SYSTEM 4 Only 22 3 9 Installing The Security Printer 23 3 9 1 Wiring The Printer Connector SYSTEM 4 Only 23 3 9 2 Connecting The Printer To The VDT Terminal SYSTEM 5 Only 23 3 9 3 Turning The Printer ON OFF Through The VDT Terminal SYSTEM 5 Only 23 3 9 4 Changing The Baud Rate Of The Printer SYSTEM 5 Only 23 3 9 5 Setup And Testing The Printer 2 22 ea ae a ee ERE ala 24 3 9 6 Installing The Video Display Terminal VDT SYSTEM 5 Only 24 3 9 7 Wiring The VDT Terminal Connector SYSTEM 5 Only 24 3 10 User Control Keypads sn nias hele e PER PEE Se ele hee BORO AE DR ees 25 3 10 1 Understanding Anti Passback Keypads Cards 25 3 10 2 How Anti Passback Works With The System 25 3 10 3 Anti Passback Example 4 2 25 3 10 4 Wiring User Co
67. 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 10 10 Set Relay Functions Select Main menu option 3 RELAY PORT SETTINGS to program the following data TOUCH 3 this menu will be displayed RELAY PORT SETTINGS 4 2 3 A 5 0 Set Port Data Set Door Ajar Alarm Set Port Mode Manually Override Relays Select Aux RT E Return To Previous Function ENTER SELECTION SYSTEM 4 TOUCH 1 to Set the port data SYSTEM 4 shown Port Relay 1 Access Mode Keypad or Data Chip Keypad or Data Chip Keypad or Data Chip Keypad or Data Chip Port to Change 0 to Quit gt 1 IS PORT 1 Keypad or Data Chip 2 Card 3 Both ENTER SELECTION gt 2 SET RELAY FOR 1 Momentary 2 On Off ENTER SELECTION gt 1 Enter Time 001 250 sec gt 005 Activate by Schedule 0 8 0 to Quit gt 10 Port to Change 0 to Quit gt 0 Port Relay 1 Access Mode Card Only Keypad or Data Chip Keypad or Data Chip Keypad or Data Chip System 4 amp 5 Version 1 5P 1 6H Change Data for Relays Input and Output Time Mode 002 Secs 002 Secs 002 Secs 002 Secs 002 Secs Enable Door Ajar Relay system wide Normal or Elevator Mode Manually Turn On or Off Relays Choose Aux Input or Request To Exit Activated by Scheds Enter the port to change data for Asks which 1 of 3 selections Enter 1 for keypad operation only Enter 2 for card reader operation only Enter 3 f
68. 12VDC bx an T SEES olo RED 12 VOLT 6 AH NORMALLY OPEN CONTACT 09999 WIRE CONNECTIONS LEAD ACID BATTERY BLACK TRIGGER USE ANY OPEN CLOSED SECURITY DEVICE ERECT BROWN WIRE CONNECTIONS TRIGGER m qan BROWN 5 en 66066060660 T CORBY MODEL 4094 POWER SUPPLY BLACK CONNECT TO RED 12VDC 1 AMP MAX OTHER ZRM s DC Overload LED 500 FT MAX 5 CONDUCTOR MINIMUM SHIELDED 22 AWG NON TWISTED Figure 27 Connections using the Line Extender Module 0 1 2 Amp 3 z O 5vpc 3 a OUTPUT 2 D BROWN g 5 e JLED 5 E amp e WHITE 2 Lo ll e E GREEN a 0000 ibi i as LOIC ce INPUT g Earth Ground or Cold 5 Water Pipe connection Model 4141 Reader Interface Module must be used for static and electrical noise protection 5 2 HIELD NOT USED BLUE YELLOW ORANGE TO MCU OR SCU x TERMINAL 18 i RED LIN
69. 4 relay Relay 9 IS OFF current status of the aux relay Enter Port to Toggle 0 to Quit 1 Enter the port to Toggle to opposite state MANUAL RELAY ON 1 01 05 57 03 30 92 Enter Port to Toggle 0 to Quit 0 Enter next port or 0 Relay 1 IS On new status of port 1 relay Relay 2 IS OFF new status of port 2 relay Relay 3 IS OFF new status of port 3 relay Relay 4 IS OFF new status of port 4 relay Relay 9 IS OFF new status of aux relay TOUCH 5 to select AUX input or Request To Exit RTE option RTE is the default setting AUX ACTIVE aux input is now active TOUCH 5 AGAIN to toggle the Request To Exit ON this option is a toggle type each time its pressed it will change from one state to the other RTE ACTIVE RTE input is now active 10 11 Recall Last 25 250 Events Select menu option no 4 to display the last events that have taken place The SYSTEM 4 will recall the last 25 events and the SYSTEM 5 will recall the last 250 events System 4 amp 5 Version 1 5P 1 6H 70 SYSTEM 4 amp 5 MANUAL CHAPTER 11 TECHNICAL DATA 11 1 Importance Of Earth Ground This system is amodern computing device and the Z 80 microprocessor operates millions of times per second Voltage transients and lighting must be kept out of the system for proper successful and continued operation This can only be done by diverting these high voltage transients to agood earth ground Therefore DO NOT OPERATE THIS SYSTEM WI
70. 4002 MAG CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE em 1 5VDC B e OUTPUT B PO 6 5 99 e BROWN Oss e bi WHITE 5i GREEN 00 ace Rey 7 O 12vpc EN INPUT 3 Model 4141 Reader Interface Module gt ORANGE SHIELD TO MCU OR SCU CONNECTED TERMINAL 18 TO EARTH GROUND REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN BUTTON IS PRESSED SEE FIGURE 19 FOR FAIL SAFE CONNECTIONS 500 FT MAX FROM RIM TO READER 8 CONDUCTOR SHIELDED 22 AWG NON TWIST ORANGE YELLOW OR EQUIV ORANGE YELLOW DOOR AJAR TIME CANCEL DOOR OPENS 11 01 MICRO FARAD CAPACITOR SHIELD TO MCU SCU Figure 12 RIM To Mag Stripe Reader w Door Ajar amp RTE RED e WHITE WIRE NUT CONNECTIONS BLUE YELLOW C Model 4141 Reader Interface Module CUT RESISTOR R1 WHEN USING MAG STRIPE READERS lO svoc PED OUTPUT e JLED a e Di WHITE e e BLACK kem 9 12VDC INPUT MAG STRIPE READER REAR VIEW OF 4073 SHOWN BROWN GREEN YELLOW RED 5VDC RED OF LED YEL OF LED NOT USED ORANGE BLACK G
71. 40522 7 2 MONDAY S MEUM NM ONERE 3 TUESDAY Wu MEET 3 TUESDAY E Z S ee 3 4WEDNESDAY st _ _ 4WEDNESDAY ss 5 THURSDAY ss 5 THURSDAY ss 6 FRIDAY HEB MEE ONE 6 FRIDAY EE a ee 7 SATURDAY ss 7 SATURDAY _ _ 8 HOLIDAY 8 HOLIDAY EN ECTS TUESDAY WEDNESDAY Description Description Time Schedule Relay Schedule Time Schedule Relay Schedule DAY START END COMMENTS DAY START END COMMENTS 1 SUNDAY IDE CIEN 1 SUNDAY INT 292 U z _ 2 MONDAY und eat 2 MONDAY ELE Se 3 TUESDAY a 2 3 TUESDAY 2 4WEDNESDAY st ___ 4WEDNESDAY st 5 THURSDAY PSP 5 THURSDAY ___ 6 FRIDAY LIE UR 6 FRIDAY TED NEN MEE 7 SATURDAY ss 7 SATURDAY ss 8 HOLIDAY 8 HOLIDAY 123 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL DAY SCHEDULE WORKSHEET THURSDAY Description 1 Time Schedule Relay Schedule DAY START END COMMENTS COMMENTS 1 SUNDAY 2 MONDAY 3 TUESDAY 4 WEDNESDAY 5 THURSDAY 6 FRIDAY 7 SATURDAY 8 HOLIDAY SATURDAY Description Time Schedule Relay Schedule DAY START END COMMENTS COMMENTS 1 SUNDAY 2 MONDAY 3 TUESDAY 4 WEDNESDAY 5 THURSDAY 6 FRIDAY 7 SATURDAY 8 HOLIDAY System 4 amp 5 Version 1 5P 1 6H FRIDAY Description Time Schedule Relay Schedule DAY START END 1 SUNDAY 2 MONDAY 3 TUESDAY 4 WEDNESDAY 5 THURSDAY 6 FRI
72. 5 Normally Open 3 125 Optional Mounting Kit 4 5 8 12 15 18 36 42 45 64 77 84 119 125 Overlapping Time Zones 47 125 Parity 24 36 79 125 Password 4 7 18 20 37 42 59 67 125 Personal Identification Number 1 18 41 81 125 Photo ID 5 6 9 125 PINs 1 32 34 39 84 1 Port Relay Data 69 125 Ports 7 10 12 17 30 41 42 60 66 69 75 85 123 Power Supply 10 11 20 29 33 39 72 87 123 125 Printer 1 2 7 8 12 16 18 19 21 24 30 33 35 37 39 41 43 45 49 61 64 71 72 74 75 78 87 123 126 Printer Connector 23 125 Printers 4 7 74 Programming Keypad 1 7 19 23 30 37 42 71 74 87 123 126 Proximity 1 2 4 9 10 33 34 81 87 123 126 1 Proximity Cards 1 2 10 34 Proximity Cards and Tags 10 Proximity Readers 4 9 10 33 34 123 126 Reader Interface Module 5 8 10 11 19 21 27 33 125 Readers 1 2 4 5 7 12 17 19 21 25 27 29 31 33 34 41 52 55 60 62 71 72 123 126 System 4 amp 5 Version 1 5P 1 6H 180 SYSTEM 4 amp 5 MANUAL Recall 27 70 Recurring Revenue 3 Relay 9 12 14 52 125 Relay Schedules 1 3 57 Relays 1 3 7 10 12 13 15 17 41 42 45 49 51 56 59 60 63 68 70 72 75 77 87 124 126 Request To Exit 3 7 10 12 15 20 27 30 31 33 42 43 55 68 70 72 87 123 126 Response Time 15 17 27 41 55 81 126 RIM 5 8 10 12 14 15 19 21 25 27 29 31 33 72 79 87 123 126 Screen Saver 36 126 SC
73. CU The Slave Control Unit SCU connects to the MCU with three conductor shielded wire The SCU expands the capabilities of the system by adding more ports and relays for four additional doors and four independent monitoring zones The Slave Control Unit SCU is identical to the MCU in appearance and has the same electrical specifications The two difference are noted below The software EPROM dictates that the SCU is a slave to the MCU master If the EPROMSs are switched the SCU will become a MCU and the MCU would become a SCU This may be handy if you ever encounter an equipment failure and need at least four out of eight doors to operate The MCU and SCU talk to each other in a secure format using a RS 232C transmission protocol If they will be located more than 1000 feet from each other a short haul or standard modem is required Short haul modems are available from Corby and can drive RS 232C signals up to 10 miles If the SCU becomes inoperative the MCU will continue to operate in a normal manner except it will only support the original four doors in the system 2 15 1 The SCU Supports Four Alarm Zones The SCU supports four normally closed zones for monitoring If all four zones are closed and secure the SCU auxiliary relay contacts will also be closed This feature is not found on the MCU Be sure to look at the wiring diagram of the SCU prior to installing zones SCU zones will NOT work without diodes If the diodes no
74. CU and the SCU unit use the same circuit board and all test points are identical The only difference is that the SCU does not accept a program keypad SYSTEM 4 VDT SYSTEM 5 This picture has all test points marked and is necessary if you will be taking any voltage measurements other than AC voltage and current To clear the system keypad buffer touch Now enter the software serial number into the system keypad or VDT keyboard The hardware serial number printed on the circuit board will NOT allow you into the program mode The first test is a no load test For accurate voltage and current data there may not be any relays activated or in the latched position If you are testing a system that is already in full operation caution should be taken in testing because any latched relay will be tuned off Ifthe optional anti passback feature is installed and activated in this system all active data flags WILL be lost When you bring the system back on line your end results may be experimental because a person in an area may not be able to exit 12 2 Check Volts And Current Checking the AC current at this time is optional This should have been done during the initial wiring of the transformer An AC ammeter should already be in series with the AC transformer and MCU or SCU terminal 2 If current exceeds 800 milli amps disconnect AC and DC power Check for shorts amp mis wires Relays or LEDs may or may not be active while taking these
75. D WILL VOID ALL LIGHTNING AND TRANSIENT MOV PROTECTION BUILT INTO THE SYSTEM The ground connection should be made to a dedicated metal stake or cold water pipe as close as possible to the MCU or SCU Use 12 ga or larger solid copper wire Do not use electrical conduit gas or telephone grounds If included in this installation the SCU requires a separate ground wire 3 15 2 Connect The BCD Data Lines Connect the four BCD data lines blk yel wht grn from the keypad RIM or Data Chip adapter to the MCU SCU terminals 6 7 8 9 Depending on how many keypads and or readers are installed in the system you may wind up with 20 or more wires connected to these four terminals Therefore the use of spade lugs is recommended Connect as follows KEYPAD RIM DATA CHIP ADAPTER CONNECTION BLACK wire to MCU SCU 6 YELLOW wire to MCU SCU 7 WHITE wire to MCU SCU 8 GREEN wire to MCU SCU 9 29 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 3 15 3 Connect The Keypad amp RIM Strobe Lines Connect each keypad common strobe line the red wire to a port Strobe input ports on the MCU and SCU are terminals 10 through 14 The common strobe line from the RIM exits from the red wire of the wire harness and this line should be connected to the MCU or SCU the same way as akeypad does Connect these strobe lines only to MCU or SCU terminals 11 12 13 or 14 As an example if a strobe line is connected to MCU terminal 12 that
76. DAY 7 SATURDAY 8 HOLIDAY HOLIDAY Description Schedule Relay Schedule DAY START END 1 SUNDAY 2 MONDAY 3 TUESDAY 4 WEDNESDAY 5 THURSDAY 6 FRIDAY 7 SATURDAY 8 HOLIDAY INDEX AC Failure 3 AC Strikes 20 Advantage eries Proximity ASP 4 Alarm Systems 8 arm disarm 51 52 bypassing 14 Alarm Zones 17 Anti Passback 25 77 card readers 12 digitalkeypads 8 programming SYSTEM 4 61 63 64 programming SYSTEM 5 62 63 65 proximity readers 33 Arm Disarm automatic relay operation 51 auxiliary relay 13 auxiliary terminal 15 27 Assign Codes 60 62 Audit Trail 17 37 Automatic Mode code generation 61 64 Automatic Relay Operation 51 55 auxiliary relay 52 Auxiliary Input Terminal 14 wire requirement 20 27 Auxiliary Power MCU SCU 8 Auxiliary Relay 12 14 17 63 automatic relay operation 52 door ajar time cancel 27 69 Hostage Duress 31 63 SCU 17 Auxiliary Terminal Test 78 B Back Boxes 8 25 Back To Back Readers 12 Back up Restore 83 85 Batch Load 61 64 Battery caution 21 29 31 32 fuse 73 installing EPROMS 39 power supply 20 replacement 75 standby time 1 16 voltmeter test 77 wiring 28 Baud Rate backup restore using amodem 85 printer setting 23 125 SYSTEM 4 amp 5 MANUAL SYSTEM 4 using a VDT 36 telecommunications 18 35 VDT setting 24 BCD card reader conversion 11 data input ports 17 digital keypads 7 19 25 29 73 78 programming keypad 22 74 tamper met
77. DAY 00 00 00 00 2 MONDAY 00 00 00 00 3 TUESDAY 17 45 23 45 Active Time Zone 4 WEDNESDAY 00 00 00 00 5 THURSDAY 17 45 23 45 Active Time Zone 6 FRIDAY 00 00 00 00 7 SATURDAY 00 00 00 00 8 HOLIDAY 05 45 12 00 Active Time Zone Enter Day 1 8 0 to Quit Expects numbers 0 8 or abort If you inspect the revised time schedule 1 you will see the limits placed on any user code card which has this schedule assigned to it If someone from the maintenance crew tries to use their digital code or card for example at 8 00 PM on a Monday night access will be denied and an invalid usage report will be printed 7 3 Using a Schedule to Cross Midnight In a manufacturing company individual time schedules can be set up for the 7 3 shift 3 11 shift 11 7 shift and the 9 5 office staff etc It should be noted that if an employee s work schedule crosses the midnight hour of 00 00 00 the time schedule will be different from the regular schedules Example For the 11 7 midnight shift access is desired from 23 00 00 11 00 PM on Monday evening until 07 00 59 7 00 AM Tuesday morning and this shift continues until Saturday morning Time schedule number two is shown here SCHEDULE NUMBER TWO Day Start End 1 SUNDAY 00 00 00 00 2 MONDAY 23 00 00 00 3 TUESDAY 23 00 07 00 4 WEDNESDAY 23 00 07 00 5 THURSDAY 23 00 07 00 6 FRIDAY 23 00 07 00 7 SATURDAY 00 00 07 00 8 HOLIDAY 00 00 00 00 If two or more time schedules are assigned to a
78. DC INPUT BROWN WHITE GREEN BLACK o RED PROXIMITY READER 01 MICRO FARAD CAPACITOR PROXIMITY READERS HAVE A 12 CABLE FOR WIRE SPLICES BLACK BROWN BLUE GREEN ORANGE NOT USED YELLOW ORANGE TO MCU OR SCU TERMINAL 18 ISOLATION DIODE FOR DOOR AJAR m SWITCH 1N4002 OR EQUIV DOOR AJAR TIME CANCEL MAG CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE DOOR OPENS Ww SHIELD REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN BUTTON IS PRESSED SEE FIGURE 19 FOR FAIL SAFE CONNECTIONS SHIELD CONNECTED TO EARTH GROUND ORANGE YELLOW 500 FT MAX FROM RIM TO READER 8 CONDUCTOR SHIELDED 22 AWG NON TWIST SHIELD q NOT USED ORANGE BLUE YELLOW A SHIELD Figure 11 RIM To 2 Piece Prox w Door Ajar amp RTE TO MCU SCU WIRE NUT CONNECTIONS BLUE 2 PIECE PROXIMITY READER ASP MODEL 4180 OR 4181 WIRE CONNECTIONS TO REMOTE READ HEAD WIRE CONNECTIONS TO RIM REMOTE PROXIMITY READ HEAD NOTE WIRE DISTANCE TO READ HEAD IS 50 MAX 6 COND SHIELDED 22 AWG SHIELD NOT USED ORANGE YELLOW ISOLATATION DIODE FOR DOOR AJAR SWITCH 1N
79. DED 1 AT EACH SIDE T T R R RDLED TDLED DTE DCE DB25 4 POSITION WIRE HARNESS WITH 1 WIRE REMOVED GREEN ORANGE EXPANSION WERE HEADER H1 MODEL 4009 SLAVE SCU Figure 22 Add 4 Zones to an SCU w Model 78 Relays Model 4009 OR 4405 LEAD ACID KU 7 COMMON DATA INDIVIDUAL INPUTS STROBE INPUTS 2 7 1 4148 1 4001 DIODES NEEDED FOR ISOLATION ZONE 4 ZONE 1 ZONE 3 ZONE 2 MODEL 78 RELAY MODEL 78 RELAY MODEL 78 RELAY MODEL 78 RELAY TRIGGER TRIGGER TRIGGER TRIGGER TRIGGER tc m 9 o 9 6 x PO NEGATIVE NEGATIVE NEGATIVE TRIGGER NEGATIVE YELLOW YELLOW YELLOW RED BLACK BROWN YELLOW GREEN WHITE BLUE 12 VDC POWER SUPPLY 12VDC COMMON e OPEN CIRCUIT CLOSED CIRCUIT CLOSED CIRCUIT MAG CONTACT MAG CONTACT MAG CONTACT Figure 23 Connecting SYSTEM 5 To a PC Baud Rate Setti 8 4 ID 12345678 T3FIEIEIE
80. E EXTENDER 8 WHITE e e b O WHITE GREEN o 6 6 e G BLACK e e b BLACK 1 a m BROWN ITI Ci BROWN 3 5 CONDUCTOR MINIMUM g 2 IN OUT gt gt SHIELDED 22 AWG NON TWISTED SPLICE SHIELDS TOGETHER PROXIMITY READER WITH WIEGAND STYLE CARD READER WIEGAND OUTPUT HOLD IS NOT USED a 55 z SHIELD Figure 28 Shunt a Closed Circuit Alarm Contact 12 VDC MAGNETIC DOOR HOLDER AC POWER LED CORBY MODEL INPUT 4094 POWER SUPPLY BLACK INPUT NEGATIVE 1N4001 DIODE MUST BE USED 12VDC 1 AMP MAX DC OVERLOAD LED 12 VOLT 6 AH LEAD ACID RECHARGEABLE BATTERY 1 1 4001 DIODE BLACK 21 23 31 33 34 35 36 00000 i i 1 i PORT 1 CONNECTIONS ARE RELAY 2 RELAY 3 RELAY 4 NI SHOWN PORTS 2 4 COULD ALSO BE USED JAIN RELAYS ARE 5 AMP 30V SHOWN IN THE RESTING STATE CORBY MODEL 25 RELAY OR RADIO SHACK 275 248 NOTE CORBY 25 RELAY HAS A DIODE BUILT IN O Model 4000 4004 4009 4070 or 4405 s E m z TO ALARM PANEL CLOSED CIRCUIT gt LOOP CLOSED CIRCUIT ALARM CONTACT IS SWITCHED WHEN THE DOOR IS OPENED BY A VALID CODE TO SYSTEM 4 5 10 Figure 29 Data Chip Reader To Adapt
81. ERATION Any wire shorts between the BCD data wires will affect all keypads in the system including the system program keypad The PCB must be attached to the keypad with the 13 pin header and matching connector assembly Connect the white five pin wire harness to the five pin header on the PCB The plastic base of the keypad assembly has knockouts for a cable to exit If these are too large you can cut a small notch in the plastic for your wire to exit We recommend that you install a ty rap around the wire to provide a strain relief and prevent accidental damage to the internal connections Assemble the unit with the two screws provided The cable that runs back to the MCU may exit the front or rear of the keypad depending on the requirements of your installation System 4 amp 5 Version 1 5P 1 6H 22 SYSTEM 4 amp 5 MANUAL 3 9 Installing The Security Printer The system s security printer is UL listed requires 110 120VAC 60hz at 0 7A and requires a three prong grounded outlet Cord length is five feet Serial data to the printer is via RS 232C data link For a SYSTEM 4 install the printer next to the system programming keypad because instructions are printed on the printer and responses and program data must be entered using the program keypad You may not use one multiconductor cable run for both the printer and the system keypad For a SYSTEM 5 install the security printer next to the VDT terminal with the supplied data cable 3
82. ESDAY 08 00 00 00 Relay latched at 08 00 3 TUESDAY 08 30 00 00 4 TUESDAY 00 00 08 30 Relay unlatched at 08 30 5 TUESDAY 00 00 09 00 6 TUESDAY 08 45 00 00 Relay latched at 08 45 7 TUESDAY 10 00 18 00 Relay unlatched at 6 00 PM 8 TUESDAY 00 00 00 00 System 4 amp 5 Version 1 5P 1 6H 54 SYSTEM 4 amp 5 MANUAL 8 4 Limitations This section assumes that any time schedule discussed or used as an example IS assigned to one or more relays Ifa time schedule is not assigned the system ignores it for automatic relay operation 8 4 1 Midnight 00 00 may be used and is not considered an invalid time cell but this time CANNOT be used to activate ANY relay in ANY time schedule The system WILL ignore any 00 00 in any time cell and a relay cannot be activated exactly at 00 00 midnight 8 4 2 Identical Cells amp Holidays If a START cell is identical to an END cell in ANY assigned time schedule for ANY single day the cells are invalid and WILL BE IGNORED by the system if the number of identical cells is divisible by the number 2 If there are 3 5 7 9 etc identical cells only the last cell in logical order will be valid This applies only to the day In other words any time cell for Monday will never conflict with a Tuesday The only exception is a holiday because a holiday day if invoked has priority and will override any time cells programmed on that day 8 4 3 Time Tolerance 23 59 00 01 and most other times are vali
83. HIELD E SHIELD IS NOT CONNECTED AT THIS END ee TO TERMINAL 1 782 ON THE MCU 5 SERIAL DATA CABLE SUPLLIED WITH SYSTEM 5 OR CORBY P N 4020 SHIELD IS NOT CONNECTED AT THIS END DIP SWITCH SETTINGS FOR THE 4007 PRINTER Q4 c Us W 0 TO MODEM PORT MALE DB25 END DIP SWITCH SETTINGS TO AUX PORT FOR THE 4007 PRINTER H ON Q Ja QA Jovy os Io Optional Corby OFF Model 4100 12345678 Display Terminal OPTIONAL CORBY MODEL 4007 SERIAL PRINTER 2 CONDUCTOR SHIELDED 22 AWG OFF 12345678 BLUE WHITE t TO ACTIVATE THE AUX PORT FOR THE OPTIONAL MODEL 4007 SERIAL PRINTER USED PRINTER PRESS CTRL SHIFT PRINT TO PRINT EVENTS ONLY AUX WILL APPEAR AT THE TOP OF THE VDT IN REAL TIME Figure 6 Keypad w Door Ajar amp Request To Exit Model 4000 4004 4009 4070 or 4405 LEAD ACID 34 35 2 SWITCH LED OUTPUTS 3 FUSED AT 1 2 Amp TOTAL REQUEST TO EXIT OR AUX INPUT BACKUP _ COMMON DATA INDIVIDUAL BATTERY INPUTS STROBE INPUTS H 0 0 1 2 3 4 5 6 9 11 12 E
84. How Latching Relays Work In the latching mode relays are normally off and coils are de energized Any valid code card Request To Exit or automatic relay schedule will activate the relay s on Any relay now activated will continue to remain in the active condition until another valid code card Request To Exit automatic relay schedule command is received by the system This latching relay mode is also known as ratchet type bi stable toggle type operation 2 8 3 Understanding The MCU Auxiliary Relay A SPST auxiliary relay printed and programmed as relay 9 rated one amp at 30 volts WILL ALWAYS BE ACTIVATED BY ANY DURESS CODE CARD This function cannot be changed Take note that if a door is opened automatically by a time schedule in the System the reader or keypad on that door is disabled and duress will not work It can also be programmed to activate and provide silent signaling for a door open ajar condition This relay is fully programmable for either timed momentary contact closure or latching contact closure If it is programmed for the latched mode and is activated it can only be unlatched reset using the automatic relay mode or by entering the system program mode and manually deactivating it It will also unlatch anytime an automatic relay schedule assigned to it encounters a valid stop time cell This is the only relay in the system that retains its momentary timed operation when activated by an automatic relay schedule This enabl
85. IEIEIEIEIEIEIEIETEIEIEIEIEIEIEIEIEIEIEIEI EEEE EEEE MODEL 4000 4004 4070 MASTER MCU ADEM AREA LACHEN PIN DUAL ROW HEADER TEES E ESL ES E E E ES ET ES ET ES ET E aa TEES E ESL ES E ES E ES E ES ES ET E E ET ELE NOT USED NOT USED SHIELD CONNECTS AT XT SEONDUCTOR TO TERMINAL 1 COMPUTER COMPUTER SCIFEDED 22 AWG ON THE MCU _ HELD ui uu SHIELD NOT USED 5 5 8 ON THIS END als e als e gg oz oa 9 PIN 523 25 PIN BS CONNECTOR 2 CONNECTOR zg 89 CONNECT TO PC s CONNECT TO PC s ail SERIAL COMM PORT SERIAL COMM PORT lt gt NorT CONNECTED OPTIONAL MODEL 4007 SERIAL PRINTER USED TO PRINT EVENTS ONLY IN REAL TIME LBLUE WHITE DIP SWITCH SETTINGS MALE 25 PIN FOR THE 4007 PRINTER CONNECTOR 12345678 Figure 24 SYSTEM 5 Using Phone Modems TIIEIIEIEIIIEIIEIEIIEIEIIEIIEIIEIEIEI mmm MODEL 4000 4004 4070 MASTER MCU e
86. ILL OPEN 3 15 8 Connect All Door Strikes And Other Devices Connect all door strikes electromagnetic door controls security systems or other devices using MCU SCU relay terminals 19 through 30 For DC door locks make sure a diode is installed across the coil See wiring diagrams 3 15 9 Connections For Hostage Duress Signals If hostage duress codes will be used connect MCU auxiliary relay terminals 31 and 32 to a digital dialer or security alarm control A duress code will always activate the MCU auxiliary relay reported as 9 This feature cannot be disabled Ifthese terminals are going to be used to report Door Ajar connect them to a suitable reporting device 3 15 10 Connections To The LED Drivers If LEDs are used at the readers keypads connect all the yellow wires negative of the LEDs to MCU SCU terminal 5 and connect each red LED wire positive to MCU SCU terminals 33 through 36 keeping readers keypads 1 2 8 4 5 6 7 and 8 in order BEFORE PROCEEDING SYSTEM 4 ONLY THE PRINTER MUST BE WIRED PAPER INSTALLED AND ONLINE 3 15 11 Powering Up The System MCU Connect the secondary 18VAC output to MCU terminals 2 and 3 DO NOT CONNECT THE SCU TO THE MCU AT THIS TIME DO NOT REPLACE THE BATTERY FUSE Remember the transformer is fused and ANY shorts across the output will blow the internal fuse and disable the transformer If connections to terminals 2 and 3 are correct plug the transformer into an app
87. NUAL 2 4 5 Proximity Cards And Tags Corby proximity cards and tags consist of three elements power receiver code generator and electrostatic transmitter Cards are credit card size 1 125 X 3 375 X 1 inches Tags 1 2 the size of cards but are slightly thicker and have a hole for a key chain Like Corby Wiegand cards each Corby proximity card contains 30 bits of unique high security data Duplicate Corby proximity cards are not available Corby proximity cards are programmed into the system exactly the same way as standard Corby Cards and have a five digit code which is the card holder s PIN number for the access system 2 5 Card Reader Interface Module RIM The SYSTEM 4 5 MCU or SCU cannot accept card readers directly on their data input terminals A reader interface module RIM is required The RIM powers the card reader and converts the card reader output to a BCD data format suitable for the MCU or SCU input data ports There are no relays or other devices on the printed circuit board RIMs have two jumpers resistors that select the type of cards that will be accepted These jumpers are labeled R1 and R2 If R1 and R2 are uncut the RIM will accept 30 bit Corby Wiegand cards If R1 is cut and R2 uncut the RIM will accept Corby Mag stripe cards If R1 is uncut and R2 is cut the RIM will accept any 26 bit Wiegand card Both R1 and R2 cut is not a valid selection RIMs have two LEDs and a push button to help you troubleshoot if any pro
88. OWN IN THE RESTING STATE Model 4000 4004 4009 4070 or 4405 RELAY 4 INDIVIDUAL STROBE INPUTS 1 2 11 12 RTE OR AUX INPUT 18 Figure 20 System Expansion Using a 4009 SCU MODEL 4000 4004 or 4070 MASTER MCU 4 POSITION WIRE WIRE NUT HARNESS WITH 1 CONNECTIONS WIRE REMOVED GREEN GREEN ORANGE WHITE WHITE SHIELD CONNECT TO TERMINAL 1 AT THE MCU x lt gt o 3 CONDUCTOR SHIELDED CABLE MODEL 4009 SLAVE SCU NOT USED 4 POSITION WIRE WIRE NUT HARNESS WITH 1 SHIELD CONNECTIONS WIRE REMOVED GREEN GREEN ORANGE ORANGE e WHITE e gt lt WHITE CROSS ORANGE AND WHITE WIRES AT THIS SIDE ONLY EXPANSION HEADER H1 EXPANSION HEADER H1 Figure 21 Expansion Using a Short Haul Modem 4 POSITION WIRE HARNESS WITH 1 WIRE REMOVED GREEN EXPANSION ORANGE HEADER H1 MODEL 4000 4004 or 4070 MASTER MCU DB25 2 MODEL 4125 MODEM NEE
89. PREFACE This document is a complete reference manual for Corby SYSTEM 4 and SYSTEM 5 Access Control units expansion modules hardware and software which are manufactured designed or distributed by Corby Industries Inc USA It is assumed that the user of this manual is expert in the installation of high security devices and has professional knowledge in electronics and security related installations Corby Industries Inc USA reserves the right to make changes without notice in the products described in this manual in order to improve design or performance Corby assumes no responsibility for stenographic and or clerical errors or the suitability or unsuitability of Corby products used in combination with any electrical electronic or mechanical system or subsystem To maintain the high level of security inherent within the system design and operation any communications with Corby Industries Inc USA must include if applicable the serial number of the hardware and the serial number of the current operating system software Corby Industries Inc USA will NOT provide installation help programming instructions data or assistance to anyone without specific serial number s CORBY INDUSTRIES INC Corby has been supplying security professionals with quality security products since 1972 when we first introduced the concept of a digital key to the security industry Up to that time everyone used a round metal key which is now almost extin
90. Ports 0 8 gt 2470 Allow Access by Time Schedules 0 8 gt 10 Restrict with Anti passback Press 1 for Yes 2 for No gt 2 Working 64 Sub Menu heading title Four digit Code in use 500 Codes are available Enter of codes to enter 005 050 etc Needs 4 digits 0001 0002 etc Enter 1 for duress 2 for no duress Enter the door s followed by 0 Enter schedule s followed by 0 Enter 1 for Yes 2 for no Needs 5 digits 13790 53790 etc System is thinking SYSTEM 4 amp 5 MANUAL This example shows 20 users allowed access to doors 1 2 5 and 8 with no anti passback with duress and 24 hour access SYSTEM 5 ONLY CURRENT DATA Sub Menu heading title Code Length 5 Four digit Code in use Users Available 750 750 Codes are available Facility Code 01 through 04 Displays the Facility Code Range How many In This Group 20 Enter the of codes needed Assign Names Press Y for yesor N for no Press lt Y gt es or lt N gt o y If you press N for no the system will ask Enter First User you must enter the first user of this sequence the system will then proceed If you press Y for yes it continue and ask for names after it asks you for Anti passback Activate Duress Enter Y for duress N for no duress Press lt Y gt es or lt N gt 0 y Allow Access to Doors Ports 0 8 12580 Enter the door s followed by 0 Allow Access by Time Schedules 0 8 0 Enter schedule
91. REEN WHITE RED ee e WIRE NUT CONNECTIONS BROWN ORANGE NOT USED YELLOW ORANGE SHIELD TO MCU OR SCU CONNECTED TERMINAL 18 TO EARTH GROUND REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT CONTACT CLOSES WHEN BUTTON IS PRESSED SEE FIGURE 19 FOR FAIL SAFE CONNECTIONS 500 FT MAX FROM RIM TO READER ORANGE YELLOW ISOLATION DIODE FOR DOOR AJAR SWITCH 1N4002 OR EQUIV NOT I p DOOR AJAR TIME CANCEL MAG CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE DOOR OPENS ORANGE YELLOW SHIELD 8 CONDUCTOR SHIELDED 22 AWG NON TWIST ELD n Figure 13 RIM To Outdoor Mag Stripe Reader w Door Ajar amp RTE TO MCU SCU 1K OHM RESISTOR FOR RED LED OPERATION u o 1 2 Amp n RED 5VDC e OUTPUT o e E O 3 LED BROWN CONNECTIONS e 1 WHITE 5 D GREEN 9 BLACK O 12VDC INPUT w 6 2 3 Model 4141 Reader Interface Module gt CUT RESISTOR R1 WHEN USING MAG STRIPE READERS MAG STRIPE READER REAR VIEW OF 4075 SHOWN 2 u x Z Of lt dl ZN O SN m gg c m Z m Om M o e o e NOT USED 2 o 2 lt jw lt I a jx
92. S INTERFACE INTERFACE INTERFACE MODULE ADAPTER APPLICATION MODULE MODULE MODULE RIM RIM RIM RIM o RTE DOOR 5668 O AJAR DOOR TOAN AJAR RTE AJAR RTE TO OPEN PANEL A TO GARAGE 5 ARM amp DOOR DISARM J DOOR MAG DOOR MAG DOOR DATA STRIKE LOCK CARD READER CHIP ZRM S KEYPAD KEYPAD CARD READER CARD READER PROX READER KEYPAD STRIKE LOCK STRIKE INPUT OPTIONS OUTPUT OPTIONS INPUT OPTIONS OUTPUT OPTIONS Figure 2 Terminal Descriptions and Test Points SOFTWARE VERSION AND DATE CODE ON LABEL TEST POINT 1 en ANODE OF 12 90 TEST POINT 3 TO 14 50 VDC CATHODE OF CR10 4 80 TO 5 20 VDC COMMUNICATION HEADER H3 U7 iE EXPANSION TEST POINT 4 HEADER H1 PIN 4 11 70 TO 12 20 VDC 30 34 35 2 3 LED OUTPUTS SWITCH FUSED AT 1 2 b 1 E 2 3 i 4 AX RELAY Amp TOTAL 9 1 AMP MAX 30V RELAYS ARE 5 AMP 30V SHOWN IN THE RESTING STATE LEAD ACID REQUEST TO EXIT BACKUP L COMMON DATA INDIVIDUAL OR AUR INPUT INPUTS STROBE INPUTS PRINTER 1 2 DTR GND DATA 11 12 14 15 16 17 TEST POINT 2
93. STEM 5 to any IBM PC XT AT compatible using hardwired connections or via Hayes compatible modems All Hayes compatible modems are not created equally some have dip switches some do not and the default setting from different manufactures are not all the same If you purchase your own modem you should be prepared to read the modem manual change dip switch setting and or hook the modem to a VDT or a PC to program the modem The modem at the SYSTEM 5 must support a baud rate which is selectable on Port A on the SYSTEM 5 telecommunications board We recommend using a modem which supports 9600 baud This will supply the fastest response The modem at the SYSTEM 5 side should be set to Auto Answer Ignore DTR and set to dumb mode will ignore commands The mode at the PC side must be set to smart mode will recognize commands the back up restore emulate software will configure the modem for the reset of the settings NOTE This software works only with SYSTEM 5 EPROM software versions 1 6F or greater 85 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 86 SYSTEM 4 amp 5 MANUAL APPENDIX C WIRING DIAGRAMS C 1 Wiring Diagram Table of Contents Diode caution enir usa at wb a a wal wee aa ee 88 Figure 1 Concept and Block Diagram 1 4 89 Figure 2 Terminal Descri
94. SYSTEM 5 touch 7 to set the range of facility codes for your SYSTEM 5 Your facility code is printed on the back of your Corby Cards The sequence looks like this Enter Low Facility Code 00 31 Enter the lowest facility code Enter Hi Facility code Enter the highest facility code Note To ensure all your cards have the same facility code order extra cards needed for future users 10 9 Change Password If an extra level of security is needed a 12 digit password which must be entered in addition to the SSN can be added The SYSTEM 4 allows a numeric password only First enter the SSN then the digits of the password followed by a star The SYSTEM 5 allows a alpha numeric password First enter the SSN then the password followed by the enter key Reminder enter the symbol before entering the SSN to clear the keyboard or keypad buffer While in the Program User Data menu If you have a SYSTEM 4 touch 7 to set the password it must be entered two times After each time the star key must be entered If you have a SYSTEM 5 touch 8 to set the password it must also be entered two times Enter New Password to quit Enter the new password Re enter to quit Enter the same password again If a password is already in the system it will prompt the user for both the old password and the new password This is to prevent someone who doesn t know the password to change it to one that he does know 67 System 4 amp 5 Version
95. TEST POINT COMMON 13 40 TO 13 60 VDC NEGATIVE REFERENCE Figure 3 SYSTEM 4 5 10 Battery and Transformer Reset 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 ss se a E z z 3 lt lt a e Model 4000 4004 4009 4070 4405 AO LEAD ACID e 15 le lt EARTH 18V t e GND 40VA 5 1 2 3 4 5 6 e 11 13 14 15 16 17 18 EARTH GROUND OR COLD WATER PIPE MUST BE USED FOR STATIC AND ELECTRICAL NOISE PROTECTION X E tr m 2 m lt OPTIONAL gt SURGE PROTECTOR CORBY MODEL 4240 12 VOLT 4 AH O E LEAD ACID o RECHARGEABLE BATTERY B lt lt 5 5 2 gt 3 gt a r lt r lt PLUG INTO A 110 VOLT OUTLET IF USING A SURGE PROTECTOR PLUG INTO SOCKET ON THE SURGE PROTECTOR Figure 4 SYSTEM 4 Programming Keypad amp Printer Model 4004 or 4070 AC LEAD ACID INPUT nn COMMON DATA L INDIVIDUAL 18V INPUTS STROBE INPUTS RINTER GND E al 8 1 4 2 0 1 2 3 4 lpTR GND DATA 1 fe 3 bs 5 Ee z Ts 9 lo i 2 3 ha hs he Fr re YELLOW
96. THOUT A GOOD EARTH GROUND Run at least a 12 ga wire from a cold water pipe or ground rod to terminal 1 of the system Ensure that the cold water pipe is in fact an electrical earth ground In many cities local building codes allow the use of PVC pipe which is NOT an electrical conductor A fast check is to measure the difference in ohms between electrical ground and your earth ground If it exceeds 10 ohms of the two grounds is not a good earth ground Do not use conduit gas pipe or telephone equipment grounds Do NOT use an existing electrical equipment ground In MOST cases this type of ground is worse than no ground at all Ground wire runs should be as straight and direct as possible avoiding sharp bends Failure to properly install and use an earth ground renders all lightning static and noise protection useless Loss of programmed memory and erratic operation may also occur 11 1 1 Keypads All system keypads have an earth ground screw terminal for attaching the foil shield drain wire of the multiconductor cable Do not connect this drain wire to the metal keypad plate Connecting a separate earth ground at both ends of the multiconductor keyboard cable is UNDESIRABLE The foil shields of all keypads should only be connected to terminal 1 which is an earth ground 11 1 2 Printer The foil shield of the printer is an earth ground Attach the foil shield drain wire from the printer only to terminal 1 of the system 11 2 Usi
97. TO PRINT EVENTS IN REAL TIME EARTH GROUND NOT CONNECTED AT THIS END 2 CONDUCTOR SHIELDED 22 AWG Figure 25 SYSTEM 5 Using Short Haul Modems MODEL 4000 4004 4070 MASTER MCU T3ETEIEIEIEIETEIETEIETEIEIEIEIEIEIEIEIEIEIETEIEIEI e MODEM PORT LOCATE THIS SHORT HAUL MODEM INSIDE THE CONTROL PANEL E x zt gt lt 2 a cud zur 9 5 SERIAL DATA CABLE oz SUPLLIED WITH SYSTEM 5 2 0 25 TO AUX PORT DIP SWITCH SETTINGS FOR THE 4007 PRINTER U ON Wy W m I ON Im MODEL 4100 DISPLAY TERMINAL 12345678 OPTIONAL CORBY MODEL 4007 SERIAL PRINTER Corby Sl e c TO ACTIVATE THE AUX PORT FOR THE PRINTER PRESS CTRL SHIFT PRINT AUX WILL APPEAR AT THE TOP OF THE VDT DB25 LZE Baud Rate Settings 8 8 s a S 8 e s 12345678 4021 BOARD ATTACHES TO MCU USING THIS 50 PIN DUAL ROW HEADER e TELE ES
98. U 3 7 8 10 17 19 22 25 33 35 39 51 52 63 77 79 87 123 125 126 SCU RESET 3 33 35 126 Sequential Numbering 9 126 Serial Data 16 23 24 126 Signal Ground 18 23 24 126 Slave Control Unit 3 7 12 13 17 123 126 Snow and Ice 11 126 Software Serial Number I 1 2 17 20 37 39 41 42 48 54 57 60 72 74 77 81 83 85 119 126 Solid Copper Wire 29 126 Spade Lugs 29 126 SPST Relay 2 3 14 126 Standby Battery 1 16 28 29 39 75 81 126 Static Sensitive Parts 21 39 126 Stop Bit 24 36 126 Strobe 7 10 15 17 20 30 31 52 55 79 123 126 Strobe Line 30 31 52 126 Surge Protector 126 Switch plate Size Reader 9 126 SYSTEM 4 1 2 4 5 7 8 10 11 16 18 21 23 30 33 35 36 42 43 59 61 64 66 72 74 77 79 87 123 SYSTEM 5 1 1 4 16 18 23 24 32 42 43 59 62 63 65 67 69 70 72 77 78 83 85 87 123 System RESET 16 73 126 Tamper Switch s 8 126 Telecommunications Module 4 18 33 35 37 42 43 126 Terminal Blocks 1 2 4 10 14 18 20 21 23 24 27 31 33 36 39 53 71 74 77 79 81 83 87 88 123 126 Test Points 77 87 125 126 Test Procedure 49 126 Time Cancel 2 11 14 19 27 123 126 Time Cell 13 27 51 55 Time Schedule 13 45 49 51 56 64 69 70 79 119 122 126 Time Schedule Worksheets 46 126 Time Schedules 3 12 20 39 42 43 45 49 51 55 57 61 66 119 121 Time Zones 18 45 47 49 52 54 125 126 Transformer 2 16
99. UAL TIME SCHEDULE WORKSHEET This time schedule worksheet is provided so that you have a permanent copy of the eight available time schedules showing the day starting time and ending time for user code access or relay operation This worksheet is only used with optional time control software Use 24 hr military time format only SCHEDULE 1 SCHEDULE 2 Description Description Time Schedule Relay Schedule Time Schedule Relay Schedule DAY START END COMMENTS DAY START END COMMENTS 1 SUNDAY BE a 1 SUNDAY eee ee 2 MONDAY em EN 2 MONDAY a 3 TUESDAY 3 TUESDAY a SEES 4WEDNESDAY st _ _ 4WEDNESDAY st 5 THURSDAY st 5 THURSDAY 6 FRIDAY 6 FRIDAY ZEE GEM DIES 7 SATURDAY 1 o _ 7 SATURDAY ss 8 HOLIDAY NIELSEN 8 HOLIDAY BE 2 SCHEDULE 3 SCHEDULE 4 Description Description Time Schedule Relay Schedule Time Schedule Relay Schedule DAY START END COMMENTS DAY START END COMMENTS 1 SUNDAY ea 2 1 SUNDAY 2 MONDAY 2 MONDAY ea 3 TUESDAY EN UE NEM 3 TUESDAY o 4WEDNESDAY st _ 4WEDNESDAY ss 5 THURSDAY st 5 THURSDAY 6 FRIDAY uL c 6 FRIDAY DE res 7 SATURDAY ss 7 SATURDAY ss 8 HOLIDAY 8 HOLIDAY 121 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL TIME SCHEDULE WORKSHEET PAGE 2 SCHEDULE 5 Description Time Schedule Relay Schedule SCHEDULE 6 Description Time Schedule Relay Sched
100. alid digits by the system IMPORTANT PLEASE READ Before you assign codes to users ensure the entire system including all keypads readers and other equipment is working Verify this with several test codes cards that do not have schedules and or anti passback assigned to them If for some reason you must power down the system to replace components you may lose all data which will require a complete reprogramming of the system System 4 amp 5 Version 1 5P 1 6H 60 SYSTEM 4 amp 5 MANUAL 10 2 3 Ways To Assign Codes There are two ways to assign a digital code to a user YOU DO IT the manual mode one at a time or you can let the system do it for you in the automatic mode In the manual mode you have complete control of everything including who gets which number for a code In the automatic mode you still have complete control of everything except who gets which code The system will select the digital code for you If you are only programming a dozen codes you may elect to program them all in the manual mode After the first dozen it is usually faster to do it in the automatic mode and then go back in and change the few that are not liked for whatever reason Now that we have covered how the system handles digital codes we are ready to go back to the programming session NOTE Data Chips must be programmed using the Manual mode option 1 This is because Data Chips come from the manufacture with random numbers While
101. ate Ensure the PCB is securely attached to the keypad via the 13 pin header and connector assembly Connect the white five pin connector to the five pin header assembly of the PCB The unit is ready to be attached to the wall So you can keep track of your color codes used in this installation write in the color match below Corby Color RED GREEN WHITE YELLOW BLACK LED YEL LED RED RTE Your Wire 1 Your Wire 2 Your Wire 3 Your Wire 4 Your Wire 5 Your Wire 6 Your Wire 7 Your Wire 8 System 4 amp 5 Version 1 5P 1 6H 26 SYSTEM 4 amp 5 MANUAL 3 10 5 Wiring Door Ajar amp Time Cancel Option The system can sense when a door or switch is opened the length of time it remains open when it s closed print the keypad card reader location ID TIME amp DATE and IF PROGRAMMED TO DO SO activate the auxiliary relay Attach a magnetic switch contact in which the contacts are open when the door is closed inside the protected area Connect the two terminals of this switch to the red and white wires of the adjacent keypad If card readers are used the two terminals of the switch connect to terminals 11 and 14 of the RIM Reader Interface Module A 1N4002 diode is needed for each Door Ajar switch consult the wire diagrams for the specific location When a proper code is entered into the control keypad and the door is opened and then closed any programmed door strike activation time remaining will be cancele
102. automatic 56 auxiliary relay 13 52 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL latching 13 52 main relays 12 momentary 12 52 Request To Exit 15 programming 70 w auxiliary input 27 30 42 wiring 16 31 Response Time aux terminal 14 27 zone relay contacts 17 RS 232C see telecommunications Screen Saver 36 SCU see Slave Control Unit SCU RESET 32 35 Sequential Numbering 9 Serial Data 16 23 24 Signal Ground printer 23 telecommunications 18 VDT 24 Slave Control Unit 7 17 eprom installation 39 location 19 mounting 22 relays 13 wiring 17 29 32 Snow and Ice 11 Software Serial Number 37 74 77 81 Solid Copper Wire 29 Spade Lugs 29 SPST Relay 14 Standby Battery MCU SCU 16 29 75 Static Sensitive Parts 21 39 Stop Bit VDT 24 Strobe Line 30 31 52 Switch plate Size Reader 9 System RESET 16 73 Te Tamper Switch s 8 Telecommunications Module 18 installing 35 37 43 Test Points 77 Test Procedure time zones 49 Time Cancel 14 19 27 Time Schedule 45 49 Time Schedule Worksheets 46 119 122 Time Zones 45 holidays 48 testing 49 System 4 amp 5 Version 1 5P 1 6H Transformer 16 31 72 Twisted Pair 7 26 33 TXD printer 70 telecommunications 18 24 V VDT see video display terminal Video Display Terminal 25 pin D connections 24 booting 37 installing 24 36 modems 36 printer connections 23 36 W Warranty registration form 41 72 Watchdog 73 82 W
103. be line is disabled RTE Door Ajar keypads and or readers will not operate 8 1 6 Momentary Relays Will Change To Latching If relays 1 2 3 or 4 of the MCU and or relays 5 6 7 or 8 of the SCU are programmed to normally be momentary operation they will automatically be changed to latching operation as soon as they encounter a valid START cell in any assigned time schedule When they encounter a valid END cell they will revert back to their programmed momentary status System 4 amp 5 Version 1 5P 1 6H 52 SYSTEM 4 amp 5 MANUAL 8 2 Understanding Relay Operation It is very important for you to read and understand exactly what the system automatic relay mode WILL and WILL NOT do Otherwise you can end up with a completed access system installation that will require a great deal of your time to debug This should not happen if you understand how automatic relays work keep your time amp day schedules simple use the worksheets and plan the entire installation A system relay is considered active if there is internal power being applied to the relay and its associated LED terminal A latching system relay in the latched state is just amomentary relay with constant internal power being applied to it The only real difference is how they are programmed to operate If aLATCHING relay is currently in the active state and a valid START time cell occurs in ANY time schedule assigned to that relay the system will ignore the START time cell
104. blem does occur There is a strobe LED which flashes continuously to show that the strobe output from the system is being received The reader LED flashes when data is received from a reader The push button when pressed will send a test code back to the system For more details see chapter 12 Troubleshooting 2 5 1 RIM Specifications The RIM is small printed circuit board that measures 3 45 X 2 3 X 1 25 and mounts inside the MCU SCU cabinet A separate 12VDC power supply capable of handling 120ma is required by each RIM One power supply can power more than one RIM or a door strike magnetic lock if the power supply is big enough Note When using 12VDC proximity readers the reader is powered directly from the power supply not from the 5VDC output of the RIM 2 5 2 Wire Requirements Eight wires with overall foil shield are necessary to connect the reader interface module RIM to the MCU or SCU If Request To Exit is not required use seven wires Wire must be 22 or 24 gauge multiconductor not twisted pairs You may use Corby eight conductor cable The card reader may be located 500 feet from the RIM and the RIM may be located up to 50 feet from the MCU or SCU Seven wires of the RIM are connected to the MCU or SCU in the same fashion as a keypad the eighth wire is for Request To Exit See the wiring diagrams Because all the BCD lines from the keypads and RIMs are wired in parallel only two wires identify a port the common strobe
105. cations 35 4 2 Connecting A Video Display Terminal VDT 71 36 4 2 1 Connecting VDT Terminal To The Printer Port SYSTEM 4 Only 36 4 3 How To Boot With A VD T ausser cade ined eal eee Ree Ae Haar de PG eA tea eee eee ee 37 4 3 1 Using The VDT And Modems With Telecommunications 37 4 3 2 Telecommunications Passwords amp Security 37 CHAPTER 5 INSTALLING EPROMS 0 22 39 5 1 Installing EPROMS In The MCU SCU 39 CHAPTER 6 PROGRAMMING ehm rmm 41 6 Before YOUSStart a cx ect ur vi hist ua ku Re HE EE Rae e nte bet tre Nd f beg 41 6 2 Main Selections Menu Overview 42 6 3 Change Times amp Dates ise Eu ee Hur ee BB a rn 43 CHAPTER 7 USER TIME SCHEDULES 4 erum dnm re ar dI Re OU De NER RARO E UB 45 7 1 Elghit Sched ule s Available gt asa kennen 45 7 2 Using A Single Time Schedule 46 7 3 Using a Schedule to Cross Midnight 0 47 7 4 Using Holiday Time Zon s 2 5 ne LEE
106. connection 17 printer to VDT 23 VDT 24 37 Momentary 12 14 51 55 Mounting keypads 20 24 MCU SCU 22 proximity readers 9 33 tamper methods 8 wiegand readers 11 Mullion Size Readers 9 Multiconductor Cable 71 keypads 7 8 19 71 programming keypad 22 RIM 19 readers 19 33 printer 19 23 71 72 door locks 20 72 door contact 19 request to exit 20 N National Electric Code 21 Non Twisted Pair 26 Normal Mode 13 Normally Closed alarm zones 17 Normally Open door ajar 19 request to exit 15 31 127 SYSTEM 4 amp 5 MANUAL Optional Mounting Kit 8 Overlapping Time Zones 47 P Parity vdt 24 36 Password 7 18 20 42 changing 67 telecommunications 37 Personal Identification Number PIN 41 Photo ID 9 Port Relay Data 69 Power Supply 29 door lock 72 keypads readers 20 RIM 10 20 Printer 16 30 71 74 installing 23 setup testing 24 VDT connection 36 wire 19 71 72 Printer Connector 23 Programming Keypad 7 19 22 73 wiring 30 71 Proximity 9 cards tags 10 installing 33 operation 34 wiring 10 33 R Reader Interface Module RIM 10 BCD data lines 29 30 door ajar time cancel 27 location 10 anti passback 12 proximity readers 33 specifications 10 troubleshooting 79 wiring 10 19 Readers 19 anti passback 12 25 back to back 12 19 Data chip 11 19 proximity 9 33 w keypads 12 wiegand 10 wiring 10 19 Relay 9 12 14 arm disarm security systems 52 Relays 12 13 53 assigned to codes 63
107. ct thanks to the hundreds of thousands of Corby Keys installed everywhere around the world For over 20 years we have been a major supplier to alarm dealers and locksmiths around the world Users of Corby products include the FBI Secret Service and Department of Defense Corby has over 200 authorized distributor locations in the USA and 17 foreign countries At Corby our customer is the most important person in our business We constantly strive to serve our customers with quality and service which is second to none At Corby we always try to be the best PROPRIETARY NOTICE The hardware and software described in this manual are proprietary products developed owned and distributed by Corby Industries Inc Allentown Pennsylvania USA The software is furnished to the user only under a license for use on a single Computer System and may not be copied or reproduced in accordance with the terms of the license and copyright laws Copyright 1996 by Corby Industries Inc All rights reserved The reproduction or utilization of this work in any form or by any electronic mechanical or other means now known or hereafter invented including xerography photocopying and recording and in any information storage and retrieval system is forbidden without the written permission of the publisher Citizen is a registered trademark of Citizen IBM is a registered trademark of International Business Machines Smartmodem is a trademark of Hayes Micr
108. cting SYSTEM 5 To An On Site PC Male 25 pin D subminiature connector with hood 7 pin wire harness supplied with CORBY 4021 module To on site PC To port A on 4021 B 6 2 Connecting SYSTEM 5 To A Modem Male 25 pin D subminiature connector with hood 7 pin wire harness supplied with CORBY 4021 module To Modem B 6 3 Connecting A Modem To A PC To port A on 4021 Male 25 pin D subminiature connector with hood Male 25 pin D subminiature connector with hood System 4 amp 5 Version 1 5P 1 6H 84 Connect 2 to the RED wire Receive Data Connect pin 3 to the WHITE wire Transmit Data Connect pin 7 to the BLUE wire Ground Use ONLY the RED WHITE and BLUE wires from the wire harness Connect pin 2 to the WHITE wire Transmit Data Connect pin 3 to the RED wire Receive Data Connect pin 7 to the BLUE wire Ground Use ONLY the RED WHITE and BLUE wires from the wire harness Use Pins 2 3 5 6 7 8 and 20 All connections are straight through For PCS with 9 pin connecters use a 9 pin to 25 pin adapter SYSTEM 4 amp 5 MANUAL B 7 System Configuration Set Port A to the same baud rate as set in database section of the back up restore emulate software If you are using modems the PC and the SYSTEM 5 must be set to a baud rate the modems can handle A baud rate must be selected for both SYSTEM 5 Ports A and B even if only one port is being used Connect the SY
109. ctive a control signal will be sent to the relay and it will activate in accordance to its individual programmed function If relay 4 was programmed to be LATCHING and IF it WAS NOT active at the current moment a START control signal would be sent to latch it in the active position If it WAS already active and in the latched position the START control signal will have no effect The system will proceed directly to the END time cell Even if the START time in the next time schedule 7 is identical to the START time in time schedule 3 the system will ignore it because it has already done its START job for relay 4 for this minute Remember at this exact point in time we are still working in time schedule 3 and only on relay 4 The actual time spent by the program is only microseconds It checks relays in this order 4 3 2 1 5 It checks time schedules in this order 1 2 3 4 5 6 7 8 It reads the START time and then the END time in each schedule For each relay it sifts through all eight time schedules including holidays and then proceeds to the next relay in logical order In the next example only Tuesday is shown for all eight time schedules and all eight schedules are assigned to the SAME system latching relay This is what will happen each Tuesday for this relay Invalid time cells and cells that are ignored are shown in BOLD Time Zones Start End Weekday Cell Cell SCHEDULE Start End 1 TUESDAY 00 00 00 00 2 TU
110. d and security printer with only two exceptions First the menus and prompts appear on the screen of the VDT rather than on the system printer and data is entered from the VDT s keyboard rather than from the program keypad Anything entered on the VDT must be followed with a carriage return also known as RETURN 4 3 2 Telecommunications Passwords amp Security Caution should be used in setting passwords If a password of 1234567890 is used it may be entered from the VDT AND the system program keypad If a password of Chair LOVER is used it NEVER can be entered using the system program keypad To enter a password from the system program keypad the password must contain only numbers After the password is entered on the programming keypad press to enter it in the system If you wish to program 1234567890 and your password touch 1234567890 The is the last digit in your password your password is 1234567890 If the system is accessed via a telecommunications line and modem the on site printer stops regular printing and only prints changes to the system status Items that ARE PRINTED include the time amp date the program mode was entered any relay that was changed while in the program mode any time or date change and system on line This function provides a printed audit trail of important changes to the system data 37 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank S
111. d in Plain English Programmable Digital User Codes With a Choice of 1 2 3 4 or 5 Digits O MCU is Housed in a Locking 11 X 15 Painted Steel Cabinet With Key Door Time Cancel Feature Limits Unauthorized Follow Throughs SYSTEM 4 Supports up to 500 Users Identified by User Numbers SYSTEM 4 Command Prints LAST 25 EVENTS ALL USER CODES CURRENT SYSTEM STATUS HOLIDAYS SYSTEM 4 CMOS 7 80 Based Computer With 32K Of EPROM and 8K Of Battery Backed CMOS RAM SYSTEM 4 Uses 12 Digit Desktop Keypad For System Programming SYSTEM 5 Supports up to 750 Users Identified by Name and Title SYSTEM 5 CMOS 7 80 Based Computer With 32K Of EPROM and 32K of Battery Backed CMOS RAM SYSTEM 5 Uses a VDT Terminal and Full Keyboard For System Programming System 4 amp 5 Version 1 5P 1 6H 2 SYSTEM 4 amp 5 MANUAL 1 5 MCU Advanced Features The MCU also contains these advanced features 16 Holidays Which Can Be Programmed in Advance O Automatic Leap Year Adjustment Every February 29th Programmed to the Year 2086 O Immediate Expansion to Eight Doors Plus Four Reporting Alarm Zones By Adding an SCU O Programmable Automatic Switch over of Daylight Savings Time Every April and October O Eight Programmable Relay Schedules to Automatically Control Any Relay 16 Times Day O Programmable Anti Passback Prevents a User From Passing a Code or Card to Someone Else O Eight Programmable Time Schedules to Control
112. d preventing unauthorized follow Throughs In addition if the door is not closed when the programmed strike time has elapsed a message will print seven seconds later with keypad card reader location ID DOOR AJAR TIME amp DATE If programmed the auxiliary relay 9 on the MCU will activate When the door is closed the message prints keypad card reader location ID DOOR CLOSED TIME amp DATE If the auxiliary relay is programmed to latch it will latch up and remain in that state until it is reset by a relay time cell telecommunications command or by you entering the system program mode This feature will not operate if the relay ID matching the keypad card reader ID is programmed to operate in the latching mode IMPORTANT The system only has one auxiliary relay MCU relay 9 It may be programmed to activate upon receiving a valid hostage duress code and or a Door Ajar signal The installer MUST ensure that a conflict of reporting by the auxiliary relay does not occur This can be done by only letting the auxiliary relay respond to one condition Don t mix duress with Door Ajar 3 11 Wiring The Auxiliary Input Terminal Terminal 18 of the MCU may be used to monitor an external device and print its status Messages are MCU AUX ON and MCU AUX OFF The SCU does not have this option The printed report is triggered by a momentary connection between MCU terminal 5 negative and MCU Terminal 18 When terminal 18 is forced low
113. d time cells The actual timing for any valid time cell relay activation depends on exactly how busy the system is when it encounters a command from a time cell within a time schedule to operate arelay Typical response time ranges from a few milliseconds to a maximum of 10 seconds If two or more relays are programmed to operate at the same time each relay WILL actually operate at different times The difference may only be milliseconds but the system tolerance is on the minute plus 10 seconds Relays WILL activate in a 4 3 2 1 5 order All five relays can be activated within 10 seconds after a valid time cell but keep the tolerance in mind if you are planning super critical timing 8 4 4 Extended Relay Times Be careful if you have exotic time schedules assigned to any relay Use the time amp day worksheets and ensure any overlapping time schedules do not conflict Momentary relays set in excess of 59 seconds may cause problems because each valid START and END cell re triggers a momentary relay and it restarts with a fresh time range If your programmed times are high stay with times which are 10 seconds away from both sides of 60 120 180 and 240 seconds 8 4 5 Door Ajar All input functions associated with a common strobe input are disabled when a time schedule takes control of a port relay This means that when a relay is activated by a time schedule Door Ajar Request To Exit and keypads or card readers associated with that port can
114. day date in 1992 08 12 31 84 16 12 31 84 TIMES DATE SCHEDULES 1 Set Time 2 Set Date 3 Set Daylight Savings 4 Program Holidays 5 Program Schedules 6 Print All Schedules 0 Return to Previous Function ENTER SELECTION gt Prompt Expecting a number 0 through 6 System 4 amp 5 Version 1 5P 1 6H 48 SYSTEM 4 amp 5 MANUAL 7 5 How To Test Time Zones Complete the written day schedule worksheets located in the rear of this manual Using these worksheets start with the 1st active day on the schedule Go back to the Main Selections menu enter the Times Dates Time Schedules Holidays sub menu and set the internal system date to match a valid date that falls on that DAY Be sure to use a calendar Otherwise the system will catch you using invalid dates and print an invalid message This test procedure assumes that you are familiar with the system AND you already have test codes cards programmed in the data file along with one or more active relays If you do not have any valid user codes cards or relays programmed you may proceed direct to the chapter titled Programming Codes amp Relays and enter actual or test data Set the system time two minutes before a time zone will go into effect Note the time on your watch and to make it easy do this at the top of the minute Also note the time at the printer to keep track of the valid and invalid time reports After all you are checking for valid times amp date
115. e Connection to the SYSTEM 5 is through the TELCOM RS 232C board which is supplied with the SYSTEM 5 The baud rate is factory set at 9600 and it may be changed to a lower rate if longer wire runs are necessary Refer to the VDT Terminal Users Guide Setup Section The number of data bits is 8 there is one stop bit and no parity 3 9 7 Wiring The VDT Connector SYSTEM 5 Only Locate the 25 pin D computer connector supplied with the system It is necessary to solder this connector to the terminal side of the three conductor shielded cable Use a good soldering iron suitable for electronic components Refer to the wiring diagram in the appendix section for a schematic of the connector pinout For an RS 232C line signal ground is not the same as earth ground DO NOT CONNECT THE FOIL SHIELD TO PIN 1 OF THE 25 PIN D CONNECTOR The foil shield should only be connected to the earth ground screw terminal on the TELCOM RS 232C board installed in the upper right hand corner of the MCU Plug the 25 pin D connector into the MODEM input on the rear of the terminal It is the connector on the left side as you look at the back of the terminal VDT Terminal MCU Connection Your Wire Color 25 pin D 2 RED of TELCOM RXD 25 pin D 3 WHT of TELCOM TXD 25 pin D 7 BLU of TELCOM sig GND System 4 amp 5 Version 1 5P 1 6H 24 SYSTEM 4 amp 5 MANUAL 3 10 User Control Keypads A control keypad is any Corby digital key that will be operated b
116. e specifications are not listed on the surge suppression device don t use it For best results use a Corby quality three stage suppression device In this area it pays to buy the very best Lightning and Voltage spikes are NOT covered under any Corby system warranty program Always make connections to the MCU or SCU terminals 2 amp 3 before making connections to the transformer If the wire is connected to the transformer do not plug it into the wall outlet at this time 3 12 1 Wiring Surge Protection The wire between the transformer and the MCU or SCU should be two conductor stranded or solid low voltage wire of at least 20 AWG for runs up to 25 ft and 18 AWG over 25 ft Using a one nanosecond surge protection device installed at the 110VAC outlet the wire between the 18VAC transformer and the system must be at least ten feet long The reason is high voltage travels about one foot per nanosecond A one nanosecond device will require at least one nanosecond for it to start clamping the surge and in one nanosecond the destructive voltage has already traveled five feet towards the system The idea is to have the clamping action in place before the high voltage gets into the equipment DO NOT POWER UP THE TRANSFORMER AT THIS TIME DO NOT MAKE ANY CONNECTIONS TO THE MCU OR SCU IF THEY ARE POWERED UP YOU MAY NOT POWER ANY AUXILIARY DEVICES OR DOOR STRIKES WITH THIS TRANSFORMER 3 13 Standby Battery Wiring The maintenance free lead ac
117. ead range Use eight conductor shielded cable to make the connections from the card Reader Interface Module RIM to the Corby access system Grounding of all shields is required An earth ground must be connected to all the foil shields in the system DO NOT connect an earth ground to terminal 1 or A on the proximity reader or terminal 5 of the RIM because these terminals are electrical negative not earth ground Back to back mounting for anti passback is possible if done properly Standard size readers cannot be mounted directly back to back unless they are offset at least eight inches so that one is well outside the shadow of the other 33 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 3 16 2 Operation Of Proximity Readers Corby proximity cards operate exactly the same as Corby Wiegand cards except physical contact between card and reader is not necessary The distance required for a read to occur varies with the type and style of the proximity reader but is typically in the range of two to seven inches Switch plate size and mullion style readers have narrow capture beams and fastest reading will occur by moving the card or tag at any convenient angle toward the reader rather than swiping it across A slight read delay of approximately one second is normal 3 17 Programming Batch Number into Data Chip Adapter Along with the five digit code number there is also a batch number in the Data Chips This batch number
118. eatherproof Keypads 8 25 73 Wiegand cards 9 RIM 10 styles 11 Wire 10 11 20 71 72 auxiliary input terminal 27 30 data chip reader 11 19 diagrams 87 118 door ajar time cancel 19 door locks 20 21 31 72 earth ground 29 keypads 7 19 26 30 LED drivers 31 readers 10 19 printer 16 19 23 30 72 programming keypad 22 proximity readers 33 request to exit 15 20 31 RIM 19 surge protector 28 telecommunications 83 85 VDT 24 zone wires 30 Wire Requirements 10 11 zz Zone Relay 13 17 SYSTEM 4 amp 5 MANUAL 1N4002 Diode 27 25 pin D Connector 23 24 AC Failure 3 123 AC Strikes 20 123 Advantage eries Proximity 4 123 Alarm Systems 2 8 14 51 52 123 Alarm Zones 3 17 123 125 Anti Passback 3 8 12 25 33 60 65 77 123 125 Arm Disarm 4 13 15 27 51 123 125 ASP 4 123 Assign Codes 60 62 123 Audit Trail 1 2 17 37 123 Audit Trails 3 Automatic Mode 61 64 123 Automatic Relay Operation 42 51 52 55 123 Auxiliary Input Terminal 14 20 27 123 126 Auxiliary Power 8 123 Auxiliary Relay 12 14 16 17 27 31 52 61 63 69 123 125 Auxiliary Terminal Test 78 123 Back Boxes 25 123 Back To Back Readers 12 123 Back up Restore 83 85 123 Backbox 8 Batch Load 61 64 123 Battery 1 2 16 20 22 28 29 31 33 39 73 75 77 81 87 123 126 Baud Rate 23 24 35 36 85 123 Baud Rates 4 18 35 36 BCD 7 8 10 17 19 22 25 29 73 74 78 82 123 125 Buffer 3 12
119. efore You Start There are a few simple but important details you should know before you start to program or enter data in the system This section will outline them for you 1 10 11 You must know the software serial number SSN This unique five digit number is enclosed with the software warranty registration form and is included with the instruction manual and equipment TO MAINTAIN A VERY HIGH LEVEL OF SECURITY AND FOR YOUR PROTECTION CORBY WILL NOT DIVULGE A SSN TO ANYONE For continued warranty and customer service on this unit after 90 days the license agreement must be signed and returned to Corby Industries The system keypad must be next to the printer The button clears the keypad buffer and signals the system that any numbers touched immediately after the should be considered valid So if your software serial number SSN is 1 2345 you should enter 123 4 5 This function is also valid on user keypads elsewhere in the system and we suggest other users of the system enter a prior to entering their personal identification number PIN in a keypad A default value is a preset value The system comes with certain default values that will remain constant unless you change them while in the program mode Each default value is explained in the section pertaining to its use When you enter the program mode all relays will remain in the state they are in While you are in the program mode all other ports keypad
120. eld drain wire only to MCU terminal 1 DO NOT connect it to terminal 16 Do not connect any printer wires to the SCU 25 Pin D Pin 3 to MCU 17 25 Pin D Pin 7 to MCU 16 25 Pin D Pin 20 to MCU 15 Shield to MCU 1 3 15 6 Wiring The AUX Input If the auxiliary input is used to monitor the status of another system or device make connections to MCU terminals 18 and 5 This will provide MCU AUX ON and MCU AUX OFF reports This is the default message This feature is NOT supported on the SCU If this feature is selected Request To Exit on the MCU will be disabled System 4 amp 5 Version 1 5P 1 6H 30 SYSTEM 4 amp 5 MANUAL 3 15 7 Connect Request To Exit RTE Switches RTE switches from a remote location or guard post are installed between MCU or SCU terminal 18 and MCU SCU terminals 11 12 13 or 14 Switches must be normally open devices Do not common any lines between the MCU and SCU If the switch is local and located at the door location connect the RTE switch wire to terminal 18 It is a standard feature for the SCU and does not have to be programmed YOU MUST ENSURE THAT THE WIRE FROM TERMINAL 18 NEVER CAN BE ACCESSED BY UNAUTHORIZED PERSONNEL AT ANY LOCATION WHERE THE KEYPAD OR RIM COMMON STROBE LINE IS AVAILABLE IF INSTALLING A KEYPAD BREAKOUT THE TERMINAL 18 WIRE PRIOR TO THE KEYPAD SITE AND RUN IT DIRECT TO THE RTE SWITCH IF THE TERMINAL 18 WIRE IS SHORTED TO THE RED COMMON STROBE LINE THE DOOR W
121. elded If you are using eight conductor cable Corby LEDs and RTE switches may use the extra wires You may not use the extra wires for any AC device door strike power or the RS 232C printer feed line These devices require an additional wire run Do not connect unused wires to the ground or shield RIM WIRE runs should be limited to 50 feet for each RIM It must be multiconductor not twisted pairs and MUST be shielded If you are using eight conductor cable Corby LEDs and RTE switches may use the extra wires You may not use the extra wires for any AC device door strike power or the RS 232C printer feed line These devices require an additional wire run Do not connect unused wires to the ground or shield DATA CHIP ADAPTER WIRE runs should be limited to 500 feet for each adapter It must be multiconductor not twisted pairs and MUST be shielded If you are using eight conductor cable Corby LEDs and RTE switches may use the extra wires You may not use the extra wires for any AC device door strike power or the RS 232C printer feed line These devices require an additional wire run Do not connect unused wires to the ground or shield BACK TO BACK KEYPADS are possible with this system To mount keypads on both sides of the door connect the five BCD output wires together inside the wall These keypads will report as one CARD READERS require a minimum of five wires with shield to the Reader Interface Module RIM Maximum distance is 500 feet
122. ended because the security printer only prints the user number NOT valid codes If all personnel are separated into number groups it is easy to identify users from the printed copy If you select all users in a batch to have a duress code the system will assign a main code first and then add 1 to the last digit of the main code for the optional duress code The system produces true duress codes In a hostage situation the only thing that changes is the last digit of the code If the main code is 1234 the duress code is 1235 Remember to instruct the users to always enter to clear the keypad buffer prior to entering their user code 1234 and 1235 While in the User Data menu TOUCH 2 to assign or change existing codes The system responds with PROGRAM NEW USERS 1 Load Manually 2 Batch Load Codes 3 Batch Load Cards ENTER SELECTION gt Sub Menu title Automatic Mode Automatic programming of cards Prompt Enter 0 3 TOUCH 2 to enter the Batch Loading of Codes this is for keypads only option 3 is for cards only This example shows 20 users allowed access to doors 2 4 and 7 with no anti passback or duress and restricted by time schedule 1 SYSTEM 4 ONLY System 4 amp 5 Version 1 5P 1 6H CURRENT DATA Code Length 5 Users Available 500 Facility Code 01 through 04 How many in This Group gt 20 Enter First User gt 001 Activate Duress Press 1 for Yes 2 for No 2 Allow Access to Doors
123. entarily close for the programmed time with ANY valid START or END time cell in ANY assigned time schedule Time schedules time zones and time cells MAY overlap This is a valid condition Therefore is possible to activate this relay twice on Monday or any other day using only one time schedule If all eight time schedules are assigned to relay 9 and each time schedule has DIFFERENT time cells for Monday it is possible to activate this relay at 16 different times each Monday AUX Relay 9 may also be activated with a duress hostage code card or if programmed with Door Ajar sense switches It is NOT RECOMMENDED to use this relay in a latching time mode with any schedule to open a door lock 8 1 4 How To Arm amp Disarm Security Systems With Relay 9 Most alarm systems require a momentary closure across their keyswitch terminals to arm or disarm The MCU AUX Relay 9 is the only relay in the system that can provide this momentary function It should be programmed for about two seconds momentary time and the relay contacts are located on MCU terminals 31 and 32 8 1 5 Automatic Relay Operation With Latching Relays A relay which has been programmed to be latching will also be activated latched by ANY valid START time cell and be deactivated unlatched by any valid END time cell NOTE If a relay is assigned to a time schedule for automatic operation the port disables it s input strobe during the on time of the relay While the stro
124. eprom installation 39 printer 23 programming keypad 74 proximity readers 33 RS 2332 24 telecommunications 35 wiring 29 Electromagnetic Door Holders 20 Emulate 83 85 Elevator Control Mode 13 programming 42 68 70 Energy Management 7 12 16 51 EPROM 1 16 72 installing 39 Expansion 7 63 System 4 amp 5 Version 1 5P 1 6H F Facility Code 42 setting 67 Fingernail Damage 20 Full Duplex telecommunications 18 VDT 36 Fuses 73 sH Holidays 54 55 programming 48 IBM PC backup restore 83 85 Internal Fuse transformer 16 31 xs Jumpers RIM 10 79 Data chip adapter 11 79 K Keypad Buffer 60 clearing 41 60 64 67 77 78 Keypads anti passback 8 25 LEDS 8 31 programming keypad 7 19 22 tamper methods 8 user 7 8 25 26 71 73 78 weatherproof 8 wiring 19 20 22 26 71 with card readers 12 20 ess Latching 13 51 automatic relays 51 54 68 69 door ajar time cancel 13 27 request to exit 15 Leap Year 3 LEDs 81 keypads 8 wiring 19 31 73 Mag Stripe 10 11 Magnetic Locks 11 16 21 27 Manual Mode programming codes cards 61 relays 12 Master Control Unit 3 16 72 81 earth ground 29 power up 31 printer connections 30 SCU connection 32 33 telecommunications installation 35 test points 77 78 VDT installation 39 MCU see Master Control Unit MCU AUX ON OFF 14 27 30 78 MCU RESET 32 33 35 39 73 77 Metal Stake 29 Midnight 47 48 55 Modem backup restore 83 85 MCU SCU
125. er w Door Ajar amp RTE For use with System 4 5 Green LED Only ADAPTER MODULE MODEL 4301 ET DATA 1 RED DATA2 quate DATA G 9 9 Q 9 9 9 9 re DATA WHITE WIRE NUT CONNECTIONS re BLACK O 12 B O i 3 5 3 Install J1 to program each u batch of data chips Remove TEST J1 for normal operation POINT SHIELD CONNECTS TO EARTH GROUND N NOT V USED ORANGE TO RTE TERMINAL E 5 u DE REQUEST TO EXIT RTE BUTTON OPEN CIRCUIT m z CONTACT CLOSES WHEN BUTTON IS PRESSED m SEE FIGURE 19 FOR 9 o u RED 4 LED FAIL SAFE CONNECTIONS 5 BROWN GREEN LED GREEN RED LED n BLUE NIGHT LIGHT S 2 BLACK NEGATIVE GREY DATA LINE SHI i ORANGE RED RED YELLOW BROWN ISOLATION DIODE FOR GREEN NOT USED DOOR AJAR SWITCH 1N4002 OR EQUIV ORANGE BLUE BLACK BLACK NOT USED yELLOW GREY WHITE e DOOR AJAR TIME CANCEL Wire Connections MAG CONTACT OPEN CIRCUIT CONTACT CLOSES WHEN THE SHIELD DOOR OPENS N BROWN GREEN NOT YELLOW Models 4307 USED ORANGE SHIELD Figure 30 Data Chip Reader To Adapter w Door Ajar amp RTE For use with System 4 5 Bi color LEDs amp Night Light ADAPTER MODULE MODEL 4301
126. erature rating 80 degrees C UL style 1061 CSA type SR PVC Typical capacitance per ft is 30 pf or less Maximum wire length is 500 ft Lengths longer than 500 ft are dependent on installation practices and operating environment and are experimental 11 2 6 Printer Wiring SYSTEM 5 Only The SYSTEM 5 security printer connects to the VDT terminal with a 6 ft RS 232C cable supplied by Corby It is not necessary to run a separate cable from the SYSTEM 5 to the printer Event only information is available at port B of the telecom module Port B requires a two 2 conductor 24 AWG or 22 AWG stranded wire with overall foil shield Connect the white wire TxD from port B to pin 3 on a 25 pin D subminiature connector and connect the blue GND from port B to pin 7 on a 25 pin D subminiature connector An A B switch may be used to select the printer source from either the VDT or port B 11 3 Master Control Unit MCU The MCU is a Z 80 based computer with 32K of EPROM and 8K of RAM SYSTEM 4 32K of RAM SYSTEM 5 It controls four relays for access or alarm security control accepts data from one to eight keypads or card readers monitors one auxiliary input on MCU terminal 18 and provides one additional relay which will activate on any valid duress hostage code and or door open ajar condition The and or condition described above is fully programmable and caution should be used in selecting the and condition It also provides a printed repor
127. es 2 for no Press 1 for Yes 2 for No Needs 5 digits 13790 53790 etc Working System is thinking Code User Ports Duress Schedules AP 61 System 4 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 10 2 3 Ways To Assign Codes Continued SYSTEM 5 ONLY CURRENT DATA Sub Menu heading title Code Length 5 Four digit Code in use Users Available 750 750 Codes are available Facility Code 01 through 04 Displays the Facility Code Range How many In This Group Enter the of codes needed Enter User Name 0 to quit Enter up to 15 digits Enter User Data Enter up to 9 digits Enter Code Digits or Card Enter Code or Card Is this a Duress User Enter Y for duress N for no duress Press lt Y gt es or lt N gt o Allow Access to Doors Ports 0 4 Enter the door s followed by 0 Allow Access by Time Schedules 0 8 Enter schedule s followed by 0 Restrict with Anti passback Enter Y for yes N for no Press lt Y gt es or lt N gt o Working System is thinking Code User Name User Data Port Access Duress Schedules AP When the system asks How Many In This Group it needs to know how many codes you intend to enter so it can check to see if that many codes are available and allocate space in memory If you have a SYSTEM 4 always enter a three digit number So for five users you would enter 005 If you have a Special SYSTEM 4 2000 User Version you must enter four digits If you have a SYSTEM 5 yo
128. es it to automatically arm disarm security systems that require a one or two second momentary pulse to operate 2 8 4 The Four SCU Main Relays The four main relays of the SCU are identical in ALL RESPECTS to the MCU No further explanation is necessary except to say they are referred to as relays 5 6 7 and 8 2 8 5 How The SCU Zone Relay Works The SCU zone relay is SPST and is rated one amp It is designed to report with dry contacts the violation of any of the four zone inputs on the SCU The contacts of this relay will be closed ONLY if all four zones of the SCU are secure This relay does not have a number and cannot be programmed It is for zone violation signaling only Each zone is monitored by the SCU and any action will be printed with zone ID status and a time amp date stamp IR beams ultrasonics and other devices can be monitored with ease A typical report is printed ZONE 3 VIOLATED 17 52 29 11 21 91 and ZONE 3 OK 17 52 35 11 21 91 Additional details are located in this chapter in the section dealing with the Slave Control Unit SCU 2 8 6 Understanding Relay Operation In the default normal relay mode relay 1 can only be operated by a valid code card entered at keypad reader location 1 Relay 2 can only be activated by a valid code card entered at keypad reader location 2 This same condition applies for relays 3 and 4 and if this is an eight door system relays 5 6 7 and 8 This default relay mode
129. even numbered keypad or reader Anti passback codes are a powerful control feature Personnel with anti passback restrictions attached to their code card are forced to use exact keypads or card readers and entry exit is recorded and controlled This feature can also be used successfully in guard watchtowers requiring the guard to go from one location to the next Caution Anti passback is not forgiving If you intend to use anti passback plan your odd and even keypad card reader locations carefully 25 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 3 10 4 Wiring User Control Keypads Run an eight conductor cable with shield non twisted pair to each location The keypad uses five wires the LED uses two wires and the RTE uses the eighth wire The door locking device uses a separate two conductor cable The MCU or SCU can supply 12VDC 25 ma to each keypad location whenever the port relay is activated You can use this voltage to provide visual feedback to the user by activating the green LED on the control keypad This 12 volt LED has a built in current limiting resistor Using two additional wires connect them to the yellow lead negative and red lead positive ofthe LED Carefully pull the white plastic header wire harness from the side ofthe PCB Carefully trim the shielding material from your cable and attach the shield drain wire to the ground screw on the PCB Do not attach the shield drain to the keypad metal pl
130. f loss of AC power does occur at the printer the system manager can enter the program mode to get a printed report of the last events that occurred during loss of power 11 7 1 Standby Time If AC power is lost the system will operate normally at MAXIMUM usage for 5 1 2 hours Then the battery voltage will be too low for relays and ports to work This assumes that all relays are pulled in for the entire 5 1 2 hours If your system uses door strikes with intermittent operation the stand by time will increase to a maximum of 55 hours Relay contacts that are electrically being held closed will open The memory will retain programmed data because the RAM is backed by an on board lithium battery socket smart socket When AC power is restored a message is displayed on the printer 11 7 2 Battery Replacement Modern maintenance free sealed lead acid rechargeable batteries have an approximate life of three to five years or 1000 charge discharge cycles When replacement is necessary the battery must be replaced with a lead acid type of the same capacity i e 12 volts 4 amp hrs The connecting wires require 187 inch quick disconnect tabs The recommended battery measures 3 5 in x 2 75 in x 4 0 in and is manufactured by YUASA Battery Co LTD Part No NP4 12 Installing a battery with less capacity will degrade the standby performance times and likewise installing a battery with more capacity will increase stand by time CAUTION Do
131. gand wires This card is inserted in a Corby Card reader instead of a keypad An instruction Tell the system to perform a function Central Processing Unit usually a microprocessor and in the system it is a Zilog Z 80 Canadian Standards Association which sets standards for conductor style and temperature ratings A stainless steel coin shaped canister containing an integrated circuit that transfers 48 bits of digital data when touched to a compatible reader Used in place of magnetic stripe proximity or Wiegand card technologies for access control Direct Current usually specified as having a positive and negative source and is rectified AC Turned off Not Active Preset values in the software program which will be used by the system if the programmer does not change them A software program that configures a personal computer PC to act as a Video Display Terminal VDT Turned on Activated Also enable To touch a keypad button in response to a system prompt A non volatile memory chip used in the system which contains all instructions and operates the system EPROMs retain all information without the need for backup power If and when power to the portal door fails the portal will be made permanently open and allow entrance or exit without need of access control codes If and when power to the portal door fails the portal will be made permanently closed and will not allow entrance and or exit A direct electrical
132. he telecommunications module is optional for the SYSTEM 4 included feature of SYSTEM 5 Itis a small printed circuit board which measures 2 5 X 4 5 It provides communications between a VDT or other compatible communications device Corby Industries will not support other methods of communication between these devices without Corby s telecommunications module The telecommunications module also allows off site access to the system via modems programming menus of the system may be entered by the user and initialized or revised as necessary You may add or delete users change codes and PIN numbers invalidate cards set access levels and time zones or program holiday dates and relay functions With a VDT Corby P N 4100 two modems Corby P N 4120 4121 and a simple telephone call the alarm system in the building can be disarmed and doors unlocked on command Ifthe options are enabled and installed on the system a check can be made to see if the alarm system was armed and by whom If zones are being used they can see exactly which zones were violated along with a time amp date stamp The system is protected with an optional personal password that can be up to 12 characters in length There are two RS 232C communication channels available Channel A is used for all full duplex operations Channel B is available for output mode only and is designed to output direct to VDT display terminal or printer Baud rates available are 300 12
133. heuer e eae pe E Red o EEG Ae Rae wee ERI 70 CHAPTER 11 TECHNICAL DATA eee e ele pr nr a en 71 11 1 Importance Of Earth Ground 4 71 11 151 Keypads rasen as Same E ER kuya Re NE E REA e CP RE 71 11 1 2 Printer acna ne ent La Be 71 11 2 Using Proper Wire s Ra IH RE EN EHER I ES RIPE 71 11 21 Keypad Wiring 24 22 et Rd Qa RIP ER EDD CIUS EA 71 11 2 2 Gard Reader Wiring estress nesar eei Pa AER ar tas ki Gs EE Line 72 11 2 3 Data Chip Reader Wiring 1 004 5 72 11 2 4 Door Strike Wiring Seas a a ee es eed 72 11 2 5 Printer Wiring SYSTEM 4 Only 14 4 72 11 2 6 Printer Wiring SYSTEM 5 Only 72 11 8 Master Control Unit MGU zin er ne arena 72 11 3 1 Serialization 2 peer y Da NUS E ar er Ie ui Ee Ex 72 11 9 2 Housing rare Q a uA EE D D SER dO ato dew 73 11 9 9 FUSE rn M EE P E ERE 73 11 9 4 System a ka EB N ne TS 73 11 4 Keypads u uytu p SI Dia EPI di uere ea RD IUE 73 11 441 LEDS amp WIGS 2322 ede nba EUM wed aah eT CEP ead ed 73 11 4 2 Program System Keypad SYSTEM 4 Only
134. hich is supplied SYSTEM 4 sends data to the printer at 600 baud bits per second The printer measure 16 9 X 12 6 and weighs 11 lbs It is designed to sit on a desk top and paper feeds from the back or bottom FOR MORE INFORMATION ABOUT THE PRINTER CONSULT THE USERS MANUAL THAT IS SHIPPED WITH THIS SYSTEM TO PROTECT THE PRINTER A ONE NANOSECOND SURGE PROTECTION DEVICE IS RECOMMENDED 2 14 Master Control Unit MCU The basic MCU is a complete low power CMOS 7 80 based computer with 32K of non volatile EPROM and 8K 32K of battery backed CMOS RAM It controls four main relays for personnel access energy management or alarm security control one auxiliary relay for duress code or door ajar signals accepts data from one to four user keypad and or card reader locations monitors one auxiliary input and supports Requests To Exit The SYSTEM 4 is programmed using the supplied digital keypad and printer The SYSTEM 5 is programmed using the supplied VDT terminal The printer provides hard copy reports of all events in simple to understand English text The MCU is housed in a 18 ga steel locking cabinet and weighs about 12 pounds It should be located in a secure remote location that has a 110 120VAC unswitched power source The only time the MCU will need to be accessed is to replace fuses test or replace the battery or use the system RESET button System 4 amp 5 Version 1 5P 1 6H 16 SYSTEM 4 amp 5 MANUAL 2 15 Slave Control Unit S
135. hods 8 Buffer keypad 60 64 67 77 78 printer 12 27 Cable card readers 10 19 card readers and keypads 20 Data Chip readers 11 19 door strike 72 keypads 8 19 26 71 printer 16 19 23 30 72 printer to VDT 23 program keypad 19 22 74 proximity readers 33 RIM to MCU SCU 10 19 SYSTEM 5 backup restore 83 84 twisted pair 7 VDT 24 Cameras 5 Cards 9 antipassback 25 facility code 67 keypads and cards 12 programming 59 61 65 proximity 9 wiegand 9 CMOS RAM 1 16 Cold Boot 32 35 37 Cold Water Pipe earth ground 29 71 79 Common Strobe door ajar 55 keypad 30 request to exit 15 31 RIM 10 30 slave control unit 30 Corby Cards 1 facility code 67 programming 65 proximity 10 wiegand 9 Crosstalk 22 D System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL Data Bits corby cards 9 VDT 24 36 printer 74 Data Chip 11 Batch ID numbers 34 Troubleshooting 79 Daylight Savings Time 42 43 48 57 Default Value 41 46 Delete Codes 67 Desktop Keypad 6 7 Digital Keypads 6 7 anti passback 8 w card readers 12 Diode caution 88 door strikes 20 21 31 72 magnetic locks 21 door ajar switch 27 Door Ajar 14 19 programming 42 68 69 request to exit 15 wiring 11 27 33 w automatic relays 43 52 55 Door Strikes 19 powering 28 75 using diodes 20 wiring 31 72 Duplicate Corby Cards 9 Duplication codes 60 Duress 9 auxiliary relay 13 27 52 programming 61 62 64 66 wiring 31 Earth Ground 71 80
136. id standby battery should be installed last REMOVE THE BATTERY FUSE NOW Observe polarity and using the supplied battery leads connect the positive battery terminal to terminal 4 of the MCU or SCU using the red lead Connect the negative battery terminal to terminal 5 of the MCU or SCU using the black lead Do not install the battery now because a battery shorted with a screwdriver may explode in your face System 4 amp 5 Version 1 5P 1 6H 28 SYSTEM 4 amp 5 MANUAL 3 14 Power Supply Design The system power supply and standby battery are NOT designed to supply DC power to any device other than the standard 12VDC LEDs in each control keypad To do so will reduce the charging capacity of the system drain the battery reduce the standby capacity below minimum specifications and possibly damage the system Therefore it is important that you DO NOT POWER ANY AUXILIARY DEVICES FROM THIS SYSTEM BATTERY DO NOT INSTALL THE BATTERY FUSE AT THIS TIME DO NOT INSTALL THE BATTERY AT THIS TIME 3 15 Final Wire Connections To The MCU Or SCU It is good professional practice to use insulated spade lugs when attaching wires to the MCU SCU terminal strips It reduces the chance of shorts and assures a good electrical connection and neat appearance Make connections to the MCU and or SCU in the following sequence 3 15 1 Connect Earth Ground To The MCU And SCU Connect a good earth ground to terminal 1 FAILURE TO CONNECT AN EARTH GROUN
137. ime amp date stamp The system is based on user codes or PINs Personal Identification Numbers being entered at a secure easy to use digital keypad The system can also use high security Corby Cards with swipe or insertion style card readers The special 30 data bit Corby Cards are manufactured using superior Wiegand effect technology and are approximately a billion times more secure than 26 Wiegand bit cards You can use and mix keypads and card readers in the same system or use them together at the same door for double security The system also supports short and or long range proximity cards vehicle ID tags and mag stripe cards 1 2 The Z 80 Microprocessor Design The system utilizes a Z 80 microprocessor combining all control electronics and port door relays on a single printed circuit board and deliver reliable performance All software is stored in a nonvolatile EPROM which maintains its data even with power disconnected As enhancements are made to the system most updates and new features can be added to older systems by simply inserting anew EPROM and or adding additional hardware The systems low power CMOS circuits with a standby battery can maintain operation for up to 55 hours The memory for the user data has its own internal battery and can retain the user data for up to 10 years The system microprocessor is constantly monitored by a watchdog circuit which maintains the operational integrity of the system 1 3 Programming Feature
138. installation will be relatively easy and fast Specific details are NOT covered here but are located elsewhere in this manual During installation refer to the wiring diagrams located at the back of this manual System 4 amp 5 Version 1 5P 1 6H 20 SYSTEM 4 amp 5 MANUAL 3 2 What Kind Of Wire To Use Determine the quantity and the type wire your installation requires and plan all wire runs before actual installation The printer card readers card reader interfaces and all keypads require dedicated shielded cables with a wire size of 24 or 22 AWG o The printer requires three conductors w shield system program keypad SYSTEM 4 only requires five conductors w shield o The user control keypads require eight conductors w shield for data LED and RTE connections card reader requires eight conductors w shield to be run to the card Reader Interface Module RIM Maximum distance is 500 feet If distances more than 500 feet are needed use a Corby Line Extender Module to get an additional 500 feet of distance The LEM goes in the middle of the wire run a The Reader Interface Module RIM requires eight conductor wire with shield to the MCU or SCU The RIM should be located inside MCU SCU cabinet It requires a separate constant source of 12 VDC We recommend eight multiconductor w shield 22 AWG because it s common and generally available Plenum cable is available from Corby also Do not use four pairs of twisted
139. is called normal mode follow mode This mode of operation may be changed in the DOOR RELAY DATA sub menu section See the next section for details of the elevator control mode independent mode 2 8 7 Understanding Elevator Control Mode Independent Mode When changed programmed from the default relay mode each relay s will operate independently and ANY VALID code or card entered at any keypad reader can operate any relay s Using this elevator control mode only one keypad reader is needed to activate any combination of the four eight with an SCU available relays and enables the user to control up to five nine with an SCU different functions from any keypad or card reader It also enables the user to activate any or all relays simultaneously with just one code or card from any location An example of this feature is using a code or card programmed for duress at location Lobby 1 that simultaneously A Activates a door release strike for 10 seconds at door 1 B Places a constant shunt across a protective alarm loop using relay 2 C Activates a video tape recorder for 60 seconds using relay 9 The printed record will not show the actual relays activated but will show the user ID and the location ID which was used to enter the code card Additional details are located in the Programming Codes amp Relays Chapter 13 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 2 9 How To Use Door Position Sense Switches
140. is used one or two second delays are common and are usually objectionable The solution is to add a special Corby RTE switch which instantly supplies disables the door strike or magnetic door holder and at the same time activates the RTE circuit for event recording printing This installation only requires eight wires shield Use 22 or 24 AWG wire with shield connected to terminal 1 Connect terminal 18 through the local switch to the keypad red wire or to the RIM terminal 11 NEVER ALLOW THE WIRE FROM TERMINAL 18 NEAR THE KEYPAD SOMEONE COULD REMOVE THE KEYPAD FROM THE WALL AND SHORT THE TERMINAL 18 WIRE TO THE RED WIRE WHICH WILL OPEN THE DOOR 15 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 2 11 Power Transformer For systems distributed in the USA the main power source for the SYSTEM 4 5 MCU and SCU are UL listed class II plug in type step down transformers They are rated 120VAC 60hz with a fused secondary output voltage of 16 5VAC 40VA These transformers are only designed to supply power to the system MCU or SCU They may not be used to power any other devices such as door strikes or electromagnetic locks CAUTION This Transformer Has An Internal Fuse Which Cannot Be Repaired Or Replaced BECAUSE THESE TRANSFORMERS SUPPLY POWER TO A SYSTEM Z 80 BASED COMPUTER A LIGHTNING AND HIGH VOLTAGE SURGE SUPPRESSION DEVICE IS REQUIRED TO BE INSTALLED BETWEEN THE TRANSFORMER AND ITS SOURCE OF AC VOLTAGE ONLY USE
141. l on the SYSTEM 4 It plugs onto the MCU and supports two channels of telecommunications and data transfer Use this module with any VDT terminal for fast programming on or off site If access to the SYSTEM 4 5 will be by dial up phone lines modems are required at the MCU location and the programming location Corby approved modems are highly recommended Access Security Requires Password up to 12 Characters in Length Baud Rates Of 300 1200 2400 9600 Are Programmable For Both Channels O Supports Some 300 1200 2400 9600 Baud Modems Including All Corby Modems Operates With Most TELCO or Four Wire Lines and Short Haul Modems up to 10 Miles Operates With Most Dial Up Standard Telephone Lines Including AT amp T MCI and Sprint Lock Unlock Doors or Arm Disarm Systems From Any Remote Location Including a Central Station Channel A Supports Full Duplex Two Way RS 232C Communications For a Modem or CRT D Channel B Supports Half Duplex Output Only RS 232C Communications For Printers Add Change Delete Users From Any Remote Location Including Central Stations System 4 amp 5 Version 1 5P 1 6H 4 SYSTEM 4 amp 5 MANUAL 1 10 Wiegand Corby Card Features Wiegand Corby Cards are credit card size or key shaped and designed to withstand many years of hard service They are the ultimate in high security devices and are custom manufactured to strict Corby standards and specifications A card reader interface module RIM is
142. led AND MOUNTED INSIDE the plastic LED housing which also has two six inch leads for connection to any 12VDC source The yellow lead on all Corby LEDs is negative The red lead is positive Corby supplies replacement LEDs in 12VDC versions 2 3 2 Planning For Anti Passback Digital Keypads Each code and or card is programmable for anti passback If a code or card is programmed during set up to have an anti passback restriction the system records the code card used by the person entering and prevents anyone else from using that same code card to enter while the original person is still in the protected area It prevents passing the card back to another person for unauthorized entry The anti passback feature and in out reporting require two keypads or two card readers to be used at each door one inside the protected area and one outside 2 3 3 Planning For Back To Back Keypads It is also possible to install two keypads back to back at the same door by wiring both keypads in parallel and connecting both of them with only one home run to the same MCU or SCU input port This type of installation will open the door anytime a valid code is used at either of the keypads but the printer will only show the port used as a single port This specific type of installation does not support anti passback or in out reports and requires the use of a digital code to open the door from any direction 2 3 4 Weatherproof amp Special Purpose Keypads Corby
143. low Throughs 2 Full Duplex 4 18 36 124 Fuses 16 22 32 73 77 124 Green LED 7 8 25 26 74 Holiday 18 42 43 45 48 51 54 55 119 122 Holidays 2 3 43 46 49 54 55 57 124 126 Hostage Situation 64 Hostage Duress 27 31 IBM PC 3 83 85 124 Internal Fuse 1 2 16 22 31 48 49 53 54 56 57 124 J1 34 79 Keypad Buffer 41 60 64 67 77 78 124 Keypads 1 7 8 10 12 17 19 22 25 26 29 31 41 52 55 60 64 71 73 78 123 126 Laminators 5 Latching 2 12 15 27 51 54 68 69 124 126 Leap Year 3 124 LEDs 8 10 19 29 31 73 77 79 81 124 License Agreement 41 Mag Locks 21 Mag Stripe 1 5 9 87 125 Magnetic Locks 5 10 11 14 15 17 21 27 81 87 88 124 125 Manual Mode 12 61 125 Manual Programming 2 61 Master Control Unit 2 7 16 72 81 125 MCU 2 4 7 17 19 33 35 39 51 52 63 72 74 77 79 81 123 125 126 MCU AUX OFF 14 15 27 30 78 MCU AUX ON 14 15 27 30 78 125 MCU RESET 32 33 35 39 73 77 125 Metal Stake 29 125 Midnight 47 48 55 125 Modem 4 17 20 23 24 37 83 85 123 125 Momentary 2 12 15 27 51 55 68 69 125 126 Momentary Operation 2 12 52 53 Mounting 8 9 11 20 22 25 33 125 126 Mullion Size Readers 9 125 Multiconductor Cable 7 8 20 22 23 33 71 125 National Electric Code 21 125 Non Twisted Pair 26 125 Normal Mode 13 34 125 Normally Closed 3 8 9 11 13 15 17 20 31 37 43 51 52 57 75 12
144. ls the system there are no more schedules for this user The SYSTEM 4 and 5 support antipassback The system will ask Restrict with Anti Passback If you select yes the user must enter his code card for entry and exit to the building If you have a SYSTEM 4 press 1 for Yes or 2 for No If you have a SYSTEM 5 press Y for yes N for no Example TOUCH 1 SYSTEM 4 or Y SYSTEM 5 for antipassback TOUCH 2 SYSTEM 4 or N SYSTEM 5 The system will either request another code or return you to the CHANGE CODES AND ACCESS DATA menu 63 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 10 5 Automatic User Codes The system can automatically generate random main codes and optional duress codes for each user Itis recommended that users be broken into groups having identical security levels For example ifthere are 20 people who work in the computer operations area and they all start work atthe same time and they all go through the same doors etc etc then you can batch load them in the automatic mode Remember that all the details for all users must be identical for each batch load User numbers are assigned sequentially beginning with the first user number entered It is recommended that a method be devised prior to starting the code generation that will keep all user groups separate For example management can have user numbers 1 through 20 office personnel could have user numbers 100 through 199 etc This method is recomm
145. manufactures several different types of 7000 Series keypads in single and double gang styles with up to seven multicolor LEDs and speaker holes installed These additional red green and yellow LEDs are useful in providing the user with information about the current status of alarm systems protective zones and other conditions Installing a SYSTEM 4 5 decoder on the rear of these unique keypads allows them to be connected to the SYSTEM 4 or 5 There is an outdoor weather resistant version with the most popular being the flush mounted model which has two LEDs and a built in night light All keypads require an eight multiconductor cable w shield See Corby s current Parts List for ordering details 2 3 5 Optional Keypad Tamper Methods Normally the installation of any system keypad card reader or Reader Interface Module RIM does not require any tamper schemes as the keypad and or card data is BCD encoded multiplexed and sampled hundreds of times per second It is almost impossible for anyone to duplicate a valid code card condition by crossing or switching any of the five wires which return encoded keypad or reader data to the MCU or SCU For added protection the 12 volt LED output line is fused at 1 2 amp IT SHOULD BE NOTED THAT IF ANY OF THE FIVE DATA LINES ARE SHORTED TOGETHER ANY OTHER KEYPAD OR READER IN THE SYSTEM WILL NOT FUNCTION If the keypad will be mounted outside in a public area subject to vandalism or if it could be removed
146. measurements Using the picture of the circuit board locate the exact test point locations required Place a digital voltmeter between MCU or SCU terminal 5 and the following test points on the next page Test Points Voltmeter Description 1 12 90 TO 14 50 PCB regulated supply 2 13 40 TO 13 60 Battery charge do not change 3 4 80 TO 5 20 Regulated five volt supply 4 11 70 TO 12 20 Negative 12VDC AC current should be 0 060 0 120 Amps This ends the no load voltage tests 12 3 RESET To test RESET press the white button located on the left side of the PCB above fuses The system prints MCU RESET Correct system message NOTE System is now ON LINE and ready to accept user keypad data 77 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 12 4 Testing User Keypads The following is a run time test and it checks all the user keypads in the complete system System keypads use a negative BCD encoding scheme and it is only necessary to test keypad digits 0 1 2 4 8 to verify the data lines This test assumes the default code length of five digits is in use but it is possible to run this test with a four digit code by not using the digit zero in the code sequence You must use the to clear the keypad buffer There may NOT be a user code of 01248 or 1248 currently programmed in memory To ensure all wires are intact and connected properly you must go to each keypad in the system and clear that keypad buffer by touching
147. nect wires Do not use the top five knockout holes around the circuit board because wires on or near the PCB components may provide you with experimental results 3 7 Desktop System Program Keypad SYSTEM 4 Only The desktop system program keypad and the printer are required for programming Install both of these devices at the same time and in the same area These devices require separate cable runs Use a three conductor shielded cable for the printer and a five conductor shielded cable for the desktop system program keypad You may NOT use one multiconductor cable run for both the printer and this keypad due to of crosstalk You may run two separately shielded cables in the same conduit Select a final location for the equipment remembering that the printer requires 110VAC and only has a five ft cord 3 8 Wiring The System Program Keypad SYSTEM 4 Only Carefully pull the white plastic header wire harness from the side of the PCB Use wire nuts and connect the five data wires of your cable to the five BCD data wires of the quick disconnect harness So you can keep track of your color codes used in this installation write in the color match below Corby Color RED GREEN WHITE YELLOW BLACK Carefully trim the shielding material from the cable and attach the shield drain wire to the ground screw on the printed circuit board Do not attach the shield drain to the keypad metal plate BE CAREFUL SHIELD SHORTS TO THE PCB WILL CAUSE UNPREDICTABLE OP
148. necting A VDT Terminal To The Printer Port SYSTEM 4 Only In some cases it may be desirable to eliminate the SYSTEM 4 printer and send the data directly to VDT This may be done using the following PIN assignments Please note that the baud rate is fixed at 600 baud VDT TERMINAL SYSTEM 4 PIN SIGNAL TERMINAL SIGNAL 3 Receive Data 17 Transmit Data 7 Ground 16 Ground The VDT must be set to No Parity 8 Data Bits 1 Stop Bit 600 Baud Rate order to prevent screen burn in we recommend that you set the VDT s screen saver option to ON This will cause the screen to shut off after several minutes of inactivity The screen will be reactivated when a key is struck or a new message is sent System 4 amp 5 Version 1 5P 1 6H 36 SYSTEM 4 amp 5 MANUAL 4 3 How To Boot With A VDT If the telecommunications module and VDT are installed correctly a cold boot should produce the same message that is normally printed by the printer When the prompt says ENTER SYSTEM CODE enter this clears any garbage on any of the buffers and your software serial number for this system Do not press lt RETURN gt 4 3 1 Using The VDT And Modems With Telecommunications The system can be programmed from a VDT hard wired to the COMM1 port channel A on the telecommunications module PCB or from a remote location using two modems and a standard dial up phone line Programming with a VDT is similar to programming with the system keypa
149. ng Proper Wire Typical wire specifications for keypads card readers and Data Chips is an eight conductor 22 AWG stranded multiconductor with overall foil shield 032 in 81mm PVC jacket insulation thickness 010 in 25mm mutual capacitance per ft 25 30 pf ft 300v 80 degrees C UL style No 2464 CSA type SR PVC This wire must be multiconductor and not multitwisted pair It should be noted that all multiconductor wire has some overall twist which is fine The use of any other wire is experimental and not supported by Corby The unused conductors can be spared but may not be connected to ground or doubled up with active wires In some applications where not all features are used a cable with a smaller number of conductors can be used 11 2 1 Keypad Wiring The SYSTEM 4 programming keypad requires a minimum five conductors Since the printer and system keypad are generally located at the same location the temptation to combine these two items into one cable must be avoided Door Port keypad installations require five conductors for the keypad two conductors for LED and one more conductor for Request To Exit This is a total of eight The Two conductors that provide power to the door lock must be in a separate cable Maximum combined length for a keypads in the system is limited to 4000 ft 71 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 11 2 2 Card Reader Wiring Card reader installations require five conduct
150. no event is recorded at the SYSTEM 4 5 10 check the system programming 1 That the port is set up for card only 2 That the port is not under time schedule control 3 That the facility code is set for the cards you are using 4 That the five digit code number on the card is programmed as a valid user Good Read Flash followed by the LED turning on solid for the relay time the RIM received good data and the SYSTEM 4 5 10 recognized a valid code and operated its relay 12 7 Testing the Data Chip Adapter The Data Chip adapter has a LED and a Test Point to help in troubleshooting The LED on the adapter will flash several times whenever a Data Chip is successfully read provided the Batch ID number was already programmed in the adapter The LED flash is also at the reader LED The Test Point can be used at anytime in place of the reader and consists of a vertical metal contact next to an exposed pad area on the printed circuit board of the adapter labeled TP1 To read a Data Chip or set its batch ID number place the edge of the Data Chip on the pad and lean the smaller flat surface against the vertical metal contact If the LED does not flash check that the adapter has 12VDC power on the and terminals Try reentering the batch ID number Check the wiring between the reader and the adapter for shorts or opens Try using the Test Point instead of the reader with the wire on the Data terminal disconnected If none of these steps correct the pr
151. not deactivate the relay Also events are not recorded The system acts like nothing is connected to that port input common strobe terminals 11 12 13 14 55 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 8 5 How To Test Auto Relays You can set the system clock for any valid time or date Complete the day worksheets located in the rear of this manual The worksheets will give you a snapshot of when each relay will be on or off Enter the system serial number in the program keypad to enter the program mode Start with the 1st active day and set the internal date to match a valid date that falls on that day Be sure to use a calendar Set the time one minute before a time zone will go into effect Note the time on your watch and it s best to do this at the top of the minute In the next example we have a time schedule cells programmed for 09 00 and 17 00 This time schedule is assigned to all five relays Here is part of a test program so you can see the printout AUTO RELAY START AUTO RELAY START AUTO RELAY START AUTO RELAY START AUTO RELAY START AUTO RELAY END AUTO RELAY END AUTO RELAY END AUTO RELAY END AUTO RELAY END NN Q NN When you are finished be sure to set the correct time amp date into the system System 4 amp 5 Version 1 5P 1 6H 09 00 00 09 00 01 09 00 02 09 00 03 09 00 04 17 00 00 17 00 01 17 00 02 17 00 03 17 00 04
152. ntrol Keypads 4 26 3 10 5 Wiring Door Ajar amp Time Cancel Option 27 3 11 Wiring The Auxiliary Input Terminal 27 3 12 How To Install Surge Protection 28 33 271 Wiring Surge Protection y ar ER EIER a La 28 3 13 Standby Battery Wing ee ze RN eR rU E ER RAE id a oud wk TEASE cede 28 3 14 Power Supply Design 4 29 3 15 Final Wire Connections To The MCU Or SCU 41 29 3 15 1 Connect Earth Ground To The MCU And SCU 29 3 5 2 Connect The BED Data Lines code ee S 29 3 15 3 Connect The Keypad amp RIM Strobe Lines 30 3 15 4 Connect The Zone Wires To The SCU 30 3 15 5 Connect The Printer Cable To The MCU SYSTEM 4 only 30 3 15 6 Wiring The AUX InpUt sux a S nen bee 05 30 3 15 7 Connect Request To Exit RTE Switches 31 3 15 8 Connect All Door Strikes And Other Devices 31 3 15 9 Connections For Hostage Duress Signals
153. o ID formats Custom cards with unique artwork on either side are also available 2 4 2 Sequential Numbering Of Cards Cards are shipped using sequential numbering and the starting or ending numbers cannot be specified prior to ordering Our quality control department rejects about eight percent of all cards before they are shipped and consecutive card numbers are not guaranteed One copy of a computerized listing of all cards shipped to you is included in worksheet form To keep programming easy and simple be sure to complete the form prior to programming A card reader is NOT required for programming cards into the system Cards are programmed automatically 2 4 3 How To Use Hostage Duress Cards Wiegand Corby Cards may be used with a swipe type card reader backwards white side facing user and the card will operate normally If the card number has been programmed for emergency duress mode and it is swiped white side out it will operate the system normally AND also activate the MCU aux relay 9 to transmit a duress signal This feature is NOT available with insertion readers Proximity Card readers or mag stripe readers 2 4 4 Proximity Readers Standard size readers are beige one piece units which measure 5 5 X 4 5 inches They are surface mountable and protrude 1 375 inches from the mounting surface Typical read distance is three six inches but this will always vary depending on the installation An outdoor weatherproof version in UV re
154. o doors ee 1 8 ASP Proximity Reader Advantage eries Proximity ASP is a trademarked name for a type of proximity card reader system This proximity card reader system consists of three major parts Proximity readers proximity cards and or tags and a Corby card reader interface Programming wiring and setup is similar to Corby Wiegand card systems Corby ASP cards are read when they are brought within reading distance of a card reader typically three inches to three feet depending upon the style of the reader It is not necessary for the card to have physical contact with the card reader for a read to occur hence the name proximity When a Corby ASP proximity card is presented to the reader it is triggered into a transmission mode and the card transmits a 30 bit digital signal to the reader by means of an electrostatic coupling Corby ASP cards do not have batteries to restrict their life but instead receive power to transmit as part of the trigger signal from the card reader Unlike other proximity systems which use resonant circuits as code elements Corby ASP cards actually contain miniature CMOS circuits Corby ASP cards can be read while still in a wallet or purse providing added convenience In addition readers may be installed behind walls for enhanced security and some models may even be mounted ona solid metal surface 1 9 Telecommunications Module The telecommunications module is standard on SYSTEM 5 and optiona
155. oblem try a cold reset of the adapter First remove power then install jumper J1 Next power up the adapter This will reset the adapter and erase all batch ID numbers The batch ID numbers must be programmed again before the adapter will read Data Chips If the LED flashes but the port relay never moves and no event is recorded check the programming of the SYSTEM 4 5 10 and the wiring between the adapter and the SYSTEM 4 5 10 The programming steps necessary for the Data Chips to be read by the SYSTEM 4 5 10 are that the port must be set to keypad or data chip mode and the port must not be under time schedule control Also the five digit code number on the Data Chip must be programmed as a valid user in order for the relay to operate 79 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 80 SYSTEM 4 amp 5 MANUAL APPENDIX A GLOSSARY A 1 Terms Used In This Manual AC AWG CODE CORBY CARD COMMAND CPU CSA DATA CHIP DC DISABLED DEFAULT EMULATOR ENABLED ENTER EPROM FAIL SAFE FAIL SOFT GROUND LED MCU Alternating Current used to power devices American Wire Gauge usually denotes the size of wire used in system A sequence of digits which are sensed by the system when the user touches the numbered keypad buttons A plastic card containing user ID information using imbedded high security Wie
156. ocomputer Products Touch Tone is a registered trademark of AT amp T WYSE 30 is a registered trademark of Wyse Z80 is a registered trademark of Zilog Incorporated Version 1 5P 1 6H 2 0P Printed October 1996 Part number F9955 Price 27 00 Printed in USA Page Intentionally Left Blank TABLE OF CONTENTS SYSTEM 4 amp 5 MANUAL Section Page CHAPTER SYSTEM OVERVIEW est an wk ae ae EP uy tp a clk ue sa RC e RR d 1 1 4 Introductionis sae ies eta En Rn 1 1 2 The Z 80 Microprocessor Design 71 4 2 1 1 1 3 Programming Features Hr str ara Elek late 1 1 4 SYSTEM 4 amp 5 Standard Features 2 2 1 2 1 5 MCU Advanced Features 3 1 6 SCU Eight Door Expansion 2 22 ee Hr Tr lR ee rd 3 1 7 Differences Between SYSTEM 4 5 1 2 4 1 8 ASP Proximity Reader ess uya Shu A RAM aw eet 4 1 9 Telecommunications Module 1 43 4 1 10 Wiegand Corby Card Features 5 1 17 Mag stripe Features u a nee ar Metin ae kau RE deen NEC GR RE AE FEIN 5 1 12 Data Chip Features Sims a en en ne en 6 CHAPTER 2 HARDWARE OVERVIEW
157. oes not decide whether the card is valid or not The validity of a card is decided by the MCU However the RIM can determine if the data is the in the correct format if the parity is correct and if the fixed fields within the data are correct From these checks the RIM can determine if the data is good or not and will send out the proper flash pattern to the reader LED The Reader LED should flash when a card is read at the reader The flash is also sent to the LED output terminal on the RIM so it can be seen at the reader There are two types of flashes a good read flash and a bad read flash The good read flash is one burst of quick flashes about one second long The bad read flash is four bursts of quick flashes about a half a second long each separated by one second of the LED being off Listed below are the three possible LED flash patterns Bad Read Flash the RIM received data but the data was bad The problem could be at the reader in the wiring between the reader and the RIM or the type of card being used Check 1 That the reader and the type of card used match the jumper setting on the RIM 2 That Data 0 DO and Data 1 D1 are not reversed 3 That there are no shorts or opens in the wiring between the reader and the RIM 4 That the shield from the cable between the reader and the RIM goes to earth ground 5 That the reader voltage is correct Good Read Flash the RIM received data and it determined that the data was good If
158. oliday date takes precedence over a normal time schedule day If a holiday falls on a Wednesday any normal time zone for day 4 Wednesday will not be valid TOUCH 4 The following current holidays will be printed Holiday Holiday 01 12 31 84 09 12 31 84 02 12 31 84 10 12 31 84 03 12 31 84 11 12 31 84 04 12 31 84 12 12 31 84 05 12 31 84 13 12 31 84 06 12 31 84 14 12 31 84 07 12 31 84 15 12 31 84 08 12 31 84 16 12 31 84 Enter to Change 0 to Quit Requires two digits For this holiday example we will change holiday slot 07 Slot 07 presently holds a system default date of 12 31 84 We will change it to Christmas 1992 and program the new date into the holiday listing position 07 TOUCH 07 and the following will print Enter Date mmddyy Requires six digits TOUCH 122592 to enter the date 12 25 92 in holiday slot 07 The system responds and prompts you for the next holiday slot to change if any For this example we will TOUCH 00 quit the holiday dates programming routine and return to the Times Dates Time Schedules Holidays sub menu Enter to Change 0 to Quit End holiday sequence by pressing 00 TOUCH 00 the holidays will be printed with the new data followed by the TIME DATES menu Holiday Holiday 01 12 31 84 09 12 31 84 02 12 31 84 10 12 31 84 03 12 31 84 11 12 31 84 04 12 31 84 12 12 31 84 05 12 31 84 13 12 31 84 06 12 31 84 14 12 31 84 07 12 25 92 15 12 31 84 Active holi
159. op of each minute the system checks its calendar to get the current day of week date and any holiday date In logical order the system first looks at relay 4 or in the case of expansion relay 8 it will get to the other relays later to see if there are any time schedules assigned to it and whether it is programmed for momentary or latching operation For the purpose of this discussion only we will assign to relay 4 time schedules seven 7 three 3 and five 5 With this information it starts to read in ascending order 3 5 7 only the assigned time schedules for this relay As it reads the first lowest numbered assigned time schedule 3 it goes directly to the proper day to execute one or both time cells The system will ignore any time cell in any time schedule which contains 00 00 For this discussion the current day is Monday and the system first looks at day 2 Monday s START cell It compares the START cell to the END cell If they contain identical times both cells are invalid because the system cannot START and END a relay at the same time In this example under discussion the system sees the 13 00 13 00 invalid time cells and the program immediately exits time schedule 3 and proceeds directly to the next assigned time schedule 5 and again only looks at Monday day 2 for this relay 4 If the START and END times are NOT identical the system will execute the START instruction If relay 4 is NOT a
160. or card inputs TOUCH 0 Return On Line while in the Main Selections menu and you will exit this menu end the programming session return the system ON LINE and allow all users access to the system When you touch 0 the following message will be printed SYSTEM ON LINE 15 26 42 09 14 91 System Message 6 3 Change Times amp Dates TOUCH 1 while the Main Selections menu is displayed on the printer or VDT screen The Times Dates Time Schedules Holidays sub menu will print TIMES DATES SCHEDULES Sub Menu Title 1 Set Time Sets system time in 24 hr format 2 Set Date Sets System date 3 Set Daylight Savings Enables or disables DST mode 4 Program Holidays Assigns selected dates for Holiday operation 5 Program Schedules Set time schedules you select 6 Print All Schedules Prints all eight schedules 0 Return to Previous Function Returns to Main menu ENTER SELECTION gt Prompt Expecting a number 0 through 6 TOUCH 1 to enter new clock time or change current clock time Use 24 Hour Format hhmmss Needs six digits Enter Time gt You must enter six digits in military time with the hour minutes and seconds The clock is set when the sixth digit is entered If you are using the telecommunications module and a VDT to program be sure to enter a lt RETURN gt If the time is before 12 59 59 in the afternoon just enter the six digits of the current time Example current time is 11 37 07 AM in the morning
161. or keypad and card reader operation Asks if this port is momentary or latching Enter 1 for atimed relay 1 250 seconds Enter 2 for latching or on off operation If momentary enter time 1 250 seconds Enter schedule s followed by 0 Enter next port or 0 to get menu Time Mode 005 Secs 002 Secs 002 Secs 002 Secs 002 Secs 68 Activated by Scheds SYSTEM 4 amp 5 MANUAL SYSTEM5 TOUCH 1 to Set the port data SYSTEM 5 shown Description Port Relay Access Mode Time Mode Activated by Scheds 1 Keypad or Data Chip 002Secs 2 Keypad or Data Chip 002Secs 3 Keypad or Data Chip 002Secs 4 Keypad or Data Chip 002Secs 9 002Secs Port 4 to Change 0 to Quit gt 1 Enter the port to change data for Enter Description Front Door Enter 15 characters for port description IS PORT Asks which 1 of 3 selections 1 Keypad or Data Chip Enter 1 for keypad operation only 2 Card Enter 2 for card reader operation only 3 Both Enter 3 for keypad and card operation ENTER SELECTION gt 2 SET RELAY FOR Asks if this port is momentary or latching 1 Momentary Enter 1 for a timed relay 1 250 seconds 2 On Off Enter 2 for latching or on off operation ENTER SELECTION 1 Enter Time 001 250 sec gt 005 If momentary enter 1 250 seconds Activate by Schedule 0 8 0 to Quit gt 10 Enter schedule s followed by 0 Port 4 to Change 0 to Quit gt 0 Enter next
162. or the total length of wire exceeds specifications THIS ENDS THIS KEYPAD TEST SEQUENCE 12 5 Auxiliary Terminal Test This test sequence checks the auxiliary terminal on the MCU and SCU terminal 18 to ensure it is active and prints correctly This function will not work unless it is selected in menu 3 option 5 Place a wire jumper between terminal 18 and terminal 5 The message printed should read MCU AUX ON with a time amp date stamp When the wire jumper is removed the message should read MCU AUX OFF or stored message If a SCU is being tested the procedure is identical but the message will carry the ID number of the SCU under test System 4 amp 5 Version 1 5P 1 6H 78 SYSTEM 4 amp 5 MANUAL 12 6 Testing the RIM The RIM has two LEDs and a push button to help in troubleshooting card reader problems The facility code must be set at 00 for this test to work properly If wiring is correct the message code error 01248 should appear The Strobe LED should flash continuously This shows that the RIM is receiving the Strobe output from the MCU SCU If this LED is on solid or off check that the blue wire from the RIM is connected to terminal 5 on the MCU SCU and that the RED wire from the RIM is connected to MCU SCU terminals 11 12 13 or 14 Also ifthe LED is off check to see that there is 12VDC on the first two terminals of the RIM labeled 12 IN and The RIM is a microprocessor based module and d
163. ors for the reader and three conductors for Door Ajar and Request To Exit This is a total of eight The Two conductors that provide power to the door lock must be in a separate cable The maximum wire length between a reader and a RIM is 500 11 2 3 Data Chip Reader Wiring Data Chip reader installations require two conductors for the reader one conductor for the LED and three conductors for Door Ajar and Request To Exit This is a total of six The two conductors that provide power to the door lock must be in a separate cable The maximum wire length between a reader and an adapter is 500 11 2 4 Door Strike Wiring Door strikes that draw less than 1 amp can be wired to the system with 20 AWG solid or stranded wire for runs up to 50 ft For longer runs or for door strikes that draw more than one amp use 18 AWG or larger wire For DC door strikes wire a diode across the coil The stripe side of the diode must go to the positive side of the DC coil or you will place a dead short across out power supply See wiring diagrams Power for all door locking devices must be supplied from external power sources no aux power is available from the panel AC door strikes are not recommended 11 2 5 Printer Wiring SYSTEM 4 Only The SYSTEM 4 security printer requires a three conductor 24 AWG or 22 AWG stranded wire with overall foil shield Typical wire specifications are Jacket thickness 032 in 81mm insulation thickness 010 in 25mm temp
164. ot install the telecommunications module on an SCU It will only operate if installed correctly on an MCU 4 1 2 Set The Baud Rate Locate the telecommunication module Set the baud rate dip switch for COMM1 Channel A Your choices are 300 1200 2400 or 9600 Then set the baud rate of COMM2 Channel B to the desired baud rate The baud rates may be the same or may be different but there must be one switch per channel The baud rate is set by moving one DIP switch to the on position for Channel A and one DIP switch for Channel B All other DIP switches MUST be off NOTE one DIP switch must be set on each port for this board to operate 4 1 3 Plug The Telecommunications Module PCB On The Header SYSTEM 4 Only Grasp the printed circuit board and carefully align the telecommunications board 50 pin female header with the MCU 50 pin male header When aligned press the two units together Use extreme caution when mating the male female If the connectors are incorrectly positioned you can destroy both the telecommunications module and the MCU You must replace the screw which holds the top board telecommunications module to the bottom board MCU because this screw completes the necessary earth ground circuit 4 1 4 Reboot The System With Telecommunications If you are positive the telecommunications module board is installed correctly connect the AC transformer s and supply 18VAC to the MCU or MCU SCU combination The system should boo
165. oth ends and lay one row of pins on a flat surface Gently apply pressure ina slight rocking motion until one side 14 pins are perpendicular to the EPROM body Then do the same procedure to the other side The main objective is to align all 28 pins so they are perpendicular to the EPROM body 8 The notch in the EPROM body must be at the TOP 9 Line up the pins of the EPROM with the socket and using your fingers gently press into place with a slight rocking motion After the pins are aligned the EPROM should press into the socket approximately 1 16 inch Sometimes a pin will bend inward under the EPROM and not be readily noticeable If this happens remove the EPROM and reinsert it correctly 10 Ensure the printer or VDT is switched ON 11 Connect the 18VAC transformer to power up the unit 12 Replace the battery fuse and or reconnect the standby battery 13 MCU RESET should appear on the printer 14 Enter the system software serial number and CLEAR ALL MEMORY All user codes will be cleared and all system values will be set to default factory standard condition 15 If the EPROM is installed backwards or if it is handled improperly it will be damaged 16 Reprogram all codes time schedules and system settings 39 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 40 SYSTEM 4 amp 5 MANUAL CHAPTER 6 PROGRAMMING 6 1 B
166. path to earth ground Usually a cold water pipe the steel beams of a building ora steel rod which is driven six feet into the ground Earth ground IS NOT the same as electrical ground A solid state diode that emits red green or yellow light Also referred to as LEDS or LEDs Corby LEDS usually have a built in current limiting resistor Master Control Unit Steel locking cabinet which contains the CPU PCB RAM EPROM standby battery and connection terminals 81 System 4 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL PCB Printed Circuit Board PROMPT cue While in the program mode the usual prompt or instruction is ENTER SELECTION At this point the system is looking for the user to enter a number or a to abort the current program mode RS 232 Data transmission standard using 12 volt voltage transitions to transmit digital data SERIAL NUMBER A unique combination of digits and or letters All system software firmware and hardware is serialized SPDT Single Pole Double Throw Relay Contacts UL Underwriters Laboratories WATCHDOG A circuit in the system that prevents microprocessor latch up The watchdog minimizes the harmful effects of lightning and high voltage transients MTBF Mean Time Between Failures BCD Binary Coded Decimal A 2 FCC Compliance This equipment generates and uses radio frequency energy If it is not installed and used properly in strict accordance with the manufacturer s instructions i
167. ptions and Test 1 90 Figure 3 SYSTEM 4 5 10 Battery and Transformer 1 91 Figure 4 SYSTEM 4 Programming Keypad and 2 92 Figure 5 SYSTEM 5 Terminal Connections 2 4 93 Figure 6 Keypad with Door and Request To Exit 422 4 94 Figure 7 RIM Power Supply Connections 4 95 Figure 8 RIM to SYSTEM 4 5 SCU or DPM 96 Figure 9 RIM to Wiegand Reader with Door Ajar and Request To Exit 97 Figure 10 RIM to Proximity with Door Ajar and Request To Exit 98 Figure 11 RIM to 2 Piece Proximity with Door Ajar and Request To Exit 99 Figure 12 RIM to Mag Stripe Reader with Door and Request To Exit 100 Figure 13 RIM to Outdoor Mag Stripe Reader with Door and Request To Exit 101 Figure 14 Data Chip Adapter Power Supply Connections 41 102 Figure 15 Data Chip Adapter to SYSTEM 4 5 SCU or DPM
168. r This keypad is mounted on a plastic housing with four small rubber feet and should be placed next to the printer Do not run the RS 232C printer data wires in the same cable as the keypad wires unless both sets of wires are in individual shields and the shields are not conducting with each other Any Corby key can be used to program the system but it must mate to the BCD interface module and the red wire BCD common negative must be connected to the MCU terminal 10 keyboard common input 0 It is impossible to enter the program mode or to change any part of memory from any keypad not connected to terminal 10 ofthe MCU To maintain the security of the system and the data base we suggest that the system keypad and printer be located a secure area It should also be noted that knowledge of the software serial number is necessary to place the MCU inthe program mode A minimum of five wire shielded cable is required eight conductor can be used but the extra wires can not be used for printer connections Do not connect the metal decorative plate to earth ground The drain wire of the shield is only connected to terminal 1 This keypad measures 2 75 wide 4 5 long and 1 25 high 70 x 115 x 32 11 5 Printers SYSTEM 4 Only You may replace the standard Corby event printer with another make or model provided your equipment conforms to the following specifications RS 232C serial input ASCII character set Be able to receive data at
169. r a WYSE 55 terminal press the CTRL SHIFT and PRINT buttons simultaneously to turn the printer ON OFF When the printer is on the VDT will display an AUX message at the top center of the screen 3 9 4 Changing The Baud Rate Of The Printer SYSTEM 5 Only Access to the baud rate switches are obtained by removing the cover located on the right side of the printer above the data input cable Set the baud rate as follows on the serial adapter for 9600 SW3 position 4 is on For 2400 SW3 positions 2 and 4 For 1200 SW3 positions 1 2 and 4 are on For 300 SW3 positions 1 3 and 4 are 23 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 3 9 5 Setup And Testing The Printer Locate the CITIZEN GSX 190 User s Manual supplied with the system and turn to Chapter 1 This chapter refers to setup installing the ribbon installing the tractor feed loading paper and self test 3 9 6 Installing The Video Display Terminal VDT SYSTEM 5 Only Unpack and inspect the terminal shipping box Included are a terminal a keyboard with coiled cable a power cord and a VDT Users Guide The VDT is UL listed requires 120VAC 50 60 hz at 0 7A and requires a three prong grounding outlet It is supplied with a five foot power cord Serial data is sent to and received from the terminal via a RS 232C data link which requires a three conductor shielded cable It may be located up to 500 ft from the SYSTEM 5 depending on the baud rat
170. rent Wiegand reader version is also available with just one red LED that glows only when a valid card activates the unit If the card reader is to be mounted outside this version may be the best choice because the LED is not on constantly to attract attention These readers are waterproof and may be mounted in any position Two styles of faceplate decals are supplied with each reader to enable the installer to mount the unit upside down keeping the snow and ice out of the slot and still have the arrows and instructions reading correctly A flush mounted insertion reader is also available 11 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 2 7 2 Using Keypads amp Readers Together Not counting Request To Exit or manual and programmed relay operation there are three user modes of door or relay activation with the system 1 Keypad or Data Chip 2 Card reader only 3 Keypad AND card reader These three modes are programmed into memory using the Door Relay Data menu The default status is keypad only operation If mode 3 is selected for a port a valid card must first be used at the card reader and then the user has 15 seconds to enter the correct five digit PIN which will be the same five digits ofthe card If cards are used in the system all users must have a five digit PIN even if digital keypads are used on ports by themselves Mode 2 and 3 cannot be used with Data Chips Data Chip data comes into the system as keypad data so
171. required to use cards with the SYSTEM 4 5 Each Card Is Unique and Duplicate Cards Do Not Exist Each Card Contains 30 Data Bits and Other Secret Data The Five Digit Card Number Is the Same as the User s PIN Number High Security Wiegand Effect Wires Are Embedded Inside the Vinyl Cards Be Inserted Frontwards or Backwards in Swipe Type Card Readers O If Programmed to Do So Card Inserted Backwards Will Produce Duress Signal O Swipe Type Readers May Be Mounted in Any Position and Are Available in Beige Or Black O Laminator and Photo ID Equipment Are Available on a Rental Basis From Corby Photo ID Cards Are Available in Two Formats With Optional Badge Clips Corby Can Supply Custom Designed Cards in About 16 Weeks Key Style Readers and Wiegand Keys Are Available Insertion Type Card Readers Are Available 1 11 Mag stripe Features O Photo ID s are Available O Swipe readers are Available O Laminators and Cameras are Available on a Rental Basis from Corby O The Five Digit Card Number is the Same as the User s PIN Number Duplicate Magnetic Stripe Cards are Available Custom Card Design in About 30 Days NOTE Duplicate Mag Stripe Cards May Exist System 4 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 1 12 Data Chip Features Stainless Steel Coin Shaped Canister Replaces Cards D Life Span is Practically Forever O Vandal and Weather Resistant Reader Instant Touch Transfer
172. ress Y if duress is needed or N if it is not needed System 4 amp 5 Version 1 5P 1 6H 62 SYSTEM 4 amp 5 MANUAL 10 3 Assign Relays To Codes There are four main relays available in the MCU and one auxiliary relay In the case of expansion SCU there are eight main relays and one auxiliary relay available The system will ask Allow Access to Doors Ports 0 4 enter the door port s the user can access followed by zero If you enter 1 2 6 0 That user will have access to doors 1 2 and 6 A user can also be assigned zero relays which will not allow that code to activate any relay A zero after the door s are entered so the system knows this is the end of this sequence Example TOUCH 1 2 4 8 0 This will allow this code card to enter doors 1 2 4 and 8 the zero tells the system there are no more doors for this code 10 4 Assign Time Schedules The time schedules should be setup prior to reaching this point There are eight time schedules available you may assign any number of valid schedules to any code or group of codes When the system asks Allow Access by Time Schedules 0 8 enter the schedule followed by zero After the schedule s are entered a 0 must be entered so the system knows the sequence is complete You may also elect not to assign ANY schedule to any code which would allow access any time that code card is entered Example TOUCH 1 0 to restrict this code card by the times assigned in schedule 1 the zero tel
173. roved surge device which should be plugged into an unswitched 110 120VAC electrical outlet DO NOT insert the battery fuse or connect the SCU at this time 31 System 4 amp 5 Version 1 5 1 6H SYSTEM 4 amp 5 MANUAL 3 15 12 How To Boot The System ANY STANDARD TEXT THAT IS PRINTED BY THE SYSTEM PRINTER SYSTEM 4 VDT SYSTEM 5 AND APPEARS IN THIS TYPE FACE MCU RESET Versions 1 5N SYSTEM 4 1 6F SYSTEM 5 or higher have internally battery backup memory because of this the cold boot message should not appear on the printer on initial power up only a reset message will appear MCU RESET date will not be correct It takes up to 30 seconds for the initial reset message to appear If the start up message does not appear on the printer SYSTEM 4 VDT SYSTEM 5 use a meter and ensure you have 18VAC across MCU terminals 2 and 3 Check the AC fuse located at the bottom left ofthe MCU PCB Press the manual RESET button which is located directly above the fuses Ifthe start up message still does not appear STOP here unplug the transformer and check all your wiring If memory is manual cleared or if memory becomes corrupted and is automatically cleared the cold boot message will appear Corby Ind Inc 1501 E Pennsylvania St Allentown PA 18103 USA 215 433 1412 1993 All Rights Rsvd V 1 5 version may be different SYSTEM4 Enter Serial Number 3 15 13 Connecting The SCU To The MCU If You are in
174. s SYSTEM 4 is designed for easy and simple setup using the supplied programming keypad and the supplied 80 column dot matrix printer All instructions and user prompts are printed directly on the printer paper in crisp clear easy to understand English text SYSTEM 5 is an enhanced version ofthe SYSTEM 4 and programming is done with a standard Video Display Terminal VDT If this is your first experience with an access control system we hope you will find it a delight ONLY IF YOU READ THE MANUAL FIRST Get familiar with the system hardware terms used and its basic operation Only then can you start programming and use the software routines as an expert After the hardware is installed it will take about 30 minutes to set up a basic system for four doors and about 50 users using the auto code generation program If you have more doors special user codes or are using time or relay schedules it will take more programming time If you don t read this manual it will take you twice maybe five times as long Thousands of hours have been spent by Corby programmers to ensure this is a user friendly system Hundreds of hours have been spent in writing this manual which includes Everything You Ever Wanted To Know About The System The information is here All you have to do is read A Glossary is included in the Appendix Section to explain some of the terms or words used in this manual 1 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4
175. s followed by 0 Restrict with Anti passback Enter Y for yes N for no Press lt Y gt es or lt N gt o n Working System is thinking If you selected yes to assign names the system will now ask Enter User Name 0 to quit John Smith Enter up to 15 characters Enter User Data Sales Enter up to 9 characters Repeat the above sequence for any additional batches of users The card programming option option 3 is the same as the automatic programming option with the exception that codes are generated sequentially and you are asked for a starting card This is because Corby Cards are distributed sequentially 65 System 4 amp 5 Version 1 5 1 6H SYSTEM 4 amp 5 MANUAL 10 6 Change User Information If you have SYSTEM 4 Touch to change a code when in the Program User Data menu Enter code gt 12345 Code User 12345 0001 Ports 12 Change User Press 1 for Yes 2forNo2 Change Duress Press 1 for Yes 2 for No Change Doors Press 1 for Yes 2 for No gt 1 Change Time Schedules Press 1 for Yes 2 for No 2 Change Antipassback Press 1 for Yes 2 for No 12345 0001 Working 12 Duress Schedules Enter the code to change Prints the current user info Enter 1 to change 2 to leave as is Enter 1 to change 2 to leave as is Enter 1 to change 2 to leave as is Enter 1 to change 2 to leave as is Enter 1 to change 2 to leave as is Displays new user info
176. s Go to a valid keypad location and enter a user code or card that has a valid time schedule assigned to it The code must be a valid user code Wait two minutes and try the code card again It should be invalid The security printer should print data similar to this USER 1001 2 09 31 03 10 13 91 Valid Code User 1001 Location USER 1025 3 09 32 01 10 13 91 Valid Code User 1025 Location USER 0075 1 10 33 46 10 16 91 Valid Code User 75 Location INVALID USE 12345 2 13 20 33 10 17 91 Invalid Code 12345 Location INVALID USE 12345 2 13 21 04 10 17 91 Invalid Code 12345 Location DURESS USER 1012 2 13 22 01 10 17 91 Duress Code User 1012 Location You can do this with all codes or cards all time schedules and all dates When you are finished be sure to set the correct time amp date into the system 49 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL This page intentionally left blank System 4 amp 5 Version 1 5P 1 6H 50 SYSTEM 4 amp 5 MANUAL CHAPTER 8 AUTOMATIC RELAY TIMED OPERATION 8 1 Overview It is assumed that you understand the concept of time schedules covered in the previous chapter If not please back up and review it You can automatically activate any of the five relays on the MCU and if installed the four relays on the SCU at the precise time and day specified by ANY time cell in ANY time schedule A Time schedule which is currently empty and in this example does no
177. s card readers etc are disabled and they will not operate any part of the system The system keypad has priority over all other keypads in the system While in the program mode failure to touch a key within 140 seconds will automatically exit you from the program mode and return the system to its operational mode To re enter the program mode simply enter and your SSN All information text prompts and instructions are displayed for you on the printer So that you can tell the difference between the text in this instruction manual and that text which is produced by the printer VDT the type face will be resemble PROGRAM MODE Any comments or instruction aids included with this text will be enclosed in parenthesis Most prompts which require a response from you will be followed by a question mark The most common prompt will be ENTER SELECTION When you see a prompt or question mark you have 140 seconds to touch the desired button If you find you made a mistake when you are entering data or if you decide you just don t want to continue in a particular area touch the button Except in the automatic code mode manual change code mode and listing events this button aborts the immediate program and returns you to the last valid menu or function available When you first start programming you will find this button very useful in escaping back to a safe area Allthe menus are in logical order You start with the Main Selections men
178. s may be used to activate door strikes electromagnetic door holders alarm system controls or to control any momentary or on off device including energy management devices lights and air conditioning systems Each time a relay is activated deactivated an event is created stored in the security buffer and printed with event data including time amp date Because they are C form they may be wired fail safe or fail secure The MCU relays are numbered 1 2 3 and 4 The MCU also has an auxiliary relay rated at one amp SPST normally open THIS RELAY IS REFERRED TO AS RELAY 9 In an eight door system relays 5 6 7 and 8 will be located on the optional SCU Slave Control Unit 2 8 1 Understanding Momentary Relay Operation All relays including the auxiliary relay are fully programmable The default standard mode is a momentary two second 002 relay contact closure which can be programmed from 001 250 seconds or each relay can be programmed to be latching If the relay is programmed for momentary operation the relay is normally off and the relay coil is de energized If the system sees a valid keypad code valid card or Request To Exit the relay s will be energized for the programmed period of time A momentary relay is retriggerable IF it receives another activation command while still in the timing mode There is no limit to the number of retriggers System 4 amp 5 Version 1 5P 1 6H 12 SYSTEM 4 amp 5 MANUAL 2 8 2
179. s required by the MCU Interface boards designed for use with Corby outdoor weatherproof keypads are shipped with a plastic barrier which must be used during installation to weatherproof the electronics It should be noted that the entire keypad assembly is a passive device with little if anything to fail 3 A metal or plastic housing to support the keypad assembly Corby manufactures over 12 different styles of housings including but not limited to a single gang plate with no LEDS a double gang plate with seven multicolor LEDS and speaker holes hidden view housings and three different types of outdoor weatherproof models 11 4 1 LEDs amp Wires Any keypad connected to the MCU requires five wires plus shield for BCD data input to the MCU Two additional wires are necessary for each LED LEDS for indoor keypads include a built in current limiting resistor in the plastic housing with operation designed for 10 to 14 VDC For special installations Corby also stocks LEDS in the same type plastic package in 6 VDC 24 VDC and non resistor 1 5VDC 73 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 11 4 2 Program System Keypad SYSTEM 4 Only A desktop programming keypad is supplied as standard equipment with every SYSTEM 4 MCU This keypad does not have a green LED installed because none is required for programming All instructions and system feedback to the user are displayed in easy to understand English text on the printe
180. sistant black is available Both units have a built in LED indicator that may be disconnected and both of these units can be mounted on a metal surface A switch plate size reader is also available This two piece reader assembly consists of a remote read head anda remote electronics unit The remote read head measures 3 X 4 625 inches and protrudes 5 inches from the mounting surface The remote electronics unit is the same size as the standard size reader and can be located up to 50 feet from the remote read head with read distance being approximately two five inches This reader is architecturally designed to blend into executive office areas is beige in color has a LED indicator and may also be used on outside exterior surfaces This unit is designed to be mounted on a single gang electrical junction box It will not operate on a solid metal surface Mullion size readers are only 1 687 inches wide and 3 625 inches high which means they will fit most 1 75 inch wide aluminum storefront door frames They are two piece reader assemblies similar to the switchplate type described above and protrude 5 inches from the door frame Typical read distance is one four inches The remote read head has a built in LED indicator and is molded into a black UV resistant package These units are specifically designed to operate outdoors on a metal surface but will also operate on non metallic surfaces 9 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MA
181. stalling an SCU The system MCU has booted successfully The printer is working UNPLUG THE MCU TRANSFORMER battery should not be connected yet Look closely at the SCU wiring diagram and locate the master unit to slave unit wiring diagram at the bottom left Use three conductor shielded wire or four conductor shielded and connect the two wire harness together Please note that the orange and white wires must be crossed at one side only Press the four position connector on to the three pins marked H1 located at the center right of the MCU and SCU printed circuit boards THE WIRE CONNECTORS ARE INSTALLED ON THE HEADER WITH THE WIRES FACING TOWARDS THE CENTER OF THE CIRCUIT BOARD System 4 amp 5 Version 1 5P 1 6H 32 SYSTEM 4 amp 5 MANUAL 3 15 14 ReBooting The MCU With SCU Attached Plug the MCU AC transformer in and supply 18VAC to the MCU only The system should boot again and the start up message should appear on the printer If it does plug in the transformer for the SCU Press the MCU RESET button MCU RESET should print Press the SCU RESET button SCU RESET message should print If you are NOT installing a telecommunications module SYSTEM 4 only carefully install the battery in the MCU SCU and replace the battery fuse With a DC volt meter measure the DC voltage across terminals 4 and 5 there should be at least 13 2VDC present Ifthe voltage is not present check your wiring Ifthe voltage is correct proceed to the
182. t again and print MCU RESET with an incorrect time and date If it does not appear remove the AC voltage wait five seconds and then connect AC voltage again If you still experience problems Press the MCU RESET button and if installed the SCU RESET button If the system will not boot remove all voltage from the MCU or MCU SCU remove the telecommunications module and attempt to do a cold boot without the installed telecommunications board 35 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 4 2 Connecting A Video Display Terminal VDT Use the pin assignment below to connect a VDT to the system s telecommunications module Channel A must be used for full duplex operations and interactive programming with the VDT keyboard and the system Channel B may be used for an optional high speed printer or a display only VDT If a VDT is connected to Channel it will display all data from the system but you cannot use it for programming VDT TERMINAL MODEL 4021 PORTAORB PIN SIGNAL WIRE SIGNAL 2 Transmit Data Red Receive Data 3 Receive Data White Transmit Data 7 Ground Blue Ground Setthe VDT to No Parity 8 Data Bits 1 Stop Bit You must set the VDT and the COMM port baud rate to the same number The higher the baud rate the higher the speed Baud rates available are 300 1200 2400 or 9600 A baud rate MUST be selected for BOTH Channel A and Channel B Failure to do so will make both channels inoperative 4 2 1 Con
183. t contain any valid time data is shown Day Start End This is one Time Schedule 1 SUNDAY 00 00 00 00 There are a total of eight schedules 2 MONDAY 00 00 00 00 3 TUESDAY 00 00 00 00 4 WEDNESDAY 00 00 00 00 5 THURSDAY 00 00 00 00 6 FRIDAY 00 00 00 00 7 SATURDAY 00 00 00 00 8 HOLIDAY 00 00 00 00 There are eight different time schedules available for your use each containing seven weekdays and each weekday contains two time cells In most cases these two time cells will be referred to as a time zone For the purpose of this discussion a holiday is considered to be valid ONLY on its assigned date CAUTION BEFORE USING THESE RELAY TIME SCHEDULES READ CAREFULLY Automatic relay operation is a very powerful security management tool It can be used to automatically lock unlock doors and gates arm disarm alarm systems control energy management systems or control any other system or device at any time in any day week month or year Extreme care must be used when using this relay option As the number of automatic relay operations per week increases the chance of you programming errors into a time schedule increases dramatically There are several time schedule and day schedule worksheets located in the Appendix Section of this manual Please use them Use caution because it can get very complicated very fast When a time schedule is active all inputs for that port are non functional The inputs become active after a valid end cell
184. t installed all keypads and card readers connected to the SCU will be inoperative We ship four 1N4002 diodes with every SCU You will also have problems if the diodes are installed backwards The stripe goes towards the loop One side of each zone is connected to terminal 10 strobe common 0 The other side of the zone is connected to any one of the four keypad BCD data input ports terminals 6 7 8 9 You cannot hang IR beams ultrasonics and magnetic contacts directly on the SCU zone inputs We suggest that you use a Corby Model 78 sensitive relay module This device responds to both positive and negative voltages and monitors almost any circuit AND reports the condition of that circuit to the SCU At that point the system is able to print the status of each zone and open the SCU zone relay 10 which will send an alarm signal to any control panel The zone relay contacts are located on the SCU terminals 31 and 32 The use of Model 78 s with zones is included with the SCU wiring diagram All four zones of the SCU MUST be closed before the zone relay contacts will close This is known as an AND condition Zone 1 and Zone 2 and Zone 3 and Zone 4 must be secure before the zone relay will close It s the same as anormally closed loop only this one is reportable with a printed audit trail Response time is 750 ms 17 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 2 16 What Is The Telecommunications Module T
185. t may cause interference to radio and television reception It has been type tested and found to comply with the limits for a Class B computing device in accordance with the specifications of Subpart J of part 15 of FCC rules which are designed to provide reasonable protection against such interference in a residential installation However there is no guarantee that interference will not occur in a particular installation If this equipment does cause interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures 1 Reorient the TV or radio antenna 2 Relocate or move the system away from the receiver 3 Plug the transformer for the system into a different outlet so that the receiver and the system are on different branch circuits 4 f necessary the user should consult the alarm dealer installer or an experienced radio television technician for additional suggestions The user may find the following booklet prepared by the Federal Communications Commission helpful How to Identify and Resolve Radio TV Interference Problems This booklet is available from the U S Government Printing Office Washington DC 20402 Stock 004 000 00345 4 System 4 amp 5 Version 1 5P 1 6H 82 SYSTEM 4 amp 5 MANUAL APPENDIX B SYSTEM 5 BACK UP RESTORE EMULATE SYSTEM B 1 Back up Restore Overview Altho
186. t of any or all events via a RS 232C data line to any printer which operates at 600 baud and meets the printer specifications 11 3 1 Serialization All software is licensed serialized and contained on 32K of EPROM It is impossible to enter the system program mode without knowing the software serial number The serial number is printed on a label that is attached to a plain white business card The card is attached to the warranty registration form If you loose this number you need to power your system down send the chip to Corby then we can read the serial number from the EPROM and reprint the label set If itis a problem to take the system down you can buy a new EPROM at your expense System 4 amp 5 Version 1 5P 1 6H 72 SYSTEM 4 amp 5 MANUAL 11 3 2 Housing The MCU is housed in an 18 ga painted metal cabinet which measures 15 in x 11 in x 4 in 381mm x 279mm x 101mm It weighs 12 pounds 4 5 kg The locking cover is hinged on the right side and one key is provided A 8 5 in x 10 in 216mm x 254mm circuit board PCB contains all necessary electronics and two 18 position terminal blocks are mounted inside the cabinet on 1 inch standoffs with six 4 40 screws Connections to the system made through the terminal blocks which utilize 26 32 pan head screws located on 312 in 7 98mm centers 50 position dual row header assembly is located in the upper right corner of the PCB and is for the telecom board 11 3 3 Fuses
187. tanding Anti Passback Keypads Cards The system anti passback is classified as hard This means if a code or card is used to enter an area that code or card may never be used again until that user exits that area by using an approved exit keypad or card reader That unique code or card may not be used by anyone else while the original user is inside the protected area 3 10 2 How Anti Passback Works With The System The system will support up to eight keypad card reader locations Each is numbered on the MCU wiring diagram as keypad RIM one two three and four The SCU expands the keypads RIM s to include locations five six seven and eight Keypads RIM s one three five and seven are odd and the rest are even If anti passback is programmed for a user code card that code card must first be used at any odd keypad card reader and then to exit be used at any even keypad card reader 3 10 3 Anti Passback Example If a user code of 1 2 3 4 5 Card 12345 has the anti passback option programmed to it and it is used at keypad card reader 1 to gain entry to a restricted area that code card of 1 2 3 4 5 can never be used at keypads card readers 1 3 5 7 unless this code is used at keypad card reader 2 4 6 or 8 to reset the exit flag To explain this further if an anti passback user code card is used on any odd numbered keypad or reader that code card will be invalid until it is entered on an
188. th positive and negative trigger inputs and only requires microamps to trigger activate 2 10 2 Planning For Request To Exit RTE Switches The Request To Exit RTE function is used to allow emergency exit from a locked area without having a necessary keypad code PIN or card This function can also be activated from a remote guard location to open or close doors on command The system supports up to eight normally open RTE switches wired between the auxiliary input terminal 18 and the four common strobe data inputs terminals 11 12 13 14 located on each MCU and SCU Example A momentary electrical closure between terminal 18 and terminal 11 will activate relay door 1 of the MCU If the same terminals are used on the SCU relay door 5 will activate Relays 1 through 8 can be controlled in this fashion If RTE is desired terminal 18 MAY NOT be connected to or used with terminal 5 If a relay is programmed to be latching the RTE switch will activate the relay toggle each time the switch is used This option for the MCU must be selected and programmed using the Door Relay Data menu It is always enabled for a SCU unit If the relay is timed momentary it can be retriggered using a RTE button Switch response time is 750 ms If installed a Door Ajar sense switch will cancel any remaining time as usual This function is disabled while you are in the programming mode RTE requires computing time to the MCU process and if an SCU
189. the Then enter the code of 0 1 2 4 8 If the interconnect between the user keypad currently under test is correct the SYSTEM 4 will respond by printing CODE ERROR 01248 SYSTEM 5 will respond by printing INVALID USER 01248 plus the number to which that keypad is connected plus current time amp date information Example CODE ERROR 01248 3 14 12 39 11 15 91 SYSTEM 4 INVALID USER 01248 3 14 12 39 11 15 91 SYSTEM 5 Inthe last example keypad 3 was activated and all control lines are wired correctly To test the entire keypad enter 1 2 3 4 5 and the printer should print CODE ERROR 12345 SYSTEM 4 INVALID USER 12345 SYSTEM 5 Enter 6 7 8 9 0 the printer should print CODE ERROR 67890 SYSTEM 4 INVALID USER 67890 SYSTEM 5 Enter date stamp will only be correct ifthe data stored in memory is valid Otherwise you may get garbage for time amp date which does not affect this test The below example shows a keypad wired incorrectly CODE ERROR 02148 3 15 32 49 11 15 91 CODE ERROR 02148 is the code that the MCU read from user keypad 3 If a code of 0 1 2 4 8 was entered in user keypad 3 then BCD wires are switched There are 16 possible combinations of 1 2 4 8 which will print if BCD lines are switched But if wires are not connected at all or a keypad decoder module is defective the situation can be a real problem to sort out If you get erratic codes it is probable that the wire used for installation is not within specifications
190. the port must be setup for mode 1 Keypad or Data Chip This will allow a Data Chip reader and a keypad to be connected to the same port in an either or mode 2 7 3 Planning For Anti Passback Readers Ifthe anti passback feature or printed in out reports are desired for a door two readers must be used one inside one outside This two reader installation only requires a total of nine wires with common shield to be run to the MCU SCU Two ports are required for a single door anti passback application 2 7 4 Planning For Back To Back Readers It is possible to install two readers back to back at the same door and connect both of them to one port This type of installation only uses seven wires with shield It will open the door any time a valid card is used at either of the card readers but the printer will only show the port used as a single port Of course all other system data including the user ID and location will be recorded and or printed A maximum of four card readers may be connected to a RIM or Adapter module 2 8 Relays And How They Work Each system MCU and SCU has four independently controlled SPDT C form heavy duty relays with contacts rated five amps at 30 volts They are fully programmable and may be activated by keypads cards Request To Exit switches programmable relay time schedules and or using the manual mode from any programming location including off site remote locations using modems These dry relay contact
191. the system keypad Entries from the VDT must be followed with a carriage return also known as RETURN or ENTER 6 2 Main Selections Menu Overview In program mode the following Main Selections menu is displayed by the printer or VDT screen PROGRAM MODE 15 26 51 09 14 91 System message to you SYSTEM 4 V 1 5P 1993 Corby Ind ALL PORTS DISABLED MAIN SELECTIONS Items 1 through 4 are your choices 1 Times Dates Schedules 2 User Data 3 Relay Port Settings 4 List Last 25 Events SYSTEM 5 250 events 0 Return On Line Enter zero to quit ENTER SELECTION gt Prompt Expects a number 0 through 4 Note that ALL system ports have been disabled You now have control of the system and no one else can use it Enter Selection appears Now the program expects a button on the programming keypad or VDT keyboard to be touched If you touch O it will return the system back ON LINE and the system will become operational for all users except the programming keypad TOUCH 1 Times Dates Schedules and you will enter the set of sub menus which enables you to 1 Set change the system time in 24 hour format 2 Set the system date software programmed to the year 2086 3 Set the daylight savings mode 4 Program holiday dates 5 Program time schedules for codes or automatic relay operation 5 Printout all the time schedules TOUCH 2 User Data and you will enter the sub menu which enables you to 1 Set the code length 1 2 3 4
192. u and then work down deeper into sub menus and routines inside the sub menus If you are in a routine and are finished with that function just touch 0 and the program returns you to the menu which is just above it in logical order which is a sub menu Then another 0 returns you to the Main Selections menu If you are in the Main Selections menu and you touch 0 again you will return the system ON LINE and the program session will be finished With this simple method you can enter the program mode browse around make changes anywhere and always return by simply touching to abort and O to quit and end the programming session We suggest that you break up your programming sessions into manageable portions if you will be entering large numbers of users If you are using the system keypad and Corby security printer touch and the software serial number to enter the program mode 41 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 6 1 Before You Start Continued 12 The SYSTEM 4 can be programmed from an optional VDT hard wired to the COMM1 port on the optional telecommunications module PCB or from a remote location using two modems and standard dial up phone lines Programming SYSTEM 4 with a VDT is similar to programming via the system keypad and security printer except the menus and prompts appear on the screen of the VDT rather than on the system printer and data is entered from the VDT s keyboard rather than from
193. u need only enter the number and press enter If you are going to enter five users and each one will have a duress code then you would enter 10 or on a SYSTEM 4 it would be 010 for 10 codes as each user will have two codes When the SYSTEM 4 asks Enter User Number 0000 TO QUIT it can be any four digit number that will be used to identify a single user If you have a SYSTEM 5 it asks Enter User Name 0 to quit enter the user s name or number which can be up to 15 characters There is no limit on the number of different codes one employee or user can have If at any time you want to stop programming users enter 0000 at the user number prompt for SYSTEM 4 or 0 at the user name prompt for SYSTEM 5 The SYSTEM 5 has one extra step the SYSTEM 4 does not Enter User Data You may enter any 9 characters to identify the user i e employee number or social security number When either system asks Enter Code Digits or Card it is looking for the digits that make up the access Code Reminder card readers use only a 5 digit code Keypad codes can use 1 to 5 digits we recommend using 5 digits for the highest level of security Example TOUCH 1 2 3 4 5 for a code of 12345 TOUCH 5 1 5 7 0 for a code of 51570 The SYSTEM 4 and 5 support duress codes The SYSTEM 4 asks IS THIS A DURESS CODE CARD Press 1 for Yes 2 for No Press 1 if duress is needed or 2 if it is not needed The SYSTEM 5 asks Is This a Duress Code Card Press Y es or N o P
194. uest to Exit and Door Ajar Time Cancel Data Chip readers may be located up to 500 feet from the Adapter and the Adapter can be up to 500 feet from the MCU SCU 2 6 2 Power Requirements A separate 12 volt DC power supply capable of handling 75ma is required for the adapter module One power supply can power more than RIM or a door strike magnetic lock if the power supply is big enough 2 7 Planning For Card Readers Wiegand card readers normally supplied for the system are swipe style and are designed to be surface mounted Swipe means there is an open slot in the unit where the card is passed through sideways a very rapid fashion It is swiped through the reader slot This type of reader is noted for durability and lack of maintenance problems and it is very difficult to jam this style of reader All card readers must be connected to a card Reader Interface Module RIM before they may be connected to the system For ease of reader installation the use of a Corby mounting kit is recommended 2 7 1 Other Wiegand Card Reader Styles And LED Information The standard Wiegand swipe readers have a dual color LED that is normally red indicating that the reader is not active When a valid card is inserted through the swipe slot the red LED changes its color to green for the duration of the door release time It then changes back to red when the door open time has elapsed or is canceled by a system door closed sense switch A diffe
195. ugh the SYSTEM 5 is user friendly and easy to program entering a large number of users can often be quite time consuming Corby has included a complete back up restore software package which allows you to easily save and restore all SYSTEM 5 programmed data The use of the back up restore software requires only an IBM PC or XT or equivalent and an interconnect cable All data entered in the SYSTEM 5 is sent to the computer and stored on disk for later use In the event of a data loss on the SYSTEM 5 the previously stored data can be sent from the computer to the SYSTEM 5 in far less time than would be required to enter it manually B 2 Terminal Emulation Overview The Emulate function will make the PC look like the VDT that comes with the SYSTEM 5 This will let you program monitor and print from the PC There is also a capture feature which will store the in coming data into a file on the PC B 3 Back up Restore Emulate Over The Telephone The back up restore emulate function can be used with the PC at the same physical location as the SYSTEM 5 A far more powerful configuration is to have the PC calla SYSTEM 5 at a remote location All that is necessary to accomplish this is a modem at the SYSTEM 5 site and a modem at the computer site The back up restore emulate software can dial a remote SYSTEM 5 and allow you to make programming changes monitor the system or perform a back up restore function In this way a single back up restore emulate system
196. ule DAY START END COMMENTS DAY START END COMMENTS 1 SUNDAY ge _ _ 1SUNDAY 2MONDAY ss ___ 2MONDAY ss ___ 3 TUESDAY 3 TUESDAY 4 WEDNESDAY 4 WEDNESDAY 5 THURSDAY 1 5THURSDAY 4 3 _ 6 FRIDAY GE PAPE DOE 6 FRIDAY 7 SATURDAY 2 7 SATURDAY ___ ___ __ ___ 8 HOLIDAY oe MEER 8 HOLIDAY ee SCHEDULE 7 SCHEDULE 8 Description Description Time Schedule Relay Schedule Time Schedule Relay Schedule DAY START END COMMENTS DAY START END COMMENTS 1 SUNDAY 1SUNDAY 2MONDAY ss ___ 2MONDAY ss 3 TUESDAY 3 TUESDAY 4 WEDNESDAY 4 WEDNESDAY 5THURSDAY _ _ i 5THURSDAY ss 6 FRIDAY DM NEN 6 FRIDAY ED CEDE CN 7SATURDAY _ os 7SATURDAY 8 HOLIDAY 8 HOLIDAY System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL DAY SCHEDULE WORKSHEET This day schedule worksheet is provided so that you will have a permanent copy of all the days in all eight available time schedules showing the day starting time and ending time for user code access or relay operation If you are programming complex or exotic automatic relay operations you MUST use this worksheet and list all times prior to the actual programming Use 24 hr military time format only SUNDAY MONDAY Description Description Time Schedule Relay Schedule Time Schedule Relay Schedule DAY START END COMMENTS DAY START END COMMENTS 1 SUNDAY EE 1 SUNDAY ECCE CES 2 MONDAY 8150201 10
197. user one or more time zones may overlap A user will be valid IF at the exact time and day the code is used it matches a valid time zone in ANY of the time schedules assigned to that user If you have overlapping time zones use the day schedule worksheets located in the rear of this manual WARNING Care must be used if holidays are programmed into the system Holiday time zone restrictions take precedence over a normal day of the week time zone If a holiday falls on a Wednesday the Wednesday in the assigned time schedule will be replaced with the holiday time zone times If the holiday time cells are set to the default value of 00 00 and 00 00 access will be denied 47 System 4 amp 5 Version 1 5P 1 6H SYSTEM 4 amp 5 MANUAL 7 4 Using Holiday Time Zones The time control software supports 16 programmable holidays The system default date is 12 31 84 and this date does not affect any dates added to the data file nor will it affect operation Dates can be programmed into the future up to the year 2086 and can be added to the list in any order and at any time When the internal clock and calendar reach one second after midnight 00 00 01 the new day is considered a holiday if the new current date matches a programmed holiday date If holiday dates are programmed check the time schedules to ensure access will be allowed if so desired Ifa holiday has a time of 00 00 to 00 00 no access will be granted to users with that schedule A h
198. ween the exit switch and the MCU or SCU Ifthe switch will be near the door the eighth wire in the multiconductor cable can be used to provide closure between the red strobe wire of the keypad or terminal 11 ofthe RIM and terminal 18 Itis also recommended to break power to electromagnetic door holders with a separate set of switch contacts in the RTE switch SWIPE READER MOUNTING KIT is designed to make installation easy Use it when possible Corby Part 4060 CARD READERS CAN BE MOUNTED BACK TO BACK with a maximum of four readers connected to one Reader Interface Module RIM All of these readers will report as the same reader DATA CHIP READERS CAN BE MOUNTED BACK TO BACK with a maximum of four readers connected one Data Chip Adapter All of these readers will report as the same reader MOUNT KEYPADS AT LEAST 60 INCHES ABOVE FLOOR LEVEL to prevent fingernail damage to the keypad bezel in high usage areas COMPLETE THE TIME SCHEDULES located in the rear of this manual They will help you plan the installation CARD READERS amp KEYPADS can be used at the same door for added security The keypad connects directly to the MCU SCU The RIM requires One 12VDC 1 amp continuous power supply Corby P N 4094 This power supply has a built in battery back up and can be used to power up to four RIM A TELECOMMUNICATIONS LINE is necessary for dial up modem communications If you follow the instruction sequence outlined in this chapter
199. y a user to activate a door or security system and has a system decoder interface PCB attached to the rear ofthe keypad The recommended keypad for controlling single doors has one green LED factory installed just above the 12 digit keypad Keypads may be mixed with card readers Corby also has 15 other keypads which will operate with this system Control keypads should be installed at a height of about 60 inches Outdoor weatherproof keypads with covers should be mounted six 6 inches higher If they are installed at a lower distance in high usage areas fingernails will damage the black plastic bezel surrounding the key and the keys may tend to stick They may be located any reasonable distance from a port portal door as port activation time can be programmed from 1 250 seconds They may be installed in standard electrical back boxes or on surface boxes using standard electrical hardware Use the supplied mounting template nylon or lead plugs and screws if mounting the keypad directly to the wall Keyboard data is BCD encoded and multiplexed making code duplication virtually impossible by shorting or crossing data lines But if the BCD data lines are shorted all keypads in the system will not operate unless four diodes are inserted in each data line at the MCU SCU Therefore tamper proofing schemes are recommended if unauthorized personnel or vandals have access to the keypad site Tamper proof back boxes are available from Corby 3 10 1 Unders
200. ystem 4 amp 5 Version 1 5P 1 6H 38 SYSTEM 4 amp 5 MANUAL CHAPTER 5 INSTALLING EPROMS 5 1 Installing EPROMS In The MCU SCU An EPROM contains 32 000 bytes or 125 pages of non volatile computer software It is serialized and may only be used in a single system When replacing the EPROM the following power down procedure should be followed 1 Remove the battery fuse F2 or remove the battery from terminals 4 and 5 2 Unplug or disconnect the 18VAC transformer 3 Wait 120 seconds for all power supply capacitors to discharge Voltage across terminals 4 and terminal 5 must be below 0 05 volts DC 4 Locate the EPROM It is located in the top right corner just left of the Z 80 microprocessor It is installed in a 28 pin socket identified on the PCB as U6 DO NOT WIRE HOT STATIC SENSITIVE PARTS BEFORE DISCHARGING YOURSELF TO GROUND 5 Touch Earth Ground terminal 1 to discharge any static electricity on yourself before touching any portion of the MCU 6 Remove the old EPROM from its socket This is accomplished using a professional type DIP extractor or it can be removed by using a very small screwdriver Carefully insert the blade of the screw driver or DIP extractor between the EPROM and its socket With a rocking pulling motion work the EPROM loose from the socket 7 Align the EPROM pins As shipped to you the EPROM will not fit into the 28 pins of the socket Ensure you are static free Grasp the EPROM at b

System 4/5 Manual - Corby Industries Inc.

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