super two - Napco Security Technologies
Contents
1. oa FF EN mn EA ga U GE 3 n EL Ge E LJ Y o C FA n nom Ceu Bu u US OM o LI ke i TL af d Jr lt dl es ei B r H WI 2004 oC E ET ft 4 ae CONTINENTAL INSTRUMENTS PR 2 gt Io Lo amp Kb v mej pe d S WI Coes 2 Ro 5 TJ POPE ON er Tai E CI wt IC T 7 Ze ae ei Repeat EE FE d 3 e E ode Mode 152 LIL E S les pes Ce Dm W D wen E att afin an Coin pe at j g LIU LE LE G BOS Fe el J LED CT cau try e vd ES ay Te MD RPT m iol pl OU CH Sc Do es Fa 05 ls ra e JUMPER RTH FCT m de ar 7 a Ju La REx va Hr 3 dl ee S RRS Ju ri au LILILIEE O Le e Bt me a S Nk EEN ET MT EE Jue m QUIE E WISS Cm dee LE d JCIEI wl T el MA e a ET PT 8 LIE LI wl EE ph DEI a d Ve qe ATTE wf i gt He I de i Me el dEl I den Sek Ca oe S A ET O Ea POWER IN ALR E RT zb 5 O ALT R al 4 RT gea 3 A Jumper Jumper ALA A s E A E ss ah ll Installed NOT a Gd S gt a RY OUT Super Two Installed E a E at i accessory Lu TT d pa an ml A Col Si Terminated Super Two NOT Q O Terminated O cs TT N O aie consol Figure 24 Memory Battery Activ2. Sensor A R2 1K RT AL7 RT WEE Spe sca ere are A ALB Super Two Circuit Board RT ACCESSORY ALARM Figure 16 ALARM Terminal Strip Unsupervised and Supervised Alarm Connections Super Two 26 RS 232 Communications Host Modem Op eration Operating as a stand alone system the Super Two communi cates with a host computer directly through a modem or through the optional Ethernet Network Interface through the RS 232 channel Proper RS 232 communications requires observing the EIA standard pin definitions of Data Terminal Equipment DTE and Data Control Equipment DCE NOTE All RS 232 equipment made by Continental Instru ments Corporation including the Super Two are configured as DTE devices RS 232 Cable Requirements RS 232 communication between the Super Two and a host computer modem require stranded 3 conductor 22 AWG ca ble with shielding and a drain wire Do not use twisted pair cable Table 14 displays the cable gauge and length requirements for proper operation of the Super Two and the host computer modem Table 14 RS 232 Cable Gauge vs Length Host Computer Modem 50ft 15 2m Maximum NOTES A host computer is typically connected to the RS 232 cable using either a DB9 S or a DB25 S connector Modems are typically connected to the RS 232 cable using a DB25 P connector RS 232 Jumper Settings RS 232 communications between the
3. Red Tab of the battery NOTE Because of the Low Battery Voltage Disconnect fea ture the Super Two will not start to operate until mains AC power is connected Table 1 AC Input Power Terminal Block Connections Incoming AC Wire Color AC Input Terminal Block Line Black L Neutral White N Ground Green o AC Power Cable Cable Clamp Figure 7 AC Input Power Terminal Block 15 Super Two POWER CONNECTIONS Super Two Circuit Board Layout The Super Two circuit board see Figure 8 provides wiring terminal strips for external access control devices card read The following descriptions in this manual reference the Super Two main circuit board shown below and use cutaway draw ings to identify specific locations on the circuit board ers keypads alarms etc EPROM Socket Memory Expansion Connector Replaceable Memory Cell Holder AC Power CPU Power OK Indictor LED 12V 5V Reader Selection Jumper Reader Power Polling Ports Indicator Ethernet Plug in Option J Address Switches a Tx Rx LEDs 3 ie 3 Deel Sa EA RT Reader 1 AO Ges LE daa J ea Heartbeat RC S LI Ei SE z A CJ REX E ox e g EA LH 1 GC fa Eg i n i 5 ME e E Dial Up Modem cus EA r e EIO 2 0 ET N CJ E J PAR Jumper Sg Eis F Mm Le END HU EJ H zT pu LED Reader 2 RS232 Interface Chip EI cala CTA E Ms aL J vader socketed ap CoeWu El e
4. Supervised alarms provide monitoring of alarm inputs for fault or tamper conditions Two additional alarm states may be de tected by installing two 1K Ohm resistors near the alarm con tacts _ Table 13 lists the ALARM terminal strip pin numbers and the In addition to the standard Normal and Abnormal alarm condi respective signals tions the supervised alarms report Line Open and Line Short conditions Alarm Cable Requirements e A Line Open condition is the result of a cut wire Connecting alarm sensors to the Super Two board requires 22 e A Line Short condition is the result of a short in the alarm AWG stranded shielded cables with drain wires wiring RTS T f CAUTION These fault conditions may be the result of tampering and in Keep all drain wires short Connect drain dicate the system cannot correctly detect the state of the alarm wires to the ground posts located on both sides contacts of Super Two cabinet DO NOT ground drain Configuring an Alarm in the Supervised Con wires at any other point dition Tamper Switch 1 Use two 1K Ohm 1 4W 5 carbon film resistors per The Super Two cabinet has a built in tamper switch The tam alarm per switch is factory wired and requires no adjustment Super Two Cabinet Ground Post SC Unsupervised Sensor NU Drain Wire Shield AL5 RT AL6 Super Two Cabinet O Ground Post Drain Wire Shield Supervised
5. or CAT6 Network UTP cable into the Network Interface Slide the shield so the left side is under the clamp then gen tly tighten the clamp to secure the cable and shield into place see Figure 4 for image of finished installation NOTE Pull shield snugly over Ethernet cable do not ex tend shield over jack install as shown in Figure D Restore power Reconnect the 6 pin Molex connector marked Power In The OK lamp should blink at a rate of approximately once every second An LED next to the cable socket on the Network Interface will light or blink in dicating a successful connection and or network activity 4 40 1 4 y Pan head screw Network Interface Board MF Standoff Super Two Circuit Boari y Figure B 7 16 Screw on type standoff SECURE WITH CABLE CLAMP d FLEXIBLE SHIELD INSTALLED e E ET b i EXTEND E SHIELD OVER _ CABLE JACK Figure D Install Flexible Shield over Ethernet Cable Super Two A AC Power Source Grounding iese see ee Re 15 Accessory Circuit Protection eene ee 42 Accessory Conduit KnockoUutS ees sesse see ee 14 ACCESSORY POWER esse ese ese esse ese ese se se eis 25 Accessory Relay Devices ees se sa Re Re ee 14 Alarm Cable Reguirement iese see ee ee 26 ALARM CONNPCTION ee sesse se ese ee see ee 26 APPENDIX Aish ths Ee ru Sek eg E terete ven Dee oe Ge 46 APPEND Y EE 47 Auxiliary Relays onnea r 23 B Backup Battery R
6. Host Com puter is used or which version of software is installed CONFIGURATION Standard Version Capacities The standard version Super Two provides access control func tions for up to two doors and two card readers Each 5V reader may draw as much as 100mA from the PWR pin of the reader connector for a total current draw of 200mA per panel Each 12V reader may draw 200mA from the PWR pin of the reader connector for a total of 400mA Each of the 8 alarm inputs on the main board may be config ured as supervised alarms requiring termination resistors or standard alarms requiring plain electrical contacts CONFIGURATION Memory Configurations The standard 512K memory configuration provides resources for downloadable firmware as well as for the cardholder data base and a transaction buffer A 2MB memory expansion board CICP1300MB 2 is available for expansion of card data base and transaction buffer space The 2MB expansion board allows the Super Two to meet the requirements of managing large cardholder populations and provides a total of 2 5MB of RAM Super Two CONFIGURATION Knockouts for Knockouts for Conduit Clamps A Mounting Holes Conduit Clamps o Drain Wire Knockouts for Studs e 4 el Through the No o Wall Cables ao lt A oo y Cable Tie o
7. Network Super Two Second Network Super Two Third Network Super Two REPEAT Mode REPEAT Mode REPEAT Mode MD RPT Jumper RPT pins 2 and 3 MD RPT Jumper RPT pins 2 and 3 MD RPT Jumper RPT pins 2 and 3 EOL Jumper IN EOL Jumper IN EOL Jumper IN Figure 20 Super Two RS 232 to RS 422 REPEAT Network Connection 31 Super Two COMMUNICATION CONNECTIONS RS 232 to RS 422 MULTIDROP Network Figure 21 shows the required connections for an RS 232 to RS 422 MULTIDROP network e Connect the first Super Two to the RS 232 port of the host computer e Connect the remainder of the network using the Super Two s RS 422 ports NOTE Thirty two 32 Super Two panels may be installed in a Multidrop network Table 18 lists the required connections for an RS 232 to RS 422 MULTIDROP network RS 232 to RS 422 MULTIDROP Network Ground and Drain Wires The drain wires for all RS 422 cables in a MULTIDROP net work must be connected together isolated from the cabinet ground and connected only to the ground post at the FIRST Super Two in the network the Super Two unit CLOSEST to the host computer RS 232 to RS 422 MULTIDROP Network Jumper Setting Operating a Super Two network in the MULTIDROP mode requires setting the MD RPT and EOL jumpers Refer to page 38 for information regarding setting the MD RPT jumper and for information regarding setting the EOL jumper Table 18 RS 232 to RS 422 MULTIDROP Network Connections Super Tw
8. and work in conjunction with Wiegand Proximity readers Magnetic Stripe readers and Keypad to control access at particular door sites The door strike relays labeled STK1 and STK2 are located on the bottom of the Super Two Circuit Board see Figure 14 The door strike relay circuits are rated 2A at 28V AC DC Auxiliary Relays Two relays are designated as Auxiliary Relays are typically used to control door alarm shunts The Auxiliary Relays are user programmable and may be used for low voltage control functions The Auxiliary Relays outputs labeled AUX1 and AUX2 are located on the bottom of Super Two Circuit Board see Figure 14 RELAY CONNECTIONS Console Relay The Console Relay activation may be linked to specific events such as invalid door access alarm input and tamper switch input The console relay is linked to an event through soft ware The console relay output is labeled CONSOLE and is located on the far right hand side of the relay terminal strips on the Su per Two Circuit Board see Figure 14 Relay Characteristics The relays on the Super Two Circuit Board all share the fol lowing characteristics Form C relay with a contact rating of 2A at 28V AC DC The Normally Open NO and the Normally Closed NC con tacts are the default state of non energized relays Metal oxide varistors MOVs are placed across the contacts to reduce electrical noise The MOVs limit any noise caused by the strike coil to 5
9. breaker panel before proceeding with backup battery replacement 1 Open the Super Two cabinet and locate the backup battery P N CI HE0042 secured to the lower right of the cabinet 2 Disconnect the RED lead from the POSITIVE terminal of the battery 3 Disconnect the BLACK lead from the NEGATIVE termi nal of the battery 4 Remove the old battery 5 Install the new battery in the reverse order of the removal NOTE Because of the Low Battery Voltage Disconnect fea ture the Super Two will not start to operate until mains AC power is connected MAINTENANCE Memory Coin Cell Replacement The Super Two is normally powered on a 24 7 schedule If the power is to be removed to the unit for more than a few days please re install the insulating paper under the Cell Clip to de activate the Memory Battery If power was removed from a Super Two unit for more than four weeks without the Memory Cell protected by the insulat ing paper please replace the Memory Coin Cell as follows 1 Open the Super Two cabinet and locate the Memory Coin Cell on the upper middle of the PC Board 2 Remove the old cell by pressing backward and downward 3 Replace the Lithium Cell with a Panasonic BR1225 Ener gizer ECR1225 or equivalent 4 When installing the new cell use plastic forceps or han dle the cell by its edge to avoid contaminating the conduc tive surfaces of the device Clear Memory and Force Download to Panel 1 Note se
10. from the top left mounting hole Into this mounting hole screw in the 7 16 round MF type standoff hand tight see Figure B HINT Before installing the Network Interface Board make a note of its MAC Ad dress see Figure C Place the Network Interface board on to the main board at the upper left corner parallel to the top as shown in Fig ure C Align the standoff hole in the network interface board with the standoff installed in step 2 Align all pins of the board with the J3 socket and press to insert the pins POWER CONNECTOR Figure A Remove Power MAC ADDRESS ON ALIGN PINS CAREFULLY BEFORE Figure C Network Interface board placed on top of main board Press in to secure Location of MAC address is shown APPENDIX B CAUTION Before handling the Network Interface e A board use a grounding strap or touch the Control 5 47 ler PCB metal chassis to reduce the possibility of static discharge damaging the PCB and the memory board Secure the Network Interface board Screw in the 4 40 1 4 Phillips pan head screw removed in step 2 into the standoff hole Install Flexible shield Required for FCC Compliance allows the use of Unshielded Network Cable Install Ca ble Clamp to the knockout nearest the Network Interface board on left side of metal enclosure Insert the CATS or CAT6 Network UTP cable through the cable clamp slip the 3 inch flexible shield over the cable then plug in the CATS
11. gt Flange for Mounts Door Lock ao o o Tamper Switch 12 Volt Power Suppl dd 7AH Backup Battery AC Power Knockout Mounting Hole behind battery Mounting Hole e behind swinging cover P ee Mains Service Entrance Mains Fuse Carri ower sd Terminal Block ains Fuse Carrier Vv Figure 2 Super Two Components Expansion Boards and Accessories 2 MB Expansion The CICP1300MB2 2MB Memory Expansion Board may be added to the Super Two to increase capacity up to 125 000 Card Holders See the Appendix for the Installation Instructions for this option Matrix Keypad Option Board cCICP1300XYBD The Super Two is compatible with Wiegand Output Reader Keypad units such as the HID 5355AGK00 or 5355ABKO0O0 These reduce the cost of cabling and installation and are therefore preferred for Card Keypad Installations The CICP1300XYBD Expansion Board is available where traditional 3x4 X Y Matrix Keypad units must be used See the Appendix for the Installation Instructions for this option RS485 and RS232 Two Channel Auxiliary Com munication Board CICP1300AUX This optional plug in board provides RS232 and RS422 inter faces to serial devices such as RFID Readers PTZ Camera Con trollers Alarm Panels and Alarm Receivers Network Interface Board CICP1300NETBD This plug in board provides direct 10 100 Base T Ethernet con nect capability Super Two Battery Backup During power interruptions the Super Two norma
12. to National Electric Code NEC NFPA 70 as well as any local building codes Accessory Wire Drain and Shield Ground Posts Knockouts for 3 4 Conduit Connectors Incoming Power Knockout Accessory Conduit Knockouts All cabling for the Super Two is routed through EIA standard 3 4 inch knockouts located on the left and right sides of the cabinet see Figure 6 On the top of the enclosure three size knockouts are available Grounding Accessory Drain and Shield Wires Ensure electromagnetic compatibility and reliable performance by keeping all accessory drain and shield wires as short as pos sible All accessory drain and shield wires connect to ground posts mounted along the knockout strips on both sides of the Super Two cabinet see Figure 6 The following procedures assure proper installation of all drain and shield wires e Carefully remove the cable jacket after the cable enters the Super Two cabinet e Place the drain wires under the ground post screw Trim as needed e Verify a good connection and tighten the ground post screw e Connect the accessory wires to the appropriate terminal strip on the Super Two circuit board Knockouts for 1 2 3 4 or 1 Conduit Connectors Knockouts for 3 4 Conduit Connectors Figure 6 Cabling Conduit Knockouts Super Two 14 POWER CONNECTIONS AC Power Source Grounding The Super Two main circuit board has built in surge suppression devices The surge s
13. 422 REPEAT Jumper Settings To convert an RS 232 signal to an RS 422 signal the first Su per Two unit in the network must be in REPEAT mode Super Two Table 17 RS 232 to RS 422 REPEAT Network Connections Host Computer Super Two 1 Super Two 2 Super Two 3 Super Two 4 to next Super Two MODE Jumper MODE Jumper MODE Jumper MODE Jumper MODE Jumper REPEAT REPEAT REPEAT REPEAT REPEAT EOL jumper IN EOL jumper IN EOL jumper IN EOL jumper IN EOL jumper IN Signal Connector Connector Connector Connector Connector RS 232 RXD TXD RS 232 TXD RXD RS 232 GND GND RT MR RT MR RR MT RR MT RT MR RT MR RR MT RR MT RT MR gt gt gt gt RT MR gt gt gt gt RR MT gt gt gt RR MT gt gt gt 30 COMMUNICATION CONNECTIONS DB9 Connector to Com Port DB9 Connector A gt a IE E gt CON y mam Wire Host Computer RS 232 Host to Super Two RS 422 Super Two to Super Two 3 Conductor Stranded 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded 22AWG Shielded to Next with Drain Wire with Drain Wire Network Super Two 50 feet 15 2m Maximum 4000 feet 1220m Maximum N Drain Wire yo Wire CL Wire i Super Two Circuit Board Super Two Circuit Board Super Two Circuit Board First
14. 6 volts NOTES Installing a 56V MOV at the strike coil further re duces possible noise input Additional MOVs are available from Continental Instruments as part number R783R Because of this noise door strike wiring MUST NOT be put in the same conduit with other wiring Using door strikes with a coil voltage greater than 28VDC or 24VAC requires using external relays that can be driven by Super Two relays Super Two Circuit Board Sos 1999 Soe roe AUX1 STK2 AUX2 CONSOLE la on Figure 14 Relay Contact and Accessory Power Outputs 23 Super Two RELAY CONNECTIONS Powering Electromagnetic EM Locks Fire Alarm Control Panel FACP Connection Sufficient Battery Backed 12 Volt DC Power is available to power the Super Two Circuit Board two Access Control Emergency Disconnect of the Fail Safe EM Lock Power can ee the Network Interface Adapter and two modern EM be accomplished as shown for the STK2 Circuit in Figure 15 Locks After a Power Failure the installed 7AH Battery can be ex pected to keep the system operating for two hours under nor mal conditions If two EM Locks used each consume 400mA or less operation under backup power can be expected to last four or more hours Super Two Circuit Board STK1 AUX1 CONSOLE 12V OUT SOT ST 999 599 999 599993 NO C NC NO C NC NO C NC NO FACP Emergency Contacts Normally Closed Electromagnetic EM Locks Figure 15 Fire Alarm Control Pan
15. 600mA each 2 hours Weight 14 lbs with 7AH battery installed Enclosure Dimensions 15 75 H x 13 85 W x 3 25 D Temperature Range Operating 32 115 F 0 46 C Storage 32 149 F 0 65 C Relative Humidity 0 to 85 non condensing Card Capacity 20 000 Standard expandable to 125 000 Time Schedules 128 Standard 255 with CA3000 Host Software Release 2 1 Access Groups 1000 Standard configurable and expandable with CA3000 Host Software Release 2 1 Holidays 50 Standard 100 with CA3000 Host Software Release 2 1 Link Programs 64 Standard Facility Codes 10 Standard Transaction Buffer 1000 Standard configurable and expandable Super Two 44 Cables AWG Type Maximum Length Alarm Inputs 22 ga Stranded shielded w drain 2 500 ft conductor alarm 153m Readers 22 ga Stranded shielded w drain 4 or 5 500 ft Magnetic Stripe amp conductor 500 ft w unbuffered Wiegand Proximity 5 conductor for readers w LEDs Wiegand 153m unbuffered Readers 22 ga Stranded shielded w drain 4 or 5 500 ft Magnetic Stripe conductor 153m 5 conductor for readers w LEDs Keypad 22 ga Stranded shielded w drain 500 ft 7 conductor 153m Polling Line 22 ga Stranded shielded w drain 4000 ft RS 422 Network 2 twisted pair 1220m RS 232 Dial Up 22 ga Stranded shielded w drain 50 ft Host Computer 15m Relay Lock Circuits 18 ga Stranded shielded w drain 500 ft 153m NOTE DO NOT u
16. A AAA A 42 Super Two 5 12V Reader Circuit Protection A As 42 MAINTENANCE kata Sea aa irl iio end Se a aan a a aa td alee Ge Nn a hn oh crete 43 Power SUP DLV IRC ICM ar tol n 43 BACKUP DAN EVE COMEN EA AS AE A AA A 43 Memory Coin TEE 43 Clear Memory and Force Download to AE ES EES 43 SPECIFICATION EE 44 EE 45 APPENDE A ee DE GR GE ee EE 46 2 MB MEMORY BOARD INSTALLATION INSTRUCTIONS CICPI3ZOOMR 46 APPENDIX Boi ad 47 NETWORK INTERFACE BOARD INSTALLATION INSTRUCTIONS CICP1300NETBD 47 Super Two 6 DESCRIPTION SUPER TWO DESCRIPTION The Super Two is a fully programmable self contained 2 door access control panel that offers users flexibility ex pandability and simplicity Operating as a stand alone unit or within a network each Super Two makes independent access control decisions The Super Two accepts Wiegand Magnetic Stripe Prox imity card readers and Keypads to control the access func tions for a maximum of two individual access points entrances exits Contact Continental Instruments to deter mine specific readers and keypads supported It supports eight supervised alarm devices including door contact sensors door bypass switches or other related de tection accessories Five onboard Form C relays support door locking mechanisms door alarm shunts or handi capped access privileges The standard Super Two features a user programmable on board database that supports a maximum of 20 000 c
17. ER d te S E An Lo LI LJ pp Sun ULI gg ET Multidrop d e A ra bos os Repeat Jumper T C om EJ BT mo C Ju or REX RS232 Fam FM ES RT T RS422 Interface ag mm Q ie Chips socketed lt UU EJ 2 ma dl JE End of Line q af ds Reset Switch Jumper Press and hold E P for two seconds R A RS422 gt ae 7 aj lic Li dl ba KIE ESE SIN ER LI ALE SL JC De E S P Dr Fee T e ad Door Strike RT ek Power Input Relays 5 E PONER Battery Tamper po 6 Switch R fr z Sitch onnector 2 La ee e ZS D a E His H p 1 12 OUT j Accessory Alarm B i E E E D Ca 1 g ACCESSORY ALARM n Inputs Super Two Are 0 aia TAS Accessory Power Door Strike Auxiliary Door Strike Auxiliary Console Terminal Strip Terminals Relay Terminals Relay Relay Terminals Terminals Terminals Figure 8 Super Two Circuit Board Layout 16 DOOR CONNECTIONS Inputs from Card Readers Keypad Card Readers and Door Alarms connect to the Super Two via the two terminal strips on the right of the board labeled RDR1 and RDR2 Wiegand Proximity Reader Connections Table 2 below lists the connections between the RDR1 and RDR2 terminal strips and the Wiegand Proximity Readers Proximity Reader may be powered by either 5VDC or 12VDC set by jumper Table 2 Connection Table for Wiegand Proximity Reader RDRx Terminal Wire Color Strip Pin Jumper Selectable 12VDC Normally preferred for Prox imity Readers R
18. Instruments LLC re serves the right to revise this publication and to make changes from time to time in the content hereof without obligation of Con tinental Instruments LLC to notify any person of such revision or changes Information furnished by Continental Instruments LLC is believed to be accurate and reliable However no responsibility is as sumed by Continental Instruments LLC for its use nor for any infringements of other rights of third parties which may result from its use No license is granted by implications or otherwise under any patent or patent rights of Continental Instruments LLC Copyright O 2004 by Continental Instruments LLC All rights reserved No part of this publication may be reproduced trans mitted transcribed or stored in a retrieval system without the prior written permission of Continental Instruments LLC 355 Bayview Avenue Amityville NY 11701 631 842 9400 A NAPCO SECURITY GROUP COMPANY Super Two 2 THE INSTALLATION OF THIS PRODUCT SHOULD BE MADE BY QUALIFIED SERVICE PERSONNEL AND SHOULD CONFORM TO ALL LOCAL CODES CAUTION RISK OF ELECTRIC SHOCK DO NOT OPEN CAUTION TO REDUCE THE RISK OF ELECTRIC SHOCK DO NOT REMOVE COVERS OR BACK NO USER SERVICEABLE PARTS INSIDE REFER SERVICING TO QUALIFIED SERVICE PERSONNEL WARNING This product generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause interference to radi
19. Pap o IW af w d HE W s DER par CH Ey i ESE CONTINENTAL INSTRUMENTS E eno w 2 El a cE Mia D co SES Leo E f Eml D Ht ge 7 ul y u Y a sl d n 5 ad EJ o CIs O SI e SC D o o gt ul RX gt 5 n EE a SES ER CI S fm A ea eg 103 n d m i JJ E OK ME Fee nm mm ail er aw rin uu e 4 d E ES TX rs233 UU E q 1 MC LL i rat ats E os wien Eos ECH CI AE An Ja J bes NOTE If OK LED is not flashing RIS Jen gt eo ur CE check that the Address switch is not set ES Coan Cae y cI T Trl e to 00 then press and hold the Reset TY Con TH Pr ea S RST button for two seconds to restart exo f Qu ca Al 03 the unit EN GJ PT i gt F J os EER Ra Ei OE E H E Lo ES RT A J IT Je E efe W I PS RR ta dy Le EE das DE Eh T Ju wd Cu wr F 4 RST Reset Switch AS hi wl EE E 2 I als SC Mo ek 5 z iy E POWER IN ic J 6 RT GE 5 ALT SL 2 4 a z 3 4 HR RT Ka ALS 3 g A E S am E 1 4 RT rs ww TT E E y d m ACCESSORY ALARM ei in nn B bk CJC FAT LLE N FA EI Figure 25 Super Two Status LED s 40 Super Two Primary Fuse 120VAC Installa tions USA Canada A 1 ampere 1 00A 5x20mm slow blow UL ap proved fuse protects the Super Two primary circuit The fuse is located on the Service Entrance Termi nal Block on the bottom of the Super Two see Figure 26 The Fuse Holder is shocksafe and may be carefully removed while t
20. Relay Devices POWER CONNECTIONS power interruptions eise sea ae ke Re RA ee ee ee POWER RATINGS sesionar ki Power Supply Fuse oooonoocccococinncnoncconc nono nonanonannconnnnnos Power Supply Replacement sesse see ee ee PTZ Camera Controllers R Reader Circuit Protection REGULATORY CONSIDERATIONS eee Relay Characteristics coooonocononccnonononnconnnonnnonnnrcnnnonoos RELAY CONNECTIONS cesar REPEAT Network Request to Exit Bypass Sensor Connection Request to Exit Sensor Cable Requirements RFID Reade ee se ee ek ee ae Ge AG ee RS 232 Cable Reguirements iese sees ee ee Re RS 232 Communtcatnonsg RS 232 Jumper Settings RS 232 to RS 422 MULTIDROP Network RS 232 to RS 422 MULTIDROP Network Ground and Drain Wires iese ee ee ee ee ee ee Ee RS 232 to RS 422 MULTIDROP Network Jumper Setting RS 232 to RS 422 Networks RS 232 to RS 422 REPEAT Ground and Drain Cables ii td tidad RS 232 to RS 422 REPEAT Jumper Settings RS 232 to RS 422 REPEAT Network RS 422 to RS 422 MULTIDROP Network RS 422 to RS 422 MULTIDROP Network Ground and Drain CableS iese ees ee ee ee RS 422 to RS 422 MULTIDROP Network Jumper Seg RES aire ge kg Ee DEE sees RS 422 to RS 422 Networks RS 422 to RS 422 REPEAT Network 49 RS 422 to RS 422 REPEAT Network Ground and Drain Cables 34 RS 422 to RS 422 REPEAT Network Jumper Sd tos 34 RISA ea sa N ED de 10 S Setting Network Ad
21. SUPER TWO Access Control Panel Installation and Service Manual INSTRUMENTS ACCESS CONTROL INTEGRATED SECURITY CONTINENTAL 355 Bayview Avenue Amityville NY 11701 Phone 631 842 9400 Fax 631 842 9135 A NAPCO SECURITY GROUP COMPANY NAPCO 2004 WI1265 20 9 04 FCC Warning Changes or modifications to this unit not expressly approved by the party responsible for compliance could void the user s au thority to operate the equipment NOTE This equipment has been tested and found to comply with the limits for a Class A digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this equip ment in a residential area is likely to cause harmful interference in which the user will be required to correct the interference at his own expense Shielded cables must be used with this unit to ensure compliance with the Class A FCC limits DISCLAIMER Continental Instruments LLC makes no representations or warranties with respect to the contents hereof and specifically dis claims any implied warranties of merchantability or fitness for any particular purpose Further Continental
22. Super Two and a host computer require setting the MD RPT and EOL jumpers on the Super Two board Refer to page 38 EOL and MD RPT Jumper Settings for specific information NOTE Operating as a stand alone system the Super Two must be configured in the REPEAT mode Address Setting Operating the Super Two on the RS 232 channel requires setting a board address Address Zero not valid on the small rotary switches marked ADDRESS S2 and S3 Refer to page 29 Net work Address Settings for specific information Super Two to Host Computer Modem Connec tion Figure 17 shows a direct Super Two to host computer connec tion COMMUNICATION CONNECTIONS Figure 18 shows a Super Two to host computer connection through a modem NOTE Set the Modem jumper to the right when using a mo dem 1 Connect the Transmit pin of the RS 232 device to COMM terminal strip pin number 5 labeled RxD See Figure 18 2 Connect the Receive pin of the RS 232 device to COMM terminal strip pin number 4 labeled TxD 3 Connect the Ground pin of the RS 232 device to COMM terminal strip pin number 6 labeled GND 4 Connect the RS 232 cabling drain wire shield to GROUND at the host computer modem end of the cable Do Not connect the drain wire at the Super Two end of the cable Table 15 lists the connections between the COMM terminal strip and a host computer Table 15 Connection Table for Host Computer Host Computer Table 16 lists the conne
23. al cleaning and inspection Super Two TABLE OF CONTENTS DESCRIPTION si ci 7 REGULATORY CONSIDERATIONS iii AA ARA 8 Regulatory Considerations for Super Two Installations ie ee ee Ge ee RA Ge Re ee ee ee 8 Spe ification a A A Aa 8 UL 294 Safety of Access Control System E 8 Installer Responsibilities General EE EE ae ek 8 BI OMS ES A O alot 8 EE EH 9 CAPA ade dd lala 9 Memory Configurations eisa EE dao 9 EXPANSION BOARDS AND ACCESSORIER AA 10 Z MB EQ DON STOW RN EE OOM A la 10 Matrix Keypad Option Board CIEFISOUSKYRP ia 10 RS485 and RS232 Two Channel Auxiliary Communication Board CICPI300AUM ee ee 10 Network Interface Board CICPI300NETBD ii a 10 EEN EE 10 Ma Mi RE dll 10 INSTAT AT Sa ee eae Ee ee oa ees 11 EE O ell cid e bas dns dades ee 12 CIONES a e ee ee ee E ee 13 COLE TOU iia its 14 Incoming Power GONKUILKTOCKOUE Casts acai A A A a 14 ACCES SONY CONQUE O A EE 14 Grounding Accessory Drain and Shield WIPES A 14 POWER CONNECTIONS eet ee Ee 15 E Si eS Ei en Mens eon eae OS 15 A AD ED ER IG ID EA EE AE De RS TL VT OPT 15 Super Two Circuit Board POU di ee eg Ge Deene Ee Seele 16 DOOR CONNECTIONS a E o e ds 17 Wiegand P GN 17 Wiegand Proximity Reader Cable Requirements ie se ee RR Ge Re ee ee anna rra rra 17 Magnetic Stripe Reader GORNCCHON A li 19 Super Two 4 Magnetic Stripe Reader Cable Regresa dida 19 KEY PAD CONNECTION ati 20 Wiegand Output Card and Keypad Readers iese se ee Re nana G
24. ard holders Expansion components enable the Super Two to support up to a maximum 125 000 card holders with 2MB memory expansion NOTE Card Capacities can vary due to changes in Firm ware Badge Length and Panel Configuration Transaction buffer size Time Schedule Blocks and Access Groups Maximum Card Count can be verified by checking Com munication Driver Max Card Count Column The Super Two can use an onboard 7AmpHour AH backup battery to carry out full access control functions for a period of four hours assuming typical accessory loads in the event of an AC power supply loss The Super Two power supply automatically switches from 120 VAC 60Hz to 230 VAC 50Hz to meet the requirements CONTINENTAL INSTRUMENTS CI of both North American and the European Union With built in overcurrent protection this Access Control panel meets the requirements for Energy Limited installations In addition a replaceable lithium battery protects the on board database and programmed operating instructions from loss for a period of 4 weeks In the event of a total failure of the AC power supply and the backup battery the Super Two would immediately be ready for full operating capability once a source of operating power is re established For enhanced site access control requirements multiple Su per Two units a maximum of 63 may be networked to gether or with other Continental Instruments products in cluding Smarterm Mini
25. ard functions with a variety of op tions Proper circuit operation requires setting specific jump ers depending on the installed access control accessories the installed system options and any network configurations EOL Jumper When operating multiple Super Two units in a MULTIDROP RS 422 network the EOL jumper on the LAST unit in the communication network must be set to the TERMINATED position All other Super Two s should have the EOL jumper set to the NOT TERMINATED position When operating any Super Two unit in a REPEAT mode stand alone or part of a network set the EOL jumper on EVERY unit to the TERMINATED position Super Two TERMINATED Set the jumper to contact both pins 1 and 2 reference Fig ure 23a at right Super Two NOT TERMINATED Remove the jumper or hang from lower pin as shown in Figure 23a 1 2 OUT Jumper stored on EOL Header Figure 23a EOL Jumper Super Two MD RPT Jumper The MD RPT jumper is used to designate the particular Super Two as an active REPEAT or a passive MULTIDROP net work member see Figure 24 MULTIDROP Mode Use this mode when the Super Two is operating in the MULTIDROP mode as part of an RS 422 Multidrop net work Set the jumper to contact the center post pin 2 and the upper post pin 1 REPEAT Mode Use this mode when the Super Two is operating in the REPEAT mode as a stand alone system RS 232 or a part of a REPEAT or MULTIDROP RS 422 network Set
26. ation and Jumper Settings EOL JUMPER 39 Super Two TROUBLESHOOTING LED Diagnostics The Super Two circuit board uses LEDs to indicate the presence of a particular voltage and RS 232 signals Figure 25 shows the LED position on the Super Two circuit board and the individual LED functions Table 21 LED Diagnostic Functions Marking Function Notes PWR AC Power Status AC Power connected and 12 Volt Power Supply Working CPU Processor Power Ind 5 Volt Power on the PC Board RD PWR Reader Power 5 Volt or 12 Volt Reader Power Brighter when 12 Volt is selected OK Processor Running okay Flashing Heartbeat verifies operation of CPU Memory etc RX Receiving Host Signal Serial Port or Ethernet Port receiving data from the Host Computer TX Transmitting to Host Serial Port or Ethernet Port sending data to the Host Computer Super Two Kg on PAR PWR Eas x ed E RK ss CH Cc lt 1 RD C F Hi y a CTU Ti i LP Oa PWR O N il z al 5 SY
27. ctions between the Super Two COMM terminal strip and a modem Table 16 Connection Table for Modem Super Two Modem COMM Pin DB25 P AMET EN EE AA 27 Super Two COMMUNICATION CONNECTIONS CHS Computer DB9 Connector RTS CTS TXD RXD GND RT To Rear of Computer MR MR Super Two Circuit Board POLL Terminal Strip Figure 17 Super Two to Host Computer Connection Complete RS 232 Glan Modem Cable Far End Modem Near End Modem RTS CTS TXD RXD GND RT RT RR RR To Host Computer MT MT MR Ue MR Super Two Circuit Board POLL Terminal Strip Figure 18 Super Two to Modem to Computer Connection Super Two 28 Networking The Super Two can be networked with a maximum of 62 other Super Two units or other Continental Instruments access con trol devices Superterm Turbo Superterm Smarterm Miniterm and Microterm NOTE Multidrop networks require line drivers if more than 32 Super Two Panels are configured The following network configurations are possible RS 232 to RS 422 Networks RS 232 to RS 422 REPEAT Networks RS 232 to RS 422 MULTIDROP Networks RS 422 to RS 422 Networks RS 422 to RS 422 REPEAT Networks RS 422 to RS 422 MULTIDROP Networks NOTES If the first Super Two in the network is less than 50 feet 15 2m from the host computer the first Super Two
28. dress 29 SPECIFICATIONS AANEREN 44 Super Two Circuit Board Layout ooocooccnocccinnnnonnnnnos 16 Super Two Primary Fuse 120VAC Installations USA Camada ia 41 Super Two Primary Fuse 230VAC Installations European Union ne Re RA ee Re ee 41 Supervised Alamms esse ee RA RA GR AA RA Re Re 26 T Tamper Switch cioinn n e dadas 26 transaction butler 9 TROUBLESHOOTING iese ds de dees ee de oes Se ie 40 Two Chamnel Auxiliary Communication Board 10 U UE EE EE ER das 8 V VAC POWER EE EEN 15 W Wiegand Output Reader k evpad ese sesse sea 10 Wiegand Proximity Reader Cable Requirements 17 Wiegand Proximity Reader Connechons iese 17 Wiegand Output Card and Keypad Readers 20 X X Y Matrix Keypads esse esse ek se Re Re RA RA 20 Super Two NOTES NOTES CONTINENTAL INSTRUMENTS ACCESS CONTROL INTEGRATED SECURITY 355 Bayview Avenue Amityville NY 11701 Phone 631 842 9400 Fax 631 842 9135 A NAPCO SECURITY GROUP COMPANY
29. e Re ee Re RA Ge Re ee ee ee ee ee ee 20 XY Matis Keypa aSa ED Se N GE AD EG De ee ES Di 20 Keypad CODERE TUS AS AA A Ge Ge A AE 20 Door STATUS Sensor Connection Ee Re EE AAA AA RA A ee Ad 21 Door Status EE 21 Request to Exit Bypass Sensor Connection ee ee ee Re ee narran Re ee Re ee ee ee ee rana 22 Request to Exit Sensor Cable Requirements ie ee Re RR Re ee Re RR ee Re ee ee ee ee ee ee Re ee 22 RELAY ECH SE LCE 23 DESC Ee rege 23 Door Strike EE en eege Ee ad 23 E A A A A See 23 CONSERVA a 23 Relay Ch ra teristi Sr et E E EE A E E A R E A AS 23 Powering Electromagnetic EM LoS A A ideada 24 Fire Alarm Control Panel FACP Cometa a 24 ACCESSORY POWER e a e de e O 25 AFARMEONNEGTION ss et ee tanos 26 OPE CRA AS A A E EE ANR 26 Configuring an Alarm in the Supervised Condition sist sitas 26 Alarm Cable Requirements lt p EE de aly ee co ee eA AED ASO NR 26 Tamper SON esc te ete cee AS DCR gees RN OSU Gr eee Reco EE 26 RS 232 Communications Host Modem Operation iese ee se ee ee ee ee Re ee ee ee ee ee Re ee ee 27 RS 232 EE 27 RS 232 Jumper Setini Ses MAS ARA A aa 27 A A EA EEEE E a 27 Super Two to Host Computer Modem Connection 27 NETWORKING ee leede Ee 29 NETWORK Jumper SEN ES EES 29 Network Cable Requirements ccccccccccscecesesessceeseeeseescesueceseceeseecsseeaeseeeeeseecsaeseseseneeeneeenseeneeeaes 29 Network Address SCLIN Sti No A ia 29 RS 232 to RS 422 REPEAT Network Saa SS E GR A RA 30 RS 232 t
30. eave approximately one quarter of the screw s length protruding from the wall NOTE Do not tighten screws completely at this time 6 Place the Super Two cabinet over the mounting screws Secure the Super Two cabinet to the mounting surface us ing the two lower screws and then tighten the remaining length of the screws Detail B Super Two Cabinet Detail A Figure 5 Super Two Mounting Screws 13 Super Two INSTALLATION Cable Routing All associated cabling for the Super Two is divided into two categories e Power Cables and Accessory Relay Devices This category contains all the power cables servicing the Super Two and any accessory relay controlled devices connected to it e Communication Cables This category contains all the communication cabling be tween the Super Two and all communication devices all alarm devices and all card reader devices NOTE For proper operation of the Super Two route EACH category of cabling in SEPARATE conduit i e DO NOT mix alarm and communi cation cables in the same conduit as relay and power cables Incoming Power Conduit Knockout The Super Two System requires 120VAC 60 Hz voltage to the AC Input Power Terminal Block see page 15 The power cabling is delivered to the Super Two through a knockout lo cated on the lower center of the left side cabinet wall see Fig ure 6 The 3 4 inch knockout accepts EIA standard conduit connectors NOTE All wiring must conform
31. ed Black Brown White PWR GND LED DI Green DOOR CONNECTIONS Wiegand Proximity Reader Cable Reguire ments Wiegand Proximity Readers reguire a 5 conductor cable be tween the Super Two and the particular unit see Figure 9 Do not use twisted pair cable NOTE Readers may have a maximum current draw of 200mA each at 12VDC or a total current draw of 200mA if 5VDC Reader Power is selected EXAMPLE Iftwo identical 5VDC Readers are con nected to one Super Two each Reader could draw up to 100mA Table 3 lists the cable gauge vs length requirements for proper operation of the Super Two and a Wiegand Proximity Reader Table 3 Cable Requirements for Wiegard Proximity Readers Distance Wire Gauge maximum Wiegand Reader 500ft 153m 22AWG Shielded w drain 500ft 153m 22AWG Shielded w drain 500ft 153m maximum for unbuffered Wiegand units Proximity Reader CAUTION Keep all drain and cable shield wires between the Super Two and any Wiegand Proximity Readers short Connect drain and cable shield wires to the ground posts located on both sides of Super Two cabinet DO NOT ground drain wires and cable shields at any other point 17 Super Two DOOR CONNECTIONS Wiegand Proximity Reader Set Jumper for 5V or 12V Reader Power va PWR GND LED D1 DO DS Terminal Strip RDRI amp RDR2 RT REX Drain Wire Shield De Super Two Cabinet Ground Post Super Tw
32. ed on its own before connecting into a network Any possible wiring or installation problems are magnified many times by the complexity of the network Once an individual panel has been tested and found operating satisfactorily 1t can then be safely brought into the network The Super Two is normally permanently installed with fixed wiring to meet the National Electrical Code ANSI NFPA 70 A Line Cord and Plug are connected to provide convenient product set up and checkout If a plug in mains connection is used the flexible cord must be clamped as shown in Power Connections Page 15 The unit must not be plugged into an outlet that is controlled by a switch Notes are included with a procedure in forming the installer about related material CAUTION Cautions indicate that a particular process requires special attention WARNING Warnings indicate that a particular process exposes the installer to live circuits or that making wrong connections can lead to equipment failure CAUTION Do not place accessory circuit cables in the same conduit sections containing power cables INSTALLATION The following warnings are designed for the safety of the Su per Two install service technician and for the continued proper function of the Super Two unit About This Manual This manual describes the installation of the Super Two Ac cess Control Unit and the specific accessories that connect to it CAUTION Prevent the risk of a f
33. el FACP Connection Super Two 24 ACCESSORY POWER The ACCESSORY POWER terminal strip labeled 12V OUT provides battery backed 12VDC power outlets for auxiliary devices This terminal strip is located in the lower right hand corner of the Super Two circuit board Table 12 lists the ACC POWER terminal strip pin numbers and their associated functions Table 12 ACCESSORY POWER 12_V Terminal Strip Functions Pin NOTE 12VDC current draw is limited to a total maximum of 1 60 Amps WARNING Observe Positive and Negative wire polarity be tween accessory devices and the Super Two 25 AUXILIARY POWER Super Two ALARM CONNECTION ALARM CONNECTION 2 ee R 1 in parallel with the alarm contacts see Figure 3 Install R2 in series with the alarm input conductor The Super Two has a total of 8 supervised alarm inputs Four NOTE For maximum protection install the resistors close to alarm inputs are located on the RDR1 and RDR2 terminal the alarm contacts and embed them in epoxy strips and are used for Request to Exit and Door Status sensor functions see pages 21 and 22 Table 13 ALARM Terminal Strip Input Pins An additional four accessory alarm inputs are located on the Pin Accessory ALARM terminal strip located on the lower left corner of the Super Two circuit board see Figures 25 and 26 These alarm inputs may be used for dry contact type inputs unsupervised or supervised alarms Supervised Alarms
34. ements Keypads require a 22AWG 7 conductor stranded shielded cable with drain wire between the Super Two and the particu lar unit see Figure 11 Do not use twisted pair cable RI R2 R3 R4 Table 7 lists the cable gauge vs length requirements for proper operation of the Super Two and the Keypad Table 7 Cable Requirements for Magnetic Stripe Reader Magnetic maximum 22AWG 500ft 153m Shielded w drain Stripe Reader CAUTION Keep all drain wires short Connect drain wires to the ground posts located on both sides of Super Two cabinet DO NOT ground drain wires and cable shields at any other point Keypad Super Two Cabinet Ground Post GGG Drain Wire Shield Figure 11 Keypad Connection to Super Two Board Super Two 20 DOOR CONNECTIONS Door Status Sensor Connection Door Status sensors connect to the Super Two through two f terminal strips labeled RDR1 and RDR2 see Figure 12 NOTES Refer to page 26 Alarm Connections to configure Door Status sensors as supervised alarms Table 8 lists the connections between the RDR1 and RDR2 Table 9 Cable Reauirements for Door Status Sensor terminal strips and the Door Status sensor d Door 500ft 153m 22AWG Shielded w Status Sensor drain Table 8 Connection Table for Door Status Sensor RDRx Terminal Signal Door Status Strip Pin Sensor Function Door Status Sensor Cable Requirements Door Status sensors require a 22AWG 2 conduct
35. eplacement esse se sk 43 Battery Backup ii EE t 10 BCD Rotary Suwtches esse sae sae se Re ee 29 C Cabinet Mountmng conan 13 Cable Clamp colada steed 47 Cable Reogurements ccoo nonanccnnnos 26 Cable Routing ees se Re GR RA GR RA GR Re Re ee 14 Capacities AI AO ER ER 9 44 Card Capactes 7 44 CICP ISCO AVI EE 10 CIC ENT EE 9 46 CICPIZOONE TB Doria 10 47 CICPI300XY BD ridad 10 CIRCUIT PROTECTION uses esse se see one se se ge 41 Clear Memory and Force Download to Pane 43 Communication Cables ee se RA RA RA 14 Conduit KnockOUtS ee se sa RA RA RA RA 14 CONFIGURATION se re ese tec ie de 9 Console Relax 23 D DESCRIPTION EE r ee ros ED Ee Ge 7 DISCLAIMER en ata 2 DOOR CONNECTIONS eebe 17 Door Status Sensor Cable Requirements 21 Door Status Sensor Connection ooocoocnoocononcconnnconnnnnos 21 Door Strike Relans esse eini 23 downloadable firmware sesse ee ee Re RA Ge Re RA e 9 Drain and Shield Wues 14 E Electromagnetic EM Locke 10 24 EOL Jumpers iii ali 38 EOLJ MPETS EE n a a ia 29 Beet 2s cece conciliar 10 EXPANSION BOARDS AND ACCESSORIEG 10 Super Two 48 F FCC Warning ENER 2 Fire Alarm Control Panel FACP Comnection 24 Flexible Shield ooie ee Ge RR AR RA 47 Force Download to Panel 43 Form Orla Sri ici 23 Fuse Power Supply Fuse iese sees se ee ee ee Re ee Re Ge RA 42 G Ee 15 Grounding Accessory Drain and Shield Wi
36. er IN MD RPT Jumper RPT EOL Jumper IN MD RPT Jumper RPT EOL Jumper IN MD RPT Jumper RPT EOL Jumper IN MD RPT Jumper RPT EOL Jumper IN Polling Line Connector Pin Connector Pin Connector Pin Connector Pin Connector Pin Connector Signal RS 422 TXD RS 422 TXD RS 422 RXD RS 422 RXD Super Two 34 COMMUNICATION CONNECTIONS Continental Instruments Polling Line Converter DB9 Connector RS 232 to RS 422 PS d to Com Port EE D DB9 Connector gt gt LA 8 SES 5S 5 Ez Host Computer Drain Wire RS 422 Host to Super Two RS 422 Super Two to Super Two 4 Conductor 2 Twisted Pair Stranded 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded 22AWG Shielded to Next with Drain Wire with Drain Wire Network Super Two 4000 feet 1220m Maximum 4000 feet 1220m Maximum gt Drain Wire A EE ES Drain Wire EE Wp rain Wire Ma N EE GEEN UI ppp 1st 2nd om E wir Super Super f 3 P 3rd a hang le Two d Two eee L ln Super MAP y ei h Cabinet Cabinet Ya o E Zi h Two ET E Ground 7 Ground E SA E Cabinet ie Post Post E is Ground 5 E Post E FE I E E Se i 4 Kb 1 d ic Super Two Circuit Board Super Two Circuit Board Super Two Circuit Board First Network Super Two Second Network Super Two Third Network Super Tw
37. erter to the ground at the rear of the host computer Table 20 RS 422 to RS 422 MULTIDROP Network Connections Super Two 1 Super Two 2 Super Two 3 Super Two 4 Last Super Two MD RPT MD RPT Jumper MD RS 422 TXD RS 422 TXD RS 422 RXD RS 422 RXD Super Two MD RPT Jumper MD EOL Jumper IN Connector 36 Continental Instruments Polling Line Converter RS 232 to RS 422 P N CICE1942 DB9 Connector COMMUNICATION CONNECTIONS to Com Port e rd E DB9 Connector gt s E Zeien Wire RS 422 Host to Super Two 4 Conductor 2 Twisted Pair Stranded Host Computer 22AWG Shielded with Drain Wire 4000 feet 1220m Maximum RS 422 Super Two to Super Two 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded with Drain Wire 4000 feet 1220m Maximum Distance for the ENTIRE NETWORK Drain Wire lt gt SS Wire TT Super Two Circuit Board First Network Super Two MULTIDROP Mode MD RPT Jumper MD pins 1 and 2 EOL Jumper OUT Super Two Circuit Board Second Network Super Two MULTIDROP Mode MD RPT Jumper MD pins 1 and 2 EOL Jumper OUT Super Two Circuit Board Third Network Super Two MULTIDROP Mode MD RPT Jumper MD pins 1 and 2 EOL Jumper IN Figure 23 RS 422 to RS 422 MULTIDROP Network Connection 37 Super Two JUMPER SETTINGS JUMPER SETTINGS The Super Two circuit bo
38. he product survives high voltage power line and signal line electrical transients e Endurance proven by verifying operation of individual access circuits for over 100 000 cycles at the maximum load rating e Affords some confidence that the installation will survive physical attack without allowing invalid access to an area e Effective backup power and recharge functions that assure four hours of operation with the supplied standby batter ies Super Two Installer Responsibilities General For the Super Two to meet the users expectations under any of the previously mentioned UL specifications the installer has several definite responsibilities including All wiring must conform to all National Electric Code NEC specifications where designated All wiring must conform to National Fire Protection Associa tion NFPA schedule 70 specifications where designated All wiring must conform to any and all local building electrical codes Furthermore The transient protection circuits built into the unit will protect the Super Two and most of the connected equipment only when the chassis of the Super Two unit is effectively grounded The ratings and limitations declared on the Super Two product labels must not be exceeded UL294 Specific Under UL294 specifications only card readers specifically listed in the UL file or which themselves carry the UL294 label may be used There are no special restrictions on which model
39. he unit is powered 1 Find the Service Entrance Terminal Block near the Bot tom Middle of the enclosure 2 Grasp the Black Fuse Holder and pull straight out 3 Replace the fuse with a 1 ampere 1 00A 5x20mm slow blow UL approved fuse A Re install the fuse holder with the new fuse Figure 26 Super Two Primary Fuse Location Service Entrance Terminal Block CIRCUIT PROTECTION Super Two Primary Fuse 230VAC Installa tions European Union A 1 2 ampere 0 500A time delay fuse meeting IEC standards protects the Super Two primary cir cuit The fuse is located on the Service Entrance Terminal Block on the bottom of the Super Two see Figure 26 The Fuse Holder is shocksafe and may be carefully removed while the unit is powered 1 Find the Service Entrance Terminal Block near the Bot tom Middle of the enclosure 2 Grasp the Black Fuse Holder and pull straight out 3 Replace the fuse with a 1 2 ampere 0 500A 5x20mm time lag IEC127 approval fuse A Re install the fuse holder with the new fuse Fuse Holder Figure 27 Fuse Holder 41 Super Two CIRCUIT PROTECTION Super Two Power Supply Fuse A 4 ampere 4A fast blow fuse mounted on the lower part of the Power Supply Circuit Board provides protection to the Power Supply from high energy surges Ifthis fuse faults fre quently consider adding a UL 1449 Listed power line surge protection device WARNING Verify that the
40. in the network may be used to convert the RS 232 polling signal to RS 422 for the remainder of the network If the first Super Two in the network is more than 50 feet 15 2m from the host computer an RS 422 polling line con verter is required CICE1941 Network Jumper Settings The MD RPT and EOL jumpers on each Super Two must be set depending on the type of network configuration Refer to page 38 for specific information regarding the EOL jumper Also refer to page 38 for specific information regard ing the MD RPT jumper Switch S2 Switch S3 COMMUNICATION CONNECTIONS Network Cable Requirements Networking multiple Super Two panels requires 4 conductor cable 2 two wire twisted pair stranded 22A WG with shielding and drain wire For REPEAT network configurations cable length between EACH Super Two is restricted to a maximum length of 4000 feet 1220m For MULTIDROP network configurations total cable length is restricted to a maximum 4000 feet 1220m between the FIRST Super Two and the LAST Super Two in the network Network Address Settings Operating the Super Two with a host computer or in a net work requires that each Super Two and other devices have an individual unique address other than zero DR Example Address AD 01 is set 9 EW 90 Example Address ey 63 is set 9 NM Figure 19a Setting Network Address The BCD Rotary Switches are set with a small screwdr
41. ire by replacing ALL fuses with the same type and rating The main fuse protects the power supply circuit against excessive currents and short cir cuits Failure of the power supply other than a blown fuse fuse usually indicates a fault in a power supply component There are no user serviceable parts in the Super Two cabinet The power supply must be replaced if it fails The lower part of the power supply has ex posed terminals and components see page 10 DO NOT probe the power supply and expose yourself to high voltage and a shock hazard The risk of a serious electrical shock exists if the wiring harness power connector is removed from the Super Two circuit board but AC power remains live at the AC Input Terminal Block see Figure 7 page 15 Super Two INSTALLATION Installation Preparation First select a mounting location within a secure limited access area see Figure 3 Note the type of wall construction that the enclosure will be secured to e Determine that adequate space is available for mounting the Super Two cabinet on a wall with no interference from wires pipes or other obstructions e Proper installation of the Super Two cabinet requires an area of free space measuring 20 inches high 508mm X 20 inches wide 508mm X 4 0 inches deep 101 6mm e Confirm that adequate free space exists on both sides of the Super Two cabinet for cabling conduit entering and exiting the cabinet Dete
42. iver There is a click detent for each number The valid address range is 01 to 63 Address 00 is not valid See Clear Memory and Force Download to Panel on page 43 Reset RST Button Figure 19 Super Two Address Switch S2 amp S3 Location 29 Super Two COMMUNICATION CONNECTIONS Operating a Super Two network in the REPEAT mode re RS 232 to RS 422 REPEAT Network quires setting the MD RPT and EOL jumpers If the first Super Two in the network is less than 50 feet 15 2m from the host computer it may be used to convert the RS 232 polling signal from the host to RS 422 for the remain der of the network Refer to page 38 for information regarding setting the MD RPT jumper and for information regarding setting the EOL jumper 1 Connect the first Super Two to the RS 232 port of the host computer 2 Connect the remainder of the network using the Super Two s RS 422 ports RS 232 to RS 422 REPEAT Ground and Drain Cables The drain wires for all RS 422 cables in the network must be grounded to the individual Super Two s Cabinet Ground Post see Figure 20 Ground RS 422 cables at the end closest to the host computer Refer to Figure 20 page 31 for a typical REPEAT mode net work connection diagram Table 17 lists the required connections for an RS 232 to RS 422 REPEAT network NOTE Ground the drain wire for the RS 232 cables at the host computer end of the cable RS 232 to RS
43. lly continues operating for 4 hours via an on board 7 AmpHour back up bat tery The backup battery provides DC power for all Super Two access control and alarm monitoring functions After charging for 48 hours the battery carries the rated load for four or more hours A low voltage battery sensing circuit protects the Super Two by disconnecting the battery from the main circuit before it becomes too deeply discharged AC Power Supply The power supply provides 12VDC to the on board power sup ply An AC power terminal block and grounding screw provide connection points for the three incoming AC service lines The Super Two may be powered by 230VAC 50Hz when used outside North America No switches and jumpers need to be set but the supplied IEC127 approved fuse must be used for installa tions in the European Union NOTE The Super Two may be used to power 12 Volt Electro magnetic EM Locks as well as standard Access Control Read ers and Accessories Should AC power fail the internal 12 Volt 7AH battery will power the panel readers locks and accessories for up to four hours assuming normal operating conditions INSTALLATION Only qualified service personnel familiar with all local build ing codes should attempt this installation Take appropriate safeguards to avoid unintentional operation by employees and maintenance personnel working about the premises The installation of each Super Two system should be com pleted and test
44. main AC power to the Super Two cabinet is switched OFF and locked against acci dental starting 1 Turn OFF the main circuit breaker controlling power to the Super Two cabinet 2 Pull the insulating fishpaper cover away from the Power Supply 3 Using a non conducting fuse puller remove the old fuse see Figure 29 4 Replace the fuse with a 4 Amp 250V fast blow not a time lag fuse 5 Reset the main circuit breaker Super Two Accessory Circuit Protection A 0 75 Amp resetable fuse protects the Battery Charger Circuit and a 3 Amp resetable fuse limits the output to the Accessory Circuits to safe levels These devices limit the Accessory Current even when the product is operating under backup power from the battery Cover Figure 28 Super Two Power Supply Fuse Location Super Two Fish Paper Under conditions of moderate overloads the power supply will shut down its output but periodically power up briefly to test to determine if the overload is removed This will be visible because the PWR Lamp will flash on about once per second Power will be restored immediately upon removal of the over load condition Super Two 5 12V Reader Circuit Protection 0 25 ampere 0 25A Resetable Fuses RT1 and RT2 are used to limit the Reader current for RDR1 and RDR2 These are found near the RDR1 and RDR2 Terminal Blocks A fault in the Reader Circuit may be indicated by one of these devices becoming warm to the to
45. o 1 Super Two 2 Super Two 3 Super Two 4 Last Super Two MD RPT Jumper RPT EOL Jumper IN MD RPT Jumper MD EOL Jumper OUT RS 232 RXD RS 232 TXD RS 232 GND Super Two MD RPT Jumper MD EOL Jumper IN MD RPT Jumper MD EOL Jumper OUT EOL Jumper OUT Connector 32 COMMUNICATION CONNECTIONS DB9 Connector to Computer Com Port DB Connector F Es A E al LUU ebe salad ede CEE Host Computer RS 232 Host to Super Two 3 Conductor Stranded 22 AWG Shielded DRAIN WIRE NOTE Connect all drain wires with Drain Wire together from the LAST Super Two unit in the 50 feet 15 2m Maximum network TO the FIRST Super Two unit in the network Connect the drain wire from the FIRST RS 422 Super Two to Super Two Super Two to the FIRST Super Two cabinet 4 Conductor 2 Twisted Pair ground post Stranded to Next 22AWG Shielded with Drain Wire Network Sup r Two 4000 feet 1220m Maximum gt 1st Super Two 3 Cabinet Ground d Post i AE GH ES 5 i gt a i K SP 3 Super Two Circuit Board Super Two Circuit Board Super Two Circuit Board First Network Super Two Second Network Super Two Third Network Super Two REPEAT Mode MULTIDROP Mode MULTIDROP Mode MD RPT Jumper RPT pins 2 and 3 MD RPT Jumper MD pins 1 and 2 MD RPT Jumper MD pins 1 and 2 EOL Jumper IN EOL Jumpe
46. o REPEAT Mode REPEAT Mode REPEAT Mode MD RPT Jumper RPT pins 2 and 3 MD RPT Jumper RPT pins 2 and 3 MD RPT Jumper RPT pins 2 and 3 EOL Jumper IN EOL Jumper IN EOL Jumper IN Figure 22 Super Two RS 422 to RS 422 REPEAT Network Connection 35 Super Two COMMUNICATION CONNECTIONS RS 422 to RS 422 MULTIDROP Network Figure 23 shows the required connections for an RS 422 to RS 422 MULTIDROP network Table 20 lists the necessary connections between e A host computer and the first Super Two in the network and e The first Super Two in the network and the following Super Two Panels in a network NOTE Thirty two 32 Super Two panels may be installed in a Multidrop network RS 422 to RS 422 MULTIDROP Network Jumper Settings Operating a Super Two network in the MULTIDROP mode requires setting the MD RPT and EOL jumpers Refer to page 38 for information regarding setting the MD RPT jumper and for information regarding setting the EOL jumper RS 422 to RS 422 MULTIDROP Network Ground and Drain Cables Ground the drain wires for all RS 422 cables in the network to the Super Two ground posts NOTE Connect all drain wires together starting at the LAST Super Two in the network and working toward the FIRST Super Two in the network Connect the drain wire from the FIRST Super Two in the network to the drain wire at the Polling Line Con verter see Figure 23 Connect the drain wire from the Polling Line Conv
47. o Circuit Board Figure 9 Wiegand Proximity Reader Connection to Super Two Board Super Two 18 DOOR CONNECTIONS Magnetic Stripe Reader Connection Magnetic Stripe Reader Cable Requirements Magnetic Stripe Readers connect to terminal strips RDR1 and Magnetic Stripe Readers require a 5 conductor cable between RDR2 see Figure 10 Terminal strips RDR1 and RDR2 fol the Super Two and the particular unit see Figure 10 Do not low the same connection procedures use twisted pair cable Table 4 lists the connections between the RDRI and RDR2 Table 5 lists the cable gauge vs length requirements for proper terminal strips and the Magnetic Stripe Reader operation of the Super Two and Magnetic Stripe Readers Table 4 Connection Table for Magnetic Stripe Reader PWR Red 5VDC 12VDC Red GND Black Ground Black Table 5 Cable Requirements for Magnetic Stripe Reader Magnetic maximum Stripe 500ft 153m Reader LED Brown LED Yellow D1 White Data 1 DAT Blue CAUTION DO een Da ELE ireen Keep all drain wires between the Super Two Note 1 If the Magstripe Reader does not feature an LED in i P and Magnetic Stripe Readers short Connect dicator 4 conductor cable may be used drain wires to the ground posts located on both sides of Super Two cabinet DO NOT ground drain wires and cable shields at any other point Magnetic Stripe Reader Set Jumper for 5V or 12V Reader Power va AND JAY A9 UNO Jv
48. o RS 422 REPEAT Jumper EE 30 5 Super Two RS 232 to RS 422 REPEAT Ground and Drain Cables ee ee ee ee ee ee ee ee de ee nono ee ee ee 30 RS 232 10 RS 422 MULTIDROP Neppark se Se A eier 32 RS 232 to RS 422 MULTIDROP Network Ground and Drain Wires iese see see ee ee ee ee ee ee ke ee 32 RS 232 to RS 422 MULTIDROP Network Jumper Aeitiug ees se esse ese ee ee ee ee ee ee ee ee ee ee Re ee ee 32 RSA to RS 422 REPEAT NEEWOK ae A De eg E GR rea 34 RS 422 to RS 422 REPEAT Network Jumper Settings iese se esse se se ese ee ee ee ee Ge Re ee ee ee Re ee Re ee ee 34 RS 422 to RS 422 REPEAT Network Ground and Drain Cobles iese sesse ese ee se ese ee ee ee ee ee 34 RS 422 to RS 422 MULTIDROP Netork ese ese ee se ee se ee se ee Re ee GR GR ee Ge ee Re eke GRA GR ee ee ee ee ee 36 RS 422 to RS 422 MULTIDROP Network Jumper Settings eise se ese ese ee ee ee ee ee ee ee ee ee ee Re ee ee 36 RS 422 to RS 422 MULTIDROP Network Ground and Drain Cobles iese esse ese se se ee se ee ee ee 36 JUMPER SETTINGS tarada 38 EOL DERS biases et eta AAA a 38 MD RPI ONE E RA ORE OE EE ER 38 Memory Battery AChiv tiOn ds A AAA AE Ad 38 TROUBLESHOOTING yerta ee ee ek o e 40 LED PIU CWO SCS tse e sos ENA hin late die EG E A 40 CIRCUIT PROTECTION BEE 4 Super Two Primary Fuse 120VAC Installations US AA onacdet ees ee ee ee ke ee ee 4 Super Two Primary Fuse 230VAC Installations European Union 4 S per WO Power E EE 42 Super Two Accessory Circuit PYOLECHION Di AA
49. o communica tions It has been tested and found to comply with the limits for a Class A computing device pursuant to Part 15 of FCC Rules which are de signed to provide reasonable protection against such interference when operated in a commer cial environment Operation of this product in a residential area is likely to cause interference in which case the user at his own expense will be required to take whatever measures may be re quired to correct the interference WARNING TO REDUCE THE RISK OF FIRE OR SHOCK HAZARD DO NOT EXPOSE THIS PRODUCT TO RAIN OR MOISTURE The lightning flash with arrowhead symbol within an equilateral trian gle is intended to alert the user to the presence of uninsulated dangerous voltage within the prod uct s enclosure that may be of suffi cient magnitude to constitute a risk of electric shock to persons The exclamation point within an equilateral triangle is intended to alert the user to the presence of im portant operating and maintenance servicing instructions in the litera ture accompanying the product UNPACKING AND INSPECTION Unpack carefully This is an electronic prod uct and should be handled as such Com pare the items received with the packing list with your order BE SURE TO SAVE THE SHIPPING CARTONS AND INSERT PIECES THEY ARE THE SAFEST MATERIAL IN WHICH TO MAKE FUTURE SHIP MENTS OF THE PRODUCT MAINTENANCE User maintenance of this unit is limited to exter n
50. or stranded shielded cable with drain wire between the Super Two and the particular unit see Figure 12 Table 9 lists the cable gauge vs length requirements for proper operation of the Super Two and the Door Status sensor CAUTION Keep all drain wires short Connect drain wires to the ground posts located on both sides of Super Two cabi net DO NOT ground drain wires and cable shields at any other point Super Two OT Cabinet Ground Post Unsupervised Door Status Sensor Drain Wire Shield Super Two Cabinet OT Ground Post Drain Wire Shield Supervised Door Status Sensor we GER IE WET er Super Two Circuit Board Figure 12 Door Status Sensor to Super Two Connections Plain Unsupervised Contacts and Supervised Contacts 21 Super Two DOOR CONNECTIONS Request to Exit Bypass Sensor Connection Request to Exit sensors also known as Bypass sensors work Request to Exit Sensor Cable Requirements in conjunction with Door Status Sensors to provide complete Request to Exit sensors require a 22AWG 2 conductor facility entry and exit control The Request to Exit sensor in stranded shielded cable with drain wire between the Super put connects to the same Super Two terminal strip RDR1 and Two and the particular unit see Figure 13 RDR2 that the associated Door Status Sensor connects to see Figure 13 Table 11 li
51. pod PWR 500 feet Wire Max Di Terminal Strip DO RDRI amp DS RDR2 Drain Wire Shield be Super Two Circuit Board Super Two Cabinet Ground Post Figure 10 Magnetic Stripe Reader Connection to Super Two Board 19 Super Two DOOR CONNECTIONS Keypad Connection Wiegand Output Card and Keypad Readers The preferred connection for Card and Keypad installations is the use of a Wiegand Output Reader Keypad such as the HID 5355AGKO00 or 5355ABKO0 These products eliminate the cost of additional wiring and require no addition Interface Equipment Compatible equipment produce the following codes for Keypad entries NOTE Wiegand output Keypads may simply be connected to the Card Reader inputs at DR1 and DR2 for Keypad Only connections X Y Matrix Keypads If traditional twelve position keypads must be used these may be wired to the optional Super Two X Y Matrix Keypad Board Connect the wiring to terminal strips KP1 and KP2 see Figure 11 Terminal strips KP1 and KP2 follow the same connection procedures Table 6 lists the connections between the KP1 and KP2 termi nal strips and the keypad R1 R2 R3 R4 CH C2 Yellow a INER THO ch Deh OP SECH CSK MM ML NS ILE Wiegand Output Reader Violet Keypad Circuit Board C3 Table 6 Connection Table for Keypad Reader Interface Board CICP1300XYBD KPx Terminal Strip Pin Row 2 Keypad Cable Requir
52. r OUT EOL Juniper OUT NOTE Set the EOL jumper for the last Super Two in the network to IN Figure 21 Super Two RS 232 to RS 422 MULTIDROP Network Connection 33 Super Two COMMUNICATION CONNECTIONS RS 422 to RS 422 REPEAT Network If the first Super Two in a network is more than 50 feet 15 2m from the host computer the polling line from the host computer must use RS 422 standards A Continental Instruments RS 422 Polling Line Converter P N CICE 1942 may be used at the host computer to convert RS 232 to RS 422 Figure 22 page 35 shows the required connections for an RS 422 to RS 422 REPEAT network Table 19 lists the necessary connections between A host computer and the first Super Two in the network and The first Super Two in the network and the remaining Su per Two Panels 63 maximum in a network RS 422 to RS 422 REPEAT Network Jumper Settings Operating a Super Two network in the REPEAT mode re quires setting the MD RPT jumper and the EOL jumper Refer to page 38 for information regarding setting the MD RPT jumper and for information regarding setting the EOL jumper RS 422 to RS 422 REPEAT Network Ground and Drain Cables Ground the drain wires for all RS 422 cables in the network at each individual Super Two in the network Table 19 RS 422 to RS 422 REPEAT Network Connections Host Computer Super Two 1 Super Two 2 Super Two 3 Super Two 4 to next Super Two MD RPT Jumper RPT EOL Jump
53. res 14 H HID S39 SAGO tecno 10 Host Modem Operation iese sesse esse ee ee ee ee 2T I JEC IDEE ON 10 IMPORTANT SAFEOGUARDR esse ese esse se ee ees ee 3 Incoming Power Conduit Knockout sesse sees 14 INSTALLATION iaa 11 Installation Prceparapon 12 J JUMPER RTE 38 Jumpers EOL Jumpers ENNEN 38 MD RPT Jumper 38 K Keypad Cable Requirements esse sesse ee ee ke ee 20 KEYPAD CONNECTION sesse see sees sesse see esse se ee 20 Keypad Option Board 10 Knockouts AT 14 L LED DIAgnOStiCS EE 40 linie driVer i esse Een yas Cat ee bee ee ee BEE 29 E ut Lu RRE 39 M Magnetic Stripe Reader Cable Requirements 19 Magnetic Stripe Reader Connection esse esse see 19 MAINTENANCHR es es se see see se se see ese ee se de ees ee 43 Matrix Keypad Option Board ees ee 10 MD RPT Jumper 38 MD RPT jumpers sisisihin ee ee Re ee nacos 29 Memory Battery Acttvaton ees esse ese ee ee ee ee Re ee 38 MEMORY BOARD INSTALLATION INSTRUCTIONS DE ee lira 46 Memory Coin Cell Replacement i esse ese ese 43 Memory ConfiguratlOnS esse sae see ee ee Re ee ee memory expansion board ee ee ee Metal oxide varistors MONO OE AA EE cv E r MOVs MULTIDROP Networks N Network Address Settings Network Interface Board NETWORK INTERFACE BOARD INSTALLATION INSTRUCTIONS iiseiaeeieeeeee Network UTP cable ees ee ee ee ee ee ee ee Ee NETWORKING iniae ee ee ee ee ee ee ee Re ee ee P Power Cables and Accessory
54. rmine the directions of the cabling conduit exiting the Super Two cabinet Confirm sufficient access to ceilings and or walls before fitting the conduit lengths Knockouts at the back of the unit may be used for hidden wiring installations NOTE All Super Two signal wiring and accessory power circuits are certified as power limited The use of conduit is optional for these circuits Optional hidden wiring installation Super Two Panel Assembly Figure 3 Super Two Installation Location Super Two 12 Cabinet Mounting Inspect the mounting surface around the proposed installation site The mounting surface must be capable of supporting 14 pounds 6 3Kg plus any additional weight of the installation hardware CAUTION Use only suitable mounting hardware for the type of wall construction encountered 1 Determine the Super Two cabinet mounting location 2 Mark the four mounting holes against the mounting sur face using the Super Two cabinet as a template or using the measurements provided in Figure 4 NOTE Mark the small oval portion of the cabinet screw holes see Figure 5 Detail A and B lt lt 10 11 16 27cm gt Iunec 7E 91 11 2 Figure 4 Super Two Cabinet Mounting Hole Dimensions INSTALLATION 3 Place the Super Two cabinet out of the way 4 Drill pilot holes to the required depth and size for the mounting screws 5 Insert the top two mounting screws into the wall L
55. se twisted pair cables for Reader Keypad or RS232 connections POWER RATINGS As supplied from the factory the Super Two contains a Power Supply that operates on 120VAC 60Hz for North America or 230VAC 50Hz for the European Union Continental Instruments recommends using a dedicated unswitched power outlet to prevent any interference from other equipment that might be connected on the same line Voltage Current Maximum 120VAC 1 0 Amperes 230VAC 0 5 Amperes Accessory Output 12VDC 1 6 Amperes 45 SPECIFICATIONS Super Two APPENDIX A APPENDIX A 2 MB MEMORY BOARD INSTALLATION INSTRUCTIONS CICP1300MB2 1 Remove power from the SUPER TWO Inside the housing remove the 6 pin Molex connector marked Power In located at the lower right side of the panel see Figure A below Ensure that all power LED s are off Insert paper insulator under the clip of the Memory Battery to protect the memory board see Figure B Insert the white plastic Snap type standoff into the SUPER TWO main board See Figure C The hole into which you will insert the standoff is located just below and to right of address switches Insert push firmly the small double pronged end first until the standoff snaps securely into the hole Place the 2MB Memory Board on to the main board parallel to the top as shown in Figure D Align Paper Installed the standoff hole in the memory board with the standoff in
56. stalled in step 3 Align all pins of the memory board with the JP2 connector Press and snap in to secure CAUTION Before handling the 2MB mem A ory board use a grounding strap or touch the A Controller PCB metal chassis to reduce the possibility of static discharge damaging the PCB and the memory board 5 Restore power First restore Memory Battery by re Figure B Remove and Restore Memory Battery Paper Removed moving paper insulator see Figure B Next reconnect the 6 pin Molex connector marked Power In The OK LED should blink at a rate of approximately once every second If you must remove the 2MB memory board remem ber to push in the locking tab on the Snap type stand off before removal See Figure E INSERT THIS END INTO 2MB MEMORY BOARD INSERT THIS END INTO MAIN BOARD Figure C Snap type standoff MEMORY BOARD Figure D Memory board placed on top of main board Press in to secure Super Two 46 2MB MEMORY BOARD PUSH IN TAB Figure E Push in tab to detach Snap type standoff if necessary APPENDIX B NETWORK INTERFACE BOARD INSTALLATION INSTRUCTIONS CICP1300NETBD 1 Remove power from the SUPER TWO Inside the hous ing remove the 6 pin Molex connector marked Power In located at the lower right side of the panel see Figure A below Ensure that all power LED s are off On the Super Two main board remove the 4 40 1 4 Phillips pan head screw
57. sts the cable gauge vs length requirements for proper operation of the Super Two and the Request to Exit Table 10 lists the connections between the RDR1 and RDR2 sensor terminal strips and the associated Request to Exit sensor Table 11 Cable Requirements for Request to Exit Sensor Table 10 Connection Table for Request to Exit Sensor Request to Exit maximum 22AWG Shielded w DRx Terminal Signal Request to Exit Sensor 500ft 153m drain Strip Pin Sensor Function CAUTION Keep all drain wires short Connect drain wires to the ground posts located on both sides of Super Two cabi net DO NOT ground drain wires and cable shields at any other point Super Two OT Cabinet Ground Post Unsupervised r e Request to Exit REX Sensor Drain Wire Shield Super Two Cabinet OT Ground Post Drain Wire Shield Supervised Request to Exit REX Sensor Super Two Circuit Board Figure 13 Request to Exit Sensor to Super Two Connections Plain Unsupervised Contacts and Supervised Contacts Super Two 22 RELAY CONNECTIONS Description The Super Two provides five Form C relays to control door strikes door alarm shunts console functions etc The relays are divided into three categories Door Strike Re lays Auxiliary Relays and Console Relay Door Strike Relays Two relays are designated as door strike relays
58. term Microterm Superterm and Turbo Superterm A Super Two network may be config ured to operate in a repeater mode or in a multidrop mode using the RS 422 communications protocols A single host computer may be used to manage and pro gram one Super Two or a fully developed network of Super Two s saving equipment and installation costs database entry deletion procedures and monitoring individual access usage The host computer may communicate with the Super Two network by Dial up Modem RS232 RS422 serial commu nication or by Ethernet using a plug in Network Interface Adapter Changes or upgrades to the Super Two operating software are readily downloadable from the host computer to either one specific Super Two or an entire network of Super Two s eliminating the need to physically change the EPROM chip inside the unit 7 Super Two REGULATORY CONSIDERATIONS REGULATORY CONSIDERATIONS Regulatory Considerations for Super Two In stallations The Super Two has been designed to standards that were de vised to assure safe and reliable performance Verification that these objectives have been met was delegated to Underwriters Laboratory UL the most established nationally recognized testing laboratory NRTL Specification Explanations The following section outlines some of the benefits associated with having the Super Two listed to the particular UL specifi cation UL 294 Safety of Access Control System Units e T
59. the jumper to contact the center post pin 2 and the lower post pin 3 NOTE Stand alone Super Two Panels must be configured in the REPEAT mode Memory Battery Activation The Super Two contains a 3 0 volt Lithium battery B 1 used to preserve memory in the event of a power failure Refer to Figure 8 for board layout The Super Two is shipped with a paper isolator between the battery and the battery holder to prevent unnecessary drainage Remove the paper isolator immediately before powering up the Super Two If the battery is not activated all user programmed data will be lost if power is interrupted 38 MEMORY BATTERY ACTIVATION AND JUMPER SETTINGS MEMORY BATTERY ACTIVATION Replace the Memory Backup Lithium Cell with the following ogg MODEM Selected OOO MODEM NOT Selected BR1225 3V Lithium Battery Energizer ECR1225 LE C CR 1225 NEDA 5020LC Panasonic BR1225 Renata CR1225 Paper Paper Installed Removed Data Lost Data Saved Factory Default NOTE When installing the new cell use a plastic forceps or handle the cell by its edge to avoid contaminating the conductive surfaces of the device For battery types see above MODEM
60. tting of Address switches 2 Set Address switches to 00 3 Press and hold the reset RST button for at least two sec onds 4 Set Address switches to their original settings Panel memory is cleared The panel will request a new download 43 Super Two SPECIFICATIONS SPECIFICATION Quantity 8 4 Door Comments Readers 2 Full function on or off line Anti Passback Standard Access Modes 4 Card Only Unique PIN only Card and PIN Free Access Ethernet Port 1 Optional 10 100 Base T Serial Port 1 Host computer 3 with optional auxiliary communications board Polling Modes 4 Dial up RS 232 RS 422 Multidrop and Repeat Baud Rates 7 1200 2400 4800 9600 19 2kbps 38 4kbps 57 6 kbps Keypads 2 Four bit Wiegand keypad input is standard Optional 3x4 Ma trix Keypad Interface Board available Relays 5 Form C contact rating of 2A Y28VDC Alarms 8 Supervised or non supervised host programmable LEDs 2 One LED output per door Tamper Switch 1 Pre assigned Reader Types Wiegand Proximity Magnetic Stripe Proximity and PIN Supply Voltage 120 230 VAC 60 S0Hz Current Draw 1 0A 120VAC 0 5A 230VAC Accessory 12V Output 3 1 6A for Readers Locks and Accessories Battery Backed Primary Battery Backup 1 Month nominal at 25 C field replaceable Memory Only Battery Backup Approx 4 6 hours When powering two EM locks rated
61. uch NOTE A fault in one Reader Circuit will not result in the other Reader Circuit loosing power NOTE Removing the cause of the over current fault will nor mally restore power to the affected circuit If power is not re stored after the fault is removed disconnect the load by re moving the RDR1 or RDR2 Terminal Block for about a half minute The Resetable Fuse will cool and allow power to the circuit again when the Terminal Block is plugged onto the PC Board again 5x20mm 4A 250V Fuse Figure 29 Power Supply Fuse Location 42 MAINTENANCE Power Supply Replacement The following procedure applies after determining that the Su per Two Power Supply P N MX1106 needs replacing WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with power supply replacement 1 Open the Super Two cabinet and locate the 12VDC power supply in the lower left corner of the cabinet Pull the in sulating cover out of the way 2 Disconnect the lower Molex connector from the power supply one black and one white 3 Disconnect the upper 6 pin Molex connector from the power supply 4 Remove the four 6 32 screws securing the power supply bracket to the Super Two cabinet 5 Remove the power supply from the Super Two cabinet 6 Install the new power supply in the reverse order of the removal Backup Battery Replacement WARNING Verify that the AC source voltage is switched off at the
62. uppressors require a good earth ground con nection to operate effectively AC Power The incoming AC source voltage connects to the AC Input Power Terminal Block located in the lower middle of the Super Two cabinet see Figure 7 Run the AC power wiring through a knockout normally hidden by the insulation cover Do not place any other wiring in this area After the wiring is completed use a cable tie to secure the wires to the cable tie mount provided located below the AC Input Power Terminal Block NOTE Use of a dedicated unswitched AC power source results in optimal performance with minimum interference POWER CONNECTIONS WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with con nections Table 1 lists the incoming AC source voltage connections to the AC Input Power Terminal Block NOTE Knockouts for conduit Fittings are located on the back of the metal housing and can be used if hidden cable installa tion is required IMPORTANT SAFETY REQUIREMENT If the enclosure door is removed the Ground Strap may be unbolted but MUST be REATTACHED after installation or service is completed Backup Battery Installation 1 Place the backup battery P N CI HE0042 into to the lower right of the cabinet with the terminals on the right side 2 Push the terminal of the BLACK lead onto the NEGA TIVE Black Tab of the battery 3 Push the terminal of the RED lead onto the POSITIVE
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