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1. sese trennen etre eterne ene 32 Turbo Superterm P1800 v1 2 4 Door Strike Relay Connection Normally Closed eese eene nennen nnne eren 32 REMOTE Power MOE 2 42r t tei ar aiii 34 Door Strike Relay Connection Normally Open esee nn anni 34 Door Strike Relay Connection Normally Closed seen e eee retener ns 34 Auxiliary Relay GONNCCUON x ii ox e Ee ee e id 34 Auxiliary Relay Power Requirements eese eene nennen ener tr stts enne RR RR RR ent innen entree eret enne 34 Auxiliary Relay Connection Normally Open NO essent entere neret retener eene 34 Aux Relay Connection Normally Closed NQC esses eee t ertt eere eerte 34 AUXILIARY POWER 000 titi 36 Additional 12VDC Power Outlets 000 elas 36 ALARM CONNECTION x sti EEE EEEE EEE EEEN AAA 38 Supervised Alarms e A A A A A dd sede ev Ree ep di dae ied deua 38 Configuring an Alarm in the Supervised Condition sese reete nennen trenes 38 Alarm Cable Requirements dd bere b iege den Lo foe De Me De le Se Re Ee dg cef 38 LAMPEESWUCA ds i ege na AI AEA a a a a ao ea a n e e a aeaee oo aee a e etre qs 38 COMMUNICATION CONNEC HON seniora i peterem ettet eden A A A 40 RS 232 Communications Host Computer Modem essent net inn 40 8 232 Cable Requirements A A A aaa e a cdas 40 Address CUNA A cada M M Dn 40 Turbo Superterm to Host Computer Modem Connection esee eese n2. CAUTION Keep all drain and cable shield wires between the Turbo Superterm and Magnetic Stripe Readers short Con nect drain and cable shield wires to the ground posts located on both sides of Turbo Superterm cabinet DO NOT ground drain wires and cable shields at any other point Note Please refer to reader manufacturer for specific instructions and specifications ra Magnetic Stripe Reader Drain WireShield Turbo Superterm Cabinet Ground Post Figure 11 Magnetic Stripe Reader Connection to Turbo Superterm Board Turbo Superterm P1800 v1 2 22 DOOR CONNECTIONS Keypad Connection Keypad Cable Requirements Twelve position Keypads connect to terminal strips DR 1 Keypads require a 22AWG 7 conductor stranded shielded through DR8 see Figure 12 Terminal strips DR1 through cable with drain wire between the Turbo Superterm and the DRS follow the same connection procedures particular unit see Figure 12 Table 10 lists the connections between the DR 1 through DR8 N NOTE DO NOT use twisted pair cables terminal strips and the Keypad Table 11 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and the Keypad Table 10 Connection Table for Keypad Reader DRx Terminal Function Wire Color Strip Table 11 Cable Requirements for Keypads Pi Br Unit Distance Wire Gauge Y Row2 Rea O ghe ar uM CAUTION Keep all drain and cable shield wires between the Turbo Superterm and K
3. Tamper XTM COM 2 COMI DIAL UP POLL Switch js os aui aca Terminal Strip DR 1 Terminal oe Strip DR2 Expansion Board Terminal Data Control Line Strip ZU Terminal Strip DR5 Ai N CODO QDD Qu Ot Crt Sk On Si OH Or Terminal RLY 4 RLY 6 RLY 8 RLY mi EY T Suip M 3 TEE RLYS RLY RLYO9 RLY11 RLY 15 RLYIS or DR6 A Ne Door Strike Relays D f P ud P d Strike Input Terminal Power Strip StkPwr Figure 8 Turbo Superterm Circuit Board Layout 17 POWER CONNECTIONS T3436 e Aux Power Terminal Strip Turbo Superterm P1800 v1 2 POWER CONNECTIONS Step Down Transformer Connection The Turbo Superterm circuit board is powered from an inter nal power supply driven by a separate step down transformer The step down transformer is mounted on the bottom ledge of the Turbo Superterm cabinet see Figure 2 page 11 Turbo Superterm Components The Step Down transformer connects to the Turbo Superterm circuit board through the Power Input terminal strip see Fig ure 8 page 17 Turbo Superterm Circuit Board Layout Table 2 lists the connections between the Step Down Trans former and the Turbo Superterm Power Input terminal strip Refer to Figure 9 page 19 while reading Table 2 for Step Down Transformer to Turbo Superterm Circuit Board connec tions NOTES If the Turbo Superterm is NOT using the op tional Expansion Power Supply leave the female Molex connector from the transformer unconnected
4. If the Turbo Superterm is equipped with an Expansion Power Supply connect the female Molex connector from the Expansion Power Supply to the male Molex connector of the Transformer Assembly see Figure 9 Power Input Terminal Strip Jumpers Pins 1 2 and 3 of the standard Turbo Superterm with no Ex pansion Power Supply must be jumped together Table 3 lists the pin connections on the Power Input terminal strip that require jumpers Refer to Figure 9 page 19 while reading Table 3 for Power Input terminal strip jumper connection NOTE If using an Expansion Power Supply pin 1 must be open and pins 2 and 3 must be jumpered together Re fer to CAUTION on page 19 Battery Backup Connection During power interruptions the Turbo Superterm continues operating for a maximum of 4 hours via an on board 7A hour back up battery standard version or a 12A hour back up bat tery expanded version Table 4 lists the connections from the Battery Backup to the Turbo Superterm Power Input terminal strip Refer to Figure 9 page 19 while reading Table 3 for Battery Backup to Turbo Superterm Circuit Board connections WARNING Do NOT connect the Backup Battery or provide AC source voltage to the Turbo Superterm until all accessory cabling is completed Turbo Superterm P1800 v1 2 Table 2 Connection Table for Step Down Transformer Power Input Terminal Strip Transformer Assembly Pin Function Wire Co
5. Cable Requirements for RS 485 Connection Unit Distance maximum RS 485 4000 ft 1220m Device Note Functionality of COM2 and XTM Terminal may vary with Firmware and may not be available on all versions Wire Gauge 22AWG Shielded w drain 54 COMMUNICATION CONNECTIONS RS 485 RS 232 P di Device Device Drain Wire 3 Conductor Stranded 22AWG Shielded with Drain Wire N OTE 50 ft 15m Maximum Distance NOTE 4000 ft 1220m Maximum Distance Turbo Superterm Cabinet Ground Post Turbo Superterm Circuit Board Figure 35 Connecting Auxiliary RS 232 and RS 485 Devices to the Turbo Superterm 55 Turbo Superterm P1800 v1 2 EXPANSION BOARD CONNECTIONS EXPANSION BOARD CONNECTIONS Expansion Input Output Boards Expansion Input Output I O boards are used with the Turbo Superterm to increase the input and output capacity of the sys tem Expansion I O boards include a Supervised Alarm board and a Digital Input Digital Output DI DO board e Supervised Alarm boards have 16 Supervised alarm in puts DI DO boards have 8 non supervised alarm inputs and 16 relay outputs A maximum of three boards may be added to the Turbo Super term These boards mount to the inside door of the Turbo Su perterm cabinet see Figure 36 NOTE Refer to page 10 Configuration for allowed Expan sion Board combinations Turbo Superterm P1800 v1 2 Expansion Board Connections Expansion boards require the
6. Alarm Input Terminal Strip J4 J19 AOS DUE DES 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 J4 J5 J6 J7 JB J9 J10 J11 712 J13 J14 J15 J16 J17 J18 J19 Figure 40 Supervised Alarm Board Alarm Input Connections and Address Settings 61 Turbo Superterm P1800 v1 2 EXPANSION BOARD CONNECTIONS DI DO Board Connection DI DO boards mount to any one of the three Expansion I O board slots located on the side panel of the Turbo Superterm cabinet The DI DO board is secured to the Turbo Superterm cabinet with three 6 32 screws see Figure 41 The DI DO board receives addition mounting support from three snap standoffs affixed to the Turbo Superterm cabinet DI DO Board Power Connection The DI DO board requires 12VDC for proper operation Power for the DI DO board is supplied from the Auxiliary Power terminal strip located on the Turbo Superterm main cir cuit board see Figure 42 NOTE Route all cables between the Expansion I O boards and the Turbo Superterm circuit board through the wire guides provided on the Turbo Superterm cabinet The Auxiliary Power terminal strip provides three sets of 12VDC connections for use with DI DO boards Table 43 lists the connections between the DI DO board and the Auxiliary Power terminal strip Table 43 DI DO Board Connection Table DI DO Board Function Auxiliary Power Connector Pin Terminal Strip Pin J2 1 12VDC 1 3 or 5 J2 2 GND 2 4 0r 6 Turbo Superte
7. Expansion Power Supply Replacement The following procedure applies after determining that the Turbo Superterm on board Linear Power Supply needs replac ing WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with power supply replacement 1 Open the Turbo Superterm cabinet and locate the 12VDC power supply P N CICPEXPPWS in the lower right cor ner of the cabinet see Figure 56 2 Disconnect the 2 pin Molex connector from the trans former module s power supply wires one black and one white 3 Disconnect the RED wire of the 12VDC output wiring harness from the power input terminal strip pin 4 refer to Superterm Power Supply Chassis 10 Power Supply Bracket page 18 Step Down Transformer Connection for specific information Disconnect the BLACK wire of the 12VDC output wiring harness from the power input terminal strip pin 5 refer to page 18 Step Down Transformer Connection for specific information Remove the two 6 32 nuts securing the power supply bracket to the Turbo Superterm cabinet Remove the power supply bracket from the Turbo Super term cabinet Remove the two 6 32 nuts securing the power supply chassis to the rear wall of the Turbo Superterm cabinet Remove the two 6 32 x 1 4 Phillips head screws secur ing the power supply chassis to the bottom of the Turbo Superterm cabinet Remove the power supply chassis from the Turbo Super term cabine
8. S BL9ShHETZI j Turbo Superterm 3 Circuit Board Turbo Superterm Circuit Board First Network Turbo Superterm Second Network Turbo Superterm For REPEAT network configurations cable length between EACH Turbo Superterm is restricted to a maximum length of 4000 feet 1220m For MULTIDROP network configurations a maximum of 9 pan els can be installed with a total cable length of 4000 feet 1220m A pair of line drivers is required for every 9 panels installing a pair of line drivers after the 9th panel will allow you to expand an additional 9 panels and 4000 feet 1220m of cable Line drivers can be ordered using part number CICE1940PL 1 Network Address Settings Operating the Turbo Superterm with a host computer or in a net work requires that each Turbo Superterm and other devices have an individual unique address other than zero An 8 position DIP switch labeled S 1 mounted on the Turbo Su perterm Circuit Board determines each Turbo Superterm s address see Figure 29 Table 29 lists 63 Turbo Superterm address switch positions NOTES Address switch S I positions 7 and 8 are not used for networks connected directly to a host computer Set both switches to the ON position If the network is connected to the host computer through a modem the first Turbo Superterm in the net work must have switch position 7 Modem set to the OFF position All other Turbo Superterm units in the network must hav
9. see Figure 3 Ensure that an earth ground connection 1s available near the Turbo Superterm installation site Note the type of wall construction that the enclosure will be secured to e Determine that adequate space is available for mounting the Turbo Superterm cabinet on a wall with no interfer ence from wires pipes or other obstructions e Proper installation of the Turbo Superterm cabinet re quires an area of free space measuring INSTALLATION 21 5 inches high 546mm X 21 25 inches wide 540mm X 7 0 inches deep 178mm e Confirm that adequate free space exists on both sides of the Turbo Superterm cabinet for cabling conduit entering and exiting the cabinet e Determine the directions of the cabling conduit exiting the Turbo Superterm cabinet Confirm sufficient access to ceilings and or walls before fitting the conduit lengths Reader Cable Conduit Power Cabling Conduit Nu Turbo Superterm Panel Assembly Figure 3 Turbo Superterm Installation Location 13 Turbo Superterm P1800 v1 2 INSTALLATION Cabinet Mounting Inspect the mounting surface around the proposed installation site The mounting surface must be capable of supporting 55 pounds 25Kg plus any additional weight of the installation hardware CAUTION Use only suitable mounting hardware for the type of wall construction encountered 1 Determine the Turbo Superterm cabinet mounting loca tion 2 Mark the fo
10. 1 and 2 EOL2 Jumper IN pins 1 and 2 Figure 30 Turbo Superterm RS 232 to RS 422 REPEAT Network Connection 45 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS RS 232 to RS 422 MULTIDROP Network Figure 31 shows the required connections for an RS 232 to RS 422 MULTIDROP network e Connect the first Turbo Superterm to the RS 232 port of the host computer e Connect the remainder of the network using the Turbo Superterm s RS 422 ports Table 31 lists the required connections for an RS 232 to RS 422 MULTIDROP network RS 232 to RS 422 MULTIDROP Drain Wires The drain wires for all RS 422 cables ina MULTIDROP net work must be connected together isolated from the boards and connected to the ground post at the FIRST Turbo Super term in the network the Turbo Superterm unit CLOSEST to the host computer RS 232 to RS 422 MUTIDROP Jumper Setting Operating a Turbo Superterm network in the MULTIDROP mode requires setting the MODE 1 and EOL2 jumpers Refer to page 76 for information regarding setting the MODE1 jumper Refer to page 72 for information regarding setting the EOL2 jumper Table 31 RS 232 to RS 422 MULTIDROP Network Connections Turbo Superterm 1 Turbo Superterm 2 Turbo Superterm 3 Last Turbo Super term MODE 1 jumper RPT EOL2 jumper IN MODE 1 jumper EOL2 jumper OUT EOL2 jumper OUT MODE 1 jumper MODE 1 jumper MD MD EOL2 jumper RS 232 RXD RS 232 TXD RS 232 GND
11. NP HER ee te 87 Power Supply REpIACCMENE x uc le edet e t e e t D M Re d pi 87 Backup Battery Replacement i cte er eren asta EE Ee et ER Rn o PLE p E PRA 90 Backup Battery In Line Fuse Replacement essent enrennet ene trr teneret nete er ennt 90 Turbo Superterm Step Down Transformer Replacement sse eee nre 89 Service Entrance Fuse Replacement esses eene Ran nan O RR O RRA RR RARE RRE eet te nn Rana innen nan teen enne 90 SPECIFICATIONS rerne S 91 POWERRATINGS go 92 Turbo Superterm P1800 v1 2 6 Turbo Superterm DESCRIPTION The Turbo Superterm is a fully programmable self con tained 8 door access control system that offers users flexi bility expandability and simplicity Operating as a stand alone unit or within a network each Turbo Superterm makes independent access control decisions The Turbo Superterm accepts Wiegand Magnetic Stripe Proximity card readers and Keypads to control the access functions for a maximum of eight individual access points entrances exits It supports a maximum of 24 alarm de vices including door contact sensors door bypass switches or other related detection accessories Seventeen onboard Form C relays support door locking mechanisms door alarm shunts request to exit sensors or handicapped access privileges The standard Turbo Superterm features a user programmable onboard database that supports a maximum of 40 000 card holders Expansion comp
12. Network Connections Turbo Superterm 1 Turbo Superterm 2 Turbo Superterm 3 Turbo Superterm 4 Last Turbo Superterm MODE jumper MD MODEI jumper MD MODE jumper MD MODE jumper MD MODE jumper MD EOL2 jumper OUT EOL2 jumper OUT EOL2 jumper OUT EOL2 jumper OUT Signal EOL2 jumper IN BL Connector Pin Connector Pin Connector Pin Connector Pin Connector Pin Turbo Superterm P1800 v1 2 50 COMMUNICATION CONNECTIONS NOTE Polling Line Converters may Continental Instruments be used in UL1950 installations but Polling Line Converter not in UL294 or UL1076 installations RS 232 to RS 422 6 25 to Computer Com Port 7 1 s7 DB Connector 8 rt 9 ipis sd 3n DB 925 Connector Drain Wire RS 422 Host to Turbo Superterm 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded with Drain Wire AO feet 1220m Maximum RS 422 Turbo Superterm to Turbo Superterm ETA 4 Conductor 2 Twisted Pair Stranded WARNING 22AWG Shielded A repeater MUST be in with Drain Wire stalled for every 9 panels 4000 feet 1220m Maximum Distance for the ENTIRE NETWORK Drain Wire Turbo Superterm Circuit Board Turbo Superterm Circuit Board Turbo Superterm Circuit Board First Network Turbo Superterm Second Network Turbo Superterm Last Network Turbo Superterm MULTIDROP Mode MULTIDROP Mode MULTIDROP Mode MODE 1 Jumper MD pins 2 and 3 MODE 1 Jumper MD pins 2 and 3 MODE 1 Jumper MD pi
13. OFF ON OFF OFF ON 28 ON ON OFF OFF OFF ON 29 OFF ON OFF OFF OFF ON 30 ON OFF OFF OFF OFF ON 31 OFF OFF OFF OFF OFF ON 32 ON ON ON ON ON OFF 33 OFF ON ON ON ON OFF 34 ON OFF ON ON ON OFF 35 OFF OFF ON ON ON OFF 36 ON ON OFF ON ON OFF 37 OFF ON OFF ON ON OFF 38 ON OFF OFF ON ON OFF 39 OFF OFF OFF ON ON OFF 40 ON ON ON OFF ON OFF 41 OFF ON ON OFF ON OFF 42 ON OFF ON OFF ON OFF 43 OFF OFF ON OFF ON OFF 44 ON ON OFF OFF ON OFF 45 OFF ON OFF OFF ON OFF 46 ON OFF OFF OFF ON OFF 47 OFF OFF OFF OFF ON OFF 48 ON ON ON ON OFF OFF 49 OFF ON ON ON OFF OFF 50 ON OFF ON ON OFF OFF 51 OFF OFF ON ON OFF OFF 32 ON ON OFF ON OFF OFF 53 OFF ON OFF ON OFF OFF 54 ON OFF OFF ON OFF OFF 55 OFF OFF OFF ON OFF OFF 56 ON ON ON OFF OFF OFF 57 OFF ON ON OFF OFF OFF 58 ON OFF ON OFF OFF OFF 59 OFF OFF ON OFF OFF OFF 60 ON ON OFF OFF OFF OFF 61 OFF ON OFF OFF OFF OFF 62 ON OFF OFF OFF OFF OFF 63 OFF OFF OFF OFF OFF OFF 43 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS RS 232 to RS 422 REPEAT Network If the first Turbo Superterm 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 e Connect the first Turbo Superterm to the RS 232 port of the host computer e Connect the remainder of the network using the Turbo Superterm s RS 422 ports Refer to Figure 30 for a typical REPEAT mode network con nection diagram Table
14. P1800 v1 2 SETTINGS COM1 Jumper The COMI jumper establishes the communication baud rates between the Turbo Superterm and external devices using the COM 1 terminal strip The available COMI baud rate selections are 1200Kbps Pins 7 and 8 2400Kbps Pins 5 and 6 4800Kbps Pins 3 and 4 9600Kbps Pins 1 and 2 Determine the optimal communication rate between the Turbo Superterm and the peripheral communication device e Set the COMI jumper to contact the two posts adjacent to the desired baud rate see Figure 47 COM2 Jumper The COM2 jumper establishes the communication baud rates between the Turbo Superterm and external devices using the COM 2 input terminal strip Determine the optimal communication rate between the Turbo Superterm and the peripheral communication device Set the COM2 jumper to contact the two posts adjacent to the desired baud rate see Figure 47 MONITOR Jumper The Turbo Superterm has the capability to output program ming data to a dedicated monitor Hookup Monitor Use the Hookup Monitor mode when a dedicated monitor is connected to the Turbo Superterm e Set the jumper to contact the center post pin 2 and the lefthand post pin 1 see Figure 47 Do Not Hookup Monitor Use the Do Not Hookup Monitor mode when no monitor 1s connected to the Turbo Superterm e Set the jumper to contact the center post pin 2 and the right hand post pin 3 see Figure 47 The available COM2 baud rate s
15. POLL 4 TXD POLL 5 RXD POLL 6 GND POLL 7 RPT T POLL 8 RPT T POLL 9 RPT R POLL 10 RPT R Turbo Superterm P1800 v1 2 POLL 13 MD R POLL 14 MD R POLL 11 MD T POLL 12 MD T POLL 13 MD R gt gt POLL 13 MD R POLL 14 MD R gt gt POLL 14 MD R POLL 11 MD T gt gt POLL 11 MD T POLL 12 MD T gt gt POLL 12 MD T 46 COMMUNICATION CONNECTIONS RS 232 Host to Turbo Superterm 3 Conductor Stranded 22AWG Shielded OA epum in DRAIN WIRE NOTE Connect all drain wi b Connect all drain wires 30 feet 153m M together from the LAST Turbo Superterm unit in RS 422 Turbo Superterm to Turbo the network TO the FIRST Turbo Superterm unit Superterm in the network Connect the drain wire from the FIRST Turbo Superterm to the FIRST Turbo Su 4 Conductor 2 Twisted Pair Stranded perterm cabinet ground post 22AWG Shielded with Drain Wire 4000 feet 1220m Maximum to Next Network s gt Turbo Superterm 9 EC RACE RD la va do E y AY 2 RPT 2 e e c SS Y E PEER ES Cor LEY cns Rys 1st Turbo Superterm Cabinet Ground Post Turbo Superterm Circuit Board Turbo Superterm Circuit Board Turbo Superterm Circuit Board First Network Turbo Superterm Second Network Turbo Superterm Third Network Turbo Superterm REPEAT Mode MULTIDROP Mode MULTIDROP Mode MODE Jumper RPT pins 1 and 2 MODE 1 Jumper MD pins 2 and 3 MODE Jumper MD pins
16. POLL 9 RPT R POLL 11 MD T POLL 10 RPT R POLL 12 MD T POLL 7 RPT T POLL 13 MD R POLL 8 RPT T POLL 14 MD R POLL 9 RPT R POLL 11 MD T POLL 10 RPT R POLL 12 MD T POLL 7 RPT T POLL 13 MD R gt gt gt POLL 8 RPT T POLL 14 MD R gt gt gt POLL 9 RPT R POLL 11 MD T gt gt gt POLL 10 RPT R POLL 12 MD T gt gt gt Turbo Superterm P1800 v1 2 44 COMMUNICATION CONNECTIONS DB9 Connector Host to Com Port rg Computer DB9 Connector 2 RS 232 Host to Turbo Superterm 3 Conductor Stranded 22AWG Shielded with Drain Wire PS 50 feet 15 2m Maximum RS 422 Turbo Superterm to Turbo Superterm 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded to Next Network with Drain Wire Turbo Superterm 4000 feet 1220m Maximum im Dun Wie Drain Wire 12345678 9 10111213141516 1234567 8 9 10111213141516 12345678 910111213141516 RUN kee eran Son PA 258888 Cent Tra 25 St d XN POLL POLL erminal Strip Turbo Turbo Superterm Superterm O Cabinet Ground Post Cabinet Ground Post Turbo Superterm Circuit Board Turbo Superterm Circuit Board Turbo Superterm Circuit Board First Network Turbo Superterm Second Network Turbo Superterm Third Network Turbo Superterm REPEAT Mode REPEAT Mode REPEAT Mode MODE 1 Jumper RPT pins 1 and 2 MODE Jumper RPT pins 1 and 2 MODE 1 Jumper RPT pins 1 and 2 EOL2 Jumper IN pins 1 and 2 EOL2 Jumper IN pins
17. SA A a A E gt 17 18 Door4 Bys Rovs Door Shunt 4 1 2 3 4 5 7 2 4 10 6 11 8 12 13 14 15 16 2 81 69 Turbo Superterm P1800 v1 2 I O SIGNAL MAPPING Expansion I O Boards DI DO Board The Expansion 1 0 Boards will have different I O signal num The DI DO board has 8 alarm inputs and 16 relay outputs ber assignments depending on the board address setting Table 48 defines the terminal strip the associated pin number the associated signal and the associated input output number m Dow pw ee Boor Turbo Sapere 5x3 CSX3 Output Output Output Output Output Output 39 5 z 14 46 30 NOTE Relay outputs are limited to a maximum of 72 73 is reserved for the console relay y NOTE Enclosure can only accommodate 3 expansion boards Turbo Superterm P1800 v1 2 70 I O SIGNAL MAPPING Supervised Alarm Board The Supervised Alarm board has 16 alarm inputs Table 49 defines the terminal strip the associated pin number the asso ciated signal and the associated input output number Table 49 Supervised Alarm Board I O Signal Definition INPUTS 4 Door Superterm 8 Door Superterm X1 d XI X2 X3 Input Input ES Input Input amp Input Connector Pin Signal J4 1 2 AL1 RTI 25 41 57 J5 1 2 AL2 RT2 26 42 58 J6 1 2 AL3 RT3 27 43 59 J7 1 2 ALA RT4 28 44 60 J8 1 2 ALS RT5 29 45 61 J9 1 2 AL6 RT6 30 46 62 J10 1 2 AL7 RT7 31 47 63 J11 1 2 AL8 RT8 32 48 64 J12 1 2 AL9 R
18. Superterm controllers to meet the require ments of managing large cardholder populations THIS IN STALLATION procedure IS INTENDED FOR QUALIFIED SERVICE PERSONNEL ONLY CAUTION A second 2X2 MB memory board may be installed only on the Turbo Superterm family main circuit boards If installing two memory boards 2MB each 4 MB total on the Turbo Superterm family of boards Figure 53 Remove Power the memory device located in U61 must be removed before in stalling the second 2X2 MB memory board 1 Remove MBAT jumper and place on pins 2 and 3 OUT See page 77 Figure 48 2 Remove power from the Turbo Superterm Inside the hous ing remove the power connector from the bottom of the panel see Figure 53 Ensure that all power LED s are off Turbo Superterm P1800 v1 2 82 UPGRADING 3 Install polarizing plastic pin into socket see Figure 54 below The plastic pin is placed in the 2nd socket hole from the top to ensure that the 2X2 MB memory board pins are inserted correctly 4 Insert 2X2 MB memory board into the right vertical socket in the Controller PCB see Figure 54 Insert the top pin of the 2X2 MB memory board into the top socket hole the missing pin in the 2X2 MB memory board should be at the top DAE E g Figure 54 Insert 2X2 MB memory board Be sure top pin is inserted into the top socket Note the location of missing pin in the 2X2 MB memory board and the location of the polarizing plastic pin in
19. Turbo Superterm P1800 v1 2 NOTE Set switch position 7 of Dip Switch S 1 on the Turbo Superterm to OFF when using a modem Refer to page 42 for specific instructions on setting the S 1 DIP switch 1 Connect the Transmit pin of the RS 232 device to POLL terminal strip pin number 4 labeled RxD see Figure 28 2 Connect the Receive pin of the RS 232 device to POLL terminal strip pin number 5 labeled TxD 3 Connect the Ground pin of the RS 232 device to POLL 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 Turbo Superterm end of the cable Table 27 lists the connections between the POLL terminal strip and a host computer Table 27 Connection Table for Host Computer Turbo Su perterm POLL Pin Host Com Host Com Table 28 lists the connections between the Turbo Superterm POLL terminal strip and a modem Table 28 Connection Table for Modem Signal Turbo Superterm Modem DB25 P POLL Pin TXD 4 2 RXD 5 3 GND 6 7 40 COMMUNICATION CONNECTIONS POLL Terminal Strip Turbo Superterm Circuit net d DB Connector DB9 S or DB25 S Figure 27 Turbo Superterm to Host Computer Connection zo bus POLL Terminal Strip Turbo Superterm Circuit A Complete RS 232 Modem Cable Figure 28 Turbo Superterm to Modem to Comp
20. following cables and wires Power wires between the Expansion boards and the Turbo Superterm main circuit board e Data Control ribbon cable between Expansion boards and the Turbo Superterm main circuit board O cables between Expansion boards and accessories 56 EXPANSION BOARD CONNECTIONS Turbo Superterm Cabinet to Data Control Line gt Terminal Strip IN OUT on Turbo Superterm Main Circuit Board E AT TE to Auxiliary Power on Turbo Superterm Main Circuit Board Figure 36 Expansion Input Output Board Layout in Turbo Superterm Cabinet 57 Turbo Superterm P1800 v1 2 EXPANSION BOARD CONNECTIONS Supervised Alarm Board Installation Supervised Alarm boards mount to any one of the three Expan sion I O board slots located on the side panel of the Turbo Su perterm cabinet The Supervised Alarm board is secured to the Turbo Superterm cabinet with three 6 32 screws see Figure 37 The Supervised Alarm board receives addition mounting support from three snap standoffs affixed to the Turbo Super term cabinet Supervised Alarm Board Power Connection The Supervised Alarm board requires 12VDC for proper op eration Power for the Supervised Alarm board is supplied from the Auxiliary Power terminal strip located on the Turbo Superterm main circuit board see Figure 38 NOTE Route all cables between the Expansion I O boards and the Turbo Superterm circuit board through the wire
21. ft 153m Table 44 Alarm Input Terminal Strip Connection Table Alarm Input Terminal Strip Pin 4 Table 45 lists the cable gauge vs length requirements for Alarm8Signal Alarm Signal proper operation of the DI DO board and the alarm device Alarm 8 Return Table 45 Cable Requirements for Alarm Inputs Alarm 7 Signal Unit Distance Wire Gauge maximum 11 NOTE All alarm input cables must be grounded Refer to 12 the Grounding Accessory Drain and Shield Wire section Page 13 15 15 16 Alarm 500ft 153m 22AWG Shielded w Device drain Turbo Superterm P1800 v1 2 64 EXPANSION BOARD CONNECTIONS Ed P3335 IMD HO CHO PHO SHO 9HO HO QHD GHOOIHD II HOZIHOCIHOFIHOSIHO9IMO orm Jogoo ROSETES JAAA XXX X3 Figure 43 DI DO Board Alarm Input Terminal Strip 65 Turbo Superterm P1800 v1 2 EXPANSION BOARD CONNECTIONS DI DO Alarm Output Connections The DI DO board incorporates 16 relays K1 through K16 that provide 16 Form C contact sets Connections to these relays are made through the Alarm Output terminal strips la beled J 1 through J 16 see Figure 45 Each contact set consists of a normally open NO a common C and a normally closed NC connection point Where Jxx is to be interpreted as J1 J16 e Jxx l Normally Closed e Jxx 2 Common e Jxx 3 Normally Open NOTE The contact rating is 3 Amperes resistive In order to reduce electrical noise generated
22. guides provided on the Turbo Superterm cabinet The Auxiliary Power terminal strip provides three sets of 12VDC connections for use with Expansion I O boards Table 40 lists the connections between the Supervised Alarm board and the Auxiliary Power terminal strip Table 40 Supervised Alarm Board Connection Table Supervised Function Auxiliary Power Alarm Board Terminal Strip Connector Pin Pin J2 1 12VDC 1 3 or 5 J2 2 GND 2 4 0r 6 Supervised Alarm Board Power Cable Re quirements The Supervised Alarm board requires 18AWG stranded wire between the Input Power terminal strip labeled J2 and the Auxiliary Power terminal strip on the Turbo Superterm main circuit board Turbo Superterm P1800 v1 2 Data Control Line Ribbon Cable Connections The Supervised Alarm board communicates with the Turbo Superterm through a 34 pin ribbon cable The Supervised Alarm board contains two identical 34 pin connectors labeled P1 and P2 The 34 pin connector labeled P1 is used for daisy chaining other Expansion I O boards to the Supervised Alarm board see Figure 37 The 34 pin connector labeled P2 is used for connecting the Supervised Alarm board to other Expansion I O boards through daisy chaining or for connecting to the main circuit board of the Turbo Superterm NOTE Pin 1 on the ribbon cable is indicated by a red wire and a notch arrow on the connector header The ribbon cables must be installed wi
23. near the door con trolled by the relay see Figure 16 NOTES Both LOCAL and REMOTE strike power configu rations may be mixed on the same Turbo Superterm panel Operating door strike relays in either the LOCAL or the REMOTE mode requires setting two jumpers per relay Turbo Superterm P1800 v1 2 28 The default settings of the jumpers as shipped from the factory are the REMOTE power mode Refer to page 78 Table 50 for specific information about setting the door strike jumpers Relay circuits in the REMOTE configuration are isolated from one another and isolated from the Turbo Superterm power supply RELAY CONNECTIONS Turbo Superterm Circuit ES FA a RAD DS Emergency Sensor f or Jumper LOCAL Power Supply 28VDC or 28VAC max Figure 16 LOCAL and REMOTE Power Configurations 29 Turbo Superterm P1800 v1 2 RELAY CONNECTIONS LOCAL Power Connection In LOCAL power mode a single external power supply 28VDC or 28VAC max is mounted outside of and adjacent to the Turbo Superterm cabinet This supply provides power to a maximum of eight Turbo Superterm door strike relays through the STKPWR terminal strip located on the lower edge of the Turbo Superterm circuit board see Figure 17 Strike power is routed through the Turbo Superterm circuit board to the individual relay connectors thus eliminating the need for separate power supplies at each door e The STK i
24. protocols A single host computer may be used to manage and pro gram one Turbo Superterm or a fully developed network of Turbo Superterms saving equipment and installation costs database entry deletion procedures and monitoring individ ual access usage Changes or upgrades to the Turbo Superterm operating soft ware are readily downloadable from the host computer to either one specific Turbo Superterm or an entire network of Turbo Superterms eliminating the risky practice of physi cally changing the ROM chips inside the unit s 4 Door Version The Turbo Superterm is available as a 4 door version The 4 door version shares the same cabinet and main circuit board as the 8 door version but with fewer components The 4 door version of the Turbo Superterm supports four door connectors nine relays and 16 alarms Installation procedures for the 4 door version are the same as the 8 door version Turbo Superterm P1800 v1 2 REGULATORY CONSIDERATIONS REGULATORY CONSIDERATIONS Regulatory Considerations for Turbo Super term Installations The Turbo Superterm has been designed to standards that were devised to assure safe and reliable performance Verification that these objectives have been met was delegated to Under writers Laboratory UL the most established nationally rec ognized testing laboratory NRTL Specification Explanations The following section outlines some of the benefits associated with having the Turbo S
25. the COM2 terminal strip require a 22AWG 3 conductor stranded shielded cable with drain wire NOTE Cable length between the Turbo Superterm and an RS 232 device is limited to a maximum of 50 ft 15m Table 37 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and the RS 232 de vice Table 37 Cable Requirements for RS 232 Connection Unit Distance maximum RS 232 50 ft 15m 22AWG Shielded Device w drain Wire Gauge Turbo Superterm P1800 v1 2 XTM Terminal Strip Connections An auxiliary RS 485 device connects to the Turbo Superterm through the XTM terminal strip see Figure 35 Table 38 lists the connections between the XTM terminal strip and a RS 485 device Table 38 Connection Table for XTM Terminal Strip NOTE Proper operation of the Turbo Superterm and an RS 485 device requires setting the COM2 jumper Refer to page 74 for specific information regarding setting the COM2 jumper RS 485 Cable Requirements RS 485 connections to the XTM terminal strip require a 22AWG 2 conductor stranded shielded cable with drain wire NOTES The drain wire shield connects to the Turbo Super term cabinet ground post see Figure 35 Cable length between the Turbo Superterm and an RS 485 de vice is limited to a maximum of 4000 ft 1220m Table 39 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and the RS 485 de vice Table 39
26. the STK signal by connecting it between Pin 1 and Pin 2 of the STKPWR ter minal strip see Figure 18 NOTES The emergency sensor must be a Nor mally Closed NC switch and the strike relays must be wired in a Normally Closed NC configu ration refer to page 32 LOCAL Power Door Strike Connection If an emergency sensor is not used place a jumper between Pin 1 and Pin 2 on the STKPWR terminal strip see Figure 17 Table 17 Connection Table for Emergency Sensor and External Power Supply STKPWR Terminal Strip Emergency Sensor Pin 1 DIS Emergency Sensor Pin 2 DIS Power Supply Positive Pin 3 STY Power Supply Negative Pin 4 STK NOTE Normally Closed NC emergency sensor connec tions are not sensitive to polarity 30 RELAY CONNECTIONS Extemal Strike Power STKPWR Terminal EE Z NOTE Jumper required if not using Emergency Sensor LOCAL Power Supply 28VDC or 28VAC max Turbo Superterm Circuit Board Figure 17 LOCAL Power Supply Connection Extemal Strike Power STKPWR Terminal Strip pr Emergency Sensor Normally Closed LOCAL Power Supply 28VDC or 28VAC max Turbo Superterm Circuit NW 4 Figure 18 Emergency Sensor Connection 31 Turbo Superterm P1800 v1 2 RELAY CONNECTIONS LOCAL Power Door Strike Connection All door strike relays operating in LOCAL power mode dis tribute strike power from the LOCAL power supply How ever each relay may
27. the socket 83 Turbo Superterm P1800 v1 2 If installing a second memory card in the left vertical memory socket of the Turbo Superterm boards you MUST first remove the memory device chip or module from location U61 see Figure 55 and 55a below AI ways use the proper tool to remove the device such as a DIP removal tool atra GS Sa a EN arum E E ME SE die uu ibi EY 5i Circuit Board Figure 55 Location of memory device in U61 Turbo Superterm P1800 v1 2 84 UPGRADING Insert the second memory board into the left vertical socket in the Turbo Superterm PCB s see Figure 54d on previous page As with the first memory card in step 3 insert the top pin of the 2X2 MB memory board into the top socket hole the missing pin in the memory board at the top Figure 55a Using a DIP removal tool as shown re move memory device from location U61 only if 2 memory card is installed See diagram at left for lo cation of this memory device on the TurboSuperterm Circuit boards UPGRADING 6 Install bracket The Z shaped memory board bracket is align with the bracket notches in the memory cards If designed to add physical stability to the 2X2 MB mem bracket is difficult to secure be sure the pins in the mem ory boards Secure the Z shaped bracket to the controller ory board are installed correctly see steps 2 3 PCB with the Phillips head screw inserted into the hole vacated by the 3 4 ny
28. 15 lists the cable gauge vs length requirements for terminal strips and the associated Request to Exit sensor proper operation of the Turbo Superterm and the Request to Exit sensor Table 14 Connection Table for Request to Exit Sensor Table 15 Cable Requirements for Request to Exit Sensor DRx Terminal Signal usd Strip Pin 4 Sensor Function Request to Exit maximum 22AWG Shielded w Sensor 500ft 153m drain NOTE Request to Exit sensor connections to the Turbo Su perterm are not sensitive to polarity CAUTION Keep all drain and cable shield wires between the Turbo Superterm and Keypads short Connect drain and ca ble shield wires to the ground posts located on both sides of Turbo Superterm cabinet DO NOT ground drain wires and cable shields at any other point Turbo Superterm Cabinet Ground Post Drain Wire Shield O S SSIS 9980886 Bypass Sensor Figure 14 Request to Exit Sensor to Turbo Superterm Connection 25 Turbo Superterm P1800 v1 2 RELAY CONNECTIONS RELAY CONNECTIONS Description The Turbo Superterm provides 17 Form C relays to control door strikes door alarm shunts alarms cameras etc The relays are divided into three categories e Door Strike Relays e Auxiliary Relays e Console Relay Door Strike Relays Eight relays are designated as door strike relays and work in conjunction with card readers and keypads to control access at particular door sites The do
29. 2 and 3 EOL2 Jumper IN pins 1 and 2 EOL2 Jumper OUT pins 2 and 3 EOL2 Jumper OUT pins 2 and 3 NOTE Set the EOL2 jumper for the last Figure 31 Turbo Superterm RS 232 to RS 422 MULTIDROP Network Connection 47 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS RS 422 to RS 422 REPEAT Network If the first Turbo Superterm 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 may be used at the host computer to convert RS 232 to RS 422 Figure 32 shows the required connections for an RS 422 to RS 422 REPEAT network Table 32 lists the necessary connections between e A host computer and the first Turbo Superterm in the net work and e The first Turbo Superterm in the network and the remain ing Turbo Superterm 62 maximum in a network RS 422 to RS 422 REPEAT Drain Wires Ground the drain wires for all RS 422 cables in the network at each individual Turbo Superterm in the network RS 422 to RS 422 REPEAT Jumper Setting Operating a Turbo Superterm network in the REPEAT mode requires setting the MODE 1 jumper and the EOL2 jumper Refer to page 76 for information regarding setting the MODEI jumper Refer to page 72 for information regarding setting the EOL2 jumper Table 32 RS 422 to RS 422 REPEAT Network Connections Host Computer Turbo Superterm Turbo Superter
30. 30 lists the required connections for an RS 232 to RS 422 REPEAT network RS 232 to RS 422 REPEAT Jumper Setting To convert an RS 232 signal to an RS 422 signal the first Turbo Superterm unit in the network must be in REPEAT mode Operating a Turbo Superterm network in the REPEAT mode requires setting the MODE 1 and EOL2 jumpers Refer to page 76 for information regarding setting the MODEI jumper Refer to page 72 for information regarding setting the EOL2 jumper RS 232 to RS 422 REPEAT Drain Wires The drain wires for all RS 422 cables in the network must be grounded to the individual Turbo Superterm s Cabinet Ground Post see Figure 30 Ground RS 422 cables at the end closest to the host computer NOTE Ground the drain wire for the RS 232 cables at the host computer end of the cable Table 30 RS 232 to RS 422 REPEAT Network Connections Host Turbo Superterm 1 Turbo Superterm 2 Turbo Superterm 3 Turbo Superterm 4 to next Computer Turbo Superterm MODE Jumper MODE Jumper MODE Jumper MODE Jumper MODE Jumper REPEAT REPEAT REPEAT REPEAT REPEAT EOL2 jumper IN EOL2 jumper IN EOL2 jumper IN EOL2 jumper IN EOL2 jumper IN Signal Connector Pin Connector Pin Connector Pin Connector Pin Connector Pin RS 232 POLL 4 TXD RXD POLL 5 RXD RS 232 POLL 6 GND TXD RS 232 GND POLL 7 RPT T POLL 13 MD R POLL 8 RPT T POLL 14 MD R
31. 60 Setting the Address Selection Jumper esee eene eene nennen tee nennen inen ne tre eens entere te seen ennet rene 60 DINO Board Connecti n 3 co ER e et datae oo s 62 DI DO Board Power Cable Requirements eese eerte eerte erre n rennen rennen iere nete erret cananea 62 Data Control Line Ribbon Cable Connections eene anna 62 DDO Alarm Input Connections to 64 DI DO Alarm Cable Requirements cinc cous ce e ee ote ti e aee ete reb e irati o dle rises 64 5 Turbo Superterm P1800 v1 2 DIDO Alarm Output Gonneclions 2 eite et t ee apse lev asses e a Ha ho des petes o e E esee eerte 66 DI DO Alarm Board Address Selection Jumper eese eene entere rn 66 Setting the Address Selection Jumper eise essent tenete teens an EE EA EE TTT nnne nns 66 VOSIGNAC MAPPING A OO gre ee PR EE ttt PR eI 68 Turbo Superterm Main Circuit Board 8 Reader Version esee ener ens 66 Turbo Superterm Main Circuit Board 4 Reader Version eee eene teens 69 Expansion D O Boards aot oot cot cot toe i bu tr ERE EE EP RD E epp 70 DI DO Board uo utei ee A e iac 70 Supervised Alarm Bourdieu be ee te tee id 71 SETTINGS arent ects oe aae des tc dite Ves Ben Ces dai a Re tiende lette m RES 72 enden EE rn 72 PAPA IIS 72 EOELJUMPEE AER S M 72 EOE DSU POT a A A A E e OS 72 COML JUMpere iii did ande tai e A at edt ee rer per ere e
32. 8 MULTIDROP Mode Use this mode when the Turbo Superterm RS 422 Polling port is operating in a MULTIDROP network e Set the jumper to contact the center post pin 2 and the right hand post see pin 3 REPEATER Mode Use this mode when the Turbo Superterm RS 422 Polling port is operating in a REPEATER network e Set the jumper to contact the center post pin 2 and the left hand post pin 1 76 SETTINGS Turbo Superterm Circuit Daw Lost O MBAT Jumper OOOO YE TE da a Figure 48 Jumper Locations and Settings 77 Turbo Superterm P1800 v1 2 SETTINGS Door Strike Jumper Setting Door strike power may be either LOCAL or REMOTE see page 28 Each of the Turbo Superterm s door strike relays requires set ting two associated jumpers The jumpers labeled S3 through S18 are located on the Turbo Superterm circuit board below the bank of relays and between the relay fuses see Figure 49 NOTE Use insulated needle nose pliers when working with jumpers Table 50 relates the door strike relays to the appropriate jumper numbers 3 C sss s sum TO a ST o Turbo Superterm P1800 v1 2 LOCAL Power Jumper Setting Operating specific relays on LOCAL power requires setting two associated jumpers to the LOCAL position e Verify that both jumpers for the associated relay see Ta ble 50 contact the center post pin 2 and the right hand post pin 3 see Figure 49 Detail A NOT
33. Bypass Door 2 Sensor Door 2 Bypass D D D D D Door 3 Sensor R1 R1 R2 R2 R3 3 DR Door 3 Bypass 17 18 Door 7 Bypass 17 18 Door 8 Bypass 15 16 Aux Alarm 24 1 2 3 4 5 7 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 81 Turbo Superterm P1800 v1 2 OUTPUTS Signal Door Strike 1 Door Shunt 1 Pin 1 2 3 1 2 3 RLY 1 RLY 2 RLY 3 RLY 4 RLY 5 RLY 6 RLY 7 RLY 8 RLY 9 RLY 10 RLY_11 Door Strike 2 Door Shunt 2 1 2 3 1 2 3 1 2 3 Door Strike 3 1 2 3 Door Shunt 3 Door Strike 4 Door Shunt 4 1 2 3 1 2 3 Door Strike 5 Door Shunt 5 1 2 3 1 2 3 Door Strike 6 Door Shunt 6 1 2 3 1 2 3 RLY 13 RLY 14 RLY 15 RLY 16 Door Strike 7 Door Shunt 7 1 2 3 1 2 3 Door Strike 8 Door Shunt 8 1 23 123 RLY 17 1 2 3 Console Relay 68 I O SIGNAL MAPPING Turbo Superterm Main Circuit Board 4 Reader Version The 4 Reader version has 17 alarm inputs and 9 relay outputs Table 47 defines the terminal strip the associated pin number the associated signal and the associated input output number Table 47 4 Reader I O Signal Definition INPUTS OUTPUTS DRI 15 16 RLY 1 Door Strike 1 DRI 17 18 Door 1 Bypass RLY_2 Door Shunt 1 DR2 15 16 RLY 3 Door Strike 2 DR2 DR3 DR3 DR4 R4 1516 RLY 5 Door Strike 3 RLY 6 Door Shunt 3 RLY 7 Door Strike 4 17 18 Door 3 Bypass DR2 1718 Door 2 Bypass RLY 4 Door Shunt 2 DR sie AE A Sa ES aa
34. E The letters R and L on the jumper refer to REMOTE and LOCAL They DO NOT refer to Right and Left REMOTE Power Jumper Setting Operating specific relays on REMOTE power requires setting two associated jumpers to the REMOTE position e Verify that both jumpers for the associated relay see Ta ble 50 contact the center post pin 2 and the left hand post pin 1 see Figure 49 Detail B NOTE The letters R and L on the jumper refer to REMOTE and LOCAL They DO NOT refer to Right and Left 78 SETTINGS Detail A LOCAL Power Detail B REMOTE Power Jumper Settings Jumper Settings LOCAL PWR R LOCAL PWR 123 REMOTE PWR R_L REMOTE PWR m ss E coe m2 1178 q E E Aux Relay 7 SAL RL RL RL RL RL RL 9 RL sE S6 DEDE gee ya 57042 ASS 6x2 sss Terminal Stri l ps RLY 2 RLY4 RLY6 RLY 8 RLY 10 RLY 12 RLY 14 RLY 16 Console en UU VOU SUS SUS RR o o Ao Relay o Relay Terminal te OOOO OG OONOSOlSOS Terminal Strip Strips Y1 RLY3 RLYS RLY7 RLY9 RLY11 RLY 13 RLYIS RLY 17 Figure 49 Turbo Superterm Door Strike Jumper Settings 79 Turbo Superterm P1800 v1 2 TROUBLESHOOTING LED Diagnostics The Turbo Superterm circuit board uses LEDs to indicate the presence of required voltages and polling signals Figure 50 shows the LED position on the Turbo Superterm circuit board and the individual LED functions Table 51 LED Diagnostic Functions AC voltage is present at the AC Power Input Terminal Block pi
35. Grounding Accessory Drain and Shield Wires Page 15 Turbo Superterm P1800 v1 2 Supervised Alarm Board Address Selection Jumper Proper operation of the Turbo Superterm and any Expansion I O boards requires that each Expansion I O board have a unique address The Supervised Alarm board has an on board Address Selec tion jumper that identifies the board to the Turbo Superterm see Figure 40 Setting the Address Selection Jumper The I O signal definitions numbers assigned to inputs and out puts are determined by the Expansion I O board address set tings Refer to the section on I O Signal Mapping page 68 1 Install all of the Expansion I O boards in the Turbo Super term Cabinet before setting the Address Selection jumper 2 Determine the location of the Expansion I O board in the order from right to left that the Expansion I O boards are mounted see Figure 40 3 Set the Supervised Alarm board Address Selection jumper accordingly NOTES The Address Selection jumper has four possible po sitions X1 X2 X3 and X4 Position X4 is reserved for future use Do NOT use position X4 when setting the Address Selection jumper m Expansion Board Address Position 3 Expansion Board Address Position 2 Expansion Board Address Position 1 Figure 39 Expansion Board Address Positions 60 EXPANSION BOARD CONNECTIONS s Supervised Alarm Board Address Selection Jumper
36. NNECTION ALARM CONNECTION Pin The Turbo Superterm has a total of 24 supervised alarm inputs Sixteen alarm inputs are located on the DR1 through DR8 ter minal strips and are used for Request to Exit and Door Status sensor functions see pages 24 and 25 An additional eight auxiliary alarm inputs are located on the ALARM terminal strip located on the upper left hand comer of RID AL20 the Turbo Superterm circuit board see Figures 25 and 26 These auxiliary alarm inputs may be used for dry contact type inputs unsupervised or supervised alarms Supervised Alarms 11 Supervised alarms provide monitoring of alarm inputs for fault l or tamper conditions Three additional alarm states may be 13 detected by installing two 1K Ohm resistors near the alarm 14 contacts 15 In addition to the standard Normal and Abnormal alarm condi 16 RT24 tions the supervised alarms report Open Closed and Fault conditions e An Open condition is the result of a cut wire Alarm Cable Requirements Connecting alarm sensors to the Turbo Superterm board re e A Closed condition is the result of shorting the alarm con quires 22 AWG stranded shielded cables with drain wires tacts together NOTE DO NOT use twisted pair wires e A Fault condition is the result of grounding one of the alarm wires N CAUTION Keep all drain and cable shield wires between the Turbo Superterm and Keypads short Connect Configuring an Alarm in the Supervised C
37. RPT pins 1 and 2 EOL2 Jumper IN pins 1 and 2 EOL2 Jumper IN pins 1 and 2 EOL2 Jumper IN pins 1 and 2 Figure 32 Turbo Superterm RS 422 to RS 422 REPEAT Network Connection 49 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS RS 422 to RS 422 MULTIDROP Network Figure 33 shows the required connections for an RS 422 toRS 422 MULTIDROP network Table 33 lists the necessary connections between e A host computer and the first Turbo Superterm in the net work and e The first Turbo Superterm in the network and the follow ing Turbo Superterms 32 maximum in a network RS 422 to RS 422 MULTIDROP Drain Wires Ground the drain wires for all RS 422 cables in the network to the Turbo Superterm ground posts NOTE Connect all drain wires together starting at the LAST Turbo Superterm in the network and working toward the FIRST Turbo Superterm in the network Connect the drain wire from the FIRST Turbo Superterm in the network to the drain wire at the Polling Line Converter see Figure 33 Connect the drain wire from the Polling Line Converter to the ground at the rear of the host computer RS 422 to RS 422 MULTIDROP Jumper Set ting Operating a Turbo Superterm network in the MULTIDROP mode requires setting the MODE 1 and EOL2 jumpers Refer to page 76 for information regarding setting the MODE I jumper Refer to page 72 for information regarding setting the EOL2 jumper Table 33 RS 422 to RS 422 MULTIDROP
38. Strike Re lay Normally Open NO Condition Door Strike Signal NOTE Operating door strike relays on REMOTE power re quires setting two jumpers per relay Refer to page 78 Door Strike Jumper Settings for specific information about setting the jumpers Door Strike Relay Connection Normally Closed Table 21 lists the connections between the RLY x terminal strip and the door strike for a Normally Closed NC relay con dition see Figure 22 Table 21 Connection Table for Door Strike Relay Normally Closed NC Condition Door Strike Signal RLY x NOTE Operating door strike relays on REMOTE power re quires setting two jumpers per relay Refer to page 78 Door Common Turbo Superterm P1800 v1 2 Strike Jumper Settings for specific information about setting the jumpers Auxiliary Relay Connection The Turbo Superterm supports eight auxiliary relays for con trolling external devices including door alarm shunts cam eras temperature controls intercoms area lighting or any other device using electrical inputs to change the status of a control circuit Auxiliary devices only connect to even numbered Turbo Su perterm relays The eight relays are located on the bottom cen ter of the Turbo Superterm circuit board above the door strike relays The eight auxiliary relays are labeled RLY 2 RLY 4 RLY 6 RLY 8 RLY 10 RLY 12 RLY 14 RLY 16 Auxiliary Relay Power Requirements The Turbo Superterm doe
39. T9 33 49 65 J13 1 2 ALIO RTIO 34 50 66 J14 12 ALILRTII 35 51 67 J15 1 2 AL12 RT12 36 52 68 J16 1 2 AL13 RT13 37 53 69 J17 1 2 AL14 RT14 38 54 70 J18 1 2 ALI15 RTIS 39 55 71 J19 1 2 AL16 RT16 40 56 72 NOTE Inputs are limited to a maximum of 80 81 is reserved for the tamper switch NOTE Enclosure can only accommodate 3 expansion boards 71 Turbo Superterm P1800 v1 2 SETTINGS SETTINGS Jumper Settings The Turbo Superterm circuit board functions with a variety of options Proper circuit operation requires setting specific jumpers depending on the installed access control accessories the installed system options and any network configurations 232 1 Jumper The 232 1 jumper enables either the RS 232 communication lines connected to the COM2 terminal strip or the RS 485 communication lines connected to the XTM terminal strip COM2 Enabled The COM2 port is enabled when the Turbo Superterm uses RS 232 communications protocol Connections to the ex ternal device are made through the COM2 terminal strip e Set the jumper to contact the center post pin 2 and the lefthand post pin 1 see Figure 46 XTM Enabled The XTM port is enabled when the Turbo Superterm uses RS 485 communications protocol Connections to the ex ternal device are made through the XTM terminal strip e Set the jumper to contact the center post pin 2 and the right hand post pin 3 EOL1 Jumper When using the RS 485 communication
40. TURBO SUPERTERM CICP1800 CICP1400UL CICP1800T CICP1400ULT Access Control Unit Installation and Service Manual Version P1800v1 2 CONTINENTAL INSTRUMENTS ACCESS CONTROL amp INTEGRATED SECURITY 355 Bayview Avenue Amityville NY 11701 Phone 631 842 9400 Fax 631 842 9135 A NAPCO SECURITY GROUP COMPANY NAPCO 2004 WI1267A 10 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 merchantab
41. ac cordingly NOTE The Address Selection jumper has four possible posi tions Xl X2 X3 and X4 Position X4 is reserved for future use Do NOT use position X4 when setting the Address Selection jumper m Expansion Board Address Position 3 Expansion Board Address Position 2 Expansion Board Address Position 1 Figure 44 Expansion Board Address Positions 66 EXPANSION BOARD CONNECTIONS Address Selection Jumper 00000000 QOBDODODO Y Alarm Output CS Terminal Strip Eee ee J1 J16 Ji J2 J3 J4 J5 J6 J7 J8 J9 J10 J11 J12 J13 J14 J15 J16 1 1 1 1 1 1 1 1 1 l 1 1 1 1 1 1 OO DIO Y UPLOAD e Y DIV Y DIV Y VW Y VW WO YY 070 0090 o o Figure 45 DI DO Board Relay Output Connections and Address Setting 67 Turbo Superterm P1800 v1 2 I O SIGNAL MAPPING I O SIGNAL MAPPING The alarm inputs and relay outputs for the Turbo Superterm board and for Expansion I O boards are assigned specific num bers for use when programming and displaying signals with a host computer Turbo Superterm Main Circuit Board 8 Reader Version The 8 Reader version has 25 alarm inputs and 17 relay out puts Table 46 defines the terminal strip the associated pin number the associated signal and the associated input output number Table 46 8 Reader I O Signal Definition INPUTS HP Connector Signal Door 1 Sensor Door 1 Bypass 15 16 17 18 15 16 17 18 17 18 Door 4 Bypass 17 18 Door 5
42. accordance with the instructions man ual may cause interference to radio communi cations It has been tested and found to com ply with the limits for a Class A computing de vice pursuant to Part 15 of FCC Rules which are designed to provide reasonable protection against such interference when operated in a commercial 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 required to correct the inter ference WARNING TO REDUCE THE RISK OF FIRE OR SHOCK HAZARD DO NOT EXPOSE THIS PRODUCT TO RAIN OR MOIS TURE 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 shipments of th
43. acturer for specific instruc LED tions and specifications Proximity Reader may be powered by either 5VDC or 12VDC Turbo Superterm P1800 v1 2 20 DOOR CONNECTIONS Wiegand Proximity Reader 5VDC Reader Power 12VDC Reader Power Typical Terminal Strip DR1 through DR8 pelello Turbo Superterm Cabinet Ground Post Turbo Superterm Circuit Board Figure 10 Wiegand Proximity Reader Connection to Turbo Superterm Board 21 Turbo Superterm P1800 v1 2 DOOR CONNECTIONS Magnetic Stripe Reader Connection Magnetic Stripe Reader Cable Requirements Magnetic Stripe Readers connect to terminal strips DR1 Magnetic Stripe Readers require a 5 conductor cable between through DR8 see Figure 11 Terminal strips DR1 through the Turbo Superterm and the particular unit see Figure 11 DR8 follow the same connection procedures f NOTE DO NOT use twisted pair cables Table 8 lists the connections between the DR1 through DR8 terminal strips and the Magnetic Stripe Reader mE If the Magnetic Stripe Reader does not feature an LED indica tor substitute with a 4 conductor cable Table 9 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and Magnetic Stripe Read Table 8 Connection Table for Magnetic Stripe Reader ers 5VDC Table 9 Cable Requirements for Magnetic Stripe Reader a on Data 0 CLK Magnetic maximum 22AWG Stripe 500ft 153m Shielded w drain Reader
44. be configured in one of two specific ways 1 A door strike relay set in a Normally Closed NC con figuration holds a door strike circuit closed until an event trig gers the relay and releases the door strike 2 A door strike relay set in a Normally Open NO configu ration keeps a door strike circuit open until an event triggers the relay and engages the door strike NOTE Operating the door strike relays with an emergency sensor requires Normally Closed NC conditions power is disconnected from the door strike in emergency situations Door Strike Relay Connection Normally Open Table 18 lists the connections between the RLY x terminal strip and the associated door strike for a Normally Open NO condition see Figure 19 Table 18 Connection Table for Door Strike Re lay Normally Open NO Condition RLY x Pin Pin 2 NOTE Operating door strike relays on LOCAL power re quires setting two jumpers per relay Refer to page 78 Table 50 Door Strike Jumper Settings for specific information about setting the jumpers Turbo Superterm P1800 v1 2 Door Strike Relay Connection Normally Closed Table 19 lists the connections between the RLY x terminal strip and the associated door strike for a Normally Closed NC condition see Figure 20 Table 19 Connection Table for Door Strike Re lay Normally Closed NC Condition Door Strike Signal RLY x Pin NOTE Operating door strike relays on LOCAL powe
45. by controlled de vices such as electric door strikes or magnetic locks a Metal Oxide Varistor MOV has been placed across each of the re lay contact sets NOTE These MOVs have a voltage rating of 56 Volts DC Maximum efficiency of the Turbo Superterm requires install ing additional MOVs across each door strike or magnetic lock as close to the device as is possible NOTE Additional MOVs are available from Continental In struments as part number Rv0005 CAUTION Door strike wiring must not be placed in the ca bles bundles or conduit with other wiring Tran sients produced by these wires may cause unreli able operation of the Turbo Superterm Maintain a mini mum of six inches distance between door strike wiring and all other input wiring Turbo Superterm P1800 v1 2 DI DO Alarm Board Address Selection Jumper Proper operation of the Turbo Superterm and any Expansion I O boards requires that each Expansion I O board have a unique address The DI DO Alarm board has an on board Address Selection jumper that identifies the board to the Turbo Superterm see Figure 45 em the Address Selection Jumper Install all of the Expansion I O boards in the Turbo Super term Cabinet before setting the Address Selection jumper 2 Determine the location of the DI DO Alarm board in the order from right to left that the Expansion I O boards are mounted see Figure 44 3 Set the DI DO Alarm board Address Selection jumper
46. e circuits or that making wrong connections can lead to equipment failure Do not place accessory circuit cables in the same conduit sections containing power cables Turbo Superterm P1800 v1 2 CAUTION WARNING WARNING WARNING Prevent the risk of a fire by replacing ALL fuses with the same type and rating see page 88 Backup Battery Inline Fuse Re placement The main fuse protects the lin ear power supply circuit against excessive currents and short circuits Failure of the linear power supply other than a blown fuse fuse usually indicates a fault in a power supply component There are no user servicable parts in the Turbo Super term cabinet The power supply must be replaced if it fails The linear power supply has exposed termi nals see page 11 DO NOT probe the Turbo Superterm cabinet and expose your self 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 Turbo Superterm circuit board but AC power remains live at the AC Input Terminal Block see Figure page 11 Prevent shock during servicing when the POWER ON lamp is disconnected To de termine 1f power is present check the status of the Turbo Superterm s top LED see page 80 LED Diagnostics The top LED will be illuminated 1f power is present Installation Preparation First select a mounting location within a secure limited access area
47. e product The IMPORTANT SAFEGUARDS sheet These Installation and Operating Instruc tions MAINTENANCE User maintenance of this unit is limited to ex ternal cleaning and inspection For specific recommendations refer to the IMPORTANT SAFEGUARDS sheet packaged with this prod uct Turbo Superterm P1800 v1 2 TABLE OF CONTENTS DESCRIPTION O EE e dee 7 2 DOOR VERSION diario ete et t ARR E I IO RETE diodes A EA DAI pt i editio 7 REGULATORY CONSIDERATIONS e EU DENEN epe 8 Regulatory Considerations for Turbo Superterm Installations ocn 8 Specification Explanations rios 8 UL 294 Safety of Access Control System Units essent ener nennen nena reete entere 8 Installer Responsibilities General c cccccccceccsecesceseceseesseesecsceeesceseecnseessecseceeccsecseesecesececeseeecesecseeeeeaeceeceteeteeeesereseeeaes 9 WE 294 Generals secs a AE E a an but hus ee 9 WE 294 DEC a ti AA A oat Les Sede bd bes iste execs yea Mecsas ease OE ES AEST rea haat tat es 9 CONFIGURATION x ee anrs E E esemenemet n mtr te t t RAPERE eee i n t e dr eA P PATATE genda 10 A yn AR 10 Expanded Versions div em rentrer ite deret e e ebbe e eee euet laneros MI 10 Memory CONfIBUTATIONS ilatina Lesben Bre re Boe ene rere decla 10 Expansion Boards and Accessories RR EENES NEEESE RR RR RR naar 11 Memory Expansion A A diese e e e e Reda 11 Digital Input Digital Output DI DO Board seen net nene e nter eerte n
48. e switch position 7 set to ON Addresses shown in Figure 29 are for example purposes only Note Panels on Modems should start with Physical Address 1 with each new Node to assure proper Panel to Host Dialup Address Switch S1 gltosptzl Turbo Superterm Circuit Board Third Network Turbo Superterm Figure 29 Turbo Superterm Address Switch S I Location Turbo Superterm P1800 v1 2 42 COMMUNICATION CONNECTIONS Table 29 Turbo Superterm Address Switch S1 Positions Turbo Superterm Address Switch Position Number Number 1 2 3 4 5 6 1 OFF ON ON ON ON ON 2 ON OFF ON ON ON ON 3 OFF OFF ON ON ON ON 4 ON ON OFF ON ON ON 5 OFF ON OFF ON ON ON 6 ON OFF OFF ON ON ON 7 OFF OFF OFF ON ON ON 8 ON ON ON OFF ON ON 9 OFF ON ON OFF ON ON 10 ON OFF ON OFF ON ON 11 OFF OFF ON OFF ON ON 12 ON ON OFF OFF ON ON 13 OFF ON OFF OFF ON ON 14 ON OFF OFF OFF ON ON 15 OFF OFF OFF OFF ON ON 16 ON ON ON ON OFF ON 17 OFF ON ON ON OFF ON 18 ON OFF ON ON OFF ON 19 OFF OFF ON ON OFF ON 20 ON ON OFF ON OFF ON 21 OFF ON OFF ON OFF ON 22 ON OFF OFF ON OFF ON 23 OFF OFF OFF ON OFF ON 24 ON ON ON OFF OFF ON 25 OFF ON ON OFF OFF ON 26 ON OFF ON OFF OFF ON 27 OFF
49. ecured to the lower center ledge of the Turbo Su perterm cabinet see Figure 57 2 Remove the old fuse from the fuse holder and replace with a new 3AG 3A fuse 3 Close the Turbo Superterm cabinet and restore the AC source voltage yo Superterm Cabinet Figure 57 Turbo Superterm Battery In Line Fuse Location 88 MAINTENANCE Turbo Superterm Step Down Transformer Re placement WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with power supply replacement 1 Open the Turbo Superterm cabinet and locate the trans former assembly P N CI 0300 1172 01 secured to the lower left hand ledge of the Turbo Superterm cabinet see Figure 58 2 Disconnect the BLACK lead from pin 7 labeled AC2 of the power input terminal strip refer to page 18 Step Down Transformer Connection for specific information 3 Disconnect the YELLOW lead from pin 8 labeled GND of the power input terminal strip To Power Input Terminal Suip Pin 7w To Power In EM o Power Input Terminal Strip Pin 8 X Yellow To Power Input Terminal Strip Pin Pun Disconnect the WHITE lead from pin 9 labeled AC1 of the power input terminal strip Disconnect the 2 wire Molex connector between the trans former and the expansion power supply Disconnect the transformer s NEUTRAL White lead from the AC input power terminal block refer to page 16 120VAC Power for specific informa
50. elections are 1200Kbps Pins 7 and 8 2400Kbps Pins 5 and 6 4800Kbps Pins 3 and 4 9600Kbps Pins 1 and 2 Turbo Superterm P1800 v1 2 74 SETTINGS Monitor Jumper Turbo Superterm Circuit DILDO POOCOUOLL Com2 Jumper Figure 47 COM1 COM2 and MONITOR Jumper Locations and Settings 75 Turbo Superterm P1800 v1 2 SETTINGS MBAT Jumper A lithium battery preserves data stored in memory for 6 months in the event of a power failure or loss of the system battery backup see Figure 48 NOTES The Turbo Superterm is shipped with the MBAT jumper in the OUT mode to prevent unnecessary battery drain DO NOT confuse the lithium battery with the back up battery see page 11 The lithium battery does not operate the Turbo Superterm in the event of a power failure IN Data Saved The IN mode activates the lithium battery and preserves Turbo Superterm data in the event of a power failure or loss of the system battery backup e Set the jumper to contact the center post pin 2 and the left hand post pin 1 OUT Data Lost The OUT mode de activates the lithium battery No Turbo Superterm programming or database information will be saved e Set the jumper to contact the center post pin 2 and the right hand post pin 3 Turbo Superterm P1800 v1 2 MODE1 Jumper The MODE 1 jumper is used to designate the particular Turbo Superterm as an active REPEATER or a passive MUL TIDROP network member see Figure 4
51. ene dos 74 COM 2 SUM per a2 A A RU e edo RE e Dr eee eroe oues 74 MONITOR Jumper eon ede ede tbat aden dex sede em cote ttt dte ee om e n de eee ed deci bado 74 MBAT Jumper dedico e A Ek cre iie deed tht t ol boe ed a Lt me NL Me ind e Cou 76 MODEL Jumpek RUM E et ee o o ab ee E A fe e D D d a a EROR ede 76 Door Strike Jumper Setting a dos bn ete no ee ceeeo ed 78 LOCAL Power Jumper Setting esses eee RE ARORA nO Ran ente tese n ene RR RON Ne Ran RR ttes et ene E ette can cinco 78 REMOTE Power Jumper Setting esses anne nan anne nneetnnet ehe tehret nre e ett RAR eh eei etre ener erret eret tree t ense enr entes 78 TROUBLESHOOTING peio reset eter eee ote ve ve ves napentonsessuvevebuaguntordensuedcesduedusduseeseessevsevaueedteutecvagceespesdterbestesseades 80 LED Dianos IO x MM 80 Turbo Superterm Circuit Board Main Fuse esses eene eene nre eerie eret err erre tr serere nne enn ene 81 Turbo Superterm Door Strike Fuses eese eese nette aE E EE SE PEE EEEE EE teens EE EE tenere sentent tenete nne a 81 UPGRADING rr 82 Expanded Memory Upgrades tercer a ee a eiie E ELLE ee Fev sv ecd esee qe tient 82 2X2 MB Expansion Board Upgrade Procedure esee eterne nennen eere neret 82 MAINTENANCE te t ra aee io rhe de de en ara dvs ee ANA AEE a teases sue NE POR Pee ves thedve ip ure nere d
52. ennen ens 11 Supervised Alarm Bo ab RUE eee qa t re Re EE DRE CD UBER tut aA 11 Battery Back p ado 11 POWER ae 11 INSTALLATION 0 Aia 12 ADOUE TS MI a a E AA 12 Tnstallation Preparation A is 13 Cabinet MOUNT eos dre ea eoe ett reete e e serie ed eee eer Vv ev eese tq orc tore PEDES 14 Cable RoUtiligs i5 tme enel oen bebes tetto o ite 15 Incoming Power Conduit Knockodt aanhaken pp it ieget ect 15 Accessory Conduit Knockouts 2 o chem hoe Oe e ete ie le eo ae 15 Grounding Accessory Drain and Shield Wires eese eene ener entere ener nnne ene 15 POWER CONNEGTIONS 5 dtt ee ERO EE d nd a reete ter iva dun e Go RU UU eS 16 AC Power Source Groundihg i i teret eet esent ases eater ehe ha e Rae Sr egre etae epe eaae aan E ep e dadas ce 16 120VAC Power 220 VAC Optional etd oe nie e tee A EE ERE RE 16 Turbo Superterm Circuit Board Layout eese eee ener anna 17 Step Down Transformer Connection esee eene RR RR RRE RR 18 Power Input Terminal Strip Jumpers eese eese A nan enn nette etes ene aa taa Rae dia teneret reete teneret netten enne 18 Battery BACKUP COnBection s ai nece oet stustustie sais 18 Expansion Power Supply Conecta 19 POOR CONNEC HONS zo olaaa etes eve n ON eia 20 Wiegand Proximity Reader Connections coin 20 Wiegand Proximity Reader Cable Requirements eese eerte ettet enne en rennen eerte 20 Magnetic Stripe Reader Connection itte titer tener ge ete P
53. er Supply Power Input Terminal Strip Expansion Power Supply Pin Function Wire Color Function 1 REG IN 2 DC Jumper to pin 3 CHARGER 3 CHARGER Jumper to pin 2 DC 4 12V Red Pos post 5 BAT Black Neg post 6 BAT 7 AC2 8 GND 9 ACI Power Input A Terminal Strip Molex Connecto1 Male to Female BATTERY BACKUP EXPANSION POWER 7AH Standard SUPPLY Optional 12AH Expanded Figure 9 Connecting Transformer Battery and Power Supply to Turbo Superterm Circuit Board 19 Turbo Superterm P1800 v1 2 DOOR CONNECTIONS DOOR CONNECTIONS Wiegand Proximity Reader Cable Require Inputs from Card Readers Keypads and Door Alarms connect ments A to the Turbo Superterm via eight terminal strips labeled DR1 Wiegand Proximity Readers require a 5 conductor cable b i DR2 DR3 DR4 DRS DR6 DR7 and DR tween the Turbo Superterm and the particular unit see Figure 10 NOTE The terminal strips are grouped in pairs on one con NOTE DO NOT use twisted pair cables nector block e Terminal strips DR1 and DR2 are paired together on the Readers may have a combined maximum current draw of same connector block located in the upper left hand comer 500mA 12VDC or 800mA 5VDC per Turbo Superterm of the Turbo Superterm Circuit Board see page 17 Turbo Circuit Board Superterm Circuit Board Layout Terminal strips DR3 and DR4 are paired together on the EXAMPLE If eight identical 5VDC Readers are connected sa
54. ermet terere rar terne eene 22 Magnetic Stripe Reader Cable Requirements eese eee eere ene eret rete terere rennes 22 Keypad Connect ohn esise aini tae 23 Keypad Cable Requirements eee esee eene nennen netten inneren tree EEEE EE RR RR RR teneret entren ennt nenne 23 Door Status Sensor Connection esses eee eee eene these RR ana RR Ran RR tese E E tres t ener tree tre RR RR ana nena enr erster ener 24 Door Status Sensor Cable Requirements esses eee eene eren ertt en etre reser nana erre ennet ries 24 Request to Exit Bypass Sensor Connection esee eene nennen ener eenet eret rere ere retenti retener ens 25 Request to Exit Sensor Cable Requirements seen aan nena 25 RELAY CONNECTIONS ettet nnn n ti en e e e pes Rees 26 VIDI M M 26 DoorStrike Reldyssas ute eee estie e eter ie ali 26 P slit RC Saa ds lt 26 Console RelaV aria eletti Se Tut as 26 VIP IO me arro mn 26 Door Strike Relay Operations i ton odototeteta o E eee iia beds 28 LOCAL Power COnheCctlOn ds s eina coat tete tart ote ste odas 30 Emergency Sensor CONNCCHOMN S 3 3 dt dada e e a soe eee Cete t eee o o e o C des 30 LOCAL Power Door Strike Connection eese eee entnehmen nne ne tret nn an nn anne nn n anna netter nana nn innen 32 Door Strike Relay Connection Normally Open
55. ete eene 40 NetWorldng ee aa 42 Network Jumper SCUINGS ze t e b EE 42 horse d mE 42 Wr SUITED RENE e 42 RS 232 to RS 422 REPEAT Network eiecti iio 44 RS 232 to RS 422 REPEAT Jumper Setting sse eterne hene entree tene terret reser erret teret nette eren 44 RS 232 to RS 422 REPEAT Drain Wires e ettet eee e Pb e exis ended earo dareis see 44 R5 232 to RS 422 MULTIDROP NetWOEk tpe e e prt lr eaei eq oc ei ns 46 RS 232 10 RS 422 MULTIDROP Drain Wires iii aiii 46 RS 232 to RS 422 MUTIDROP Jumper Setting eese eene nete trennen terre ener ete enr eret nnns 46 RS 422 to RS 422 REPEAT NetWOrk insista e A ede t os 48 RS 422 to RS 422 REPEAT Drain Wires esee eene enne nenne ennet nette nn Ran nan nn nn ne tenerse treten innen ees 48 RS 422 to RS 422 REPEAT Jumper Setting esses eese E EE EE EEEE E E nere enne trennen 48 RS 422 to RS 422 MULTIDROP Network eese esee teet enitn ennet RR RR O RR Ran nene nn tenni retener tenter innere 50 RS 422 to RS 422 MULTIDROP Drain Wires essent tree seret nre trr erre hnr eret etre anna 50 RS 422 to RS 422 MULTIDROP Jumper Setting eese anne 50 Auxiliary Communications Channels eee esee eese eene ene A AEEA e iaei ea oi E tenere 52 COMI Terminal Strip Connection eee eet beo ee Feste ue optio te pi AR eese pipe vet ob e e Pee a 22 Printer Cable Requirements e
56. evices NOTE For proper operation of the Turbo Super term route EACH category of cabling in SEPA RATE conduit i e DO NOT mix alarm and com munication cables in the same conduit as relay and power cables Incoming Power Conduit Knockout The Turbo Superterm System requires 120VAC 60 Hz voltage to the AC Input Power Terminal Block see page 16 The power cabling is delivered to the Turbo Superterm through a knockout located on the lower center of the left side cabinet wall see Figure 6 The knockout accepts EIA standard 1 inch or 3 4 inch conduit connectors NOTE All wiring must conform to National Elec tric Code NEC NFPA 70 as well as any local building codes Accessory Conduit Knockouts All cabling for the Turbo Superterm is routed through EIA Accessory Wire IN Turbo Superterm Accessory and Sheild Ground Po Knockouts 18 total O INSTALLATION standard two size knockouts located on the left and right sides of the cabinet see Figure 6 The outer knockout size accepts EIA standard 1 inch conduit connectors and the inner knock out accepts EIA standard 3 4 inch conduit connectors 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 except RS 232 connect to ground posts mounted along the knockout strips on both sides of the Turbo Su
57. eypads short Connect drain and ca ble shield wires to the ground posts located on both sides of Turbo Superterm cabinet DO NOT ground drain wires and cable shields at any other point Typical Terminal Strip DR1 through DR8 Row 1 Brown Row 2 Red Row 3 Orange 10 Row 4 Yelow 1 Column 1 Green 12 Column 2 Blue 13 Column 3 Violet M Turbo E Drain Superterm Cabinet WireShield Ground Post OwmorwIAUSWN e Turbo Superterm Circuit mee Figure 12 Keypad Connection to Turbo Superterm Board 23 Turbo Superterm P1800 v1 2 DOOR CONNECTIONS Door Status Sensor Connection Door Status Sensor Cable Requirements Door Status sensors connect to the Turbo Superterm through Door Status sensors require a 22AWG 2 conductor stranded eight terminal strips labeled DR 1 through DR8 see Figure shielded cable with drain wire between the Turbo Superterm 13 and the particular unit see Figure 13 Table 12 lists the connections between the DR1 through DR8 NOTE DO NOT use twisted pair cables terminal strips and the Door Status sensor Table 12 Connection Table for Door Status Sensor Table 13 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and the Door Status DRx Terminal Signal Strip Sensor Table 13 Cable Requirements for Door Status Sensor pint E i NOTES Refer to page 38 Alarm Connection to configure Door Status sensors a
58. gether and should only be used to connect Expan sion IO to the Superterm main circuit board 62 EXPANSION BOARD CONNECTIONS Ribbon Cable Terminal Strip J19 Input Power Terminal Strip Ribbon Cable Terminal Strip 318 to Data Control Line Terminal Strip or Next Expansion Board 00000000000000000 00000000000000000 00000000000000000 00000000000000000 Address Selection Jumper Figure 41 DI DO Board Layout Input Power Terminal Strip z Auxiliary Power Terminal Strip i DIDO Board Turbo Superterm Circuit Board Figure 42 DI DO Board to Turbo Superterm Power Connection 63 Turbo Superterm P1800 v1 2 EXPANSION BOARD CONNECTIONS DI DO Alarm Input Connections DI DO Alarm Cable Requirements The DI DO board provides eight non supervised alarm inputs Alarm inputs require 22AWG 2 conductor stranded shielded see Figure 43 cable with drain wire DO NOT use twisted pair cables The eight non supervised alarm inputs are connected to the DI DO board through the Alarm Input terminal strip NOTES Route all cables between the Expansion I f O boards and the Turbo Superterm circuit board Table 44 lists the connections to the Alarm Input terminal strip through the wire guides provided on the Turbo Su and the appropriate functions of each connection perterm cabinet Cable length between the DI DO board and an alarm device is limited to a maximum of 500
59. il further reduces possible noise input 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 28VAC requires using external relays that can be driven by Turbo Superterm relays Additional MOV s are available form Continental Instruments as part number RV0005 26 RELAY CONNECTIONS CHE P 0000000 sE su 35 uL ne a RL ORL DEDO LO CRLORL RL RL GO R LRL Aux Relay SOSE SEES sia era Sig E Terminal Strips RLY2 RLY4 Ast 6 Ae 8 RLY 10 RLY 12 RLY 14 RLY 16 ide Door Strik ot 299090099 2 022 Relay Relay Suite aa 000 000 000 AKAAKA 122434 Terminal Strip Suips RLY 1 RLY3 RLYS RLY7 RLY9 RLY 11 RLY 13 RLYIS RLY 17 2 Turbo Superterm Circuit Board O Figure 15 Turbo Superterm Circuit Board Relay Location 27 Turbo Superterm P1800 v1 2 RELAY CONNECTIONS Door Strike Relay Operation The Turbo Superterm offers two configurations for controlling power to each door strike circuit The LOCAL strike power configuration simplifies wiring at the site by using a single power source to operate several door control circuits see Figure 16 This option is selected by set ting a pair of jumpers on the Turbo Superterm printed circuit board The REMOTE strike power configuration provides conven tional dry contact outputs typically controlling a circuit where the power source for the electric lock is
60. ility or fitness for any particular purpose Further Continental 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 Turbo Superterm P1800 v1 2 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 CAUTION TO REDUCE THE RISK OF ELECTRIC SHOCK DO NOT REMOVE COVERS OR BACK NO USER SERMCEABLE 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
61. in the standard Turbo Superterm version because an excess current load may be drawn from the on board power supply when all of the relays are activated A maximum of three DI DO boards may be installed in the expanded version of the Turbo Superterm when the optional 12V power supply is installed or eight 200mA proximity readers may receive power from the door connectors REGULATORY CONSIDERATIONS Installer Responsibilities UL Specific UL294 General In UL294 installations one DI DO board may be installed in the standard Turbo Superterm unit Two DI DO boards may be installed in the expanded version when the optional 12V power supply and the optional 12AH battery are used UL 294 requires that the product be able to operate under back up power for four hours under the worst case situation This condition will be met with continuous activation of all accessory relays when one DI DO board is installed in the standard Turbo Superterm and when two DI DO boards are installed in the expanded Turbo Superterm version 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 Host Com puter is used or which version of software is installed Turbo Superterm P1800 v1 2 CONFIGURATION CONFIGURATION Standard Version Capacities The standard version Turbo Superterm provides access cont
62. lon standoff base in step 2 Help DO NOT FORCE BRACKET OR DAMAGE ful Hint Use the Phillips screwdriver to hold the screw TO THE PCB AND MEMORY CARD CAN in the bracket hole see figure 55b While screw is held RESULT see figure 55d in place insert screw into controller PCB hole and secure see figure 55c The notches in the Z shaped bracket de PS A NOTCHES IN Figure 55b Helpful Hint Hold screw in place Eos jam with screwdriver before inserting screw BRACKET gt gt gt 2 2 e Figure 55d Finished installation The notches in the bracket align with the notches in the memory cards holding the memory cards in place Figure 55c While holding screw in place with screwdriver insert screw into controller PCB hole and secure 85 Turbo Superterm P1800 v1 2 7 Restore power Reconnect power connector at bottom of board Replace MBAT jumper on pins 1 and 2 IN See page 77 Figure 48 The Heart beat lamp should blink at a rate of once every second at location T1 on the LED display If there is a problem If the Heartbeat lamp on the PCB does not activate then the firmware probably did not recognize the 4 MB configuration therefore be sure to upgrade the firmware to version 1 04 XX or later by installing an EEPROM memory chip into socket U39 with markings Version 1 04 XX or later and re test system Turbo Superterm P1800 v1 2 86 UPGRADING MAINTENANCE MAINTENANCE
63. lor Function 1 REG IN 2 DC 3 CHARGER 4 12V 5 BAT 6 BAT T AC2 Black AC Power 8 GND Yellow GND 9 ACI White AC Power Table 3 Connection Table for Terminal Strip Power Input Terminal Strip Backup Battery Pin Function Jumper 1 REG IN Jump to Pin 2 DC 2 DC Jump to Pin 1 REG IN amp 3 CHARGER 3 CHARGER Jump to Pin 2 DC 4 12V 5 BAT 6 BAT 7 AC2 8 GND 9 ACI Table 4 Connection Table for Backup Battery Power Input Terminal Strip Backup Battery Pin Function Function 1 REG IN 2 DC 3 CHARGER 4 12V 5 BAT Neg post 6 BAT 7 AC2 Pos post 8 GND 9 ACI Expansion Power Supply Connection The Turbo Superterm circuit board provides 12V power for accessories via an expansion power supply Table 5 lists the connections from the Expansion Power Sup ply to the Power Input terminal strip see Figure 9 NOTE Connect the female Molex connector from the Expansion Power Supply to the male Molex connector of the Transformer Assembly see Figure 9 CAUTION Using the Expansion Power Supply requires plac ing a jumper between pins 2 and 3 of the Power Input terminal strip see Figure 9 and Table 5 NOTE Pin 1 must remain OPEN Turbo Superterm Circuit Board POWER CONNECTIONS Table 5 Connection Table for Expansion Pow
64. lower right hand corner of the Turbo Superterm circuit board see Figure 23 For specific informa tion regarding expansion boards refer to page 56 Expansion Input Output Boards Table 24 lists the AUX POWER terminal strip pin numbers and their associated functions Table 24 AUX POWER 12 V Terminal Strip Functions Function Pin NOTE 12VDC current draw is limited to a total maximum value of 0 50 Amps for the basic Turbo Superterm version without Expansion Power Supply and 1 60 Amps for the Ex panded Turbo Superterm Version with Expansion Power Sup ply Turbo Superterm P1800 v1 2 WARNING Verify that the main power to the Turbo Super term circuit board is OFF before connecting any optional devices WARNING Observe Positive and Negative wire polarity be tween option boards and the Turbo Superterm Additional 12VDC Power Outlets An additional eight 12VDC outlets are available 1f not being used for readers for powering accessories including motion detectors and 12V alarm devices The third pin Pin 3 of the DR1 through DR8 terminal strips provides 12VDC to suitable access control accessories see Figure 24 36 AUXILIARY POWER CONNECTION Turbo Superterm Circuit Board AUX POWER Terminal Strip a Figure 23 Onboard 12VDC Power Supply Outlets Turbo Superterm Circuit ES Figure 24 Additional 12VDC Power Supply Outlets 37 Turbo Superterm P1800 v1 2 ALARM CO
65. m Turbo Superterm Turbo Superterm next 1 2 3 4 Turbo Superterm MODE jumper RPT MODE jumper RPT MODE jumper RPT MODE1 jumper RPT MODE1 jumper RPT EOL2 jumper IN EOL2 jumper IN EOL2 jumper IN EOL2 jumper IN EOL2 jumper IN Turbo Superterm P1800 v1 2 48 COMMUNICATION CONNECTIONS NOTE Polling Line Converter may Continental Instruments be used in UL1950 installations but Polling Line Converter 4 Dot in UL294 or UL1076 installations RS 232 to RS 422 Ye 6 to Computer Com Port ER 28 xS pum 7 BEEN sn DB Connector 7 eel 9 10 3n CN DB 9 25 Connector NC Drain Wire RS 422 Host to Turbo Superterm 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded with Drain Wire a 4000 feet 1220m Maximum RS 422 Turbo Superterm to Turbo Superterm 4 Conductor 2 Twisted Pair Stranded 22AWG Shielded to Next Network with Drain Wire Turbo Superterm 4000 feet 1220m Maximum A Drain Wire 7775341444134 41459 do a Dg erx y 2 2 82 Crew Cm Xv POLL Terminal Strip 1st Turbo Superterm Cabinet Ground Post 2nd Turbo Super term Cabinet Ground Post Turbo Superterm Circuit Board Turbo Superterm Circuit Board Turbo Superterm Circuit Board First Network Turbo Superterm Second Network Turbo Superterm Third Network Turbo Superterm REPEAT Mode REPEAT Mode REPEAT Mode MODE 1 Jumper RPT pins 1 and 2 MODE 1 Jumper RPT pins 1 and 2 MODE 1 Jumper
66. m com municates with a host computer directly or through a modem through the RS 232 channel Proper RS 232 communications require 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 LLC including the Turbo Superterm are configured as DTE devices RS 232 Cable Requirements RS 232 communications between the Turbo Superterm and a host computer modem require stranded 3 conductor 22 AWG cable with shielding and a drain wire NOTE DO NOT use twisted pair wires Table 26 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and the host com puter Table 26 RS 232 Cable Gauge vs Length 22AWG Shielded w Drain 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 Mo dems are typically connected to the RS 232 cable using a DB25 P connector Address Setting Operating the Turbo Superterm on the RS 232 channel re quires setting a board address on DIP switch S 1 address zero is not valid Refer to page 42 Network Address Setting For specific information Turbo Superterm to Host Computer Modem Connection Figure 27 shows a direct Turbo Superterm to host computer connection Figure 28 shows a Turbo Superterm to host computer connec tion through a modem
67. me connector block located on the lower left hand to one Turbo Superterm each Reader could draw a maximum comer of the Turbo Superterm Circuit Board of 100mA Terminal strips DR5 and DR6 are paired together on the same connector block in the upper right hand corner of the Turbo Superterm Circuit Board Terminal strips DR7 and DR8 are paired together on the same connector block located on the lower right hand side of the Turbo Superterm Circuit Board Table 7 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and a Wiegand Proximity Reader Readers A Wiegand Proximity Reader Connections Wiegand Proximity Readers connect to terminal strips DR1 through DR8 see Figure 10 Terminal strips DR1 through Wisgand Reader 500f 153m 22AWG Shielded w DR8 follow the same connection procedures drain Table 6 lists the connections between the DR1 through DR8 Proximity Reader S00fl 153m 1SAWG Shielded w terminal strips and the Wiegand Proximity Readers drain Table 6 Connection Table for Wiegand Proximity Reader CAUTION DRx Terminal Function Wire Color Keep all drain and cable shield wires between the Strip Pin Turbo Superterm and any Wiegand Proximity Read ers short Connect drain and cable shield wires to 5VDC Red the ground posts located on both sides of Turbo Superterm cabinet DO NOT ground drain wires and cable shields at any VERDE Red other point 7 Note Please refer to reader manuf
68. ments Readers 8 4 Full function on or off line Anti Passback Standard Access Modes 4 Card Only Unique Code only Card and Code Free Access Serial Ports 3 Host computer Aux RS 232 Polling Modes 4 Dial up RS 232 RS 422 Multidrop and Repeat RS485 Baud Rates 7 1200 2400 4800 9600 19 2kbps 38 4kbps 57 6 kbps Keypads 8 4 4x3 Relays 17 9 Form C contact rating of 2A Y28VDC Fused Expandable Alarms 24 16 Supervised or non supervised host programmable LEDs 16 8 2 LEDs per door Tamper Switch 1 Pre assigned Reader Types Wiegand Proximity Magnetic Stripe Supply Voltage 120 220 VAC Current Draw 1 0A Y 120VAC Maximum Primary Battery Backup 6 Months nominal at 25 C Memory Only Battery Backup Approx 4 6 hours Weight 48 lbs Enclosure Dimensions 21 5 H x 21 25 W x 7 D Temperature Range Operating 32 115 F 0 46 C Storage 32 149 F 0 65 C Relative Humidity 0 to 80 non condensing Card Capacity 20 000 Standard expandable to 200 000 Time Zones 128 Standard Access Levels 255 Standard Holidays 50 Standard Link Programs 64 Standard Facility Codes 10 Standard Transaction Buffer 1000 Standard expandable to 250 000 91 Turbo Superterm P1800 v1 2 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 conductor 500 ft w unbuffered Wiegand Proximity 5 conducto
69. n um is Tez enone eu z 22t m 9 gut I LA ds arn i Figure 51 Turbo Superterm Main Fuse Location TROUBLESHOOTING Turbo Superterm Door Strike Fuses Eight 2 ampere 2A slow blow fuses protect the door strike circuits These fuses are located in line across the lower center surface of the Turbo Superterm circuit board see Figure 52 WARNING Verify that the main AC power to the Turbo Su perterm cabinet is switched OFF and locked against accidental starting 1 Turn OFF the main circuit breaker controlling power to the Turbo Superterm cabinet 2 Locate the faulty door strike fuse F2 F9 see Figure 52 3 Using a non conducting fuse puller remove the old fuse 4 Replace the fuse with a 2 Amp SB 250V plug in slow blow fuse 5 Reset the the main circuit breaker Door Strike Fuses F2 through F9 ELY mys RLY6 RLYS pry RLY RLY 4 RLY 26 j gor roe RLY RLY RLYS MY MYO RLY RLY 12 MLYIS xvn EL Turbo Superterm Circuit Board Figure 52 Door Strike Fuse Location 81 Turbo Superterm P1800 v1 2 UPGRADING UPGRADING Expanded Memory Upgrade The Turbo Superterm card holder capacity may be expanded by installing optional memory boards The expanded memory may be factory installed or upgraded in the field Memory up grade options include two 2X2 MB memory boards refer to Expansion Boards and Accessories section page 11 2X2 MB Expansion Board Upgrade Procedure Allows the Turbo
70. nd DI DO Relay Expansion Boards The expansion power option is bundled with a larger backup battery allowing the unit to meet the standby power require ments of UL294 when two DI DO boards are installed with all relays activated at a 100 duty cycle Memory Configurations The standard 512K memory configuration provides resources for downloadable firmware as well as for the cardholder data base and a transaction buffer Two 2MB memory expansion boards 2X2MB are available for expansion of card database and transaction buffer space The 2MB expansion boards al low the Turbo Superterm to meet the requirements of manag ing large cardholder populations Turbo Superterm Cabinet CONFIGURATION Supervised Alarm Boards DIDO Boards Input Power Terminal Block Figure 2 Turbo Superterm Components Expansion Boards and Accessories Memory Expansion e Standard Memory The standard UL version uses a static 512K x 8 RAM U61 to support downloadable code to provide working RAM and to support the card database e 2 4 MB Expansion Two optional 2MB of RAM mem ory expansion boards 2X2MB may be added to the Turbo Superterm providing support for a maximum 210 000 card holders NOTE The Standard RAM 512K x 8 should ONLY be removed when BOTH 2X2MB expansion boards are installed See memory upgrade information beginning on page 82 Digital Input Digital Output DI DO Board The DI DO Board supports up to eight non su
71. nput STKPWR Pin 4 is routed to the COM MON C relay connection RLY X Pin 2 e The STK input STKPWR Pin 3 is routed through the DIS pins 1 and 2 to the Normally Open NO RLY FX Pin 1 or the Normally Closed NC RLY X Pin 3 de pending on the state of the relay A Normally Closed NC emergency switch may be used in conjunction with the Local power mode to disconnect the strike power upon an emergency situation NOTE Operating a door strike relay in the LOCAL mode requires setting two jumpers per relay Refer to page 78 Table 50 for specific information about setting the door strike jumpers All door strike relays connected in the LOCAL power configu ration operate from the same power source and must have the same voltage rating All strike relay circuits odd numbered relays are individually fuse protected in both the LOCAL or the REMOTE configura tion If an emergency sensor is not used install a jumper between Pin 1 DIS and Pin 2 DIS on the STKPWR terminal strip Table 16 lists the connections between the STKPWR terminal strip and the external power supply see Figure 17 Table 16 Connection Table for External Power Supply Power Supply STKPWR Terminal Strip Turbo Superterm P1800 v1 2 Emergency Sensor Connection An external emergency sensor may be used to disconnect the LOCAL strike power supply if an emergency condition is de tected The emergency sensor is placed in series with
72. ns 2 and 3 EOL2 Jumper OUT pins 2 and 3 EOL2 Jumper OUT pins 2 and 3 EOL2 Jumper IN pins 1 and 2 Figure 33 RS 422 to RS 422 MULTIDROP Network Connection 51 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS Auxiliary Communications Channels The Turbo Superterm has three additional terminal strips for use with auxiliary RS 232 and RS 485 devices The COM1 and COM2 terminal strips are RS 232 channels for use with printers CRTs and other similar devices The XTM port is used with RS 485 devices NOTE Only two of the three auxiliary channels may be used at the same time The COM 1 terminal strip is always enabled while the COM2 or the XTM terminal strip is se lected via a jumper Printer Cable Requirements Printer to Turbo Superterm connections require a 22AWG 3 conductor stranded shielded cable with drain wire NOTE Cable length between the Turbo Superterm and a printer is limited to a maximum of 50ft 15m Table 35 lists the cable gauge vs length requirements for proper operation of the Turbo Superterm and a printer Table 35 Cable Requirements for Printer Connection Wire Gauge COMI Terminal Strip Connection A printer connects to the COM terminal strip via a DB25 P Unit connector see Figure 34 Connect the COM1 RS 232 cable drain wire shield to GROUND at the printer end of the cable DO NOT connect the drain wire shield at the Turbo Superterm end of the cable Table 34 lists the connections be
73. ns 7 8 and 9 12VDC voltage is present on the Turbo Superterm Circuit Board for distribution to the DRI through DR8 terminal strips and at the AUX Power Terminal Strip 5VDC voltage is present on the Turbo Superterm Circuit Board for distribution to the DRI through DR8 terminal strips Presence of an incoming polling signal from other panels or host computer Panel Com munication Reserved for test function No function Indicates CPU is operating Heartbeat Presence of an outgoing polling signal from the Turbo Superterm board to a host com puter Panel Communication O00 08 UA amp Wh e69666666656966 WLYi vi Figure 50 Turbo Superterm Status LED s Turbo Superterm P1800 v1 2 80 Turbo Superterm Circuit Board Main Fuse A 10 ampere 10A slow blow fuse protects the strike power circuit from faults and over current The fuse is located on the lower right hand edge of the circuit board above the STKPWR terminal strip see Figure 51 WARNING Verify that the main AC power to the Turbo Su perterm cabinet is switched OFF and locked against accidental starting Turn OFF the main circuit breaker controlling power to the Turbo Superterm cabinet Using a non conducting fuse puller remove the old fuse see Figure 51 Replace the fuse with a 5mm x 20mm long 10 Amp 250V slow blow fuse Reset the the main circuit breaker Turbo Superterm Circuit Board BUSGIGEE See au
74. on dition 450 1 1 siti lK Ohm 1 4W 3 parbon tli tesistors per drain and cable shield wires to the ground posts located on both sides of Turbo Superterm cabinet DO 2 m ATP EORUM contacts see MED NOT ground drain wires and cable shields at any other 3 Install R2 in series with the alarm input conductor point NOTE For maximum protection install the resistors close to the alarm contacts and embed them in epoxy Tamper Switch The Turbo Superterm cabinet has a built in tamper switch Table 25 lists the ALARM terminal strip pin numbers and the The tamper switch is factory wired and requires no adjustment respective signals NOTE When the Tamper Switch closes all LEDs will extin guish except AC on LBD1 Refer to page 80 LED Diagnos tics for more specific information Turbo Superterm P1800 v1 2 38 ALARM CONNECTION Unsupervised Alam Drain Wire Shield Turbo Superterm Cabinet Ground Turbo Superterm Circuit Board Figure 25 ALARM Terminal Strip Unsupervised Alarm Condition Supervised Alarm R2 1K Drain Wire S hield Turbo Superterm Cabinet Ground Post ALARM Connection Terminal Strip Turbo Superterm Circuit Board Figure 26 ALARM Terminal Strip Supervised Alarm Condition 39 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS COMMUNICATION CONNECTION RS 232 Communications Host Computer Modem Operating as a stand alone system the Turbo Superter
75. on points for the three in coming 120VAC service lines Optional Turbo Superterm versions are available that will sup port 220VAC power where required for use outside of the United States 11 Turbo Superterm P1800 v1 2 INSTALLATION 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 Turbo Superterm system should be completed and tested on its own before connecting into a net work Any possible wiring or installation problems are magni fied many times by the complexity of the network Once an individual panel has been tested and found operating satisfactorily it can then be safely brought into the network The following warnings are designed for the safety of the Turbo Superterm install service technician and for the contin ued proper function of the Turbo Superterm unit About This Manual This manual describes the installation of the Turbo Superterm Access Control Unit and the specific accessories that connect to 1t Notes are included with a procedure in forming the technician about related mate rial CAUTION A WARNING A CAUTION A Cautions indicate that a particular process requires special attention Warnings indicate that a particular process exposes the technician to liv
76. onents enable the Turbo Superterm to support up to a maximum 210 000 card holders with 4MB 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 standard Turbo Superterm uses an onboard 7AmpHour AH backup battery to carry out full access control func tions for a period of four hours in the event of an AC power supply loss The expanded Turbo Superterm features an onboard 12AH backup battery to operate system devices for the same length of time four hours In addition an internal lithium battery protects the on board database and programmed operating instructions from loss DESCRIPTION CONTINENTAL INSTRUMENTS LLC for a period of six months In the event of a total failure of the AC power supply and the backup battery the Turbo Su perterm would immediately be ready for full operating ca pability once a source of operating power is re established For enhanced site access control requirements multiple Turbo Superterm units a maximum of 63 may be net worked together or with other Continental Instruments products including Smarterm Miniterm Microterm and Su per Two A Turbo Superterm network may be configured to operate in a repeater mode or in a multidrop mode using the RS 422 communications
77. or strike relays are the first bank of relay terminal strips labeled from left to right RLY 1 RLY 3 RLY 5 RLY 7 RLY 9 RLY 11 RLY 13 and RLY 15 located on the bottom of the Turbo Superterm Circuit Board see Figure 15 Auxiliary Relays Eight relays are designated as auxiliary relays and may be used for access control functions such as door alarm shunts The auxiliary relays are the second bank of relay terminal strips labeled from left to right RLY 2 RLY 4 RLY 6 RLY 8 RLY 10 RLY 12 RLY 14 and RLY 16 located on the Turbo Superterm Circuit Board see Figure 15 Turbo Superterm P1800 v1 2 Console Relay The Console Relay 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 software The console relay is labeled RLY 17 and is located on the far right hand side of the first bank of relay terminal strips of the Turbo Superterm Circuit Board see Figure 15 Relay Characteristics The relays on the Turbo Superterm Circuit Board all share the following characteristics Form C relay with a contact rating of 2A at 28VDC 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 56 volts NOTES Installing a 56 volt MOV at the strike co
78. perterm 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 Turbo Superterm cabinet e Place the drain and shield wires under the ground post Screw e Verify a good connection and tighten the ground post Screw e Connect the accessory wires to the appropriate terminal strip on the Turbo Superterm circuit board Accessory Wire Drain and Sheild Ground Fi O 000 Superterm Cabinet m Q O 6 ol coming Power Knockout v Turbo Superterm Accessory Knockouts 11 total i Side Cabinet Wall Right Side Cabinet Wall Figure 6 Cabling Conduit Knockouts 15 Turbo Superterm P1800 v1 2 POWER CONNECTIONS POWER CONNECTIONS AC Power Source Grounding The Turbo Superterm main circuit board has built in surge suppression devices The surge suppressors require a good earth ground connection to operate effectively Check the DC resistance between the 120VAC power ground terminal and a known earth ground such as a metal water pipe or structural steel building component CAUTION DC resistance between the 120 VAC power ground terminal and a known earth ground must be no greater than 50 ohms If the DC resistance is acceptable install the 120V AC power cabling using the ground terminal as the earth ground 120VAC Power 220 VAC Optional The Turbo Superterm sys
79. pervised inputs and provides 16 relay outputs to devices controlled by two state signals see Figure 2 Supervised Alarm Board The Supervised Alarm Board supports 16 supervised alarms with each alarm having five states normal abnormal open short and ground fault Turbo Superterm Main Circuit Board Optional 12V Linear Power Supply Power 7AH or 12AH Transformer Backup Battery Battery Backup During power interruptions the Turbo Superterm continues operating for a maximum of 4 hours via an on board 7 Am pHour back up battery standard version or a 12 AmpHour back up battery expanded version The backup battery provides DC power for all Turbo Super term 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 pro tects the Turbo Superterm by disconnecting the battery from the main circuit if the battery discharges too much current To provide adequate power for a minimum of four hours the standard Turbo Superterm 7 AmpHour battery allows the in stallation of only one DI DO board The expanded Turbo Superterm version includes a 12AH backup battery to provide adequate power for two DI DO boards for a minimum of four hours Power Transformer The step down transformer provides 14VAC to the on board linear power supply An AC power terminal block and grounding screw provide connecti
80. protocol to network multiple Turbo Superterm units through the POLL terminal Turbo Superterm P1800 v1 2 strip the EOL1 jumper on the LAST unit in the communica tion network must be set to the TERMINATED position Turbo Superterm TERMINATED Set the jumper to contact the center post pin 2 and the lefthand post pin 1 see Figure 46 Turbo Superterm NOT TERMINATED Set the jumper to contacting the center post pin 2 and the right hand post pin 3 EOL2 Jumper When operating multiple Turbo Superterm units in a MUL TIDROP RS 422 network the EOL2 jumper on the LAST unit in the communication network must be set to the TERMI NATED position NOTE When operating multiple Turbo Superterm units in a REPEAT RS 422 network the EOL2 jumper on every Turbo Superterm unit must be set to the TERMINATED position Turbo Superterm TERMINATED Set the jumper to contact the center post pin 2 and the lefthand post pin 1 see Figure 46 Turbo Superterm NOT TERMINATED Set the jumper to contact the center post pin 2 and the right hand post pin 3 72 SETTINGS 232 1 EOL2 EOL1 Jumper Jumper Jumper Turbo Superterm 1 Terminated 1 Superterm Not Terminated Turbo Superterm 1 pgo Terminated Turbo Not Terminated LLO Enabiea XTM 59 a Turbo Superterm Circuit Board _ 00000005 O DEED a Figure 46 232 1 EOL1 and EOL2 Jumper Locations and Settings 73 Turbo Superterm
81. r 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 Aux 232 Port 22 ga Stranded shielded w drain 3 50 ft conductor 15m NOTE DO NOT use twisted pair cables except for RS 422 and RS 485 connections POWER RATINGS As supplied from the factory the Turbo Superterm contains a 115VAC Power Supply or an optional 220VAC Power Supply Continental Instruments LLC recommends using a dedicated unswitched power outlet to prevent any interference from other equipment that might be connected on the same line Voltage Current Power Maximum Maximum AC 105 125VAC 1 0 Amperes 125VA 210 250VAC 0 5 Amperes DC 12VDC 0 5 Amperes 6 Watts Turbo Superterm P1800 v1 2 92 SPECIFICATIONS
82. r re quires setting two jumpers per relay Refer to page 78 Table 50 Door Strike Jumper Settings for specific information about setting the jumpers 32 RELAY CONNECTIONS NOTE Strike power is PROVIDED when the relay activates Turbo Superterm Circuit Board Figure 19 LOCAL Power Door Strike Relay Connection Normally Open NO Condition NOTE Strike power is REMOVED when the relay activates 0000000 O En HH o mno Door Strike Relays Turbo Superterm Circuit Board Figure 20 LOCAL Power Door Strike Relay Connection Normally Closed NC Condition 33 Turbo Superterm P1800 v1 2 RELAY CONNECTIONS REMOTE Power Mode In REMOTE power mode each door strike operates from an individual power supply typically a transformer mounted at the door site In the REMOTE power mode the door strike relays operate as conventional dry contacts and may be config ured as Normally Open NO or Normally Closed NC NOTES Door strike relays operating in the REMOTE mode do not respond to an emergency sensor Operating a door strike relay in the REMOTE mode requires setting two jumpers per relay Refer to page 78 for specific information about setting the door strike jumpers Door Strike Relay Connection Normally Open Table 20 lists the connections between the RLY x terminal strip and the door strike for a Normally Open NO relay con dition see Figure 21 Table 20 Connection Table for Door
83. rm P1800 v1 2 DI DO Board Power Cable Requirements The DI DO board requires 18A WG stranded wire between the Input Power terminal strip labeled J2 and the Auxiliary Power terminal strip on the Turbo Superterm main circuit board Data Control Line Ribbon Cable Connections The DI DO board communicates with the Turbo Superterm through a 34 pin ribbon cable The DI DO board contains two identical 34 pin connectors labeled J 18 and J 19 The 34 pin connector labeled J19 is used for daisy chaining other Expansion I O boards to the DI DO board see Figure 41 The 34 pin connector labeled J18 is used for connecting the DI DO board to other Expansion I O boards through daisy chaining or for connecting to the main circuit board of the Turbo Superterm NOTE Pin 1 on the ribbon cable is indicated by a red wire and a notch arrow on the connector header The ribbon cables must be installed with proper Pin 1 alignment All Expansion I O boards mounted on the Turbo Superterm cabinet are joined with either 5 inch ribbon cables or 18 inch ribbon cables The 5 inch ribbon cables are used for inter connecting daisy chaining the Expansion I O boards mounted on the cabinet wall The 18 inch ribbon cable is used to connect the innermost Ex pansion I O board to the Turbo Superterm main circuit board at the Data Control Line Input Terminal Strip Warning The 18 inch ribbon cable should NOT be used to connect Expansion IO boards to
84. rol functions for up to eight doors and eight card readers Each 5V reader may draw as much as 100mA from the 5V pin of the reader connector for a total current draw of 800mA per panel Eight 12V readers may draw up to a total per panel of 500mA from the 12V pin of the reader connector The standard version may also provide 500mA at 12V for one DI DO relay expansion board or other 12V powered accesso ries The DI DO board adds 16 relay outputs to the eight ac cessory relay outputs provided on the main board All 12V accessories receive power from the backup battery when the equipment is operating during a power failure Each of the 24 alarm inputs on the main board may be config ured as supervised alarms requiring termination resistors or standard alarms requiring plain electrical contacts Each Su pervised Alarm Board added to the Turbo Superterm increases the number of supervised alarm inputs by 16 Three Super vised Alarm Boards may be added to the standard Turbo Su perterm unit NOTE Adding more than 1 expansion board prevents the use of software virtual inputs Turbo Superterm P1800 v1 2 Expanded Version When additional 12V accessory power 1s required at a particu lar site the unit may be ordered with an expansion power sup ply that allows the unit to retain all regulatory listings This unit will conservatively power eight 12VDC proximity readers rated at 200mA each or any combination of Supervised Alarm Boards a
85. s not provide on board power to the eight auxiliary relays Each auxiliary relay may be used to switch an external signal Auxiliary Relay Connection Normally Open NO Table 22 lists the connections for an Auxiliary relay in a nor mally open configuration Table 22 Connection Table for Auxiliary Relay Normally Open NO Condition Aux Relay Connection Normally Closed NC Table 23 lists the connections for an Auxiliary relay in a nor mally closed configuration Table 23 Connection Table for Auxiliary Relay Normally Closed NC Condition 34 RELAY CONNECTIONS NOTE Strike power is PROVIDED when the relay activates 3 mye OTE MUS mov e a r ERE GEORGE GE GE s Door Strike Relays gt us Superterm Circuit Board Figure 21 REMOTE Power Fail Secure Door Strike Relay Connection Normally Open NO Condition NOTE Strike power is REMOVED when the relay activates A Power Supply de z zenez zoron z O Piles q Door Strike Relays P iie Superterm Circuit Board A DUO DOE EE rr co T2 E Figure 22 REMOTE Power Magnetic Lock or Fail Safe Door Strike Relay Connection Normally Closed NC Condition 35 Turbo Superterm P1800 v1 2 AUXILIARY POWER AUXILIARY POWER The AUX POWER terminal strip labeled 12 V provides 12VDC power outlets for a maximum of three expansion I O option boards or auxiliary devices The AUX POWER termi nal strip is located in the
86. s supervised alarms Door Status sensor connections to the Turbo Superterm are not sensitive to polarity Door 500ft 153m 22AWG Shielded w Status Sensor drain CAUTION Keep all drain and cable shield wires between the Turbo Superterm and Keypads short Connect drain and ca ble shield wires to the ground posts located on both sides of Turbo Superterm cabinet DO NOT ground drain wires and cable shields at any other point Typical Terminal Strip DR1 through DR8 Turbo Superterm Cabinet Ground Post Drain Wire Shield DO JO U Aa UC No Door Status Sensor N gem o TA TA SERSEERE Turbo Superterm Circuit Board Figure 13 Door Status Sensor to Turbo Superterm Connections Turbo Superterm P1800 v1 2 24 DOOR CONNECTIONS Request to Exit Bypass Sensor Connection Request to Exit Sensor Cable Requirements Request to Exit sensors also known as Bypass sensors work Request to Exit sensors require a 22AWG 2 conductor in conjunction with Door Status Sensors to provide complete stranded shielded cable with drain wire between the Turbo facility entry and exit control The Request to Exit sensor in Superterm and the particular unit see Figure 14 put connects to the same Turbo Superterm terminal strip DR1 through DR8 that the associated Door Status Sensor connects N NOTE DO NOT use twisted pair cables to see Figure 14 Table 14 lists the connections between the DR1 through DR8 Table
87. sed Alarm Board Accessory Connec tions The Supervised Alarm board provides terminal strips for 16 alarm inputs The alarm inputs are connected to the Super vised Alarm board using connectors J4 through J19 see Figure 40 NOTE Route all cables between the Supervised Alarm boards and the accessory alarm inputs through the wire guides provided on the Turbo Superterm cabinet Table 41 lists the connections between the Supervised Alarm board and the alarm inputs Table 41 Accessory Input Connection Table Function Supervised Alarm Board Connector J4 J19 Pin NOTE Alarm connections are not sensitive to polarity CAUTION A When powering up the Turbo Superterm sys tem at least one of the supervised alarm inputs must be in a non open condition The Turbo Su perterm will not be able to initialize the Super vised Alarm board if all of the inputs are open Supervised Alarm Cable Requirements Alarm inputs require a 22AWG 2 conductor stranded shielded cable with drain wire between the alarm sensor and the Supervised Alarm board DO NOT use twisted pair cable Table 42 lists the cable gauge vs length requirements for proper operation of the Supervised Alarm board and the alarm sensor device Table 42 Cable Requirements for Alarm Inputs Unit Distance Wire Gauge maximum 22AWG Shielded w drain Supervised Alarm Input 500 ft 153m NOTE All alarm input cables must be grounded Refer to the section on
88. set cei cis EE oe o e ento er Erde de Pelro Hebe Ug HE De oe RE ere eo UR pede od gs 52 Printer setup PArantet ks uie i Ia boe poete e e eg ea ep ett eet ent ectetuer eene toe qo nare open re doe Doe edo ad ee EP ae ege aec 52 COM2 Terminal Strip Connection iii adidas ripio SA eres sa ose tes Be ae 54 R5 232 Cable Requirements os ee etie cte ete sds inne chloe avian Ere En A dy Salen E Ee ee eese reves tede cn aul peepee 54 XIM Termin l Strip Connections osteoarthritis 54 RS 485 Cable Requirements A eet eere mee dele tener ne va i tio 54 EXPANSION BOARD CONNEGTIONS 5 5 E i i i b E ER RENE UR RR rt rn 56 Expansion Input Output Boards eee esee esses teen eene enne enen teen te enne tn se tnt teet tese nnt tenete se there ennt EESE EESE SESE 56 Expansion Board Connections cesse eda ea eet tete tei te E e heel e qn Festa ee ce ae tetto 56 Supervised Alarm Board Installation eese nn 58 Supervised Alarm Board Power Connection eese rana 58 Supervised Alarm Board Power Cable Requirements eese eese nr eere inn 58 Data Control Line Ribbon Cable Connections eese esee eenennee eene rre eere trennen rines 58 Supervised Alarm Board Accessory Connections eese eene anna rin 60 Supervised Alarm Cable Requirements esee esee ono non nan eene nennen enint nente TET ETET 60 Supervised Alarm Board Address Selection Jumper seen nr neret ees
89. t Install the new power supply in the reverse order of the removal so Superterm Cabinet Figure 56 Turbo Superterm Power Supply Replacement 87 Turbo Superterm P1800 v1 2 Backup Battery Replacement WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with backup battery replacement 1 Open the Turbo Superterm cabinet and locate the backup battery P N CI HE0042 amp CI HE0047 secured to the lower center ledge of the cabinet see Figure 57 2 Remove the two 6 32 x 1 4 screws securing the backup battery to the Turbo Superterm cabinet 3 Disconnect the RED lead from pin 6 labeled BAT of the power input terminal strip refer to page 18 StepDown Transformer Connection for specific information 4 Disconnect the BLACK lead from pin 5 labeled BAT of the power input terminal strip 5 Disconnect the RED lead from the POSITIVE terminal of the battery 6 Disconnect the BLACK lead from the NEGATIVE termi nal of the battery 7 Remove the old battery 8 Install the new battery in the reverse order of the removal Note The PowerSonic PS 1270 or PS 12120 are ac cepted replacements Turbo Superterm P1800 v1 2 MAINTENANCE Backup Battery In Line Fuse Replacement WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with in line fuse replacement 1 Open the Turbo Superterm cabinet and locate the backup battery s
90. tem requires 120VAC 60 Hz volt age The incoming 120VAC source voltage connects to the AC Input Power Terminal Block located in the lower left hand corner of the Turbo Superterm cabinet see Figure 7 NOTE Use of a dedicated unswitched 120VAC power source results in optimal performance with minimum interference Turbo Superterm units with optional 220VAC power are available where re quired for use outside of the United States WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with con nections Table 1 lists the incoming 120VAC source voltage connections to the AC Input Power Terminal Block Table 1 AC Input Power Terminal Block Connections Incoming 120VAC Wire Color AC Input Terminal Block Line Black L Neutral White N Ground Green 24 Ground Terminal AC To Transformer POWER Neutral Assembly CORD S MOM ue Y AC INPUTPOWER TERMINAL BLOCK Turbo Superterm Cabinet Figure 7 AC Input Power Terminal Block Turbo Superterm P1800 v1 2 16 Turbo Superterm Circuit Board Layout The Turbo Superterm circuit board see Figure 8 provides wiring terminal strips for external access control devices card readers keypads alarms etc The following descriptions in this manual reference the Turbo Superterm main circuit board shown below and use cutaway drawings to identify specific locations on the circuit board
91. th proper Pin 1 alignment All Expansion I O boards mounted on the Turbo Superterm cabinet are joined with either 5 inch ribbon cables or 18 inch ribbon cables e The 5 inch ribbon cables are used for inter connecting daisy chaining the Expansion I O boards mounted on the cabinet wall e The 18 inch ribbon cable is used to connect the innermost Expansion I O board to the Turbo Superterm main circuit board at the Data Control Line Input Terminal Strip Warning The 18 inch ribbon cable should NOT be used to connect Expansion IO boards to gether and should only be used to connect Expan sion IO to the Superterm main circuit board 58 Input Power Terminal Strip P1 Snap E i 4 i 5 Ribbon Cable Terminal Strip EXPANSION BOARD CONNECTIONS Ribbon Cable Terminal Strip P2 18 Cable to Data Control Line Terminal Strip IN OUT or 5 Cable to Next Expansion Board 00000000000000000 00000000000000000 Address Selection Jumper b ee E x1X2 ANN OXX RETA Alarm Input Terminal Strip ef J4 J19 LL LLL LLL i zara A s ag 9 ah OW 7D mI op m 1 Snap Standoff im Figure 37 Supervised Alarm Board Layout Supervised Alarm Board Figure 38 Supervised Alarm Board to Turbo Superterm Power Connection Auxiliary Power Terminal Strip Turbo Superterm Circuit Board 59 Turbo Superterm P1800 v1 2 EXPANSION BOARD CONNECTIONS Supervi
92. tion Disconnect the transformer s LINE Black lead from the AC input power terminal block Remove the four 4 lock nuts securing the transformer assembly to the Turbo Superterm cabinet Remove the old transformer assembly Install the new transformer assembly in the reverse order of the removal 1 dandis Superterm Cabinet your Lock Nuts 4 Transformer x Housing i Figure 58 Replacing the Turbo Superterm Transformer Assembly 89 Turbo Superterm P1800 v1 2 MAINTENANCE Service Entrance Fuse Replacement WARNING Verify that the AC source voltage is switched off at the breaker panel before proceeding with ser vice entrance fuse replacement 1 Open the Turbo Superterm cabinet and locate the trans former assembly secured to the lower left hand ledge of the Turbo Superterm cabinet see Figure 59 2 Locate the fuse housing in the upper left hand comer of the transformer assembly Remove the old fuse 4 Replace with a new 3AG 2A 120VAC fuse 220VAC outside the United States Replacement fuse is 5x20mm 1A time lag fuse Close the Turbo Superterm cabinet 6 Restore the AC source voltage to the Turbo Superterm U e zo Superterm Cabinet Figure 59 Service Entrance Fuse Replacement Turbo Superterm P1800 v1 2 90 SPECIFICATIONS SPECIFICATION Quantity 8 4 Door Com
93. tween the COMI terminal strip and a printer Distance maximum Printer 50 ft 15m 22AWG Shielded w drain Printer Setup Parameters Proper operation between the Turbo Superterm and a printer requires that the printer be set to the following parameters Note Functionality of COM1 may vary with Firmware and may not be available on all versions Turbo Superterm P1800 v1 2 52 Table 34 Connection Table for COMI Terminal Strip Baud Rate 9600 COMI Pin Function DB 25P Pin 4 Parity None 4 Data Bits 8 TXD 3 Stop Bits 1 5 RXD 2 6 GND 7 COMMUNICATION CONNECTIONS to Com Port DB25S Connector 3 Conductor Stranded 22AWG Shielded with Drain Wire N OTE 50 ft 15m Maximum Distance PAIPORTA IIS 3 YXXX CO OO Turbo Superterm Circuit Board Figure 34 COM1 Terminal Strip Connection 53 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS COM2 Terminal Strip Connection An auxiliary RS 232 device connects to the Turbo Superterm through the COM2 terminal strip see Figure 35 Table 36 lists the connections between the COM2 terminal strip and a RS 232 device Table 36 Connection Table for COM2 Terminal Strip NOTE Proper operation of the Turbo Superterm and an RS 232 device requires setting the COM2 jumper Refer to page 74 for specific information regarding setting the COM2 jumper RS 232 Cable Requirements RS 232 device connections to
94. uperterm listed to the particular UL specification Turbo Superterm P1800 v1 2 u 294 Safety of Access Control System Units The 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 les Installer Responsibilities General For the Turbo Superterm to meet the users expectations under any of the previously mentioned UL specifications the in staller 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 Turbo Superterm and most of the connected equipment only when the chassis of the Turbo Superterm unit is effec tively grounded The ratings and limitations declared on the Turbo Superterm UL label must not be exceeded No more than one DI DO relay expansion board may be installed
95. ur mounting holes against the mounting sur face using the Turbo Superterm 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 e 17 5 444cm 7 12 5 31 77cm Figure 4 Turbo Superterm Cabinet Mounting Hole Dimensions Turbo Superterm P1800 v1 2 3 Place the Turbo Superterm cabinet out of the way 4 Drill pilot holes to the required depth and size for the mounting screws 5 Insert the mounting screws into the wall Leave approxi mately one quarter of the screw s length protruding from the wall NOTE Do not tighten screws completely at this time 6 Place the Turbo Superterm cabinet over the mounting screws Secure the Turbo Superterm cabinet to the mounting surface and tighten the remaining length of the screws Mounting Surface Superterm Cabinet Mounting Screws 4 Detail A Figure 5 Turbo Superterm Mounting Screws Cable Routing All associated cabling for the Turbo Superterm is divided into two categories e Power Cables and Accessory Relay Devices This category contains all the power cables servicing the Turbo Superterm and any accessory relay controlled de vices connected to it e Communication Cables This category contains all the communication cabling be tween the Turbo Superterm and all communication de vices all alarm devices and all card reader d
96. uter Connection 41 Turbo Superterm P1800 v1 2 COMMUNICATION CONNECTIONS Networking The Turbo Superterm can be networked with a maximum of 62 other Turbo Superterm units or other Continental Instruments ac cess control devices Superterm Smarterm Miniterm Microterm and Super Two NOTE Multidrop networks are limited to 32 access control devices The following network configurations are possible RS 232 to RS 422 Networks RS 232 to RS 422 REPEAT Network RS 232 to RS 422 MULTIDROP Network RS 422 to RS 422 Networks RS 422 to RS 422 REPEAT Network RS 422 to RS 422 MULTIDROP Network NOTES If the first Turbo Superterm in the network is less than 50 feet 15 2m from the host computer the first Turbo Superterm in the network may be used to convert the RS 232 polling signal to RS 422 for the remainder of the network Ifthe first Turbo Superterm in the network is more than 50 feet 15 2m from the host computer an RS 422 polling line converter is required Network Jumper Settings The MODE and the EOL2 jumpers on each Turbo Superterm must be set depending on the type of network configuration Refer to page 72 for specific information regarding the EOL2 jumper Refer to page 76 for specific information regarding the MODE 1 jumper Network Cable Requirements Networking multiple Turbo Superterms requires 4 conductor ca ble 2 two wire twisted pair stranded 22A WG with shielding and drain wire Address Switch S1
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