Northern N-1000-III Installation And Programming Manual Download

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N-1000-III/IV

Installation and

Programming

Manual

TD1064 rev0400 - NCI

ADEMCO Part # K4788

Summary of Contents for N-1000-III

Page 1: ...N 1000 III IV Installation and Programming Manual TD1064 rev0400 NCI ADEMCO Part K4788 ...

Page 2: ...ed to correct the interference at his own expense Notice The information in this document is subject to change without notice Notice This document and the data herein shall not be duplicated used or disclosed to others for procurement or manufacturing except as authorized with the written permission of Northern Computers Inc The information contained within this document or within the product itse...

Page 3: ...ii ii ii ii ii N 1000 III IV ...

Page 4: ... 4 4 Terminal Block 6 4 6 4 5 Terminal Block 7 4 8 4 6 Terminal Block 8 4 10 4 7 Terminal Block 9 4 10 4 8 DIP Switch Settings 4 12 4 9 Jumpers 4 14 4 10 Connectors 4 15 4 11 LEDs 4 16 4 12 RestartButton 4 18 4 13 RAM Chip 4 18 4 14 PROM Chip 4 18 4 15 Additional Installation Information 4 18 Section 5 Operation 5 1 5 1 Card Reader Keypad Operation 5 1 5 2 Alarm Input Points 5 4 5 3 Relay Output P...

Page 5: ...0 Section 7 Locks and Suppression 7 1 Section 8 Grounding 8 1 Section 9 Power 9 1 Appendix A Programming Quick Reference Guide A 1 Commands A 5 A Command A 5 C Command A 6 D Command A 8 E Command A 9 F Command A 10 G Command A 12 H Command A 13 I Command A 13 L Command A 14 M Command A 15 N Command A 16 O Command A 17 P Command A 18 R Command A 18 T Command A 19 V Command A 19 W Command Used with ...

Page 6: ... 485 version in the N 1000 III IV The following table identifies the different features of each version of the N 1000 panel Version CardReaders MatrixKeypads Alarm Inputs Relay Outputs Cards Buffers N 1000 III 2 2 16 4 5 000 10 200 N 1000 III X 2 2 16 8 25 000 6 600 N 1000 IV 4 2 16 4 5 000 10 200 N 1000 IV X 4 2 16 8 25 000 6 600 A version with removable wiring terminal strips is available for ea...

Page 7: ...l panel was UL294 tested as a stand alone unit only The N 485 HUB 2 was not investigated by UL The N 1000 III IV was UL294 tested using the following card readers Model 30387 CR 1 Wiegand swipe reader Model 5365BGP00 PR MINI PROX proximity reader Model 5355AGN00 PR P PRO proximity reader The N 1000 III IV was UL294 tested using the Basler Electric transformer part number BE11625CAA 0042 X 4 ...

Page 8: ...aster than the standard N 1000 II increas ing the speed of internal processing At the same time communications output is the same as the N 1000 II panels so they can be used in the same loop An additional Terminal Block TB9 has been added in the upper left quadrant of the board This terminal block has an Earth Ground connection a battery plus and minus in addition to the soldered in battery wires ...

Page 9: ...of the Keypad There is a separate Tamper Input located on TB9 This makes Input 12 termi nal now located on TB6 available as a regular alarm input Each input can be individually programmed for both Normally Open or Normally Closed and Supervised or Non Supervised operation There are several changes to the System inputs Alarm 17 Communications status alarm but now it reports for either 20 mA or 485 ...

Page 10: ...anyone who holds it access to an area The risk of lost or stolen keys with the expense of changing locks is a costly problem Access control is an effective and affordable solution to this problem With access control each person receives a card or keycode which restricts access to authorized areas at authorized times A small programmable control panel allows or denies access If a card is lost or st...

Page 11: ...1 2 N 1000 III IV Section 1 Access Control Section 1 Access Control Section 1 Access Control Section 1 Access Control Section 1 Access Control ...

Page 12: ...Converter or via the 485 multi drop interfaces N 485 PCI 2 or N 485 HUB 2 A single communications loop supports up to 63 uniquely addressed control panels if the 20 mA loop is utilized or 31 panels for 485 communications A typical 20 mA communications loop configuration is shown in Figure 2 1 while Figure 2 2 illustrates a typical 485 multi drop configuration The N 1000 III control panel provides ...

Page 13: ...gramming Devices N 1000 III IV control panels in a communications loop are programmed with a personal computer printer programmer or data terminal When using a personal computer as the system programming device the PC software serves as a database manager for the N 1000 III IV control panels Information is entered into the PC databases and then downloaded to the control panels During the download ...

Page 14: ...must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 Figure 2 4 N 1000 IV X Panel with Enclosure The N 1000 IV supports four card readers and four relays for output control capability The N 1000 IV X includes four additional relays with expanded database buffer memory capacity Panel must be...

Page 15: ... to remote control panels via modem C 100 M Refer to the C 100 A1 Manual for further details 2 4 N 485 PCI 2 or HUB 2 The N 485 PCI 2 is used to interface between a PC s RS 232 port and the 485 multi drop communications bus The N 485 HUB 2 is used to interface between a modem s RS 232 port and the 485 multi drop bus Only the 2 versions of these products will function with the N 1000 III IV 2 5 PRO...

Page 16: ...Total 1 8 amps maximum 1 79 amps Memory Backup A large value capacitor retains panel memory upon loss of both primary and backup battery power for up to seven days depending on ambient temperature and the number of RAM ICs Fuses 3 amp solid state non replaceable automatic resetting Depending on the overload and the temperature it may take up to several minutes for the fuses to reset Alarm Input Po...

Page 17: ...witch provided The N 1000 III IV enclosure with control panel is illustrated in Figure 3 1 Weight 21 pounds 9 5 kg with enclosure and backup battery Figure 3 1 Enclosure for the N 1000 III IV The N 1000 enclosure shown here with the N 1000 IV panel has a lock and key knockouts and a tamper switch A 12 VDC battery is mounted on the door Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS E...

Page 18: ... has 12 individual terminal positions described in the following sections Figure 4 1 shows the panel with its printed template The N 1000 IV X has an additional board in place of TB5 see Figure 4 2 with four removable wiring terminal blocks for connection to four readers Complete terminal block details follow Figure 4 1 N 1000 III Panel The panel is shown with its printed template N 1000 IV F N 10...

Page 19: ...in the lower right quadrant of the N 1000 IV panel see Figure 4 2 The wiring terminals are removable and interchangeable The regular reader terminals on the main board are not used This board is connected to the main panel by connector P3 located directly above the bottom center of the N 1000 panel Typical wire color terminations are illustrated in Figure 4 3 Refer to the reader installation techn...

Page 20: ... to an error or power supply problem A pair of jumper prongs located on the Four Reader Board allows a reader function test Shorting these prongs labeled TEST will cause the board to generate a simulated card read with the PIC firmware version from each of the four readers Figure 4 3 Four Reader Board On the N 1000 IV the Four Reader Board replaces Terminal Block 5 and provides connections for up ...

Page 21: ... provides relay contacts for relays 3 and 4 Terminal Block 3 provides relay contacts for relays 5 and 6 Terminal Block 4 provides relay contacts for relays 7 and 8 Terminal block 1 2 3 4 terminations are as follow Pos TB1 TB2 TB3 TB4 Function 1 Relay 2 A Relay 3 A Relay 6 A Relay 8 A Normally Closed 2 Relay 2 A Relay 3 A Relay 6 A Relay 8 A Common 3 Relay 2 A Relay 3 A Relay 6 A Relay 8 A Normally...

Page 22: ...N 1000 III IV Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 1 2 3 4 5 6 7 8 9 10 11 12 NC NO COM NC NO COM NC NO COM NC NO COM NC NO COM NC NO COM NC NO COM NC NO COM 1 2 3 4 5 6 7 8 9 10 11 12 Relay 2 Relay 1 Relay 3 Relay 4 1 NO 2 COM 3 NC 4 NO 5 COM 6 NC 7 NO 8 COM 9 NC 10 N...

Page 23: ...r 1 Card Reader 1 LED Aux Output 11 Brown 2 Card Reader 1 Data 1 White 3 Card Reader 1 Data Ø Green 4 Card Readers 1 2 5 VDC Red 5 Card Readers 1 2 Ground Black 6 Card Reader 2 Data Ø Green 7 Card Reader 2 Data 1 White 8 Card Reader 2 LED Aux Output 12 Brown 9 Alarm Point Common 10 LED Buzzer 3 Aux Output 13 11 LED Buzzer 4 Aux Output 14 12 Earth Ground for Cable Shields Shield All N 1000 alarm po...

Page 24: ...EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 12 Alarm Input 16 11 Alarm Input 15 10 Alarm Input 14 9 Alarm Input 13 8 Alarm Input 12 7 Alarm Input 11 6 Alarm Input 10 5 Alarm Input 9 4 Alarm Input 8 Door 4 Egress N 1000 IV 3 Alarm Input 7 Door 3 Egress N 1000 IV 2 Alarm Input 6 Door 2 Egress 1 Alarm Input 5 Door 1 Egress 12 Earth Ground...

Page 25: ...ti drop or the 20 mA communications mode The last panel on the 485 multi drop cable must be properly configured Refer to Section 4 9 Jumpers for further information The 20 mA communication protocol specifications are as follow ASCII text characters 8 data bits 1 stop bit No parity Refer to Section 4 8 for baud rate settings Terminal Function Wire Color s 1 Alarm Point Common 2 485 multi drop A Red...

Page 26: ...ction 4 Panel L anel L anel L anel L anel Layout ayout ayout ayout ayout 4 9 4 9 4 9 4 9 4 9 Figure 4 6 Terminal Block 7 Terminal Block 7 contains the 485 multi drop communication connection terminals for alarm input points 1 through 4 an alarm point common and the 20 mA communication loop receive and transmit terminals ...

Page 27: ...lect 2 12 Alarm Point Common 4 7 Terminal Block 9 Terminal Block 9 is located just to the right of terminal Block 8 It has the power supply and auxiliary connections See Figure 4 7 The 12 volt back up battery wires are soldered to the circuit board When connecting an external DC supply the N 1000 III IV 12 VDC battery can remain connected and provides additional battery backup TB9 Terminal Functio...

Page 28: ... anel L anel L anel L anel Layout ayout ayout ayout ayout 4 11 4 11 4 11 4 11 4 11 Figure 4 7 Terminal Blocks 8 9 Terminal Block 8 is used for 11 conductor matrix keypad connections and also provides an alarm point common Terminal Block 9 is located just to the right of Terminal Block 8 It has the power supply and auxiliary connections ...

Page 29: ...f the self test refer to Appendix C Trouble Shooting Baud rate and panel address DIP switch settings are as follow Baud Rate 1 2 Panel No 3 4 5 6 7 8 1200 Off Off 1 On On On On On Off 2400 Off On 2 On On On On Off On 4800 On On 3 On On On On Off Off 9600 On Off 4 On On On Off On On 5 On On On Off On Off 6 On On On Off Off On 7 On On On Off Off Off 8 On On Off On On On 9 On On Off On On Off 10 On O...

Page 30: ...f Off 40 Off On Off On On On 41 Off On Off On On Off 42 Off On Off On Off On 43 Off On Off On Off Off 44 Off On Off Off On On 45 Off On Off Off On Off 46 Off On Off Off Off On 47 Off On Off Off Off Off 48 Off Off On On On On 49 Off Off On On On Off 50 Off Off On On Off On 51 Off Off On On Off Off 52 Off Off On Off On On 53 Off Off On Off On Off 54 Off Off On Off Off On 55 Off Off On Off Off Off 56...

Page 31: ...ine EOL termination for JP3 Open 485 drop line Refer to Section 6 6 8 for details JP4 Jump Pins 1 2 Jumper is on for the panel at the end of the 485 multi drop cable default Remove Remove the jumper if the panel is not at the end of the cable or JP2 and JP3 are used Refer to Section 6 6 8 for details JP5 Not Used JP6 Jump pins 2 3 Select onboard power status detection default Jump Pins 1 2 Select ...

Page 32: ...s Connector Function Battery Wires Red and Black wires soldered to the circuit board with fast on connectors for the 12 volt backup battery J1 Four pin connector for the AEP 3 Revision A Relay Expansion Board s J2 Eight pin connector for the AEP 3 Revision B Relay Expansion Board s Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN ...

Page 33: ...Red Energized Output Relay 8 Indicator 8 Red Energized 485 Status 9 Green Slow flashing indicates proper 485 communications 12 VDC Indicator 10 Green 12 V DC external power is available 5 VDC Indicator 11 Green Panel is supplying 5 VDC output for reader keypad power Low Voltage OK 12 Green Battery voltage acceptable and RAM back up available Input Ground 13 Red Ground fault detected Run 14 Green P...

Page 34: ...el Layout ayout ayout ayout ayout 4 17 4 17 4 17 4 17 4 17 Figure 4 10 LED Functions When an LED is lit it indicates that its relay is energized that is the normally open relay contacts become closed and the normally closed relay contacts become open Not lit indicates relay is de energized that is normally open and normally closed contacts are in normal state ...

Page 35: ... buffer memory The N 1000 III IV control panels use a single RAM chip with the option of an addi tional chip in socket U6 The N 1000 III IV X control panels come equipped with an extra RAM chip See Figure 4 11 NOTE Control panel card database and transaction buffer capacities are deter mined by the number of RAM chips used and can be modified by use of the U command I option Refer to Appendix A Pr...

Page 36: ...program and control logic memory Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES L Lo oc ck k S So olle en no oiid d 1 1 3 3 4 4 5 5 6 6 7 7 8 8 9 9 10 10 2 2 11 11 12 12 N 1000 III IV Reader 1 Reader 2 Restart Button U6 Optional RAM Chip U19 Main Logic PROM U35 PLD U5 485 EPROM Do not mount the power supplies modem or ...

Page 37: ...B7 TB8 TB9 N 1000 III Magnetic Lock Key pad KP 10 12 V Battery BAT 3 C100 A 1 Transformer X 4 4 AC One 5 AC Two Normally Open Switch held closed by door 4 Alarm One 24 VDC Lock Power Supply 7 Normally Closed 8 Common Enclosure Earth Ground Stud To PC or modem Red Black Shield TB6 TB2 TB3 TB4 TB5 N 1000 III only Red Door Status Switch Card Reader CR1 Egress Switch Normally Closed Switch S 4 Suppres...

Page 38: ...ssage The control panel continuously monitors the card reader and keypad ports for code use Access is restricted by placing time zone limitations on the codes in use NOT by time zone controlling disabling the reading devices Card reader or keypad activation of output points is determined by the presence or absence of the anti passback option in panel memory Refer to I Command A Option in Appendix ...

Page 39: ...valid code use With four card readers readers 1 and 2 activate Output Relay 1 Door 1 reader 3 and 4 activate Output Relay 3 Door 2 In anti passback applications requiring a separate output relay for each reader such as turnstile applications refer to Appendix A A Command WARNING K3 K4 K 1 K 1 K5 K10 K6 K7 K8 K2 N 1000 III Card Reader 2 Out Common Card Reader 1 In Input 1 Door Status Switch K3 K3 K...

Page 40: ...2 Panel must be earth grounded Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED LED D1 ...

Page 41: ...ftware states of UNSHUNTED active and SHUNTED not active When an input is unshunted all physical changes of state openings and closures are recognized When an input is shunted physical changes of state are Figure 5 3 Input Point configuration N 1000 III IV Input Configurations Input Condition Input Status 1 Non Supervised Normally Closed Circuit default Shorted Normal Open Alarm Resistance Trouble...

Page 42: ...osed contacts used to switch activate deactivate electrical devices Output points have only a physical state as described below Physical State Output points have physical states of DE ENERGIZED and ENERGIZED When an output is de energized normally open and normally closed contacts are in normal state When an output is energized normally open contacts become closed and normally closed contacts beco...

Page 43: ... another input point or output point change of state The reserved input and output points default interlocks default pulse times and default shunt times for various system configurations without anti passback with anti passback and with free egress are shown below Configurations WITHOUT Anti Passback Input Point Reserved for Default shunt time Input 1 Door position switch for Door 1 15 seconds Inp...

Page 44: ...oor 1 Card Reader 1 Input Point 1 Common Input Point 2 Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED LED D1 DØ 5v GND Shield LED D1 DØ 5v GND Shield LED D1 DØ 5v GND Shield LED D1 DØ 5v GND Shield Status LED Status LED Northern Computers Inc Northern Computers Inc Reader 1 Reader 1 Reader 2 Reader 2 Reader 3...

Page 45: ...tch for Door 3 15 seconds Input 4 Door position switch for Door 4 15 seconds Input 5 Egress device for Door 1 0 seconds N A Input 6 Egress device for Door 2 0 seconds N A Input 7 Egress device for Door 3 0 seconds N A Input 8 Egress device for Door 4 0 seconds N A Output Point Reserved for Default pulse time Output 1 Door lock for Door 1 10 seconds Output 2 Door lock for Door 2 10 seconds Output 3...

Page 46: ...ing Door 1 for 10 seconds The activation of Output 1 triggers the shunt time of Input 1 via the interlock shunting Door 1 status switch for 15 seconds K 1 K 1 N 1000 III Card Reader 1 In Input 1 Door Status Switch Reader 1 Reader 1 To N 1000 To N 1000 K3 K1 Reader 1 In Reader 3 In N 1000 IV Input 1 Input 3 Door 2 Door 1 Reader 2 Out Reader 4 Out Door Status Switch Door Status Switch Common Card Re...

Page 47: ...shunted for the duration of its shunt time 15 seconds by default upon valid code use OR upon egress attempt Door 1 shunt time is determined by Input 1 shunt time NOT Input 5 shunt time Input 5 shunt time does not apply Panel must be earth grounded Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES S 4 SUPPRESSION REQUIRED ...

Page 48: ...fault upon valid code use OR upon egress attempt Door 2 shunt time is determined by Input 2 shunt time NOT Input 6 shunt time Input 6 shunt time does not apply WARNING Panel must be earth grounded Panel must be earth grounded WARNING S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DE...

Page 49: ... time not Input 7 shunt time Input 7 shunt time does not apply Panel must be earth grounded Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 K 1 K 1 Common N 1000 IV Door Status Switc...

Page 50: ... time not Input 8 shunt time Input 8 shunt time does not apply Panel must be earth grounded Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES Lock Solenoid 1 3 4 5 6 7 8 9 10 2 11 12 K 1 K 1 Common N 1000 IV Door Status Switc...

Page 51: ... point reports Auto relock operation can be set manually with the V Command K option found in Appendix A Default auto relock operation is described below and illustrated in Figure 5 10 5 11 and 5 12 With Anti Passback With anti passback enabled Input 1 is configured for auto relock with Output 1 Without Anti Passback Without anti passback enabled Input Point 1 is configured for auto relock with Ou...

Page 52: ...10 seconds The activation of Output 1 triggers the shunt time of Input 1 via the interlock shunting Door 1 status switch for 15 seconds Output Relay 1 de energizes immediately upon Input 1 s return to normal state relocking Door 1 and re arming Input 1 rather than remaining energized shunted for the duration of the 10 second pulse time 15 second shunt time WARNING WARNING K3 K4 K5 K10 K6 K7 K8 Car...

Page 53: ...shunt time Output Relay 2 de energizes immediately upon Input Point 2 s return to normal state re locking Door 2 and re arming Input 2 rather than remaining energized shunted for the duration of the 10 second pulse time 15 second shunt time WARNING WARNING K3 K4 K5 K10 K6 K7 K8 Card Reader 1 Card Reader 2 N 1000 III Door 1 Door 2 Egress exit Device Input Point 6 Shunt Time 0 Door Status Device Inp...

Page 54: ...mediately upon Input Point 4 s return to normal state re locking door 4 and re arming Input 4 rather than remaining energized shunted for the duration of the 10 second pulse time 15 second shunt time WARNING WARNING K4 K5 K10 K6 Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED LED D1 DØ 5v GND Shield LED D1 DØ 5v GND Shield d Card Reader 3 Card Reader 4 N 1000 IV Door 3 Door 4 Egress Exit Device In...

Page 55: ...5 18 5 18 5 18 5 18 5 18 N 1000 III IV N 1000 III IV N 1000 III IV N 1000 III IV N 1000 III IV Section 5 Operation Section 5 Operation Section 5 Operation Section 5 Operation Section 5 Operation ...

Page 56: ...ure 6 1 for typical wiring diagram Card reader keypad communication shields should be connected to TB5 position 12 The shield at the card reader keypad end should not be grounded unless the device is electrically floating not touching metal See Figure 6 1 Typical Card Readers using Reader Cable NC1861 or for Plenum applications NCP1861 have the following terminations maximum distance is 500 or 152...

Page 57: ...vailable on Terminal Block 9 position 7 Card reader keypad communication shields should be connected to TB5 position 12 The shield at the card reader keypad end should not be grounded unless the device is electrically floating not touching metal Brown LED White Data 1 Green Data Ø Red 5 VDC Black Ground Blue Not used Aux Output 11 Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ...

Page 58: ... Reader 1 2 3 4 Terminal Function Reader Wire Color 1 LED Aux Output 11 Brown 2 Data 1 White 3 Data Ø Green 4 TB9 7 5 VDC 12 VDC Red 5 Ground Black Not used Blue 12 VDC power is available on Terminal Block 9 terminal 7 Use connection 4 or TB9 terminal 7 NOT BOTH Figure 6 2 Card Reader Connections for the N 1000 IV The N 1000 IV includes a board that supports up to four card readers The wiring term...

Page 59: ...unication shields should be connected to the panel at the shield position on the Four Card Reader wiring blocks The shield at the card reader keypad end should not be grounded unless the device is electrically floating not touching metal See Figure 6 3 Earth Ground Shield GND 5v DØ D1 LED Shield GND 5v DØ D1 LED LED D1 DØ 5v GND Shield LED D1 DØ 5v GND Shield Status LED Northern Computers Inc Read...

Page 60: ...tton is pressed the yellow row 3 and blue column 2 wires are activated put to ground Typical eleven conductor keypads using Keypad Cable NC18121 or for Plenum applications NCP18121 maximum distance is 500 or 152 m have the following terminations See Figure 6 5 Keypad 1 Keypad 2 TB Terminal Wire Color TB Terminal Wire Color 8 1 Brown 8 1 Brown 8 2 Blue 8 2 Blue 8 3 Green 8 3 Green 8 4 Black 8 4 Bla...

Page 61: ...to the keypad cable s shield only and connect the shield to the N 1000 III IV ground point Figure 6 5 Eleven Conductor Keypad Connection to the N 1000 III IV If the keypad is mounted on ungrounded metal or nonmetallic material tie the tan wire to the keypad cable s shield only and connect the shield to the N 1000 III IV ground point N 1000 III Lock Solenoid Earth Ground 5 VDC 1 2 3 4 Eleven conduc...

Page 62: ...anel communications cable NC1821 NCP1821 twisted pair 18 gauge overall shielded is recommended for relay output point use This enables the output device to be located up to 2000 feet 620 m away from the N 1000 III IV An 18 gauge wire s resistance results in a 6 5 volt drop for a quarter ampere load at 2000 feet Refer to Appendix A for a summary list of specific relay output point commands 6 6 Comm...

Page 63: ... 9 The transmit side grounding method is not recommended 6 6 3 AEP 3 to N 1000 III IV Up to two AEP 3 Relay Expansion Boards per N 1000 III IV panel can be added to the communication loop Using the cable supplied with the unit one AEP 3 connects to the N 1000 III IV at J1 and then to the next AEP 3 See Figure 6 10 Refer to the AEP 3 manual for further details C 100 A1 Maximum 63 control panels per...

Page 64: ... III IV two NC1821 cables Maximum distance 2000 610 m Controller to Controller two NC1821 cables Maximum distance 2000 610 m N 1000 III IV C 100 A1 to PC CBL 2 Maximum distance 50 15 m Last Controller to C 100 two NC1821 cables Maximum distance 2000 610 m P Panel must be anel must be ear earth grounded th grounded P Panel must be anel must be ear earth grounded th grounded 9 Receive 10 Receive 11 ...

Page 65: ...p In a multiple 20 mA panel communication loop the 20 mA communication cable shield between any two given panels in the loop should be grounded at one end only The preferred receive side grounding method is shown here The transmit side grounding method is not recommended Panel must be earth grounded S 4 SUPPRESSION REQUIRED ACROSS EVERY ACTIVE RELAY AND ELECTRICAL DEVICE CONNECT WITHIN 18 INCHES L...

Page 66: ...on Board The AEP 3 Relay Expansion Board is shipped with a cable It connects to the N 1000 III IV panel at J1 The next AEP 3 Expansion Board connects to the first as shown above See the AEP 3 manual for further details AEP 3 Both AEP 3 Boards are mounted upside down N 1000 III IV AEP 3 to N 1000 III IV cable shipped with AEP 3 AEP 3 P2 P1 White Black Red Green J1 AEP 3 Rev A Connector 4 3 2 1 Whit...

Page 67: ...nd of the line and a panel at the other end 6 6 5 N 485 PCI 2 to Panel The NC2021 NCP 2021 cable is recommended twisted pair 24 gauge overall shielded cable with a characteristic impedance of 120 ohms and a capacitance of 20 pf ft or lower should be used Consult the device installation guide for cable lengths and configurations The Communications Type Selection Jumper JP1 must be set to the RS 485...

Page 68: ...6 6 N 485 HUB 2 to Panel The same cable should be used as the connection between the N 485 PCI 2 and the panels The Communications Type Selection Jumper JP1 must be set to the RS 485 position 2 3 Figure 6 12 shows a typical configuration with a HUB using modems 6 6 7 N 485 HUB 2 to Modem The N 485 HUB 2 includes a DB 25 male connector with a three foot long cable to plug directly into the modem Fi...

Page 69: ... the API bias and EOL are present when proper attachments are made to pins 1 and 2 on TB2 Refer to TD1077 N 485 Communi cation Adaptor Installation Guide that comes with the N 485 API 2 The N 1000 III IV can provide bias for the PCI HUB and API units when they are not at the end of the line Bias and EOL resistors on the N 1000 III IV are attached by using the proper jumper settings Setting JP2 and...

Page 70: ... When the PCI is at the end of the drop line it provides bias and EOL for the line The N 1000 at the right provides EOL for the other end JP2 3 OFF no bias no EOL JP4 OFF no EOL Green White Connected EOL bias When the PCI is not at the end of the drop line JP2 and JP3 provide bias and EOL at one end and JP4 provides EOL at the other Green White Connected no bias no EOL Not In this configuration th...

Page 71: ...CP2021 WH A overall shielded cable with a characteristic impedance of 120 ohm and a capacitance of 20 pf ft or lower N 485 PCI 2 to PC Standard 9 pin female connector plugs into the serial port of the PC The cable shield should be connected at both ends and only to the TB9 position 12 N 485 PCI 2 RED wire RED wire GREEN wire BLACK wire WHITE wire BLACK wire to N 1000 III IV TB7 TB9 485 cable shiel...

Page 72: ...ring Requirements 6 17 6 17 6 17 6 17 6 17 Figure 6 15 485 Multi drop Connection with N485DRLA The N 485 DRLA Digital Redundant Loop Adapter provides an alternate communications route in the event that wiring is cut or a short circuit Also the signal is amplified at each node allowing longer wiring distances A minimum of three DRLAs are required ...

Page 73: ...1000 II NC1861 BL 18 6 conductor shielded 500 152 m PR 2 Hughes reader scanner to reader NC1861 BL 18 6 conductor shielded 30 9 m reader to N 1000 II NC1861 BL 18 6 conductor shielded 500 152 m PR 3 PR 5 Indala readers A 3 A 5 read head to RE 2 NC18121 YL 18 12 conductor shielded 75 23 m RE 2 to N 1000 II NC1861 BL 18 6 conductor shielded 500 152 m PR 20 PR 22 Indala readers A 20 A 22 read head to...

Page 74: ... 18 AWG 12 conductor keypad cable 1 000 NCNET 1 50 ohm network cable 1 000 NC2221 BR 22 AWG 2 conductor alarm cable 1 000 NC1821 OR 18 AWG 2 conductor power door cable 1 000 NCC59206 BK RG 59 video cable 1 000 NCP1821 GR 18 AWG 2 conductor Plenum panel communication cable 1 000 NCP2021 WH A 24 AWG 2 conductor Plenum RS 485 communication cable 1 000 120 ohm impedance 20 pf ft capacitance NCP1841 GY...

Page 75: ...d to a 485 PCI 2 a 485 PCI 2 a 485 PCI 2 a 485 PCI 2 a 485 PCI 2 or or or or or EXP EXP EXP EXP EXP SW1 1 SW2 1 closed SW1 1 SW2 1 closed SW1 1 SW2 1 closed SW1 1 SW2 1 closed SW1 1 SW2 1 closed SW1 2 and SW2 2 open SW1 2 and SW2 2 open SW1 2 and SW2 2 open SW1 2 and SW2 2 open SW1 2 and SW2 2 open WIN EXP DTE WIN EXP DTE WIN EXP DTE WIN EXP DTE WIN EXP DTE DB DB DB DB DB 9 9 9 9 9 male male male ...

Page 76: ... a resistor a capacitor and tranzorb network These parts are encapsulated in a rubber like insulating material One piece is installed across the relay contacts without regard to polarity The second is installed within 18 inches 457 mm of the electrical load locking device without regard to polarity See Figure 7 1 DO NOT run the panel wires or the lock power wires in the same cable conduit as the r...

Page 77: ...7 2 N 1000 III IV N 1000 III IV N 1000 III IV N 1000 III IV N 1000 III IV Section 7 Locks and Suppression ...

Page 78: ...nsformer s earth ground TB9 1 refer to Section 4 7 may be used if an unsuitable earth ground exists The transformer s 3rd ground prong must be plugged into the outlet Figure 8 1 Access Control System with Grounding Point NOTE The X 4 transformer s earth ground TB9 1 see Section 4 7 may be used if an unsuitable earth ground exists The 3rd ground prong must be plugged into the outlet Use one or the ...

Page 79: ...rods are bonded together A consolidated earth ground eliminates the problem of step voltage blowout in which measurable voltage potential exists between earth ground rods resulting in a current flow path and damage to the access control system during a lightning strike Ground wire runs should be as short and straight as possible Avoid sharp turns and use a minimum radius of eight inches 203 mm for...

Page 80: ...ower supply not both N 1000 III IV AC power terminals are shown in figure 9 1 Upon loss of primary power the control panel is powered from the 12 VDC 4 amp hour backup battery if present for up to four hours of full operation Alarm point 19 goes into alarm state upon primary power loss Battery wires with fast on connectors are soldered to the N 1000 III IV panel Use these to connect the 12 VDC bat...

Page 81: ...hen it should be wired to TB9 10 and TB9 11 Jumper JP6 Power Fail Signal must be moved to Position 1 and 2 in order to enable the external input Upon loss of backup battery power the control panel ceases operation but retains database transaction buffer memory for up to 7 days Power up Sequence for the N 1000 III IV Step 1 Set DIP switch and verify jumper settings Step 2 Make primary power supply ...

Page 82: ...to be used in an existing N 1000 II system the N 1000 II must be at least version 7 0 panel firmware Notation Conventions Notation Conventions Notation Conventions Notation Conventions Notation Conventions The following notation conventions are used bold Literal elements of a command that must be entered exactly as shown italic Variables that must be defined by the user Descriptions of these varia...

Page 83: ... to use in the access code number F Command Sub Command 5 dev device number as shown below N 1000 II N 1000 III IV 1 card reader 1 1 card reader 1 2 card reader 2 2 card reader 2 3 keypad 1 3 card reader 3 4 keypad 2 4 card reader 4 5 keypad 1 6 keypad 2 day s day of week as shown below 1 Monday 2 Tuesday 3 Wednesday 4 Thursday 5 Friday 6 Saturday 7 Sunday 0 Holiday notation all holidays dd day of...

Page 84: ...hardwire Panel System alarms N 1000 II N 1000 III IV 17 com status 20 mA 17 com status 485 20 mA 18 aux status 232 port 18 aux status 232 port 19 primary power 20 tamper 21 input ground fault status 22 low power supply 23 external 5 volt short 99 reset i o This symbol actually stands for I_ O_ G_ and indicates that you must choose one Input Output or Group Refer to individual parameter for details...

Page 85: ... 32 14 rdr 4 LED pn panel number 0 63 Ø global command relock component to relock as shown below I_input O_output G_group See input output and group shunt time shunt time as shown below S_sec M_min H_hr where sec seconds 1 63 min minutes 1 63 hr hours 1 63 sss card site code s 0 65535 tz time zone number 0 63 tz link time zone link number delay count 1 255 255 6 seconds delay zgn input group numbe...

Page 86: ...gn input output group information C Add codes cards keycodes M Set buffer print options E Eliminates pin invalid attempt counting A Assigns reader to pulse output input groups W Defines alarm input type NO NC supervision Z Creates groups of Inputs zones Commands Commands Commands Commands Commands The following commands are listed in alphabetical order A Command A Command A Command A Command A Com...

Page 87: ... _K _L_ _P_ _T _N_desc CR User options A Set Anti passback feature to IN card added with IN status NOTE the default status of cards is Unused K No PIN required L_ Limited code use P Personal Identification Number PIN T Trace code N Name must not be used with access control software Example _C 1_594_1_1_2_A_P_12345 Card number 594 is valid with PIN 12345 during Time Zone 1 at both card reader keypa...

Page 88: ... R Full report U OUT status Z time zone specification Example _C 1_L_3_1ØØØ 12ØØ The returned report includes only those codes from 1000 to 1200 with three or fewer uses remaining in Panel 1 Sub Sub Sub Sub Sub Command 5 Command 5 Command 5 Command 5 Command 5 Function Manually set anti passback IN OUT code status Syntax _C pn_ I O _card CR User options I Set IN status O Set OUT status Example Res...

Page 89: ...only has access at devices 1 and 2 at Panel 1 If Ø is entered for the 1st or 2nd Time Zone or both it will not overwrite the existing Time Zone If a device is listed it will be added to the existing device list Sub Sub Sub Sub Sub Command 7 Command 7 Command 7 Command 7 Command 7 Function Immediately set the status of all cards to Out Used with panels pro grammed for Anti passback Syntax _C pn_F C...

Page 90: ... the P option Syntax _E pn_P_tz CR Example _E 1_P_2 During Time Zone 2 a valid card PIN combination is required for access in Panel 1 Outside of Time Zone 2 only a valid card is required for access Sub Sub Sub Sub Sub Command 2 Command 2 Command 2 Command 2 Command 2 Function Pulse input point output point or group based on a selected number of consecutive invalid code uses Syntax _E pn_C_errors_ ...

Page 91: ...ader _F pn_fsn_32_S_Ø_D_Ø_B1_B2_B3_B4 PR 2Hughes IDIProximityReader _F pn_fsn_34_S_1_D_1_B1_B2_B3_B4 HG 1 Hand Geometry Reader _F pn_fsn_32_S_Ø_D_Ø_B1_B2_B3_B4 5 Conductor Keypad _F pn_fsn_32_S_Ø_D_Ø_B1_B2_B3_B4 Dorado Magstripe Cards _F pn_fsn_34_S_1_D_Ø_B1_B2_B3_B4 Sielox Wiegand Cards _F pn_fsn_34_S_1_D_1_B1_B2_B3_B4 Sielox Proximity Cards _F pn_fsn_32_S_Ø_D_Ø_B1_B2_B3_B4 NCS 25 Bit Cards _F pn...

Page 92: ...mat will cause a zero to appear at that point in the final card read Note User Option R can be used as shown here when adding to existing information or with position specified as a separate command Sub Sub Sub Sub Sub Command 3 Command 3 Command 3 Command 3 Command 3 Function Set the format for 35 bit cards used with the I Command OJ Option Syntax _F pn4_35_S_1_D_2_B1_B2_B3_B4 CR Sub Sub Sub Sub ...

Page 93: ...ber functions only to signify that the group is Special and will follow the rules below In the case where only one group is used this should be Ø in order to prevent action being transferred to the next group The single Special Group has one main function It will not go on during its time zone unless a card is swiped to turn it on But it will go off automatically at the end of its time zone in the...

Page 94: ..._N _OA _OD_dr1 _dr2 _OJ _OL _ON _OP_19_S _OP_Ø _P _R _S _U _V _Y _Z_Ø _Z_tzn CR User options A Anti passback B Continuous code reads busy E Free egress F Forgiveness with anti passback G Groups H Numb mode nh is unit of 15 seconds K Keypads I In Out command sent from panel L Limited Use Cards M Card Reader LED function reversed N Names OA Alarms are reported when coming out of time zone shunt OD D...

Page 95: ...is change will disable the AEP 5 Board Present Functioning alarm P Personal identification numbers PIN R Restart S Supervisory Board Not for use with N 1000 III IV U The number of cards panel should set itself for V Visitor cards Y Long format ABA cards Z_Ø Split time zone Z_tzn All cards with time zone numbers higher than the number indicated will use the next higher time zone at Reader 2 At Read...

Page 96: ...The panel buffers and prints all activity V The panel buffers only valid code activity and prints invalid codes and alarm input point activity X The panel buffers all activity and prints invalid codes and alarm input point activity F The panel dumps the buffer when it is within 100 transactions of capacity R The buffer is dumped all buffer transmit options are cleared Example _M 1_P Panel 1 buffer...

Page 97: ... Command 1 Command 1 Command 1 Function Assigns 12 character descriptive names to codes cards and keycodes Syntax _N pn_C_code_desc CR Example _N 1_C_8562_JONES _MIKE Code 8562 is assigned the name JONES MIKE in Panel 1 Sub Sub Sub Sub Sub Command 2 Command 2 Command 2 Command 2 Command 2 Function Assigns 12 character descriptive names to control panels card readers and keypads Syntax _N pn_R_dev_...

Page 98: ...lear all options D De energize Unshunt E Energize Shunt I Interlock disable P Pulse Shunt Definable Duration O Keep on T Returns a point to its time zone when removed by the O command with the D or E option Z time zone control disable Example Group 3 outputs 1 3 5 7 in Panel 60 is de energized and assigned a 12 second pulse time Command _O 6Ø_G_3_P Result Group 3 outputs 1 3 5 7 pulses for 12 seco...

Page 99: ...n 2 De energize Interlock command _P 1_I_5_O_3_E_D Result When Input 5 goes into alarm state motion detector triggered Output 3 energizes sounding the alarm When Input 5 returns to normal state Output 3 de energizes turning off the siren R Command R Command R Command R Command R Command Function Generates control panel database reports which are displayed on the system monitor and or printer Synta...

Page 100: ...ble messages A Acknowledge required B Buffered mode activation C Clear options D Debounce K Enable auto relock S Disable alarm normal messages X Reverse alarm normal states N Name input point Y Disabling response to interlock by time zone Example Alarm Acknowledge message without time zone Input 5 motion detector monitors a secure area You want the input to be shunted de activated during Time zone...

Page 101: ...erlock Example _V 1_G_5_6_Ø_N_ALL_RELAYS Group 5 is not time zone controlled and is assigned a pulse time of six seconds The group is assigned the name ALL RELAYS W Command Used with the N 1000 III IV only W Command Used with the N 1000 III IV only W Command Used with the N 1000 III IV only W Command Used with the N 1000 III IV only W Command Used with the N 1000 III IV only Function Program each ...

Page 102: ...OR ing of Inputs If two or more inputs are interlocked to a single output to energize on alarm and de energize on normal both all inputs must be normal before the interlock will allow the relay to de energize 1 This E Energize action will allow situations where for example several input points can be interlocked to one relay which is driving a sounder visual alert or digital dialer When several in...

Page 103: ...split method If the number is EVEN the jump described below will be 1 If the number is ODD the jump will be 2 The ODD EVEN distinction is used to distinguish the situation of regular groups described here from that of Paired Special Groups 2 In setting up the groups and assigning them with access levels it is necessary to keep in mind that group numbers higher than the number specified in the I co...

Page 104: ...sion number similar to the label on the PROM chips on the main board A Reader Function Test is available on the N 1000 IV A pair of jumper prongs located on the Four Reader Board and labeled TEST can be shorted to cause a function test It will cause the board to generate a simulated card read from each of the four readers An improved canister has more knockouts a larger battery bracket and im prov...

Page 105: ...set or power up if the battery is too low for reliable operation A 16 5 volt AC power source is now required allowing the charging of a 12 volt battery for back up as well as the supply of 12 Volt Reader and PIR egress power from the N 1000 III IV A 12 volt output 500 mA is available for powering 12 volt readers or PIR egress detectors Connections for this are at TB9 terminals 7 and 8 Common Conne...

Page 106: ...le is RD nn_ _ _ _ _ Card Number etc Reader 1 or Keypad 1 RD nn_ _ X _ _ Card Number etc Reader 2 or Keypad 2 RD nn_ _ 3 _ _ Card Number etc Reader 3 RD nn_ _ 4 _ _ Card Number etc Reader 4 There are screw terminals for the reader cable shield connections These are nearer to where the wires come in eliminating the need to run the shield wire around the board The default relationships between Reade...

Page 107: ...e number of the input point being set SO Supervised N O Resistor in parallel with switch SC Supervised N C Resistor in series with switch NO Non supervised N O and NC Non supervised N C default If an End Of Line Resistor is put on a point and it is not set up as a supervised point using one of the commands above it will report TROUBLE whenever the resistance is connected This should serve as a war...

Page 108: ...ive load rated They have a maximum load rating of 30 VDC 5 A Resistive 2 A Inductive They also have circuitry which is less susceptible to electrical switching noise The ERB 1 Four Point Solid State Relay Expansion Board can not be used with the N 1000 III IV Jumpers There are several functions that are controlled by jumpers See Section 4 9 Number Position Function JP1 Jump Pins 1 2 Selects 20 mA ...

Page 109: ...cts become open Not lit indicates relay is de energized that is normally open and normally closed contacts are in normal state 485 Status 9 Green Slow flashing indicates proper 485 communications Stays lit indicates the panel address is not found or the baud rate is incorrect Flickers rapidly and is somewhat dim it is an indication that there has been a degradation in the bus signal Rapid flashing...

Page 110: ... even with primary power available Also flashes alternately with the RUN LED when there is an incorrect PLD as described above Com Loop 16 Yellow Lit indicates the output terminals have a closed circuit flickering off indicates outgoing transmis sions are occurring 485 TX 17 Red Periodic quick flashing indicates the panel is commu nicating on the 485 bus Four Reader Board Status Green Quick flash ...

Page 111: ...B 8 B 8 B 8 B 8 B 8 Appendix B New N Features Appendix B New N Features Appendix B New N Features Appendix B New N Features Appendix B New N Features N 1000 III IV ...

Page 112: ... 9 for power down instructions After complete power down move jumper JP9 to Open and JP10 to Close This will clear all RAM while the panel is powered down After a 60 seconds return JP9 to close and JP10 to open This brings the N 1000 back to its factory default settings Problem Communication from the system programming device to the control panel s is not established 20 mA Solution When programmin...

Page 113: ...tal factors Determine whether the problem is related to the card reader in use or the N 1000 reader port in use Wire the card reader in question to an N 1000 reader port that is known to operate properly or wire a card reader known to operate properly to the reader port in question and test with known card Problem A keycode is not transmitted to the programming device when entered at an Eleven con...

Page 114: ...he ribbon cable going to the Four Reader Board if present Then perform the following DC voltage measurements Test Point w reference to Common Test Conditions Nominal Value Acceptable Range Battery TB9 2 to TB9 3 Without battery 13 80 VDC 13 70 to 13 90 VDC 12 VDC output TB9 7 to TB9 8 No Load 13 80 VDC 13 70 to 13 90 VDC 5 VDC output TB5 4 to TB5 5 No Load 5 00 VDC 4 95 to 5 05 VDC To enable the b...

Page 115: ...ort PA0 TB8 1 7 2 PB1 Input Mux B line at U32 9 follows input port PA1 TB8 2 Closed High 7 3 PB2 LED 3 TB5 10 follows the state of input port PA2 TB8 3 Closed Low 7 4 PB3 LED 4 TB5 11 follows the state of input port PA4 TB8 5 Closed Low 7 5 PB4 Keypad 1 Select TB8 10 follows the state of input port PA5 TB8 6 7 6 PB5 Keypad 2 Select TB8 11 follows the state of input port PA6 TB8 7 7 7 PB6 is the Ta...

Page 116: ... Switch depressed and the Primary Power Status input LOW JP6 open the relay outputs 1 through 8 will follow the state of the supervised inputs as follows Note EOL 2 2K ohms Resulting Relay States Resulting Relay States Resulting Relay States Resulting Relay States Resulting Relay States Input TB Input Condition R1 R2 R3 R4 R5 R6 R7 R8 W W W W With TB8 1 TB8 2 both OPEN ith TB8 1 TB8 2 both OPEN it...

Page 117: ...ith TB8 1 OPEN TB8 2 to Common ith TB8 1 OPEN TB8 2 to Common Input 3 Open Off On TB7 6 EOL Off Off Closed On Off Input 7 Open Off On TB6 3 EOL Off Off Closed On Off Input 11 Open Off On TB6 7 EOL Off Off Closed On Off Input 15 Open Off On TB6 11 EOL Off Off Closed On Off W W W W With TB8 1 TB8 2 both to Common ith TB8 1 TB8 2 both to Common ith TB8 1 TB8 2 both to Common ith TB8 1 TB8 2 both to C...

Page 118: ...mmand A 16 O Command A 17 P Command A 18 R Command A 18 T Command A 19 V Command A 19 W Command A 20 Z Command A 21 Communications wiring 6 7 Connectors 4 15 D D D D D Digital Redundant Loop Adapter 6 17 DIP switch settings 4 12 4 13 E E E E E Eleven conductor keypads 6 5 Error codes A 4 Error messages A 1 F F F F F Format command 5 1 Four Reader Board layout 4 2 4 3 Free egress See Input point ou...

Page 119: ...7 Redundant loop adapter 6 17 see digital redundant loop adapter Relay output points 5 5 wiring requirements 6 7 Restart button 4 18 RS 232 serial communication ports configurations 6 20 S S S S S Self test C 3 System overview 2 1 T T T T T Terminal blocks TB1 2 3 4 4 4 TB5 4 6 TB6 4 6 TB7 4 8 TB8 4 10 TB9 4 10 Troubleshooting C 1 circular time zone C 1 panel lock up C 1 W W W W W Wiring 6 1 6 14 ...

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Page 121: ...K4788 5007 S Howell Avenue Phone 414 769 5980 Milwaukee WI 53207 800 323 4576 www nciaccess com Fax 414 769 5989 Leaders in Access Control Technology ...

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