PWO-480 INSTALLATION MANUAL
Contents
1. 1 2 ACCESSORIES The following accessories are necessary to build a reading station that uses the PWO 480 Power Supply the scanner related accessories are not included in this list jDescription JPartNumber SC6003 25 pin cable SC6000 to PWO 3m 93A051338 for Extended I O connections SC6013 25 pin cable SC6000 to PWO 3m 93A051337 for Power Net connections 5 6103 9 pin cable SC6000 to PWO 3m 93A051294 for Main Host and Modem connections CAB PWO 03 17 pin cable PWO to PWO 3m 93A051295 for redundancy MOD SC6000 Modem for SC6000 INSYS Modem 56K 93ACC1776 PWO 480 1 3 SYSTEM LAYOUTS Host H P HERNET m TTS NULL MODEM ZA Cable nU VAC INPUT Power Net LIZ T CAB SC6013 SC6000 PWO CAB SC6003 Extended I O LONWORKS ENCODER CAB 610x BTK 8100 Bus Return PS CAB 81xx PS Aux CAB 81xx CAB 6310 BT 6000 DS8100A DS8100A DS8100A Pu CAB 610x CAB 611x CAB 610x 1 Ql up to 4 scanners Q Ql up to 4 scanners Q DS6XXX DS6XXX DS6XXX DS6XXX Example Single Controller Layout with DS8100A and DS6000 Series Scanners Host N Ji ETHERNET gt NULL MODEM Cable VAC INPUT ene Power Net CAB SC6013 PWO CAB SC6003 Extended I O LONWORKS ENCODER CAB 81xx BTK 8100 Bus Return PS CAB 81xx PS Aux BTK 8100 Bus Return DX2. DATALOGIC PWO 480 NSTALLATION MANUAL v DALALOCIC Datalogic Automation Srl Via Lavino 256 40050 Monte S Pietro Bologna Italy PWO 480 Installation Manual Ed 10 2010 2005 2010 Datalogic Automation S r l ALL RIGHTS RESERVED Protected to the fullest extent under U S and international laws Copying or altering of this document is prohibited without express written consent from Datalogic Automation S r l Datalogic and the Datalogic logo are registered trademarks of Datalogic S p A in many countries including the U S A and the E U Genius is a trademark of Datalogic Automation S r l All other brand and product names mentioned herein are for identification purposes only and may be trademarks or registered trademarks of their respective owners Datalogic shall not be liable for technical or editorial errors or omissions contained herein nor for incidental or consequential damages resulting from the use of this material 821001193 Rev D CONTENTS SAFELY REGULATIONS sities Steere a da tia oS E IV Electrical Safety ute nete tta edepol usate xad uuu ta end aue iau amd IV SERVICES AND SUPPORT iii i a ul IV GENERAL IE i A cane V GUIDE TO INS TALLEA TION tad ed ER REC R p vi INTRODUCTION eee c 1 ProducbIDeschDEHIOLD scseeavs sema aero e ee nies xe de o Eae eb se rd au 1 AGCBOSSOPGS lw Bo ed 1 oystein suite
3. 2 2 PWO 480 ELECTRICAL DIAGRAM AN Before opening the device make sure the power cable is disconnected to avoid electrical shock WARNING AC Plug Bipolar Protective Circuit Breaker Monophase Switching Chr A Power Supply DC OK Fan PWO 480 Electrical Diagram N The AC plug must only be used temporarily during system installation or maintenance The maximum available power is 500 W CAUTION PWO 480 2 3 PWO 480 SUPPLY CAPACITY A general rule to consider is that each scanner requires both peak power and steady state power Power distribution is performed simultaneously for all scanners This means that the PWO 480 must bear the peak power draw of all the scanner motors starting up together The maximum peak power propagated is 24 V x 26 A 624 W while the steady state normal power is 24 V x 20 A 480 Due to these limits the maximum number of scanners to be supplied is Maximum Number of Scanners AL ebd DS6000 DX6000 DS8100A DX8200A DS8100 DX8200 Supply Unit PWRaS0 24 20 16 12 6 DS8100 and DX8200 scanners have peak power startup consumption of 60W 2 4 INPUT LINE VOLTAGE Wire according the following points Primary wiring Overcur
4. Host Main RS232 12 pin Spring Clamp Connector Pinout Transmit Receive Request to send Clear to send GND ISO Main signal ground The RTS and CTS signals control data transmission and synchronize the connected devices If the RTS CTS hardware protocol is enabled the SC6000 activates the RTS output to indicate a message can be transmitted The Host must activate the CTS input to enable the transmission 17 c PWO 480 PWO Host si TX ER ux i 12 pin spring Ls GND ISO E clamp Signal Ground CTS Shield Figure 15 RS232 Connections RS485 Full Duplex Interface The RS485 full duplex interface is used for non polled communication protocols in point to point connections over longer distances max 1200 m 3940 ft than those acceptable for RS232 communications or in electrically noisy environments The following pins of the 12 pin spring clamp connector are used for RS485 full duplex interface connection Host Main RS485 12 pin Spring Clamp Connector Pinout RS485 transmit RS485 transmit RS485 receive Main signal ground RS485 receive PWO Host TX485 RX485 is RX Host iz TX 12 pin spring GND ISO clamp Signal Ground connector RX485 4 Te RX gt lt TX485 LXI V Figure 16 RS485 Full Duplex Interface Connections 18 INSTALLATION 2 6 Modem The modem serial interface is used for
5. REL 2 Common Common pole REL 2 NO Normally Open pole not connected REL 3 NC Normally Closed pole 10 REL 3 Common Common pole 11 REL 3 NO Normally Open pole 12 not connected Each relay can carry a 6 5 A load PWO USER INTERFACE gt lt Signal LX gt lt tfm Signal Ground REL 1 REL2 REL3 12 pin spring clamp connectors Figure 14 Relay Outputs 16 INSTALLATION 2 7 5 Host Main Interface The Host main serial interface is compatible with the following electrical standards RS232 RS485 Full Duplex references GND and GND 1SO are internally connected through filtering circuitry which can be permanently damaged if subjected to voltage drops CAUTION over 0 8 Vdc m Do not connect GND and GND ISO to different external ground Details regarding the connections and use of the main interface selection are given in the next paragraphs Host Main 12 pin Spring Clamp Connector Pinout Pin RS232 RS485FullDuplex TX485 RX485 TX485 RX485 GND ISO GND ISO RS232 Interface The main serial interface is used for communication between the SC6000 and the Host computer through the PWO and allows both transmission of code data and controller configuration The following pins of the 12 pin spring clamp connector are used for RS232 interface connection It is always advisable to use shielded cables The overall maximum cable length must be less than 15 m 49 2 ft
6. ma uad a 2 INSTALLATION nem p A 4 read ou dete E Vua Fou Ce ud a 4 PWO 460 Elecirical I T Tm 5 PVVO 400 SUDDIV Gap istas rudes te ace i aul Pus dtes uda oce Flea 6 VONAGO i 6 System Wiring to P WO 8 GO e a a ia a eed 7 SWITCH SEMINOS darbi dete tuae a a a eda A tart 9 BUS TEMNA ti a g 9 Redundancy SClOCUON DD 9 RedufidanGV i i ni 9 SO UN e A 10 INS 4 10 Electrical ConnectlOriS s oua 10 SCOOOO TO PV VO AO d 10 east I tata 14 PSI PS AUAIENCOG CF Roi Naves td Coe 12 Ci MIO MEET TENE 13 miost uA TI G 17 WIOG TETTE TTE EE 19 POWELL A Ia Ii x dia tei la ica aes ea MM DRM NEM M M Me Um tr A M M ARE LEE 19 TECHNICAL FEATURES i A 20 Power Supply I O Power Net 21 Extended m i Em 22 Mil te Get a ree ore 22 SAFETY REGULATIONS ELECTRICAL SAFETY This product conforms to the applicable requirements contained in the European Standard for electrical safety EN 60950 1 at the date of manufacture This symbo
7. the outputs can be powered using the V8 OUTPUTS signal on the PWO 480 In this case however the device is no longer electrically isolated The VS OUTPUTS signal is short circuit protected The electrical features of these outputs are Collector emitter voltage 30 V Max Collector current 130 mA Max Saturation voltage VCE 1 V at 10 mA Max Maximum power dissipation 90 mW at 50 Ambient temperature The limit requested by the maximum power dissipation is more important than that of the maximum collector current if one of these outputs is continuously driven the maximum current must not be more than 40 mA although 130 mA may be reached in pulse conditions PWO USER INTERFACE OUT1 OUT2 OUTA OUT5 OUT6 12 pin spring clamp connectors Figure 12 Open Collector Output Connection with Electrical Isolation 15 c PWO 480 PWO USER INTERFACE OUT1 OUT2 OUT3 4 OUT5 OUT6 12 pin spring clamp connectors Ground VS OUTPUTS is connected through the SC6000 25 pin Extended I O connector and is short circuit protected Figure 13 Open Collector Output Connection Using System Power Relays There are three relay outputs available on the relative 12 pin spring clamp connector REL1 REL2 REL3 12 Pin Spring Clamp Connector Function 1 REL 1 NC Normally Closed pole 2 REL 1 Common Common pole 3 REL 1 NO Normally Open pole 4 not connected 5 REL 2 NC Normally Closed pole 6 7 8 9
8. 0 Bus Terminator The 8K TERM switches must be in the ON position if the network is made up exclusively of DS8K family scanners If at least one DS6K family scanner is employed these switches must be set to OFF For the DS6K branch the last scanner in the branch must be terminated by a BT 6000 Bus Terminator The 8K BYP switches must be in the ON position if the network is made up exclusively of DS6K family scanners If at least one DS8K family scanner is employed these switches must be set to OFF 2 6 2 Redundancy Selection The group of 6 REDUNDANCY switches enable disable redundancy and must all be set to the same value When all switches are set to O default redundancy is disabled When all switches are set to 1 redundancy is enabled 2 6 3 Redundancy Role The SEL switches define the redundancy role and must be both set to the same value When in the STD position they set the SC6000 PWO 480 to Working When in the REV position they set the SC6000 PWO 480 to Protecting c PWO 480 2 6 4 Source The SRC switch defines the source signals Presence Sensor or Remote Encoder to the scanners When SRC is in the PS position the Presence Sensor is passed to all the scanners in the system This is the correct setting for Single Controller systems working in On Line Operating Mode When SRC is in the RE position the relative Remote Encoder is passed to each scanner branch This setting is only for Redundan
9. 4 PNP Command Input with Electrical Isolation PWO Vext PS PS AUX ENCODER ENC PS PS AUX 4 pin spring clamp connectors Ground Figure 5 NPN Command Input with Electrical Isolation PWO PS PS AUX ENCODER ENC PS PS AUX 4 pin spring clamp connectors Ground VS INPUTS is connected through the SC6000 25 pin Extended I O connector and is short circuit protected Figure 6 PNP Command Input Using System Power PWO PS PS AUX ENCODER ENC PS PS AUX 4 pin spring clamp connectors Signal Ground VS INPUTS is connected through the SC6000 25 pin Extended I O connector and is short circuit protected Figure 7 NPN Command Input Using System Power 12 INSTALLATION 27 4 Extended I O Inputs All command logic inputs are optocoupled on the SC6000 IN1 IN2 IN3 12 Pin Spring Clamp Connector INTA VS INPUTS GND IN1B IN2A VS INPUTS GND IN2B PWR IN3A VS INPUTS Function Configurable digital input 1 polarity insensitive System power to inputs System power reference ground Configurable digital input 1 polarity insensitive Configurable digital input 2 polarity insensitive System power to inputs System power reference ground Configurable digital input 2 polarity insensitive Output Power Monitor or Configurable digital input 3 polarity insensitive System power to inputs GND System power reference ground PWR IN3B Power Monitor or Configurable digital i
10. 8200A _ DS8100A CAB 81xx CAB 81xx ome DX8200A DS8100A DX8200A DS8100A Example Single Controller Layout with DX8200A and DS8100A Scanners NTRODUCTION to Host ETHERNET NULL MODEM EE 1 Power Net CAB SC6013 rv Working CAB SC6003 Controller Extended I O LONWORKS ENCODER PS PS Aux CAB 81xx CAB 81xx BTK 8100 E 81 o DX8200A DS8100A DX8200A DS8100A Redundancv CAB PWO 03 to Host WERLHIERNET VAC INPUT SC6000 Power Net CAB SC6013 PWO CAB SC6003 Extended I O Protecting Controller LONWORKS ENCODER CAB 81xx PS PS Aux BTK 8100 CAB 81xx 0 DS8100A DX8200A DS8100A DX8200A 0 Example Redundant System Layout 2 INSTALLATION 2 1 MECHANICAL INSTALLATION The diagram below gives the overall dimensions of the PWO 480 and may be used for its installation The four through holes diam 8 5 mm on the back of the enclosure are for mechanical fixture 380 HE 14 96 1 06 340 13 39 085 n 4 20 33 600 23 62 560 22 05 0 82 mm in INSTALLATION
11. ND OUT 2 OUT 3 VS OUTPUTS GND OUT 3 Function Configurable digital output 1 positive pin Svstem power to outputs Svstem power reference ground Configurable digital output 1 negative pin Configurable digital output 2 positive pin Svstem power to outputs Svstem power reference ground Configurable digital output 2 negative pin Configurable digital output 3 positive pin Svstem power to outputs Svstem power reference ground Configurable digital output 3 negative pin INSTALLATION OUTA OUT5 OUT6 12 Pin Spring Clamp Connector Pin Name Function 1 OUT 44 Configurable digital output 4 positive pin 2 VS OUTPUTS System power to outputs 3 GND System power reference ground 4 OUT 4 Configurable digital output 4 negative pin 5 OUT 54 Configurable digital output 5 positive pin 6 VS OUTPUTS System power to outputs 7 GND System power reference ground 8 OUT 5 Configurable digital output 5 negative pin OUT GND OUT 6 Configurable digital output 6 positive pin VS OUTPUTS System power to outputs System power reference ground 6 Configurable digital output 6 negative pin The function of all six outputs can be defined by the user in software on the SC6000 through Genius M refer to Genius Help On Line for details Isolation between the command logic and the SC6000 is maintained by powering the outputs with an external supply voltage Vext For convenience
12. S6400 DX6400 12 pin spring clamp for DS6K extended branch power When DS8K scanners are connected any unused DS8K branches inside the PWO 480 must be terminated by a BTK 8100 Bus Terminator DS8100 x0x0 scanners cannot be used together with the other scanners in Lonworks network DS8K Branches PWO 480 supports up to 4 DS8K scanner branches with up to 4 DS8100A scanners per branch or up to 3 DX8200A scanners DS6K Branch PWO 480 supports 1 DS6K scanner branch with up to 24 scanners DS6300 or DS6400 or up to 20 DX6400 scanners The DS6K connector can supply up to 4 DS6000 series scanners using the standard CAB 610x cables To extend this branch you can connect another 6 groups of three to four scanners each using the CAB 611x cable and CAB 610x combination bringing power to each group from the PWO 480 DS6K 12 pin spring clamp connector through the CAB 6310 cable to the DS6K scanner Main Interface connector see the typical layout drawing in par 1 3 DS6K Lonworks Extended Branch Power 12 Pin Spring Clamp Connector Pin Name Function 1 6 VS Supply Voltage for DS6K branch extensions 7 12 GND Ground Reference for DS6K branch extensions 11 c PWO 480 2 7 3 PS PS AUX Encoder The PS and Encoder signals and PS Aux if used are connected to PWO 480 on their relative 4 pin spring clamp connectors PWO FS PS PS AUX ENCODER Signal ENC PS PS AUX 4 pin spring clamp connectors Ground Figure
13. SE EN 61000 3 3 JULY 1995 ELECTROMAGNETIC COMPATIBILITY EMC EN 61000 3 3 A1 JUNE 2001 PART 3 LIMITS SECTION 3 LIMITATION OF VOLTAGE FLUCTUATIONS AND FLICKER IN LOW VOLTAGE SUPPLY SYSTEMS FOR EQUIPMENT WITH RATED CURRENT 16A Monte San Pietro April 23th 2010 Lorenzo Girotti Product amp Process Quality Manager Gu d Le dii J CCS UNI EM ISO 9001 UNI EN ISO 14001 ESNet
14. communication between the SC6000 and the Host computer to remotely control the reading station An accessory modem can be installed onto the DIN rail and powered inside the PWO The SC6000 should be connected directly to the modem using CAB SC6103 The telephone line can be directly connected to the accessory modem inside the PWO 480 The PWO 480 supplies power to the modem from the modem 12 pin spring clamp connector Fu Power 12 pin e eo Clamp Connector Pinout EE Voltage 24 V 12 Ground See the Modem Installation document on the CD ROM for complete installation and configuration details 2 7 7 Power Alarm The PWO 480 provides lines to monitor the power supply output on the power alarm 4 pin spring clamp connector This output can be used to control an external alarm in case of PWO power failure The alarm threshold is 21 6 Vdc nominal value 1096 Values between 21 6 and 24 Vdc are therefore considered in the proper operating range When the power supply output level is in the range 21 6 24 Vdc DC OK has the same value as the output it can be loaded with 40 mA max to GND When the power supply output level falls below 21 6 Vdc DC OK goes to 0 Vac Pin 2 is reserved for PWO internal use Power Alarm 4 pin Spring Clamp Connector Pinout Ground Reserved Reserved DC OK Power Out OK Signal N C No Connection PWO USER INTERFACE PWR ALARM 4 pin spring clamp connectors Figure 17 Exampl
15. e Power Alarm Output 19 PWO 480 3 TECHNICAL FEATURES ELECTRICAL FEATURES Input Voltage AC from 85 to 264 V 24 VDC 1 25 to 50 C 13 to 122 F 40 to 85 C 40 to 185 F 909 non condensing Vibration Resistance EN 60068 2 6 Frequency range from 5 to 150 Hz Constant displacement 3 mm pk pk from 5 to 9 Hz Constant acceleration 0 5 g from 9 to 150 Hz 2 hours on each axis Shock Resistance EN 60721 3 3 250 m s 6 ms 3 3 shocks on each axis Protection Class IP65 PHYSICAL FEATURES Mechanical Dimensions 600 x 407 x 210 mm 23 6 x 16 x 8 3 in Weight 19 2 kg 42 Ibs 5 oz when all unused gland blocks are plugged with the appropriate gland block plugs CONNECTOR PINOUTS CONNECTOR PINOUTS POWER SUPPLY 1 0 POWER NET CONNECTOR The PWO supplies 24 VDC 25 pin D Sub Female Connector Pinout Name Function REL1 Relay output control REL3 Relay output control GND Ground GND Ground ENCODER A Encoder Tach PS AUXA Presence sensor aux PSA Presence sensor SYS ENC I O System signal RES Reserved RES Reserved SHIELD OUT Lonworks T OUT Lonworks OOOOOOOOOOOOO LON OUTA Lonworks REL2 Relay output control 25 14 Reserved 25 pin Female D sub Connector Supply voltage ENCODER B Encoder Tach PS AUX B Presence sensor aux PS Presence sensor SYS 1 O Svstem signal RES Reserved RES Reserved SHIELD IN Lonworks LON IN B Lonworks LON INA Lo
16. f the PWO 480 IN Before wiring the device make sure the power is disconnected to avoid electrical shock WARNING 1 Readall information in the section Safetv Precautions at the beginning of this manual 2 Mount the PWO 480 near the Reading Station 3 With AC line voltage OFF wire the AC Line input to the PWO 480 AC Terminal Block 4 Connect the SC6000 Controller to the PWO 480 by means of the appropriate accessory cables see par 1 2 All system cables must pass through the glands 5 Provide correct and complete system cabling to the PWO according to the signals Lonworks encoder P S etc necessary for the layout of your application See all sub paragraphs under 2 5 All system cables must pass through the glands 6 Setthe Bipolar Circuit Breaker to the ON position 7 Apply the AC line voltage from the building installation and check that the PWO 480 powers up correctly 8 Close and lock the PWO 480 enclosure The installation is now complete vi INTRODUCTION 1 INTRODUCTION 1 1 PRODUCT DESCRIPTION The PWO 480 unit is intended to be used in Datalogic scanning systems where an SC6000 Controller unit is used as a supervisor of a DS8000 and or DS6000 scanner network The PWO 480 acts as a power supply for the overall system controller and scanners as well as a Junction Box for the SC6000 I O and COM One model is available PWO 480 input 100 240 Vac output 24 Vdc 480 W power supply unit
17. l refers to operations that must be performed by qualified personnel only Example opening the device Before opening the device make sure the power cable is disconnected to avoid electrical shock This symbol refers to operations where there is danger of electrical shock The AC Plug Label appears as follows The internal AC plug must only be used temporarily during system installation or maintenance Maximum available power 500 W Figure 1 AC Plug Label SERVICES AND SUPPORT Datalogic provides several services as well as technical support through its website Log on to www automation datalogic com and click on the links indicated for further information e PRODUCTS Search through the links to arrive at your product page which describes specific Info Features Applications Models Accessories and Downloads e SERVICE Overview Warranty Extensions and Maintenance Agreements Sales Network Listing of Subsidiaries Repair Centers Partners Helpdesk Material Return Authorization GENERAL VIEW PWO 480 Figure 3 PWO 480 Open View 1 AC Line Gland 6 Bipolar Circuit Breaker 2 Key Locks 7 Monophase Switching Power Supply 3 Cable Glands Svstem Cable Connectors 4 AC Line Input Terminal Block 9 oystem Wiring Terminal Blocks 5 AC Plug for temporary use only GUIDE TO INSTALLATION The following can be used as a checklist to verify all the steps necessary to complete installation o
18. nput 3 polarity insensitive USER INTERFACE IN1 IN2 IN3 12 pin spring clamp connector Figure 8 PNP Command Input with Electrical Isolation Vext USER INTERFACE IN1 IN2 IN3 12 pin spring clamp connector Signal Ground Figure 9 NPN Command Input with Electrical Isolation Isolation between the command logic and the SC6000 is maintained by powering the inputs with an external supply voltage Vext For convenience the inputs can be powered using the VS INPUTS signal on the PWO 480 In this case however the device is no longer electrically isolated The V8 INPUTS signal is short circuit protected 13 PWO 480 The electrical features of these inputs are Maximum voltage 30 V Maximum current 10 mA Outputs PWO IN1 IN2 IN3 12 pin spring clamp connector USER INTERFACE Signal Ground VS INPUTS is connected through the SC6000 25 pin Extended I O connector and is short circuit protected Figure 10 PNP Command Input Using System Power PWO IN1 IN2 IN3 12 pin spring clamp connector USER INTERFACE VS INPUTS Signal Ground VS INPUTS is connected through SC6000 25 pin Extended I O connector and is short circuit protected Figure 11 NPN Command Input Using System Power Six general purpose outputs are available 14 OUT1 OUT2 12 Pin Spring Clamp Connector OUT 1 VS OUTPUTS GND OUT 1 OUT 2 VS OUTPUTS G
19. nworks d Pin references with the denomination A and B polarity insensitive signals 21 PWO 480 EXTENDED I O 25 pin D Sub Male Connector Pinout gt VS OUTPUTS for outputs IN1A IN2A IN3 A GND OUT1 OUT2 OUT3 VS_INPUTS OUT4 OUT5 OUT6 GND GND IN1 IN2B IN3 B GND OUT1 OUT2 OUT3 GND OUT4 OUT5 OUT6 Input signal 1 polarity insensitive Input signal 2 polarity insensitive Input signal 3 polarity insensitive Ground Configurable digital output 1 positive pin Configurable digital output 2 positive pin Configurable digital output 3 positive pin Power for inputs Configurable digital output 4 positive pin Configurable digital output 5 positive pin Configurable digital output 6 positive pin Ground Ground Input signal 1 polarity insensitive Input signal 2 polarity insensitive Input signal 3 polarity insensitive Ground Configurable digital output 1 negative pin Configurable digital output 2 negative pin Configurable digital output 3 negative pin Ground Configurable digital output 4 negative pin Configurable digital output 5 negative pin Configurable digital output 6 negative pin 25 pin Male D sub Connector MAIN INTERFACE The main serial interface is compatible with the following electrical standards RS232 RS485 full duplex Do not connect GND and GND ISO to diffe
20. rent external ground references GND and GND 1SO are internally connected through filtering circuitry which can be permanently damaged if subjected to voltage drops over 0 8 Vdc 9 pin D sub Female Connector Pinout RS485 Full Duplex TX485 4 RX485 4 GND ISO CAUTION GND ISO CTS RX485 RTS TX485 9 pin D sub Male Connector 22 EC 025 a DATALOGIC DECLARATION OF CONFORMITY Rev 3 Pag 1 di 1 Datalogic Automation S r l Via Lavino 265 40050 Monte San Pietro Bologna Italy www automation datalogic com declares that the PWO 480 Power Supply Unit and all its models are in conformity with the requirements of the European Council Directives listed below 2004 108 EC EMC Directive 2006 95 EC Low Voltage Directive This Declaration is based upon compliance of the products to the following standards EN 55022 CLAsS A ITE SEPTEMBER 1998 INFORMATION TECHNOLOGY EQUIPMENT RADIO DISTURBANCE CHARACTERISTICS LIMITS AND METHODS OF MEASUREMENTS EN 61000 6 2 SEPTEMBER 2005 ELECTROMAGNETIC COMPATIBILITY EMC PART 6 2 GENERIC STANDARDS IMMUNITY FOR INDUSTRIAL ENVIRONMENTS EN 60950 1 DECEMBER 2001 INFORMATION TECHNOLOGY EQUIPMENT SAFETY EN 60950 1 A11 APRIL 2004 PART 1 GENERAL REQUIREMENTS EN 61000 3 2 APRIL 2006 ELECTROMAGNETIC COMPATIBILITY EMC PART 3 2 LIMITS LIMITS FOR HARMONIC CURRENT EMISSIONS EQUIPMENT INPUT CURRENT UP TO AND INCLUDING 16A PER PHA
21. rent protection should be provided by a 12 to 15 A building installation circuit breaker Wiring methods from the branch circuit breaker to the PWO 480 power supply shall comply with the National Electric Code ANSINFPA For primary wiring use a 3 conductor cable with minimum size 13 AWG for every conductor Choose the overall cable diameter and UL Listed conduits accordingly These conductors have to be inserted into the dedicated terminal blocks on the DIN rail see diagram which are marked Line L neutral N and Protection Earth PE The terminal block marked with the ground symbol is a special block which allows direct connection of the Protection Earth with the enclosure of the PWO 480 The AC input cable must be inserted kal protection cover through the AC Line Gland and the individual wires installed into the AC terminal block Replace the protection cover over the spring clamp connector after correctiv installing the wires The AC plug can oniv be used temporarilv during installation maintenance procedures AC Line Terminal Block with Protection Covers INSTALLATION 2 5 SYSTEM WIRING TO PWO 480 Svstem wiring is performed using standard accessory cables and direct wiring to terminal block connectors provided on the PCB inside the PWO 480 To insert system cables Remove the upper gland block by unscrewing the 2 side screws and the 3 top screws Use a screwdriver to pry apart the upper gland block from
22. t systems 2 6 5 IN3 Selection The IN3 switches select the operation of the IN3 signal towards the SC6000 and must be both set to the same value In position PWR default they provide internal PWO 480 24 Vdc power monitoring signals to be sent to the SC6000 The alarm threshold is 21 6 Vdc nominal value 109 Values between 21 6 and 24 Vdc are therefore considered in the proper operating range In position IN3 they allow the user to connect an external configurable input like INT and IN2 2 7 ELECTRICAL CONNECTIONS 2 7 1 SC6000 to PWO 480 The following connectors are used to connect the SC6000 to the PWO 480 25 pin female power supply lonworks and Dew input output signals use CAB SC6013 25 pin male I O supply and extended l O signals optoisolated use CAB SC6003 Reseed Connect modem directly to SC6000 use CAB SC6103 Host Main 9 pin male RS232 RS485 main serial connection use CAB SC6103 10 INSTALLATION 2 7 2 Lonworks The PWO 480 allows connection between the SC6000 and the DS8K and or DS6K family scanners on the Lonworks network The following scanner connectors are used to connect each branch using the standard accessory cables Connecto Type DS8K 17 pin female power supply Lonworks and system Branches 1 4 signals for DS8100A DX8200A or DS8100 x0x0 9 pin female power supply Lonworks and system signals for DS6300 D
23. the lower gland block Pass all system cables through the opening and attach the rubber glands around each cable Slide each gland into the block making sure that each gland is rotated so that the split is horizontal Insert gland block plugs in the unused cable slots in order to maintain IP65 protection Place the block into position on the housing while adjusting the cable lengths as needed Fix the block to the housing by tightening the 3 top screws and then the 2 side screws PWO 480 The following connectors and terminal blocks are available for system connections Cable Connectors oystem Switches and SC6000 Bus Termination oC6000Power Net signals SC6000 Extended I O Modem reserved Host Main Serial Interface Redundancy reserved DS8K Lonworks Branches 1 4 8K Bus Termination DS6K Lonworks Branch Spring Clamp Connectors D mmm A A ol T I 1 2mm i L DS6K Power Modem PWR Alarm Host Main Encoder PS PS Aux OUT1 OUT2 OUT3 IN1 IN2 IN3 OUTA 5 OUT6 REL1 2 REL3 INSTALLATION 2 6 SWITCH SETTINGS 2 6 1 Bus Termination The LON TERM switch must be in the ON position to provide Lonworks bus termination at the SC6000 side For DS8K branches the last scanner in each branch as well as any unused DS8K branches inside the PWO 480 must be terminated by a 810
Download Pdf Manuals
Related Search