EX300-RM-ADA - Controlled Access, Inc.
Contents
1. KV24DTP Outputs C1 to AVDC UN 2NDC O0 Diredionlinp OV 24VDC 001 Direction 2inp C3 to 24NDC 002 Sensor 1 500 Dir 1 Yellow 003 Sensor2A S01 DIr1 Green 004 Sensor 18 502 Diri Red 005 Sensor 28 503 Dir 2 Yellow 006 Sensor IC 504 Dir 2 Green 007 Sensor2C 505 Alam Pulse 008 Sensor SI 506 DI 2Red 009 Am 2RH Max 507 Alam Solid 010 Arm RH Max O11 Arm2Home Vi V2 V2 are shared 012 Am1Home intemally and can be 013 21 used as a terminal block 014 Arm 1LH Max OIS HreAlaminput RS01 amp R502 are not used KER Top Outputs CL to Motor Control 0 Motor 1 Black CW 1 Motor 1 White CCW 2 Motor 2 Black OW 3 Motor 2 White CCW are shared Interally and can be used asa terminal block C2 to Motor Control 4 Motor 1 White OW 5 Motor 1 Black CCW 6 Motor 2 White CW 7 Motor 2 Black CCW V3 V4 are shared Internally and can be used as a terminal block AI Inputs are PNP 24VDC Access control amp fre alarm should be dry relay form c Input relays common to 24VDC and normally open to Input Direction Inputs should be pulsed 1 second max output Fire alarm input should have contact closure for duration X0 NotUsed X1 NotUsed X2 NotUsed X3 NotUsed VLA V2 are shared Interally and can be used as a termian block KER Outputs C2 to DC VO Primary Sol 1 Y1 Primary Sol 2 Y2. Puno risus 19 Ata lance PinPoint LED for a bright precise light spot Durable metal threaded inserts SICK ASIC technology the result of decades of experience in photoelectric Large user friendly potentiometer Large bright indicator LEDs adjustable receiver sensitivity via 270 turn potentiometer depending on type IP 67 enclosure rating Your benefits Easy alignment and precise object detection due to a highly visible PinPoint LED Quick and easy mounting and high durability due to threaded metal inserts SICK ASIC technology provides high performance and excellent reliabilty Easy to adjust duo to large user triendly potentiometers Easy to monitor due to large bright indicator LEDS Easy installation with SICK accessories CEQ ns Features Sensoridatecton principle Dimensions W x H x D Housing design ight emission Sensing range max Sensing range of light Light source Wave length Light spot size distance P average sence Ite o 00000 hat e 125 Mechanicsielectronics Supply voltage Ripple Power consumption Switching output Switching mode Through beam photoelectric sensor 12 mmx 31 5 mm x 21 mm Rectangular Om 15m Om 10m Visible red ight PinPoint LED 650 9376 mm 12 m 10V Dg 210 30 PNP Lighuidark switching Switching mode selector Selectable via lightidark selector Output curre
3. Do not use for permanent magnet molor This supplies Fieid voltage for a Shunt Wound Motor For motors wih dual voltage field 50 100 or 100 200V make sure the highest value is connected CAUTION DO NOT ATTEMPT TO PERFORM A H POT TEST ACROSS AC LINES WITH CONTROL IN CIRCUIT THIS WILL RESULT IN IMMEDIATE OR LONG TERM DAMAGE TO THE CONTROL ADJUSTMENTS Preset impots in the counterclockwise CC 2 Apply power 3 Rotate the Speedpot ly CW and adjust MAX inthe CW direction unti the maximum desired speeds obtained 4 Rotate the Speedpot counter clockwise CCW and adjust tha MIN rimpot the CW direction uni deadband or the minimum desired speed is obtained The IR COMP irent is used as a regulation adjustment better motor regulation is needed between minimum and maximum hen adjust IR COMP timpot Iolows Rotate the Speedpot CW to the 50 position and rotate he IR COMP trimpot CW as needed to increase regulation 6 Recheck and readjust rimpots i necessary Trimpot interaction wilh each other w l be minimal REMOTE SPEEDPOT NM SPEEDPOTLO SPEEDPOT WIPER orange wire SPEEDPOTLO sper wre SPEEDPOT HI ehe wwe HEATSINK DIMENSIONS amp IDENTIFICATION 1or1A HOUSING r T SIDEPROFILE vd D mus 13DVA Rev A 15DVA Rev A MODEL SPECIFICATIONS i Jj Le 210 Rated Line Voltage 150mA t
4. and swings open to allow passage through in the direction requested Once passage is complete the arms return to their home position Should a user pass in the incorrect direction or has not been authorized for passage an audible alarm will pulse and red x s will flash on the LED boards An additional solid state output during alarm scenarios also exists for integration into other security systems In addition to the two sensor zones mentioned previously a third sensor zone exists for crawl through detection If anyone attempts to crawl through the lane under the arms the third sensor zone detects them and an alarm goes off EX300 lanes are designed to allow heavy flows of traffic With an adjustable swipe queue one user can request passage through the lane while another is already inside This negates the need to wait for the lane to return to a secured status before the next person can pass Physically a lane of EX300 consists of two cabinets a primary and a secondary From this base pair additional single arm lanes can be added This is accomplished by changing the rear of the cabinet to accept transmitter sensors for the next primary cabinet to create a lane Inside the primary cabinet a logic controller with a display screen and input buttons allow a variety of settings for the machine to be adjusted to facility preferences Lane Functionality Lane configurati Each base lane consists of two different types of cabinets a
5. can be completely removed from the area to provide more work space Simply unscrew the thread on the cable where it connects to the sensor and remove Pre installation Preparation cont Pre installation Alignment Before anchoring the cabinets to the floor we recommend laying out the lane and testing alignment Place the cabinets in their approximate end location and connect the 2 conductor cable inside of the primary cabinet to the end in the secondary cabinet Plug in the primary cabinet to AC voltage to power up the lane Inside of the primary cabinet there is a series of 7 total photo cell sensors Each of these sensors is equipped with two LED s on the rear One of them is green and should always be lit The other should be solid orange while the beam is uncrossed and off while the beam is crossed If the orange LED is blinking in any case you will need to adjust the sensor alignment shift the cabinets so that they are straight to each other or shim the cabinets so that they are level See the sensor alignment section of this manual for advice on how to ensure the transmitter s light reaches the receiver properly Concrete Anchor Instructions Instructions for Using Wedge Anchors Determine the appropriate wecge anchor length for your project L The thickness of material to be fastened The minimum embedment required The thickness of the nut and washer about one anchor diameter 2 Ore you heve
6. determined the appropriate wedge type anchor length dril your hole using a bit with the some diametor Seaper the anticipated anchor embedment Clean the dried hole cf any debris Thread the nat and washer until the nut is Nush nith the top of the anchor S Hanne fants position nut and washer flash wits the tuetace of the materia 6 Tighten finger completely and then take an additonal 3 5 turns with the wrench 7 Ifthe anchor spins in te hele force t up using screwdriver unti the clip binds ote the concrete ua t8 ryr uro ze am axi E cu 3e x zw im ruv Oni hole 1 2 to 1 deeper than anchor 2 With rut threaded past the end of stud Tighten Angor tight pus an additional 3 5 Frbedmert Clean of debe Pammer rto Mime mith wrench Installation Instructions 1 Floor should be level 1 16 If not each cabinet must be shimmed Anchoring optical lanes to an uneven ground most likely will cause serious issues in unit operation Install conduit for 100 240 VAC to primary cabinet conduit for access control integration if applicable and a 3 4 conduit in between the primary and secondary cabinet for cabling to the secondary cabinet With each cabinet in the exact position to be mounted use a center punch to mark location of the four holes to be drilled in the floor Note Make sure each cabinet is square to each other otherwise
7. not pass through the direction The default setting is 7 seconds DMI Timer value for Direction 2 The range of this setting is 60 seconds This is how long the direction will remain open for if a user does not pass through the direction The default setting is 7 seconds DM2 Alarm Timer This setting allows for an adjustment to the duration of the alarm timer once the cause of the alarm has cleared DM3 Direction 1 Power Failure Setting This determines when the solenoid receives power and is preconfigured based how each individual order was built 0 means the direction is fail lock amp I means the direction is fail open Changing this setting by itself without the proper mechanical changes will cause functionality issues This setting is not affected by factory reset DM4 Direction 2 Power Failure Setting This determines when the solenoid receives power and is preconfigured based how each individual order was built 0 means the direction is fal lock amp 1 means the direction is fail open Changing this setting by itself without the proper mechanical changes will cause functionality issues This setting is not affected by factory reset DMS Direction 1 One Shot This setting determines whether or not the access control input length is ignored and converted to 1 second pulse internally Enabling this allows the turnstile to ignore access control from allowing too many users pass through the turnstile D
8. primary cabinet and a secondary cabinet In instances where additional single arm lanes are added to an array the rear side of each cabinet opposite of the lane s cabinet with the arm becomes a secondary panel to the primary cabinet of that lane See sample layout below Sample Layout EX300 Single Lane EX300 ADA Lane EX300 Single Lane inary secondary Primary The base ADA lane s secondary cabinet communicates with the primary cabinet with a provided 12 conductor cable This allows the primary cabinet to operate the solenoids and motor of the secondary cabinet as well as keep track of the secondary cabinet s arm position via its 3 proximity sensors The secondary cabinet also contains 7 optical transmitters which the primary cabinet uses to evaluate lane passage via receivers This is also applicable for each single arm lane within an array From the factory each cabinet in an array is preconfigured to the requested operation and layout Each lane has two directions of passage each of which can be configured for controlled passage free passage or no passage This configuration can be changed in the field via settings on lane s logic controller located inside of the primary cabinet Lane Functionality cont Electrical requirements Primary cabinets require 100 240 VAC input voltage An internal power supply steps the voltage down to 24VDC Between the two cabinets in an ADA lane an 18 gauge 12
9. w smote LANE SECONDARY CABNET WANG Overview of the Access Window the logic controller an access window is available to change and adjust many different values Each value is referred to as a device The window comprises of 3 primary areas The device selector window operation keys and the main display window 1 Device selector window display window 2 Setting operation keys Although the logic controller is capable of many functions all of the devices that the control head operates from are accessed in Device Mode When device mode is active the display screen will show DM in the top left corner Device No Current value Selected device type That being said itis possible to stray from the device mode settings In the selected device type section of the access window DM TM T C CTC TRM and RLY are all possible selections to load Again we are only using DM device mode with the Beacon series Should you find that you accidently have loaded any other selected device type simply press hio scroll until you have once again loaded the DM type In addition to the device mode window system mode can be accessed as well Indicates that the system mode is selected 595 Operation mode Although under normal circumstances you should never encounter this window if by accident you should happen to come across it simply press the up or down arrow until the window r
10. 2 Secondary Sol 1 Ya Secondary Sol 2 G R Va are shared Intemally and can be used as a terminal block cree E 09000 9 i 1 Li a LN Sea C Sirens ose MIT ocio 208 SECONDARY CABINET WING 7 x SICK GSESP411 TRANSMITTERS sue a i HIH REVISED 5 21 15 CONTROLLED 330 973 4888 USA 1 800 962 0829 ACCESS INC Fax 1 800 942 0628 1036 West 130th Street Brunswick Ohio 44212 xsoo
11. Control o gt a Box 10 Phone 317 873 5211 5000 W 106th Street Fax 317 873 1105 Zionsville Indiana 46077 www dartcontrols com 7 MODEL 13DVA Rev A 15DVA Rev A HOOK UP WARNING IMPROPER INSTALLATION OR OPERATION OF THIS CONTROL MAY RESULT IN INJURY TO PERSONNEL OR ELECTRONIC FAILURE THE CONTROL MUST BE INSTALLED AND GROUNDED IN ACCORDANCE WITH LOCAL STATE AND NATIONAL SAFETY CODES AT NO TIME SHOULD THE CIRCUIT CONTINUITY BE CHECKED BY SHORTING TERMINALS WITH A SCREWDRIVER OR OTHER METAL DEVICE PLEASE READ COMPLETELY BEFORE MAKING ANY ADJUSTMENTS HOOK UP amp TERMINAL IDENTIFICATION 1 Before atempirg to wire the control make sure all power is tuned of 2 Use a normal blow fuse wed in series with hot side of AC input rated to 125 af motor current Note Both AC ines should be fused fr 240 VAC input CAUTION SHOULD BE USED IN SELECTING THE SIZE OF HOOK UP WIRING LIMIT THE VOLTAGE DROP THROUGH THE WIRING TO 5 OF THE LINE VOLTAGE AT FULL LOAD ARM Connect to plus Armature wire oa motor 0 90 VDC for 120 VAG input and 0 180 VDC tor 240 VAC input 4 ARM Connect to minus Armature wire on motor FIELD Connect minus Field wire of Shunt Wound Mtr 6 ACI and AG2 120 VAC Connect incoming hot AC black w re to and neutral utile wire to AC2 240 VAC Connect both hot sides one to and one to 2 FIELD
12. Controlled Access The Leader in Pedestrian Control Systems Waist amp Full Height Turnstiles and Matching Gates Executive Series EX300 Barrier Optical Swing Gate Lane Service amp Installation Manual Note Successful turnstile installation depends on reading this manual Important Note Please keep this service manual after installation If an installation is done by construction company or outside installer please pass this book along to the end user This book is required for maintenance troubleshooting and repairs Table of Contents Theory of Operation Lane Functionality Pre installation Preparation Concrete Anchor Instructions Installation Instructions Sensor Alignment Sensor Designations Wiring Legend Wiring Diagrams Overview of the Access Window Device Settings of the EX300 Warranty Information Appendix Component Literature EX300 Barrier Optical Turnstile Theory of Operation The EX300 barrier optical swing gate lane is designed to control traffic with an intuitive motorized barrier design This is accomplished with thru beam type sensors to detect where a person is inside of the lane Crossing and uncrossing certain beams at certain times will evaluate a passage to be either authorized or unauthorized Within each lane there are two primary zones of sensors Each zone acts as a limit Upon a valid entry card read push button keypad etc the unit recognizes authorization
13. conductor cable is necessary in order to operate the secondary cabinet It will be necessary to provide conduit access between the two cabinets However only the primary cabinet requires 100 240 The secondary cabinet will obtain 24VDC from the primary cabinet The secondary panel rear of the cabinet across from the primary cabinet of a single arm lane is powered with only a 2 conductor cable from the primary cabinet as there are solenoids motors or proximity sensors involved in that instance This cable provides voltage to the optical transmitters for that lane It is recommended that the primary side of a hybrid cabinet receives 100 240V AC and the secondary side receives the 24VDC from the primary cabinet of the other lane This is so one lane can be taken offline without affecting the next one The primary cabinet may also require conduit access from the access control system this is dependent on the method of installation of access control 58062 5261 2724 2728 RS VLL OUTLINE or SOLID SURFACE TOP E 36000 4 16 456 6597 ip OPENING FOR CONDUIT NBOL Pics COMMUNICATIONS BETWEEN 2 iners in order to install Pre installation Preparation In order to install an EX300 lane each cabinet needs to be opened up Once opened anchor holes for concrete mounting as well as
14. conduit access for electrical work can be accessed Each cabinet has two removable front panels and a lid that need to be removed The first front panel to remove is a V shaped cover which is fastened onto an aluminum housing for the arm assembly It is held into place with two 10 24 stainless steel button heads shown below Removable plate held in lace with two 1024 button head After the V shaped plate is removed the lid must be taken off of the cabinet The lid is held in the front with a key lock and fits into two clips in the back To remove the lid first unlock the key then pull the lid forward and lift up to unhook the clips in the back 3o 1 Unlock ted Sip 2 Puli forward Step 3 Pul d up rom th back side to unhook Pre installation Preparation cont The next step before being able to access the floor plate is to remove the front panels of the cabinets With the lid removed two 10 32 screws are found in the top corners of each panel Simply remove these screws and the front panel can be removed by tilting it forward and lifting it out of the floor plate 7 E L gt 2x 10 32 Screws Although it should not be necessary the sensors can be disconnected from their cables Each sensor is equipped with an euro style quick disconnect cable These can be disconnected so that the panels
15. d benefit from a value of 2 which is the default setting DM10 Direction 2 multi swipe This setting allows more than one access control request to be processed at a time to allow a faster flow of traffic The range is 1 3 As each access control request is processed each rotation subtracts from the total allowing a constant flow of traffic Most installations would benefit from a value of 2 which is the default setting DMI Single Arm Lane Settings If set to 0 the lane is a standard double arm width lane If set to 1 the lane only has 1 arm This setting is not affected by factory reset DMIZ Fire Alarm Swing This setting defines which way the arm swings in a fire alarm scenario While the fire alarm input is active a setting of 0 swings the arm s in direction 1 while a setting of 1 swings the arm s in direction 2 This setting is not affected by factory reset DMI13 Anti crawl through This setting allows or disallows the anti crawl through function which detects objects on the lower section of the lane while neither direction is active In facilities where users drag objects low to the ground behind them frequently Such as gyms with rolling luggage it may be beneficial to disable this setting A value is disabled and a value of 1 is enabled A factory reset enables this feature Additionally scrolling downward past DMO will allow you access to DM1999 which resets all settings to factory defa
16. djustment Simply loosen the screws holding the bracket to the sensor and tilt in the desired direction Note that the light from the transmitters will actually be larger than the surface area of the receivers This makes alignment much easier Try to center out the targets as close as possible Sensor Designations tay 20 10 Sensor Zone 2 Sensor Zone 1 Anti craw through Above is a diagram which illustrates each sensor s position There are 7 sensors on each cabinet total separated into 3 zones The zone designated as Sensor Zone 1 is part of the intelligence behind whether or not authorized access has been granted For example if the zone 1 sensors have been tripped but direction 2 was the direction that authorization was granted an alarm will trigger The zone called Sensor Zone 2 does the same thing as zone 1 but in the opposite direction The sensor zones have another function as well On free flow mode when the sensor zone for the appropriate direction is actuated access is granted for that direction The third zone are sensors which prevent the arms from closing on obstruction and also serve as anti craw through sensors These will detect unauthorized people who are attempting to crawl underneath the main zones EX300 Wiring Legend EN eee jose Pannen a
17. eads run Press and hold the Catton for 3 seconds and the display will return to device mode Additionally should for any reason the display lettering become red instead of green you will need to access system mode to run the program in this fashion Holding the key while pressing up and down allows you to change between system mode and device mode A third mode which will display TRM on the left side of the screen can also be accessed Cycle through until the appropriate mode is displayed Finally itis possible to lock the keypad Should you inadvertently do so press and hold the bbutton and an arrow key together for 3 seconds to unlock the keypad again Device Settings of the EX300 Pressing the up or down arrows allow you to select which device you wish to modify Pressing and holding the Ckey for 3 seconds loads the modification window While modifying the digits on the window begin to flash Pressing move the cursor in a digit Select the correct digit to modify then use the arrows to change the value Once finished hold the button for 3 seconds and your adjustment will save Should an entered value not fall within the specified range of the device being modified the value will automatically adjust to the highest possible value A description of each device setting is DMO Timer value for Direction 1 The range of this setting is 60 seconds This is how long the direction will remain open for if a user does
18. g frequency Switching output Output function Electrical wiring Enclosure rating Connection type Housing Besoin to EN 60500 Mechanicsielectronics Supply voltage Ripple Voltage drop Power consumption Timo delay before availabilty Hysteresis Repeatability Temperature drift of S Cylindrical M12x1 4mm 324mm Flush 2 000 Hz PNP No DC Per Cable wire 2m Short body lt 10 av stoma 10 Mor d 210 According to EN 60847 52 30 VDC Continuous current la 200 mA Cable material Shortircit protection Reverse polarity protection Power up pulse protection x Shock and vibration resistance 30g 11 ms 10 Hz 55 Hz 1 mm Ambient operating temperature 5 C 475 C Housing material Metal Nickel plated brass Housing cap material Plastic PAS Housing length 44mm Thread length 29mm Tightening torque max 12Nm n E Reduction factors Note The values are reference values which may vary Carbon steel S137 Fe 1 Stainless steel V2A 304 Ca 08 Copper Cu Ca 04 Aluminum Al Ca 045 Brass Br Ca 04 Installation noto 24mm c 12mm D 12mm 32mm Remark Associated graphic see Installation Inductve proximity sensors SICK AG Subject to change without notice 6 9 2015 22452 PM Photoelectric sensors G6 Through beam photoelectric sensor SICK Sensor Intelligence Tyo
19. isabling it allows access control to hold the direction open 0 means the one shot timer is inactive amp 1 means the one shot timer is active Factory reset sets this to 1 DM6 Direction 2 One Shot This setting determines whether or not the access control input length is ignored and converted to 1 second pulse internally Enabling this allows the turnstile to ignore access control from allowing too many users pass through the turnstile Disabling it allows access control to hold the direction open 0 means the one shot timer is inactive amp 1 means the one shot timer is active Factory reset sets this to 1 DM7 Direction 1 Mode This setting determines the mode of operation for direction 1 setting of 0 is set for controlled passage A setting of 1 is set for free flow passage A setting of 2 is set for no passage This setting is not affected by factory reset DMB Direction 2 Mode This setting determines the mode of operation for direction 2 setting of O is set for controlled passage A setting of 1 is set for free flow passage A setting of 2 is set for no passage This setting is not affected by factory reset DM9 Direction 1 multi swipe This setting allows more than one access control request to be processed at a time to allow a faster flow of traffic The range is 1 3 As each access control request is processed each rotation subtracts from the total allowing a constant flow of traffic Most installations woul
20. nt imax 5100 mA Response time E M Switching frequency 4 000 Hz Connection type Connector M 4 pin Circuit protection A B D BIST Protection class m Weight 40g Polarisation fiter I Optics material PMMA Enclosure rating per Ambient operating temperature 25 C 85 C Ambient storage temperature 40 C 470 C UL File No NRKH E348498 NRKH7 348408 Signal voltage PNP HIGHILOW VS 5 3 V approx 0 V Housing material ABSIPC Plastic E Lint values operation in shertcrcul protected network max 8 2 May ol enced or tal short ot V lances P Wo tas D Sons ana tme win reste ad P A V connectens reverse pty ped 3 output reverse petet 0 D outputs overcurrent and otc Temperate ater 910 C Dimensional drawing 21083 0 5 002 In pilas enr l ams enr of mening hos ma LED gre poo sls LED lone Sons cf recava ge neam ste Igre meting D ar ting 0 5 00 Photoeiectic sensors Sick AG Subject to change without notice a015 22049 PM Adjustments possible e Connection diagram TR TE cene witl not connected Mt not connected MESIA B not connected 2 Q DART CONTROLS Instruction Manual Variable Speed
21. o 2 Amps 13DV1 15DV1 2 80 wide 1 30 high 3 30 deep 13DV2 15DV2 2 80 wide 1 50 high 3 30 deep 50 60 Hertz 12VAC or24 VAC AC Input Voltage Amps DC Output Dimensions Input Frequency Input Voltage 13DV 15DV 120 VAC or 240 VAC LLR Compensation Adjustable full range Max Speed Adjustable 40 120 of Base Speed Adjustable 0 30 of Max 0 12 or 0 24 VDC 0 1050r0 210 VDC 200 tor 1 minute 1 Amp max 10 VDC at 12 VAC 1 Amp max 20 VDC at 24 VAC 1 max 100 VDC at 120 VAC 1 Amp max 200 VDC at 240 VAC Min Speed Output Voltage 13DV 12 or 24 VAC Input 15DV 120 or 240 VAC Input Overload Capacity Shunt Field Voltage 13DV 150V Speed Control 5K Ohm Speed Potentiometer Speed Range 25 1 Speed Regulatior 1 of Base Speed 10 to 45 C Ambient 15 to 115 F G Mov 13DV1A 15DV1A weighs 2 64 oz 13DV2A 15DV2A weighs 3 03 oz Temperature Range TransientProtection Weight With suitable external heatsink current be Increased to 4 Amps The 13DV 15DV heatsink temperature should not exceed 70 C Equivalent to 4 x 4 x 0 125 thick aluminum plate mounted to housing
22. operation will be inconsistent 3 If necessary move cabinets out of the way Drill four 3 8 holes 4 deep cabinet and remove all concrete dust from the holes 4 Place cabinet in the correct location and install SS wedge type anchors supplied Torque the nuts to a minimum of 50 foot pounds Plug the power supply in the main cabinet into 100 240 VAC single phase minimum amp GFI circuit 6 The sensors we use are a thru beam type they require a transmitter and receiver in order to operate In order to accomplish this you must connect 24VDC power to the secondary cabinet This is accomplished with a provided 12 conductor or 2 conductor for single lane add on cable See the wiring diagram for more information 7 Connect acce See w s control as required to direction inputs on the logic controller ing diagram for more information Sensor Alignment The EX300 series is equipped with visible target laser thru beam sensors The transmitter sensors located in the secondary cabinet shine much like a flash light The target from the transmitters can be visibly seen by simply placing a piece of white paper onto the target area Each photo cell is mounted onto a bracket which is screwed onto a panel Loosening the screws holding the bracket to the panel will allow for some range of motion up and down The sensors can also be tilted on the brackets themselves to provide a left to right alignment a
23. ults Choose any value greater than 0 to perform the factory reset Controlled Access The Leader in Pedestrian Control Systems Waist amp Full Height Turnstiles and Matching Gates Warranty Information Seller warrants the goods against defective workmanship and materials provided that Buyer notify Seller within one 1 year after receipt by Buyer of the goods of any claim under this Warranty The liability of Seller shall be limited to replacing or repairing defective goods returned by Buyer and delivered to the factory of the Seller transportation charges prepaid Replaced or repaired goods will be redelivered freight repaid to the address of Buyer shown hereon Except for the Warranty contained herein there shall be no other warranties such as warranties of fitness and merchantability or otherwise express or implied written or verbal and Seller shall not be liable for consequential damages in any event SICK Sensor Intelligence Inductive proximity sensors Cylindrical threaded housing IME12 Type gt MEZOBPSZW2K PartNo gt 1040765 bl Ata glance SzeMt2 IP 67 enclosure rating Operating temperature from 25 C to 475 C Your benefits Reduced machine downtime Reduced mechanical damage Fewer maintenance costs due to longer service High resistance to shock and vibrations CER Features Design Thread size Sensing range Sn Assured sensing range Sa Installation type Switchin
Download Pdf Manuals
Related Search