ColoQuick Pasteur Max 3x400 Vac Wiring Diagram 1

MAX300 Series NanoMax 3-Axis Flexure StageUser GuideContentsChapter 1 Safety (3)1.1Safety Information (3)1.2General Warnings (3)Chapter 2 Introduction (4)2.1Description of the NanoMax TS 3-Axis Flexure Stage (4)2.2Component Identification (4)Chapter 3 Operation (8)3.1Manual Differential Drives and Differential Micrometer Drives (8)3.2NanoStep Motor Drives (8)3.3Piezo Actuators (9)Chapter 4 Installation (10)4.1Unpacking (10)4.2Attaching to a Work Surface (10)4.3Calibration of Motor Drives (10)4.4Fitting and Removal of Drives (11)4.5Orienting the Moving Platform (12)4.6Mounting Equipment. (13)4.7Transportation. (13)4.8Dimensions (14)Chapter 5 Specifications (17)Chapter 6 Parts and Consumables (18)6.1Parts List (18)Chapter 7 Regulatory (19)7.1Declarations Of Conformity (19)7.2Waste Electrical and Electronic Equipment (WEEE) Directive (20)Chapter 8 Thorlabs Worldwide Contacts (23)2HA0094T Rev 11 April 20113Chapter 1Safety1.1Safety InformationFor the continuing safety of the operators of this equipment, and the protection of the equipment itself, the operator should take note of the Warnings, Cautions and Notes throughout this handbook and, where visible, on the product itself.The following safety symbols may be used throughout the handbook and on the equipment itself.1.2General WarningsGiven when there is a risk of injury from electrical shock.Given when there is a risk of injury to users.Given when there is a risk of damage to the product.Clarification of an instruction or additional information.If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. In particular,excessive moisture may impair operation.Spillage of fluid, such as sample solutions, should be avoided. If spillage does occur, clean up immediately using absorbant tissue. Do not allow spilled fluidto enter the internal mechanism.Chapter 2Introduction2.1Description of the NanoMax TS 3-Axis Flexure StageThe NanoMax 3 axis flexure stage has been designed to integrate seemlessly into the Thorlabs Modular Electronic System and provide nanometric positioning on three orthogonal axes. It is suited to the alignment of optical fibres, waveguides, optoelectronic packages and any other high resolution alignment or positioning application including general purpose laboratory tasks. The innovative flexure design, combined with the system of modular drives, offers exceptional performance and flexibility.Three types of drive are available, the DRV001 stepper motor drive, the DRV3 differential micrometer and the DRV004 thumbscrew. Also available are two external piezo actuators which increase the piezo travel to 40 µm or 100 µm.2.2Component Identification2.2.1NanoMax StageThe NanoMax-TS 3 axis flexure stage is available in three versions; piezo-actuated with feedback on all axes, piezo-actuated without feedback and without piezo actuation, as shown in Fig. 2.1 to Fig. 2.4.Fig. 2.1 MAX301 NanoMax piezo-actuated stage with feedback on all axes45MAX300 Series 3-Axis Flexure StagesFig. 2.2 MAX302 NanoMax piezo-actuated stage without feedbackThe piezo-actuated models deliver 20 microns of travel, each piezo channel has a coaxial SMC connector (see Fig. 2.1 and Fig. 2.2). In addition, the NanoMax 301 has a 7-pin LEMO connector for each feedback channel (see Fig. 2.1). A corresponding number of leads for connection to the Thorlabs piezoelectric controllers are also supplied.The piezo-actuated models deliver 30 microns of travel, with a coaxial SMC connector for each piezo channel.Fig. 2.3 Feedback Lemo connector pin functionsPin Description1+15 V2Oscillator +30 V4Sig Out -5Sig Out +6-15 V7TravelSMC connectorsChapter 2Fig. 2.4 MAX303 NanoMax without piezo-actuation The NanoMax 303 has no electrical connections.2.2.2Drives and ActuatorsThere are three types of drive available for the NanoMax, a motorized drive as shown in Fig. 2.5. and two manual drives as shown in Fig. 2.6. In addition, external piezoNoteThe DRV001 stepper motor drive must be used in conjunction with the BSC benchtop driver or the MST601 control module. It cannot be driven by theTST001 T-Cube driver.Fig. 2.5 DRV001 NanoStep motor drive6HA0094T Rev 11 April 2011MAX300 Series 3-Axis Flexure StagesChapter 3Operation3.1Manual Differential Drives and Differential Micrometer Drives3.1.1Adjusting Micrometer DrivesTurn the coarse adjustment clockwise until the platform of the NanoMax begins to move. By use of the fine adjustment, sub-micron resolution is now achievable.MAX300 Series 3-Axis Flexure StagesTable 3.1 Standard configurations for motor drivesParameter ValueMaximum Velocity 2.5 mm s-1Minimum Velocity1mm s-1Slope 1 mm s-2Backlash control1Backlash distance–0.01 mmMode LinearMicrosteps to units40000Offset 3 mmMinimum position0.00 mmMaximum position 4.00 mmThe NanoStep modular drives have no +ve limit switch. The drive reachesa mechanical stop at a position dependent on the axis to which it isattached. The design is such that occasional driving into the stop will notcause any damage.If the axis is driven towards the –ve limit switch, at a certain position theplatform stops moving while the drive itself continues to move until thelimit switch is reached. The drive must then be moved positively by acertain distance before the platform begins to move. This distance is justless than the offset.When creating a program to control the NanoMax, it is preferable to avoidrunning into the +ve limit.3.3Piezo ActuatorsPiezo actuators are used to give nanometric positioning of the top platform over a range of 20 microns (40 µm or 100 µm if external piezo actuators are used). They can also modulate the position of the platform at high frequency.On a piezo-actuated NanoMax, position feedback may be incorporated on the linear axes to enhance the repeatability and linearity of piezo motion.The piezo-actuated NanoMax should be used together with one of the Thorlabs piezoelectric controllers – see the handbook for the relevant piezoelectric controller.The NanoMax monitors the ambient temperature using thermistors and applies small movements to the stage to compensate for the expansion and contraction of metals within the stage. Note that this compensation is active only when the associated piezo controller is set to ‘closed loop’ (feedback on) mode – see the relevant piezo controller handbook for more details on the operation of piezo actuators.910Chapter 4Installation4.1Unpacking 4.2Attaching to a Work SurfaceThe base of the NanoMax is provided with a number of fixing holes and slots for attachment to metric or inch optical tables, as supplied by Thorlabs and other manufacturers. Bolting the unit down minimizes the risk of damage from dropping.When mounting the NanoMax close to other equipment, ensure that the travel of the moving platform is not obstructed. If the moving platform is driven against a solid object, damage to the internal flexures could occur. The range of travel on each axis is 4 mm total, that is ± 2 mm about the nominal position.4.3Calibration of Motor DrivesCalibration enables the server to correct for any mechanical errors inherent in the system. Mechanical components, such as the leadscrew and linkages, can be machined only within a certain tolerance, e.g. the leadscrew may be nominally 1mm but actually 1.0005mm, giving a 0.5 micron error. In practice, these errors accumulate from a number of sources, however they are repeatable and therefore, can be compensated.During calibration, the total positional error is measured at a large number of points and these errors are stored as a look up table (LUT). The LUT is saved as a calibration file, one file for each axis on a particular stage. These files are then linked to the appropriate axis as part of the Stage association process performed using the APT Config utility. Whenever the stage is moved, the LUT is consulted to ascertain the precise movement required to achieve the demanded position.Retain the packing in which the unit was shipped, for use in futuretransportation.Once removed from its packaging, the NanoMax is easily damaged by mishandling. The unit should only be handled by its base, not by the topplatform or any attachments to the top platform.This section is applicable only to motor drives when a calibration hasbeen requested.MAX300 Series 3-Axis Flexure Stages When the stage is calibrated at the factory, the stepper motor controller, channel number, motor, stage and axis are configured in a certain manner. For the calibration to be effective, it is important to re-assemble the stage with the motors fitted to the same axis for which they were calibrated. This information is contained in the table below.Furthermore, the correct calibration files must be associated with the correct stage axis. In this regard, it is important to confirm what stage axes are connected to particular channels on particular motor units. It is then a simple task to use the APT Config utility to associate the correct calibration file with a particular serial numbered hardware unit and channel.The use of a calibration file is optional. Without it, the repeatability and resolution of the stage are unaffected, but no compensations are made to enhance the accuracy Details on assigning a calibration file are contained in the APTConfig On Line Helpfile.Table 4.1 Calibration detailsNanoMax serial numberAxis Motor Serial number Calibration File RemarksXYZ4.4Fitting and Removal of DrivesThis section is applicable only to Part Numbers MAX301, MAX302 and MAX303.The following procedure details how to fit a drive to the NanoMax 300 stage. A micrometer drive is shown for illustration purposes but the procedure is equally applicable to motor or thumbscrew actuators.1)For manual drives, rotate the coarse adjuster counter-clockwise a few turns toretract the drive rod. For motor drives, retract the drive rod by turning the manual adjuster clockwise.Then, referring to Fig. 4.1 on the next page...2)Insert the drive into the mounting bush.3)Tighten the knurled locking ring until finger tight.To remove a drive reverse the above procedure.When removing a motor drive, rotate only the locking ring, do not rotatethe motor body.11Chapter 4Fig. 4.1 Micrometer drive inserted into mounting bush4.5Orienting the Moving PlatformThe stage is normally oriented such that the X axis is the optical axis. If it is necessary to change the orientation for left or right-handed use, the Y axis becomes the optical axis as shown in Fig. 4.2 (The Z axis is always vertical).Fig. 4.2 Platform orientation12HA0094T Rev 11 April 201113MAX300 Series 3-Axis Flexure Stages4.6Mounting Equipment.Thorlabs manufacture a variety of fibre chucks, holders and fixtures to fit the NanoMax stage. However, custom hardware can be designed using a tongue-in-groove arrangement and the cleats provided, see Fig. 4.3 for a typical fixture.Fig. 4.3 Typical fixture, view along X-axis, length as required4.7Transportation.When attaching accessories (e.g. fiber holders) to the top platform or angle brackets (e.g. AMA007 and AMA009) to the side of the unit, do not use long bolts which protrude into the internal mechanism as this couldcause damage to the internal flexures.The weight attached to the moving platform must not exceed 1 kg.Do not apply excessive forces to the moving platform.CautionThe drives should be removed before transporting the NanoMax.When packing the unit for shipping, use the original packing. If this is not available, use a strong box and surround the NanoMax with at least 100mm of shock absorbent material.all dimensions in mmChapter 44.8DimensionsFig. 4.4 Dimensions – top platform14HA0094T Rev 11 April 2011MAX300 Series 3-Axis Flexure Stages 4.8.2Fig. 4.5 External piezo actuatorsFig. 4.6 Dimensions – modular drives15Chapter 44.8.4NanoMax 3-Axis StageFig. 4.7 Dimensions – NanoMax 3-axis stage16HA0094T Rev 11 April 201117MAX300 Series 3-Axis Flexure StagesChapter 5Specifications. .ParameterValueWeight (without drives):800 g Load capacity: 1 kgTravelManual (coarse) and motor4 mmManual (fine)300µm Piezo20 micronResolutionManual (coarse)0.5mm per revolutionManual (fine)50µm per revolution Motor0.06 µm min incremental movementPiezo (without feedback)20 nm Piezo (with feedback)5 nmArcuate displacement (maximum):80 micronThe resolution of a manual drive corresponds to a 0.5 degree adjustment of the thimble; the actual resolution obtained depends on the skill of zthe user. The resolution of the motor drives is the smallest step that can be executed (i.e. 1 microstep). The resolutions of the piezo actuators arethose typically obtained using Thorlabs controllers.Power supplyPiezoactuated NanoMax Nominal maximum input voltage:75 V Absolute maximum input voltage:100 V Stepper MotorMaximum input voltage:24 VThe NanoMax should only be used in conjunction with the appropriateThorlabs Piezoelectric Controllers.Chapter 6Parts and Consumables6.1Parts ListPart Number DescriptionMAX316D and MAX316D/M NanoMax stage with differential micrometer drives MAX315D and MAX315D/M NanoMax stage with piezo actuator and differentialmicrometer drivesMAX314D and MAX314D/M NanoMax stage with feedback piezo actuator anddifferential micrometer drives.MAX343 and MAX343/M NanoMax stage with stepper motor drives.MAX342 and MAX342/M NanoMax stage with piezo actuator and stepper motordrives.MAX341 and MAX341/M NanoMax stage with feedback piezo actuator andstepper motor drives.MAX303 and MAX303/M NanoMax stage onlyMAX302 and MAX302/M NanoMax stage with piezo actuatorMAX301 and MAX301/M NanoMax stage with feedback piezo actuator. 166038SMC connector lead134667LEMO connector lead131030Mounting cleat120992Cable clampha0094T Handbook18Chapter 7Regulatory7.1Declarations Of Conformity7.1.1For Customers in EuropeThis equipment has been tested and found to comply with the EC Directives89/336/EEC ‘EMC Directive’ and 73/23/EEC ‘Low Voltage Directive’ as amended by 93/68/EEC.Compliance was demonstrated by conformance to the following specifications which have been listed in the Official Journal of the European Communities:Safety EN61010: 2001 Installation Category II, Polution Degree II.EMC EN61326: 19977.1.2For Customers In The USAThis equipment has been tested and found to comply with the limits for a Class A digital device, persuant to part 15 of the FCC rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense.Changes or modifications not expressly approved by the company could void the user’s authority to operate the equipment.19Chapter 77.2Waste Electrical and Electronic Equipment (WEEE) Directive7.2.1ComplianceAs required by the Waste Electrical and Electronic Equipment (WEEE) Directive of the European Community and the corresponding national laws, we offer all end users in the EC the possibility to return "end of life" units without incurring disposal charges.This offer is valid for electrical and electronic equipment•sold after August 13th 2005•marked correspondingly with the crossed out "wheelie bin" logo (see Fig. 1)•sold to a company or institute within the EC•currently owned by a company or institute within the EC•still complete, not disassembled and not contaminatedFig. 7.1 Crossed out "wheelie bin" symbolAs the WEEE directive applies to self contained operational electrical and electronic products, this "end of life" take back service does not refer to other products, such as •pure OEM products, that means assemblies to be built into a unit by the user (e. g.OEM laser driver cards)•components•mechanics and optics•left over parts of units disassembled by the user (PCB's, housings etc.).If you wish to return a unit for waste recovery, please contact Thorlabs or your nearest dealer for further information.7.2.2Waste treatment on your own responsibilityIf you do not return an "end of life" unit to the company, you must hand it to a companyspecialized in waste recovery. Do not dispose of the unit in a litter bin or at a publicwaste disposal site.20HA0094T Rev 11 April 2011MAX300 Series 3-Axis Flexure Stages 7.2.3Ecological backgroundIt is well known that WEEE pollutes the environment by releasing toxic products during decomposition. The aim of the European RoHS directive is to reduce the content of toxic substances in electronic products in the future.The intent of the WEEE directive is to enforce the recycling of WEEE. A controlled recycling of end of life products will thereby avoid negative impacts on the environment.2122Chapter 8Thorlabs Worldwide ContactsUSA, Canada, and South America Thorlabs, Inc.435 Route 206Newton, NJ 07860USATel: 973-579-7227Fax: 973-300-3600 (West Coast) email:********************* Support:************************ EuropeThorlabs GmbHHans-Böckler-Str. 685221 DachauGermanyTel: +49-(0)8131-5956-0Fax: +49-(0)8131-5956-99www.thorlabs.deemail:*******************UK and IrelandThorlabs Ltd.1 Saint Thomas Place, Ely Cambridgeshire CB7 4EXGreat BritainTel: +44 (0)1353-654440Fax: +44 (0)1353-654444www.thorlabs.deemail:*****************.com Support:*************************** FranceThorlabs SAS109, rue des Côtes78600 Maisons-LaffitteFranceTel: +33 (0) 970 444 844Fax: +33 (0) 811 381 748www.thorlabs.deemail:*********************ScandinaviaThorlabs Sweden ABBox 141 94400 20 GöteborgSwedenTel: +46-31-733-30-00Fax: +46-31-703-40-45www.thorlabs.deemail:************************ JapanThorlabs Japan Inc.Higashi IkebukuroQ Building 1st Floor 2-23-2Toshima-ku, Tokyo 170-0013JapanTel: +81-3-5979-8889Fax: +81-3-5979-7285www.thorlabs.jpemail:*****************ChinaThorlabs ChinaOasis Middlering Centre3 Building 712 Room915 Zhen Bei RoadShanghaiChinaTel: +86 (0)21-32513486Fax: +86 (0)21-32513480email:***********************2324Thorlabs Ltd.Saint Thomas Place, Ely Cambridgeshire CB7 4EX, UKTel:+44 (0) 1353 654440Fax:+44 (0) 1353 Thorlabs Inc.435 Route 206 North Newton, NJ07860USATel:+1 973 579 7227Fax:+1 973 300 。

3M™ Scotchkote™ Fusion-Bonded Epoxy Coating 134Handling and Safety Precautions: Read all Health Hazard, Precautionary and First Aid, Material Safety Data Sheet, and product label prior to handling or use.Product Description 3M Scotchkote Fusion-Bonded Epoxy Coating 134 is a one-part, heat curable, thermosetting epoxy coating designed for corrosion protection of metal. The epoxy is applied to preheated steel as a dry powder which melts and cures to a uniform coating thickness when properly applied. This bonding process provides excellent adhesion and coverage on applications such as valves, pumps, pipe drains, hydrants, pipes, tanks and porous castings. Scotchkote coating 134 is NSF/ANSI 61 certified for potable water applications and is also resistant to wastewater, corrosive soils, hydrocarbons, harsh chemicals, and sea water. Powder properties allow easy manual or automatic application by electrostatic or air-spray equipment.Product Features • No primer required for most applications.• For electrostatic or air-spray application on preheated metal articles.• Can be electrostatically applied to unheated metal parts and subsequently cured by baking. • Long gel time allows application on large or complex articles, minimizing fear of runs, sags,laminations, or unsightly overspray.• Especially useful for coating the inside of pipe or other fabrications where a smooth, corrosion resistant coating is required.• Can be machined by grinding or cutting to meet close tolerance requirements.• Allows easy visual inspection of coated articles.• Can be painted with alkyd paint, acrylic lacquer, polyurethane, or acrylic enamel for colorcoding.• Applied coating will not sag cold flow.• Lightweight for lower shipping costs.• Protects over wide temperature range.• Resists direct burial soil stress.• Resists cavitation and cathodic disbondment.• Can be used for elevated temperature service in presence of H2S, CO2, CH4, crude oil and brine when applied over phenolic primer such as 3M Scotchkote Liquid Phenolic Primer 345. • Long-term performance history in water, sewage, and other service environments.• Scotchkote coating 134 has been tested and certified to NSF /ANSI Standard 61, Drinking Water System Components. For NSF certified applications, the max approved thickness is 60 mil (1.5 mm) and the maximum approved operating temperature is 140°F/60°C. Primers may not be used for potable water applications.• Scotchkote coating 134 meets the requirements of AWWA Standard C213 and C550.Temperature Operating Range For non-potable water applications Scotchkote coating 134, when properly applied to a nominal thickness of 15 mils, should perform on pipelines operating between -100°F/-73°C to 203°F/95°C. For temperatures reaching 230°F/110°C thicker coatings, greater than 30 mils, may improve the service capability. However, it is difficult to accurately predict field performance from the laboratory data due to the wide variations in actual field conditions. Soil types, moisture content, temperatures, coating thickness, and other factors specific to the area all influence the coating performance and upper temperature operating limits.General Application Information 1. Remove oil, grease and loosely adhering deposits.2. Abrasive blast clean the surface to NACE No. 2/SSPC-SP10 ISO 8501:1,Grade SA 2 ½ near-white metal.3. Apply mechanical masks or mask with materials such as 3M Scotch® Glass Cloth Tape 361 or 3M Aluminum Foil Tape 425 as required.4. Preheat article to the desired application temperature per cure specifications.5. Deposit Scotchkote coating 134 by powder spray to the specified thickness.6. Cure according to cure specifications.7. Visually and electrically inspect for coating flaws after the coating has cooled.8. Repair all defects.Cure Specifications Scotchkote coating 134 may be applied to metal articles which have been preheated to a temperature of 300°F/149°C to 475°F/246°C. After application, Scotchkote coating 134 must be cured according to the cure guide to achieve maximum performance properties.If Scotchkote coating 134 is electrostatically applied to unheated parts, the cure time should be measured from the time the coated part reaches the cure temperature. After cure, the coating may be force cooled using air or water to facilitate inspection and handling.Product - Physical and Chemical PropertiesContinued Product - Physical and Chemical Properties3M and Scotchkote are trademarks of the 3M Company.3StorageIn a cool dry location less than 80°F (27°C)Shelf-Life18 months from date of manufactureAvailabilityFor ordering, technical, product information, or the Safety Data Sheet, call: Phone: 800-722-6721 Fax: 877-601-1305Important NoticeAll statements, technical information, and recommendations related to 3M’s products are based on information believed to be reliable, but the accuracy or completeness is not guaranteed. Before using this product, you must evaluate it and determine if it is suitable for your intended application. You assume all risks and liability associated with such use. Any statements related to the product, which are not contained in 3M’s current publications, or any contrary statements contained on your purchase order, shall have no force or effect unless expressly agreed upon, in writing, by an authorized officer of 3M.Warranty; Limited Remedy; Limited LiabilityBecause conditions of product use are outside of our control and vary widely, the following is made in lieu of all express or implied warranties: This product will conform to 3M’s published product specifications and be free from defects in material and manufacture on the date of your purchase. 3M MAKES NO OTHER WARRANTIES INCLUDING, BUT NOT LIMITED TO, ANY IMPLIED WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. If this product is defective upon your receipt, your exclusive remedy shall be, at 3M’s option, to replace the 3M product or refund the purchase price of the 3M product . Except where prohibited by law, 3M will not be liable for any direct, indirect, special, incidental or consequential loss or damage arising from this 3M product, regardless of the legal theory asserted.Electrical Markets Division6801 River Place Blvd. Austin, TX 78726-9000 800.722.6721/corrosionPlease recycle© 3M 2016 All rights reserved 78-8141-8528-2 Rev A。

S6540/90Clean shave. Reducedskin irritation.Philips Norelco Shaver 6540 delivers a clean shave while reducing skin irritation. Only Philips Norelco has ComfortGlide(TM) rings, a special protective coating with skin gliding properties to sheidl your face from redness and irritation.Shaving performanceComfortGlide rings protect your face from irritationA close and comfortable resultBlades raise then cut long and short hairs for a fast shaveGet a convenient dry shave or a more comfortable wet shaveSkin comfortHeads flex in 8 directions to catch hard-to-reach hairClick-on Trimmer for use on mustache and sideburnsEasy to use60 minutes of cordless shaving after a one-hour chargeOne touch open, for easy cleaningFully charges in 1 hour or 5 minute quick charge3-level battery indicator and intuitive displayReplacement heads provide an additional year of close shavesWet and dry electric shaverS6540/90HighlightsSpecificationsComfortGlide RingsShaving heads are surrounded with ComfortGlide rings, which have a special protective coating with skin gliding propertiesto shield your face from irritation. Series 6000offers 10x better protection than the best-selling blade.MultiPrecision Blade SystemGet a shave that’s fast and close. OurMultiPrecision Blade System raises and cuts all hairs and remaining stubble – all in a few strokes.MultiFlex HeadsHeads flex in 8 directions to follow the curves of your face, even catching hair in hard-to-reach areas like the neck and jaw line.Shave wet or dryGet a convenient dry shave or a morecomfortable wet shave with gel or foam - even in the shower.Click-on Precision TrimmerClick on our skin-friendly Precision Trimmer to finish your look. It’s ideal for maintaining your mustache and trimming your sideburns.60 minutes of cordless shavingShave longer with our powerful and lithium-ion battery. You'll have 60 minutes of shaving time -that's about 17 shaves - on a one-hour charge.1-hour charge timeThe powerful Li-ion battery fully charges in 60minutes. Do a 5 minute quick charge and you’ll have enough power for one shave.LED displayThe intuitive display features a 3-level Battery Indicator - Cleaning Indicator - Battery Low Indicator - Replacement Head Indicator - Travel Lock Indicator.OneT ouch OpenSimply pop the heads open, and rinse thoroughly under the tap.Replacement shaving headsIncludes SH50 replacement shaving heads for an additional year of close shaves.Shaving PerformanceSkinComfort: Shave Wet or Dry, ComfortGlide RingsShaving system: MultiPrecision Blade System Contour following: MultiFlex Heads Ease of useDisplay: 3 level battery indicatorCleaning: One-touch open, Fully washable Operation: Unplug before usePowerBattery Type: Lithium-ion Run time: 60 min / 20 shavesCharging: 1 hour full charge, Quick charge 5min for 1 shaveAutomatic voltage: 100-240 V Max power consumption: 9 W Stand-by power: 0.1 WService2-year warrantyReplacement head: Replace every yr with SH50AccessoriesSmartClick: Precision trimmerExtra shaving head included: SH50Pouch: Travel pouch© 2022 Koninklijke Philips N.V .All Rights reserved.Specifications are subject to change without notice. Trademarks are the property of Koninklijke Philips N.V . or their respective owners.Issue date 2022‑03‑01Version: 1.0.1UPC*************。

Spray Brush Roller Cold Weather*Hot Weather*Immersion*Thinners are tested at a typical laboratory temperature range of 20-25°C and 50% relative humidity. If a slower drying (slower releasing) thinner is required in a low humidity environment, consider use of the hot weather thinners regardless of the temperature. If a fast drying (faster releasing) thinner is required in high humidity, consider the use of cold weather thinners regardless of the temperature. However, in all cases users should operatewithin the temperature and humidity constraints specified in the product datasheet and only use options matched to the specific product.Spray Brush Roller Cold Weather*Hot Weather*Immersion*Thinners are tested at a typical laboratory temperature range of 20-25°C and 50% relative humidity. If a slower drying (slower releasing) thinner is required in a low humidity environment, consider use of the hot weather thinners regardless of the temperature. If a fast drying (faster releasing) thinner is required in high humidity, consider the use of cold weather thinners regardless of the temperature. However, in all cases users should operatewithin the temperature and humidity constraints specified in the product datasheet and only use options matched to the specific product.Spray Brush Roller Cold Weather*Hot Weather*Immersion*Thinners are tested at a typical laboratory temperature range of 20-25°C and 50% relative humidity. If a slower drying (slower releasing) thinner is required in a low humidity environment, consider use of the hot weather thinners regardless of the temperature. If a fast drying (faster releasing) thinner is required in high humidity, consider the use of cold weather thinners regardless of the temperature. However, in all cases users should operatewithin the temperature and humidity constraints specified in the product datasheet and only use options matched to the specific product.Spray Brush Roller Cold Weather*Hot Weather*Immersion*Thinners are tested at a typical laboratory temperature range of 20-25°C and 50% relative humidity. If a slower drying (slower releasing) thinner is required in a low humidity environment, consider use of the hot weather thinners regardless of the temperature. If a fast drying (faster releasing) thinner is required in high humidity, consider the use of cold weather thinners regardless of the temperature. However, in all cases users should operatewithin the temperature and humidity constraints specified in the product datasheet and only use options matched to the specific product.Spray Brush Roller Cold Weather*Hot Weather*Immersion*Thinners are tested at a typical laboratory temperature range of 20-25°C and 50% relative humidity. If a slower drying (slower releasing) thinner is required in a low humidity environment, consider use of the hot weather thinners regardless of the temperature. If a fast drying (faster releasing) thinner is required in high humidity, consider the use of cold weather thinners regardless of the temperature. However, in all cases users should operatewithin the temperature and humidity constraints specified in the product datasheet and only use options matched to the specific product.DuluxGroup (New Zealand)150 Hutt Park Road, Lower Hutt, 5010 New ZealandAustralia.au T 13 23 77DuluxGroup (Australia) Pty Ltd (ABN 67 000 049 427) 1956 Dandenong Road, Clayton, 3168, AustraliaNew Zealand T 0800 800 424Any advice, recommendation, information, assistance or service provided by Dulux® Protective Coatings in relation to goods manufactured by it or their use, including application, is given in good faith and is believed by Dulux® Protective Coatings to be appropriate at time of creation. Products can be expected to perform as outline provided that application conditions and procedures are followed on relevant data sheets. Specific advice should be sought from a Dulux Protective Coatings consultant especially for more corrosive and demanding environments, to obtain a tailored and appropriate solution.®DULUX, the DuluxGroup Squares Device, ACRATHANE, AEROMASTER, APEXIOR, CONGARD, DURATION, DUREBILD, DUREKEM, DUREMAX, DUREPON, DUREZINC, ENVIROPOXY , EPIGLOSS, FERREKO, FERRODOR, FLEXITUFF, LUXACHLOR, LUXAFLOOR, LUXAPRIME, LUXATHANE, LUXEPOXY , METALSHIELD, QUANTUM, ROADMASTER, SURFACESHIELD, WEATHERMAX and ZINCANODE are registered trademarks of DuluxGroup (Australia) Pty Ltd.™ DURETHANE, HI TEMP and UNIPRIME are trademarks of DuluxGroup (Australia) Pty Ltd.。

400 Series Kamado GrillWelcome to Kamado cooking! Our Icon Kamado is based on 3,000+years of clay pot cooking from around the world. Over generationsour ancestors have continued to refine Kamado techniques forgrilling, smoking, baking and cooking all types of food, includingmeats, poultry, fish and vegetables. Kamado cooking locks in moistureand provides a variety of ways to infuse different tastes into yourfoods, turning weekend grillers into neighborhood chefs.Our Icon Kamado builds on this heritage with fresh aesthetics, safetyand convenience features, a user-friendly easy-lift lid with springassist and high-quality materials to define a new industry standardfor design and innovation. The thick ceramic construction of our grillprovides superior thermal insulation allowing you to grill, cook, bakeor smoke regardless of the season - from the hot summer days in ourhome town of St. Louis to the cold snowy days in Bangor, Maine.In this manual we provide the basics to get you cooking and invite you to our website, , where we share recipes, detailed Use & Care information and contact information if you need more help.PatentedUse grill only in well-ventilated areas. Keep immediate area around the grill free from combustible materials. Allow for at least 3 feet/1 meter of clearance around grill (house, other outdoor products, hanging tree limbs, shrubs, etc.) WARNING! Keep children and pets away from the grill at all times.Do not allow children to operate grill. Never leave grill unattended when in use. Grill should be placed securely on a level base prior to use. Only operate grill on a hard, stable, level surface (concrete patio, ground, etc.) capable of supporting the weight of the grill when loaded with food. Never operate grill on wood support surface, wood deck or like combustible support surfaces. Never attempt to move grill when in operation or cooling down. Never operate this grill within 25 feet/7.5 meters of any flammable liquid. Never operate this grill within 10 feet/3 meters of a gas cylinder. The grill should not be placed under combustible structures, like garages, porchs, patios, or carports. Burning charcoal produces carbon monoxide, an odorless gas, which can cause death.as it is dangerous and will leave a residual taste in your food. Use only firelighters complying to EN 1860-3. Use utmost care when adding charcoal to grill. Electric start-up is recommended. Dispose of cooled ash by placing it in aluminum foil, soaking with water and discarding in a non-combustible container. Always wait for grill to completely cool before opening built-in ash drawer.When cooking above 500ºF/260ºC, with both top and bottom vents closed, rapidly opening the lid creates a sudden rush of oxygen into the grill, which can cause a flare-up. When in this cooking mode, we recommend that, prior to opening the lid, you open top and bottom vents to allow oxygen to stabilize inside the grill, minimizing the possibility of a flare-up.Icon Grills shall not be liable for any delay or default under this Warranty caused by any event or contingency beyond the control of Icon Grills. This includes acts of nature, fire, government restrictions or restraints, strikes, reduced supply of materials or transportation delays.THIS WARRANTY IS THE EXCLUSIVE WARRANTY OF ICON GRILLS. ICON GRILLS EXPRESSLY DISCLAIMS ANY AND ALL OTH ER WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF FITNESS, MERCHANTABILITY, OR FITNESS FOR A PARTICULAR PURPOSE. THIS WARRANTY DOES NOT COVER, AND ICON GRILLS IS NOT LIABLE FOR, ANY DAMAGES RELATING TO LOSS OF TIME, LOSS OF USE OF EQUIPMENT, INCONVENIENCE, OR ANY INCIDENTAL, SPECIAL AND/OR CONSEQUENTIAL DAMAGES. PURCH ASER’S EXCLUSIVE REMEDY FOR BREACH OF TH IS WARRANTY SH ALL BE LIMITED AS SPECIFIED H EREIN TO REPLACEMENT OR REPAIR OF THE AFFECTED PRODUCT.Some states do not allow limitations on how long an implied warranty lasts or the exclusion or limitation of incidental or consequential damages, so the above limitations and exclusions may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. Icon Grills does not authorize any person or entity to assume any obligation or liability on its behalf in connection with the sale and purchase of any of its products. The purchase of any Icon Grills product from anyone other than Icon Grills or an authorized dealer will void the Warranty associated with the product. If you have a question regarding the identity of an authorized dealer, you should contact Icon Grills before you purchase the product.To submit a warranty claim, the original purchaser or authorized agent of the original purchaser mustcontactIconat(877)917-4273orcontactIconGrillsviaemail(*******************)or through the website at .Long-Term Maintenance• Cover your grill when not in use to extend life and maintain appearance.• When moving grill, always pull by the back hinge.cover the air holes. For smoking foodsat low temperatures for longer periodsof time (1.5 hours+) you will need to add alittle more charcoal, up to approximately 2 inches/5 centimeters above the same air holes. Mound charcoal over perforated stainless steel electric starter pocket. Use lump charcoal for best BEEFBrisket (8 - 12 lbs) 1.5 hours/lb 225 - 250 185 - 205 Short Ribs 5 hours 225 - 250 Pulls back from bones Tenderloin (3 - 4 lbs) 1-4 hours 225 - 250 120 - 160 PORKBaby Back Ribs (1.5 - 2.5 lbs) 5 hours 225 - 250 Pulls back from bones Shoulder / Butt (6 - 8 lbs) 1.5 hours/lb 225 - 250 170 - 205Ham (Bone In) 1.5 hours/lb 225 - 250 160Spare Ribs (2.5 - 3 lbs) 5 - 7 hours 225 - 250 Pulls back from bones Tenderloin (1.5 - 2 lbs) 2.5 - 3 hours 225 - 250 160 POULTRYTurkey (Whole) 15 - 20 min./lb 240 - 275 170 Chicken (Whole: 2.5 - 4.5 lbs) 2.5 - 4 hours 250 - 275 170Rare 125 + 3 min. Rest ---------Medium-Rare 130 - 135 145 + 3 min. Rest Medium 135 - 140 150 Medium-Well 140 - 150 155Well-Done 155+ 160+ Ground 160Poultry Temp (°F)Dark Meat 165 - 175White Meat 165Ground 170 - 175。

201, 202, 301, 302 & 305 User ManualDocument informationDevice Scope: 201_202_301_302_305Firmware Versions: 2.0 - 2.2Document Type: manualDocument ID: 3575Document Version: 21Document Date: 29.1.2015MarkingsWarningWaste Electrical and Electronic Equipment DirectiveWarningsRead this manual carefully before using the device.Only Nokeval Oy authorized services may repair or modify the device. The device includes no user serviceable parts.The device must not be disposed with household waste. Observe local regulations concerning electronic waste recycling.TrademarksAny trademarks mentioned in this manual are the property of the respective trademark owners.ContentsDocument information (2)Markings (2)Warnings (2)Trademarks (2)Introduction (4)Installation (5)Settings (9)Calibration (11)Operation (12)Maintenance (13)Troubleshooting (13)Specifications (15)Packing list (16)Manufacturer (16)The models 201 and 202 are panel models. The models 301, 302 and 305 are IP67 protected field enclosure models.The models 202 and 302 include alarm relays*.The models 301 and 302 have two cable glands. The smaller case model, 305, only has one cable gland.All these models are loop powered LED displays and all required power is supplied by the 4-20 mA loop. This enables cost efficient placement in locations where a separate power supply is not available.The display scaling, the alarm levels and all other settings can be controlled via the front panel or with the free MekuWin software. Using MekuWin requires a cable connected to the POL connector of the device. When using more than one decimal the display can be soothed with the digital filter. Device configuration can be protected with a password. The keyboard can be disabled by removing a jumper.The alarm function is for applications where alarm limits rarely change. The alarm relays cannot pull simultaneously with less than an 8 mA loop current, so typically either a high alarm and a low alarm or two high alarm configurations are used.Mittakuvat 201 & 202301 & 302305 & 306ConnectionModels 201 and 202: connectors are located behind the device with the exception of the POL connector, which is located inside behind the front panel.Input 4-20 mAAlarm relays 240 VAC, max. 150 mA (202 only)Models 301 and 302: connectors are located inside the device behind the display.-+Input 4-20 mAA2 A1Alarm relays 240 VAC, max. 150 mA (302 only)Remove forfor alarmsPOLModel 305: connectors are located inside the device behind the display.+-Input 4-20 mARemove for KeylockKEYLOCKPOLConnect the 4…20mA input to terminals 1 (+) and 2 (-). On models 301/302/305, refer to the polarity markings on the circuit board.For chaining devices, use the free terminal 3.On models 202 and 302, connect the alarms to terminals 4 and 5 (A1 low/high alarm) and 6 and 7 (A2 high alarm).Configuration with device keyboardStart configuration by pressing and holding the keys * and ^ for two seconds. Configuration with the MekuWin software1.Download MekuWin from and install it.2.Connect a DCS772 device to a Windows computer’s USB port and connect a POL-3PIN adapter tothe DCS772.3.Connect the adapter to the POL connector of the device.4.Run MekuWin.5.Verify the following settings: Protocol SCL, Baud 9600, Parity 8N1, Address 0.6.Click Connect Direct. MekuWin will connect to the device.7.Change configuration as desired and save.8.Detach the cables.ScalingSet the Lo display value. This is displayed with a 4mA current. Default is 0. Configuration with keyboard:1.Press and hold * and ^ for two seconds. The Conf LED will light up.2.Press v five times to move to the Lo setting.3.Press > to enter the Lo setting.4.To change numbers, press > to select and change with ^ and v.5.To move the decimal point, first select it with >, then move it with ^ and v.6.When the Lo setting is at the desired value, press *.Next set the Hi display value. This is displayed with a 20mA current. Default is 100.0.1.Press v to move to the Hi setting.2.Press > to enter the Hi setting.3.To change numbers, press > to select and change with ^ and v.4.To move the decimal point, first select it with >, then move it with ^ and v.5.When the Hi setting is at the desired value, press *.Press * and > to save. The Conf LED will turn off. The device is now ready for use.Alarm configuration for models 202 and 3021.Press and hold * and ^ for two seconds. The Conf LED will light up.2.Press > to enter the AL L setting.3.To change numbers, press > to select and change with ^ and v.4.When the AL L setting is at the desired value for the low alarm, press *.5.Press v to move to the HY L setting.6.Press > to enter the HY L setting.7.Press ^ to change the minus sign to 0 to enable the alarm function.8.To enter a bigger hysteresis, press > and make a change with ^.9.When the HY L setting is at the desired value for hysteresis, press *.10.Press v to move to the AL H setting.11.Press > to enter the AL H setting.12.To change numbers, press > to select and change with ^ and v.13.To move the decimal point, first select it with >, then move it with ^ and v.14.When the AL H setting is at the desired value for the low alarm, press *.15.Press v to move to the HY H setting.16.Press > to enter the HY H setting.17.Press ^ to change the minus sign to 0 to enable the alarm function.18.To enter a bigger hysteresis, press > and make a change with ^.19.When the HY H setting is at the desired value for hysteresis, press *. Press * and > to save. The Conf LED will turn off. The alarms are now ready for use.SettingsAL L (Alarm Low)The A1 relay will activate when the display value goes below this setting (when ALCF=LoHI) or above it (when ALCF=HIHI).Both alarms cannot be active simultaneously. Alarm low must not be set higher than alarm high. If the input current falls below 3 mA, the alarm relays are disabled automatically, because the available power is not sufficient for the relays. Default is 20.0.HY L (Hysteresis Low) (starting from firmware V2.2)Hysteresis prevents relays from changing their state needlessly when the display value fluctuates near the alarm level. The alarm is deactivated when the display value moves away from the alarm level by the value of HY L. For example if AL H = 20 and HY L = 5, the alarm is activated when the display value is 80 and is deactivated when the display value is 15.A keyboard alarm reset can be enabled by setting the hysteresis higher than the scaled range(for example 9999). This way the alarm stays on waiting for a v key press or for the display value to decrease under the alarm level. The alarm is then switched off because both relays cannot be active simultaneously.Alarm can be disabled completely by changing this setting to a negative value. This will however not reduce voltage drop. For models 201, 301 and 305 the default is -1.0. For 202 and 302, the default is 1.0.AL H (Alarm High)The A2 relay will activate when the display value goes above this setting.Both alarms cannot be active simultaneously. Alarm low must not be set higher than alarm high. Default is 80.0.HY H (Hysteresis Low) (starting from firmware V2.2)Hysteresis prevents relays from changing their state needlessly when the display value fluctuates near the alarm level. The alarm is deactivated when the display value moves away from the alarm level by the value of HY H. For example if AL H = 80 and HY H = 5, the alarm is activated when the display value is 80 and is deactivated when the display value is 75.A keyboard alarm reset can be enabled by setting the hysteresis higher than the scaled range(for example 9999). This way the alarm stays on waiting for a v key press or for the display value to decrease under the alarm level. The alarm is then switched off because both relays cannot be active simultaneously.Alarm can be disabled completely by changing this setting to a negative value. This will however not reduce voltage drop. For models 201, 301 and 305 the default is -1.0. For 202 and 302, the default is 1.0.ALHy (Alarm Hysteresis) (only in firmware V2.0-V2.1)Hysteresis prevents relays from changing their state needlessly when the display value fluctuates near the alarm level. The alarm is deactivated when the display value moves away from the alarm level by the value of ALHy. For example if AL H = 80 and ALHy = 5, the alarm is activated when the display value is 80 and is deactivated when the display value is 75.A keyboard alarm reset can be enabled by setting the hysteresis higher than the scaled range(for example 9999). This way the alarm stays on waiting for a v key press or for the display value to decrease under the alarm level. The alarm is then switched off because both relays cannot be active simultaneously.Alarms can be disabled completely by changing this setting to a negative value. This will however not reduce voltage drop. For models 201, 301 and 305 the default is -1.0. For 202 and 302, the default is 1.0. Dec (Decimal)The number of decimals displayed. Options are 0, 1, 2 or 3. Default is 1.Lo (Low)The display value shown with a 4mA current. Default is 0.000.Hi (High)The display value shown with a 20mA current. Default is 100.0.DeadDead changes the lowest numbers of the display to show zero. For example if Dead=5, the display will function normally with a value higher than 5, but values lower than 5 will be forced to 0. Negative display values can be disabled by setting Dead=0. Negative values will disable this setting. Default is -1.00. LoPass (Low-Pass)A digital low-pass filter for damping big display values and fluctuations. The value is a time constant in seconds. Default is 0.5 seconds. The filter is disabled when the value is 0. Alarms are controlled by the filtered value, so the low-pass filter also increases alarm reaction time. Default is 0.5.Intens (Intensity)Display intensity. With the current below 6mA, the intensity decreases automatically so that at 4mA it is at most half of the maximum intensity. Value range is 1…15. Default is 15.TrF (Transfer Function)LIN = normal display, Sqrt = square root or PoLy = polynomial function. Before square rooting negative values (<4 mA), the minus sign will be removed and afterwards returned. This enables, for example, measuring backward flow assuming the sensor works correctly.Poly (Polynomial)This menu will be visible if the TrF setting is changed to PoLy. Defaults are P1 = 1, P2 = 0, P3 = 0, P4 = 0.****************************************************************ALCF (Alarm Configuration)LoHI = low and high alarms. HIHI = two high alarms. Default is LoHI.CFCo (Configuration security code)CFCo is a security code needed to enter device configuration. Enable this by changing the value from oFF to Set.When Cod.0 appears to the display, press keys 1-4 to enter six digit code twice in a row. Left key corresponds digit 1, next key corresponds digit 2 etc.UndoExits configuration and cancels any configuration changes.SaveExits configuration and saves any configuration changes.CalibrationCAL1.Press and hold ^, v and *.2.Press v to move to the CAL setting.3.Press > to enter the CAL setting.4.Enter calibration code by pressing ^ ^ v v ^ *.5.Supply accurate 4mA current to the device input.6.Press > and then *.7.Press v to move to the 20mA position.8.Supply accurate 20mA current to the device input.9.Press > and then *.10.Press *, > and * to save calibration.OperationLED lightsFrom left to right: A1 alarm on, A2 alarm on, not in use, not in use, Configuration state on.Restore default settings and remove configuration codePress and hold * and > for 2 seconds while switching power on.Keyboard lock, models 201 and 202The keyboard lock prevents unauthorized or accidental use of the keyboard. To enable the keyboard lock, set a jumper to the two top pins of the POL connector on the right side of the device display. The pins are marked with “Keylock”.Keyboard lock, models 301 and 301The keyboard lock prevents unauthorized or accidental use of the keyboard. To enable the keyboard lock, remove the jumper from the “Remove for keylock” jumper header.Removing alarm function to reduce voltage dropSet a jumper to “Alarms OFF” or “Remove for alarms” jumper header. This will reduce voltage drop by 2.5V. Empty space on the right side of the front panelThis is space for a unit sticker. A sticker sheet is supplied with the device.MaintenanceThe device will not need special maintenance. If incorrect values (error>0.05% of the range) are displayed, the device is in need of calibration.Clean the external parts of the device with a soft cloth, mild soap water or isopropyl alcohol.TroubleshootingNo display.Measure the voltage between pins 1 and 2. Pin 1 should be positive. Remove the positive wire from terminal block 1. Measure between the top of pin 1 terminal block screw and removed positive wire. The current should be at least 4mA. If the device still has no display, return it for service.Keyboard not working.With models 201 and 202, make sure that the POL connector has no jumper in the top two pins. With 301/302/305, make sure the “Remove for keylock” or “KEYLOCK” jumper header is not closed.A1 or A2 LED is lit but the alarm relays do not work.Make sure the “Alarms OFF” or “Remove for alarms” jumper header is not closed. Also note that the alarm relays cannot be on simultaneously with a loop current below 8mA. Models 201, 301 and 305 have no alarm relays.The device has no Filt setting.Firmware version V2.0 replaced the Filt setting with the LoPa (Low Pass) setting. These two settings have different operating principles. Consult this manual for further information.302 alarm relay connector has different numbering than in the earlier user manual and on the device label.To avoid potential confusion when connecting different models, the relay connector numberings for models 302 and 202 were harmonized in May 2013. A1 and A2 relay positions and relay functionality have not changed – the change concerns the numbers only.My device is a special model 302SEN and I would like a user manual for it.This manual applies to 302SEN starting from firmware version V2.0. 302SEN without a case will differ from a regular 302 only by its ALCf HiHi setting. Also note that with 302SEN devices with V2.0 firmware, the alarm 1 relay is of normal close type whereas in other firmware versions it is of normal open type. My device has no functions or settings mentioned in the user manual.If your firmware version V1.1 or below, please refer to the manual at/pdf/manuals/en/301_302_305_306_V1.0-1.1_manual.pdf. The firmware version is printed on the device label and also displayed when the device is turned on.This user manual has no information about models 306 or 350.Models 306 and 350 are discontinued. For these devices, refer to the manual at/pdf/manuals/en/301_302_305_306_V1.0-1.1_manual.pdfThe device has no ALHy setting.Firmware version V2.2 replaced the Filt setting with the HY L and HY H settings. These two settings enable different hysteresis setting for two alarms. If you need newer firmware version for your device, you can send your device to Nokeval service.A1 or A2 LED will not light up and the alarm relays do not work.Make sure ALHy, HY L or HY H value is not negative.SpecificationsDisplay 4-num. red LED, 14.5 mm digit height with adjustable intensity Keyboard Keys under the front panel surfaceInput 4-20 mADisplay range -999....9999, free scalingAccuracy 0,05% of span @18…28 °CThermal drift < 100 ppm/°CMeasurement speed about 0,25 s (4 Hz)Screw terminals Removable. 2,5 mm² conductor, except model 305 1,5 mm² Protection Input is protected for wrong polarity and over current of 100mA Voltage drop in current loop Maximum of 4.8 V with 4-20 mA (comparable to 240 ohms loopresistance). With alarms on maximum of 7.3 V.202 and 302 alarmsAlarm relays 202, 302 2 solid state relays, maximum of 250 VDC/VAC, Cat II, 150 mA, about 12ohms. Insulation to current loop is momentarily 4 kV.Alarm reset Automatic or hold, reset with keyboard.Alarm mode High- and low alarm or two high alarmsEnvironmentOperating temperature 0...+60 °CHumidity < 95 %RH non-condensingPollution degree 2Altitude Models 202 and 302 <2000 meters. Models 201, 301 and 305 not defined.Protection class 201, 202 IP65 with the gasket installed and IP40 without the gasketProtection class 301, 302, 305 IP67MeasurementsWeight 201 About 103gWeight 202 About 115gWeight 301 About 205gWeight 302 About 218gWeight 305 About 142gMeasurements 201/202 Width 96mm Height 48mm Depth 65mm (+ 11mm connector) Panel size 201/202 Width 92mm Height 45 mmMeasurements 301/302 Width 100mm Height 100mm* Depth 57mm. Measurements 305 Width 82mm Height 80mm* Depth 57mm.*301, 302 and 305 height is measured without additional 25mm height added by cable glands.Cable glands 301, 302 2 pcs M16x1.5, cable diameter 5-10mmCable gland 305 1 pcs M16x1.5, cable diameter 5-10mmPacking listNGS-NK case brackets (12869) NGS-94-DA gasket to case NGS-94xx (12867)Unit sticker sheet (90766) orUnit sticker sheet (90766)Packers marking:Manufacturer Nokeval Oy Rounionkatu 107 37150 Nokia FinlandPhone +358 3 342 4800 (Mo-Fri 8:30-16:00)WWW / Email *****************, *******************。