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沙特saber认证婴儿车出证步骤

沙特saber认证婴儿车出证步骤

沙特saber认证婴儿车出证步骤婴儿车产品如何在沙特阿拉伯申请saber认证?所谓婴儿车是指儿童用自行车、婴儿车和婴儿助行器。

在为此类产品申请Saber认证时,应特别注意一些细节,否则会很麻烦。

为什么?因为必须记住儿童和婴儿使用的产品。

如果你不小心,你可能会遭受重大损失。

为什么?例如,您将知道,例如,根据国内海关申报代码,婴儿助行器通常为9503001000o许多人肯定会使用此代码来申请saber认证。

然而,对于产品9503001000,沙特海关代码在接受saber申请之前必须获得GCC证书。

制作GCC证书需要2-3万元。

成本如此之高,好几个出口商都能负担得起。

因此,不得将代码9503001000用于学步车的海关申报。

报关时最好使用代码8715000100o该代码也应用于学步车。

有人说儿童滑板车也是婴儿车。

这是错误的。

在沙特阿拉伯,儿童滑板车不是婴儿车,而是玩具车。

这两者是不同的。

还有一款平衡车,儿童或成人都可以玩。

这些产品很麻烦。

平衡车甚至需要Qfark认证,可以说相当昂贵。

婴儿车产品仅限于儿童自行车、儿童手推车和婴儿车。

沙特阿拉伯的婴儿车列表中仅包括这些产品。

虽然婴儿车产品是儿童使用的。

然而,与玩具车不同,玩具车需要GCC认证才能申请saber认证。

如果海关代码以8714和8715开头,则可以作为低风险产品操作。

其他人很难说。

玩具产品的HS代码以9503开头,这是GeC。

因此,对于婴儿车产品,最好使用以8714或8715开头的HS代码。

更简单一些是合适的,并且只能制作一个SC证书。

即使是PC证书也没有使用,因为它是一种低风险产品。

当然,这是目前的情况。

未来是否会改变取决于发证机构的最终决定目前,在沙特阿拉伯申请saber认证的客户的婴儿车产品使用最多的三个HS代码海关代码,即:8715000000›8715000000和94037000000o 可以使用婴儿车和婴儿车,尤其是塑料制品制成的婴儿车o94037000000被大多数人使用。

柔性检查作用域套件-USB 产品说明书

柔性检查作用域套件-USB 产品说明书

lInstructions for Use: Flexible Inspection Scope Kit-USB Brand Name of ProductFlexible Inspection Scope Kit - USB Generic Name of ProductFlexible Inspection Scope Kit - USB Product Code Number(s)FIS-007U, FIS-007USK, FIS-007UB, CT-101, CT-102Intended UseFor visually inspecting items.Range of Applications for ProductEnhance visual inspection by providing lighted magnification, image capture and the option for documentation in hard-to-see crevices, channels, and lumens in areas of instruments that are not visible to the unaided eye.Key Specifications of Product Flexible Inspection Scope- FIS-007U∙CT-101 1.90 mm OD and 110 cm length∙CT-102 1.06 mm OD and 110 cm length∙Opticalo Resolution format:o CT-102 1.06 mm: 40,000 pixels (or 200- x 200 pixels)o CT-101 1.90 mm: 160,000 pixels (or 400- x 400 pixels)o Field of View: 120° in airo Angle of view: 0°USB Control Module: Control Module housing Camera processor and LEDillumination:∙Dimensions: 5.25- x 3.90- x 1.85 inches∙Weight: 1.20 pounds ∙Digital Inspection Scope Connection∙Illumination Control- LED in the Control Module∙Power Cycle∙USB Camera Cable∙Easily change from small and large diameter scopes.Light Settings:There are four light settings operated by one button.Blinking Light (Indicates transmitting video data):∙Splash proof (IPX5 Rating)∙No external power needed.Flexible Inspection Scope Software Requirements:∙Compatible with Windows 10 Operating systems.∙USB flash drive includes software.Unpacking Flexible Inspection Scope:Carefully inspect for shipping damage. If there is any damage contact the shipping carrier and Heatlhmarkcustomer service 800-521-6224 immediately.USB Control Module: (Fig. 1).1.Digital Inspection Scope Connection 2.Illumination Control 3.Power Cycle B (Type C) on the right side of the boxFigure 1Flexible Inspection Scope™: (Fig. 2).∙CT-101 1.90 mm O.D. and 110 cm length ∙CT-102 1.06 mm O.D. and 110 cm lengthLarge1.90 mmSmall 1.06 mmFigure 2Flexible Inspection Scope™ Features3214Light/Illumination Settings: (Fig. 3).∙Five (5) light settingso Light on control indicats setting levelo Fifth setting is OFF∙Press light button to advance to next setting.∙Fifth setting turns the light OFF.Figure 3Power Cycle ButtonPress button to RESET camera (Fig. 4).Figure 41.Flexible Inspection Scope™ Plug (Fig. 5).Contains camera video connection as well as LED Light for illumination.1Figure 52.Flexible Working Length (Fig. 6).The portion of the Flexible Inspection Scope™ that is inserted into an item during visual inspection.The measuring scale markings on the Flexible Working Length are in centimeters (accuracy = ± 0.5 cm)2Figure 63.Distal Camera (Fig. 7).Distal portion of Flexible Inspection Scope™ that contains the camera lens3Figure 7SOFTWARE INSTALLATION:Note: This section is done only once when connecting the scope to the computer for the first time.∙System Requirements: MS Windows 10∙Install the Flexible Inspection Scope™ Software from the USB flash drive on a computer.Note: If you have any IT policies that may block this installation, please contact your IT team to give access to Healthmark scope viewer to install.1. Insert the USB Flash drive into your computer, and double click on the Healthmark Scope Viewer installer package to begin installation.2. The “Welcome to the Healthmark Scope Viewer Setup Wizard” screen pops up. Click on Next.3. Select the first tab Typical or setup type of your choice, click Next.4. Click Install and wait for installation to complete.5. Click Finish.STARTING SOFTWARE & CONNECTING SCOPE TO PC:(Fig 8).1.Open the Windows PC viewer software.2.Connect the Control Module to PC using USB Cable.3.Plug the Flexible Inspection Scope into the Control Module.4.In the viewer software, click Settings and Select USB Video Device, click on the desiredresolution, select the preferred Video Output Format, and then Click OK.5.Press the Power Cycle Button.Figure 86.Now you can start using the scope.Verifing OperationFollowing the steps listed below will ensure the proper use and performance of the Flexible Inspection Scope™. The Flexile Inspection Scope™ can be checked for normal operation by connecting it as described in the Startup section of this IFU.Normal operation includes:∙An image appearing on your computer monitor or HDMI Monitor.∙ A blinking light on Control Module near the Power Cycle button that indicates the image feed is transmitting.∙White light emitting from the distal end of the Digital Inspection Scope.∙An LED light on the control module top panel that indicates the light intensity of the device. Using SoftwareHealthmark Scope Viewer Software (Fig. 9).1.Capture button: Captures a Reference Image and saves it to the Reference Image folder.2.Main Image Window: Displays the image from the camera.3.Reference Image Window: Displays a reference image.4.Clear Button: Removes the image from the Reference image window.5.Open Reference Image button: Allows selection of a reference image from the Reference Imagefolder.6.Settings Button: Click to select the video camera and resolution settings.7.File Location Button: Click to change location where captured images are being saved.8.File Location Window: Shows the file path where captured images are being saved currently.9.Capture Image Button: Captures images and adds them to the File Location selected by the user(as shown in the File Location Window).10.Capture Video button: Click to record video. Click again to stop recording video.11.File Prefix: Type in text that you would like included in the file name of Captured Images.Figure 9Selecting Video Device or CameraFollow the directions below to select the video device or camera used to capture images using the Flexible Inspection Scope™ Viewer Software. (Fig. 10).1.Click Settings button in the lower left of the Scope Viewer software to display a list of videodevices or cameras being detected by your computer2.Select a device for capturing images using the Scope Viewera.The example below shows a webcam and USB Video Device in the Settings box. Select theUSB Video Device for the Flexible Inspection Scope™.b.You can also select your preferred Video Output Format from the dropdown box3.Click OK to view the selected Video Device.231Figure 10Capturing Still PicturesFollow the instructions for capturing still pictures from the Main Image Window.Select the Capture Image button. (Fig. 11).Figure 11Note: When an image is captured, “Image Captured” in red text will flash on the lower portion of the screen and a new file will appear in the Files Location.Capturing Video ImagesFollow the instructions below for capturing video from the Main Image Window.1.Select the Capture Video Button (Fig. 12).Figure 122.When the video is recording “Recording…” in red text will appear toward the bottom of thesoftware window.3.To stop recording, click Stop Capture. (Fig. 13).Figure 13Setting File PrefixFollowing the steps below allows you to create a file prefix that will appear after the underscore of image file names save to the File Location specified by the user.1.Click in the field next to File Prefix.2.Enter the characters that you would like to be included in the file name. (Fig 14).Figure 14Setting Location for Saved FilesFollowing the steps below allows you to set the file location of saved images using the Scope Viewer software.1.Click the File Location button.2.Select the file location you want to save captured images. (Fig 15).Figure 15Displaying Reference ImageThere are two ways to display a still image in the Reference Image Window on the Scope Viewer software.1.To display an image currently being displayed in the Main Image Window, click the Capture button. Note: The images will be saved in a file folder titled Reference Images in the designated File Location that the user specified in the File Location field. (Fig. 16).Figure 162.To display a saved image in the Reference Image Window from your File Location:a.Click the Open Reference Image button (Fig. 16 above).b.Select the file you want to display (Fig. 17 below).c.Click the OK Button, to display the image in the Reference Image Window. (Fig. 17).Figure 17Switching to a Different Flexible Inspection Scope™ on the Control Module:1.Press the Power button on the Control Module once.2.Disconnect the current Flexible Inspection Scope from the Control Module.3.Repeat the steps in the “STARTING SOFTWARE & CONNECTING SCOPE TO PC” procedure.Inserting Scope in ItemFigure 1Rotating Device to Avoid ObstacleFigure 2 Performing InspectionWipe down the Flexible Inspection Scope™ with a compatible wipe. Follow the manufacturer’s (Mfr.’s)Instructions for Use (IFU) for appropriate wipe usage. Click here to see the Chemical Compatibility Chart(PDF) for approved cleaning.The Flexible Inspection Scope™ is made of the same material as other common endoscopes. Any wipe,solution, or low temperature (≤ 60 °C [140 °F]) method intended for the reprocessing of endoscopes is likelycompatible with the Generation II Flexible Inspection Scope™ Catheters if used according to the productlabeling.Solutions Containing (Flexible Inspection Scope Only)Alcohol Ethoxylates Neutral or Near-Neutral pH DetergentsEnzymatic Cleaning Solutions Enzymatic DetergentsSodium Borated, Decahydrate Tetrapotassium PyrophosphateFlexible Inspection Scope™ has a fluid ingress protection rating of IPX7 (Waterproof) and can withstandimmersion in fluid up to one (1)-meter in depth for up to 30 minutes.Control Module USB has a fluid ingress protection rating of IPX5 (Water resistant) and can withstand asustained, low pressure water jet spray for up to three minutes.For Thorough Cleaning: CablesFollow the cleaning agent Mfr.’s IFU.1.Unplug and disconnect all components from the Control box prior to cleaning.2.Do not submerge or soak the cable for disinfection (cable is not waterproof).3.Wipe thoroughly with non-linting wipe moistened with facility approved neutral detergent. Use theappropriate brushes with detergent solution to remove any residues from areas that cannot bereached with the wipes.For Thorough Cleaning: Control Module1.Unplug and disconnect all components from the Control box prior to cleaning.2.Do not submerge or soak the cable for disinfection (Control Box is not waterproof).3.Wipe thoroughly with non-linting wipe moistened with facility approved neutral detergent. Use theappropriate brushes with detergent solution to remove any residues from areas that cannot bereached with the wipes.Note: Do NOT soak. Control Module and cables are not waterproof and should not be immersed.N/ACleaning –AutomatedDisinfection Control Module and CablesThese may be cleaned with alcohol based disinfectant wipes.Compatible agents (wipes and solutions) for disinfecting Flexible Inspection Scope™ and ControlModule:∙Hydrogen peroxide∙Isopropyl alcohol (IPA)∙Sodium hypochlorite (Bleach)∙Ortho-phenylphenol∙Quaternary ammonium.High-Level Disinfection (Flexible Inspection Scope™ Only)∙Select only disinfecting solutions listed in the compatible disinfecting methods.∙Follow all recommendations regarding health-hazards, dispensing, measuring, and storage from the Mfr. of cleaning and disinfecting agents.∙Soak the Flexible Inspection Scope™ in selected disinfecting solution per Mfr.’s IFU.∙Rinse the Flexible Inspection Scope™ with critical (sterile) water, again, following the disinfecting solutions Mfr.’s instructions.Reprocessing Chemical Compatibility Chart (PDF): Click here.。

DS-3T0306HP-E HS 4-Port 100M Unmanaged Hi-PoE 交换机的

DS-3T0306HP-E HS 4-Port 100M Unmanaged Hi-PoE 交换机的

DS-3T0306HP-E/HS switches are layer 2 Hi-PoE switches,providing advanced PoE power supply technology andwider temperature (-30 to 65 °C) design on the basis ofhigh-performance access to ensure stable data upload.The switches support Hi-PoE, long range, port isolation,and PoE watchdog function.Key Feature•3 × 100M PoE ports, 1 × Hi-PoE port, 1 × gigabit RJ45 port and 1 × gigabit SFP Fiber Optical Port.•IEEE 802.3at/af/bt standard for Hi-PoE port (Max. 60 W PoE output).•IEEE 802.3at/af standard for PoE ports (Max. 30 W PoE output).•IEEE 802.3, IEEE 802.3u, IEEE 802.3x, IEEE 802.3z and IEEE 802.3ab standard.•6 KV surge protection for PoE ports.•Up to 300 m long-range transmission.•PoE watchdog to auto detect and restart the cameras that do not respond.•Port isolation to improve network security.•Wire-speed forwarding.•Wider temperature (-30 to 65 °C) design.•Store-and-forward switching.•Solid high-strength metal shell.•Reliable fan-free design.SpecificationModel DS-3T0306HP-E/HSNetwork parameters Port number3 × 100M PoE ports, 1 × Hi-PoE port, 1 × gigabit RJ45 port and 1 ×gigabit SFP Fiber Optical PortPort type RJ45 port, full duplex, MDI/MDI-X adaptiveStandard IEEE 802.3, IEEE 802.3u, IEEE 802.3x, IEEE 802.3z and IEEE 802.3ab Forwarding mode Store-and-forward switchingWorking modeStandard mode (default), Extend mode, Isolation mode, PoEwatchdog modePorts for long-distancetransmissionPorts 3 and 4MAC address table 2 KSwitching capacity 4.8 GbpsPacket forwarding rate 3.5712 MppsInternal cache 1.0 MbitsPoE power supply PoE standardPort 1: IEEE 802.3af, IEEE 802.3at, IEEE 802.3btPorts 2 to 4: IEEE 802.3af, IEEE 802.3atPoE power pinPorts 1 to 4: Ethernet cables 1/2/3/6 and 4/5/7/8 provide powersupply simultaneously.PoE port Ports 2 to 4Hi-PoE port Port 1Max. port powerPort 1: 60 WPorts 2 to 4: 30 WPoE power budget 60 WDialing function Long range Ports 3 and 4: up to 300 m.Port isolation Ports 1 to 4: port isolation mode to improve network security.PoE watchdog Ports 1 to 4: auto detect and restart the cameras that do not respond.General Shell Metal material, fan-free designGross weight0.915 kg (2.02 lb)Net weight0.35 kg (0.77 lb)Dimension (L × H × D)158 mm × 101.2 mm × 31.6 mm (6.22” × 3.98” × 1.24”) Operating temperature-30 °C to 65 °C (-22 °F to 149°F)Storage temperature-40 °C to 85 °C (-40 °F to 185 °F)Operating humidity5% to 95% (no condensation)Storage humidity5% to 95% (no condensation)Power supply48 to 57 VDC, 1.35 A Max.Power consumption in idle< 5 WMax. power consumption 65 WPower source65 WApproval EMC FCC (47 CFR Part 15, Subpart B); CE-EMC (EN 55032: 2015, EN 61000-3-2: 2014, EN 61000-3-3: 2013, EN 55024: 2010 +A1: 2015); RCM(AS/NZS CISPR 32: 2015); IC (ICES-003: Issue 6, 2016)Safety UL (UL 60950-1); CB (IEC 60950-1:2005 + Am 1:2009 + Am 2:2013); CE-LVD (EN 60950-1:2005 + Am 1:2009 + Am 2:2013)Chemistry CE-RoHS (2011/65/EU); WEEE (2012/19/EU); Reach (Regulation (EC)No 1907/2006)Physical Interface Front panel:Back panel:Available Model DS-3T0306HP-EDimension (unit: mm)Typical Application。

Sensata技术有限公司的感应器产品介绍说明书

Sensata技术有限公司的感应器产品介绍说明书

|DSU9H & DSU9X MODELSSIL3 PLe INCREMENTAL ENCODERS SPECIFICATIONSFeatures•Usable up to SIL3 and Cat.4 / PLe according to IEC 61508 / EN ISO 13849•Suitable for safe motor feedback according to IEC 61800-5-2•E specially designed for heavy-duty applications (steel, paper, wood,mills, cranes…) Compact and robust design. Excellent resistance to shock and vibration•Stainless steel version available (DSU9X)•90mm encoder, 30mm standard through shaft, PE E K reduction hub available•High protection level: IP66 (DSU9X), IP65 (DSU9H)•High temperature performance –20°C to +85°C •Power supply 5Vdc or 11/30Vdc•Digital TTL/RS422 or HTL Push-pull or sine/cosine 1Vpp output •Available resolution up to 2048 ppr•Connector or cable output – side orientation •Adapted anti-rotation systemIntroductionApplications•Industrial automation•Automated guided vehicles•Mills for lumber, steel and other metals •Printing and packaging equipment •Food processing equipment •Forming and die pressesDSU9XWhen an automation system requires a high degree of risk mitigation of failure modes, often times Functional Safety equipment can be a part of the solution. Sensata | BEI Sensors offers a wide range of Functional Safety encoders to fit most any application or electrical interface requirement. Rated at SIL3 (PLe), these encoders allow safe operation in set-up, production and maintenance modes, significantly reducing operational risks. All encoders have the option of a Digital HTL or TTL operation as an alternative to the Sine/Cosine outputs found on most Functional Safety encoders. This makes them a compatible replacement for existing encoders when migrating to a higher safety level of operation. DSU9H & DSU9X offer 30 mm standard through shaft models with optional reduction sleeves for mounting on smaller diameter shafts. The encoder body is 90mm in diameter, available in aluminum or stainless steel.(A)Continuous max. speed – ½ max. load – according to ISO 281: 1990, L10(B)Device must be supplied by a Class 2, LPS or SELV limited energy source.(C) UL listed:Electrical ConnectionsNote: All connections are UL certified, except G3 and GP RESOLUTIONS1024 2048DSU9H – radial cable and 20mm reduction hubDSU9X- radial M23 connector - IP66 optionCOUPLING INTERFACE Stator coupling kit M9445/045Tether arm kit M9445/046For a safe installation according to the required safety level needed in the application, refer to the user safety User Manual.The safety User Manual provides the technical information (drawings, electrical data, etc...) for a safe integration.A quick installation guide is provided with each encoder for use by the technician who installs the device on the equipment.GENERAL NOTESORDERING OPTIONSContact the factory for special versions, ex: resolution, connection, flange...* Parts mounted on encoder and fasteners included in the encoder box.AGENCY APPROVALS & CERTIFICATIONSBEI Sensors SASSensata TechnologiesEspace Européen de l’Entreprise9, rue de CopenhagueB.P. 70044 SchiltigheimF 67013 Strasbourg CedexTélFaxMailWeb: +33 (0)3 88 20 80 80: +33 (0)3 88 20 87 87:****************************: Americas+1 (800) 350 2727*******************Europe, Middle East & Africa +33 (3) 88 20 8080****************************Asia Pacific*************************.com China +86 (21) 2306 1500Japan +81 (45) 277 7117Korea +82 (31) 601 2004India +91 (80) 67920890Rest of Asia +886 (2) 27602006 ext 2808Page 7CONTACT USSensata Technologies, Inc. (“Sensata”) data sheets are solely intended to assist designers (“Buyers”) who are developing systems that incorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsible for using its independent analysis, evaluation and judgment in designing Buyer’s systems and products. Sensata data sheets have been created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than that specifically described in the published documentation for a particular data sheet. Sensata may make corrections, enhancements, improvements and other changes to its data sheets or components without notice.Buyers are authorized to use Sensata data sheets with the Sensata component(s) identified in each particular data sheet. HOWEVER, NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATA SHEETS ARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATA SHEETS OR USE OF THE DATA SHEETS, EXPRESS, IMPLIED OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO SENSATA DATA SHEETS OR USE THEREOF.All products are sold subject to Sensata’s terms and conditions of sale supplied at SENSATA ASSUMES NO LIABILITY FOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELY RESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS, AND ANY USE OF SENSATA COMPONENTS IN ITS APPLICATIONS, NOTWITHSTANDING ANY APPLICATIONS-RELATED INFORMATION Made in FranceACCESORIES。

超级豪斯基303卫生间洁净剂安全数据表说明书

超级豪斯基303卫生间洁净剂安全数据表说明书

CANBERRA CORPORATIONSAFETY DATA SHEET1. IdentificationProduct Identifier: SUPER HUSKY 303 TOILET BOWL CLEANERApplication or recommended use: Disinfectant toilet bowl cleanerRestrictions on use: Do not use in any fashion not specified on the product label.Manufacturer / supplier: Canberra Corporation3610 N. Holland-Sylvania Rd.Toledo, Ohio 43615 USATelephone: 419-841-6616Emergency phone: 800-832-8992 National Poison Center: 800-222-12222. Hazards IdentificationGHS Classification: Classification of this mixture in accordance with paragraph (d) of §1910.1200.Acute Toxicity (Oral) - Category 4Skin Corrosion/Irritation - Category 1BEye Damage/Irritation - Category 1STOT-SE - Category 3 (Respiratory irritation)Corrosive to Metals - 1Label Elements:Symbol:Signal word: DANGERHazard statements: Harmful if swallowed.Causes severe skin burns and serious eye damage.May cause respiratory irritation.May be corrosive to metals.Precautionary statements: Do not breathe fume/mist/vapors/spray.Wash hands, face and any skin contact thoroughly after handling.Wear protective gloves/protective clothing/eye protection/face protection.Do not eat, drink or smoke when using this product.Keep only in original container.Absorb spillage to prevent material damage.Use only in a well-ventilated area.IF SWALLOWED: Rinse mouth. Do NOT induce vomiting.IF ON SKIN (or hair): Take off immediately all contaminated clothing. Rinse skin withwater/shower. Wash contaminated clothing before reuse.IF INHALED: Remove person to fresh air and keep comfortable for breathing.IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if presentand easy to do. Continue rinsing.Immediately call a POISON CENTER or doctor/physician.See 4. First-Aid Measures for specific treatment.Store locked up in corrosive resistant container, in a well-ventilated place.Keep container tightly closed.Dispose of contents/container to an approved disposal facility.Other Hazards: None known3. Composition / Information on IngredientsChemical characterization: Hydrochloric acid solution, blended with detergents, germicides and auxiliary agents. Hazardous ingredients: The exact percentage of composition has been withheld as a trade secret.23.0 - 23.5% Hydrochloric acid (Muriatic acid) CAS 7647-01-0, EINECS/ELINCS 231-595-70.5 - 2.5% C12-C15 Alcohol ethoxylate CAS 68131-39-5, EINECS/ELINCS NLP500-195-7Other ingredients (> 1%):> 74.5% Water CAS 7732-18-5, EINECS/ELINCS 231-791-24. First-Aid MeasuresSymptoms: Causes irritation or burning sensation. Harmful if swallowed. Causes severe skin burns and serious eye damage. May cause respiratory irritation.Have the product container or label with you when calling a poison control center or doctor, or going for treatment. Inhalation: Move person to fresh air. If person is not breathing, call 911 or an ambulance, then give artificial respiration, preferably by mouth-to-mouth to an unconscious person. If respiratory irritation, dizziness, or unconsciousness occurs, seek immediate medical assistance.Skin Contact: Remove contaminated clothing and wash before reuse. Wash contaminated area with soap and water for 15-20 minutes. Call a poison control center or doctor for treatment advice.Eye Contact: Hold eye open and rinse slowly and gently with water for 15-20 minutes. Remove contact lenses, if present, after first 5 minutes, then continue rinsing eye. Call a poison control center or doctor for treatment advice.Ingestion: Call a poison control center or doctor immediately for treatment advice. Have person sip a glass of water if able to swallow. Do not induce vomiting unless told to do so by the poison control center or doctor. Do not give anything by mouth to a person who is unconscious or convulsing. If vomiting occurs, keep head below hips to reduce risk of aspiration. Probable mucosal damage may contraindicate the use of gastric lavage.Note to Physician: Treat exposed patients symptomatically.5. Fire-Fighting MeasuresSuitable Extinguishing Media: Not applicable. Product is not a fire hazard.Unsuitable Extinguishing Media: High pressure water jet.Specific hazards in case of fire: Hydrogen chloride gas may be generated at high temperatures.Special Fire Fighting Precautions: Fire fighters should wear appropriate protective equipment, including self-contained breathing apparatus and impervious clothing.6. Accidental Release MeasuresEmergency Procedures: Depending on the extent of release, consider the need for emergency responders with adequate personal protective equipment for clean up, need for evacuation or restriction of access to spill area.Personal Precautions: Provide adequate ventilation. Do not eat, drink or smoke during clean up. If necessary, use self-contained respirator, or filtered mask. Wear protective clothing, eye protection and impervious gloves (e.g. neoprene). Wash thoroughly after clean up.Environmental Precautions: Prevent spills from entering storm sewers/drains or contact with soil.Clean up Methods: Small spills may be wiped up and rinsed with water. For larger spills, neutralize with sodium carbonate and absorb on fire retardant material (e.g. sand). Pick up absorbent and dispose of at an appropriate waste disposal facility. 7. Handling and StoragePrecautions for Safe Handling: Read label before use. Never use with chlorine products. Can react to give chlorine gas. If this occurs, flush toilet to remove chemicals and leave area. Do not return for half hour. Ventilate if possible. Never use or mix with other cleaners or chemicals. Do not use on any surface damaged by acid materials. Do not breathe mist/vapors. Wash hands, face and any skin contact thoroughly after handling. Do not eat, drink or smoke when using this product. Wear protective gloves, protective clothing, eye protection, face protection. Use product only according to label directions. If unsure about safe use, contact your supervisor. Use only in a well-ventilated area..Conditions for Safe Storage: Keep out of reach of children. Do not contaminate water, food or feed by storage and disposal. Store locked up in tightly closed, original, corrosive resistant container in a cool (10˚ - 30˚C), dry, well-ventilated area. Incompatibility: Chlorine bleach, alkali.8. Exposure Controls / Personal ProtectionComponents with occupational exposure limits:Component Reference TWA PELHydrochloric acid ACGIH 2 ppm (C)OSHA 5 ppm (C)Engineering Controls: Proper ventilation in accordance with good industrial hygiene should be provided.Personal Protective EquipmentRespiratory: Respiratory protection is not necessary under normal conditions of use.If necessary to prevent exposure above occupational limits, use an approved cartridge style respirator.Gloves: Use water impervious gloves (latex or neoprene rubber). No breakthrough time has been established.Eye Protection: Chemical resistant goggles and face protection.Other: Protective clothing (long sleeves, pants), eyewash, safety shower are always advisable when working with chemicals.9. Physical and Chemical PropertiesPhysical State - LiquidColor - PinkOdor - Pungent, acidic Odor Threshold - No data available Boiling Point - 185°F Decomposition temperature - No data available Freezing Point - < 0°FpH (Neat) - < 1Relative Density - 1.118Evaporation Rate -Similar to water Auto-ignition temperature - Not applicableFlash Point - NoneFlammability - Not applicable Flammability Limits - Not applicablePartition coefficient - Not applicableSolubility (Water) - CompleteVapor Density - No data availableVapor Pressure - No data availableViscosity - Water thin% VOC - < 0.5 (Excluding LVP material)10. Stability and ReactivityReactivity: No specific reactivity test data is available. Under normal conditions of storage and use, hazardous reactions are not expected.Incompatible materials: Mixing with bleach, alkali, or oxidizers may generate toxic gases. Never use with chlorine products. Can react to form chlorine gas. Never use or mix with other cleaners or chemicals.Chemical stability: This product is stable at ambient temperatures and pressures.Conditions to avoid: Temperatures above 50°C or below 10°C.Hazardous decomposition products: Hydrogen chloride11. Toxicological InformationAcute Toxicity: Toxicity data is not available for this mixture. Data below are estimates based on summation methods.Test Results Classification (A.0.4.1(c)) Basis (A.1.3.6.1)Oral > 950mg/kg Category 4 Ingredient literature (Additive formula)Dermal > 2000mg/kg Not applicable Ingredient literature (Additive formula)Inhalation > 20 mg/L Not applicable Ingredient literature (Additive formula)Eye Damage/Irritation Corrosion Category 1 Ingredient literatureSkin Damage/Irritation Corrosion Category 1B Ingredient literatureSummary: Skin and eye contact are most likely routes of exposure. Exposure causes skin burns and serious eye damage. May cause respiratory tract irritation.Subchronic/Chronic Toxicity:Test Results Classification BasisSkin Sensitization Not a sensitizer Not applicable Ingredient literature.Summary: Repeated or prolonged contact causes skin burns and eye damage. May cause respiratory tract irritation. Carcinogens - Ingredients are not listed on the NTP Report on Carcinogens, *IARC Monographs or by OSHA*IARC does list “strong inorganic acid mists” as carcinogenic, but under normal conditions, no exposure to acid mists occurs. Acid solutions are not listed.Other data - No other toxicological information is available for this mixture.12. Ecological InformationThis material has not been tested for acute environmental effects.Persistence and degradability: Material is not persistent. All organic components > 1% are readily biodegradable.Bio-accumulative potential: No evidence to suggest bio-accumulation will occur.Mobility: Accidental spillage may lead to penetration of soil and groundwater. However, due to degradability, no evidence suggests this would cause adverse ecological effects. Material will lower pH of affected area.13. Disposal ConsiderationsRCRA Class - D002. Do not contaminate water, food or feed by disposal. Pesticide wastes are acutely hazardous. Improper disposal of excess pesticide, spray, or mixture of rinsate is a violation of Federal Law. If these wastes cannot be disposed of by use according to label directions, contact your State Pesticide or Environmental Control Agency, or the hazardous waste representative at the nearest EPA Regional Office for guidance. Container Disposal: Non-refillable container. Do not reuse or refill this container. Offer for recycling if available. Triple rinse container promptly after emptying. Then offer for recycling or reconditioning, or puncture and dispose of in a sanitary landfill, or incinerate, or if allowed by state and local authorities, burn. If burned, stay out of smoke. If container is one gallon or less, wrap empty container in plastic bag and discard in trash.14. Transport InformationProper Shipping Name: UN1789 Hydrochloric acid solution RQ - 5000 Lbs. (Hydrochloric Acid)Shipping emergency phone: 800-424-9300Transport hazard class: 8 Hazard Label: Corrosive (When shipped as a Limited Quantity, labeling is not required.) Packing Group: II Emergency Guide No.: 154 Marine Pollutant: No15. Regulatory InformationInventory status: All components are listed on TSCA(US), EINECS/ELINCS(EU), DSL(Canada), AICS(Australia),ENCS(Japan).FIFRA: This product is a U.S. EPA Registered pesticide, EPA Reg. No. 8155-3, and is subject to certain labeling requirements under Federal pesticide law. These requirements differ from the classification criteria and hazard information required for safety data sheets (SDS), and for workplace labels of non-pesticide products. The hazard information required on the pesticide label is reproduced here.Danger: Corrosive. Causes eye and skin damage. May be fatal if swallowed. Chemical Hazards: Never use with chlorine products. Can react to give chlorine gas. Never use or mix with other cleaners or chemicals. The pesticide label also includes other important information, including directions for use.OSHA Hazard Communication Standard: This product meets the §1910.1200 definition of a "Hazardous Chemical". Superfund Amendments and Reauthorization Act of 1986 Title III (EPCRA) Sections 311 and 312Immediate (Acute) Health Hazard Yes Delayed (Chronic) Health Hazard NoFire Hazard No Reactive Hazard NoSudden Release of Pressure Hazard NoSuperfund Amendments and Reauthorization Act of 1986 Title III (EPCRA) Section 313*Chemicals marked wi th an asterisk in “3. Composition/Information on Ingredients” are subject to reporting requirements for Section 313 of Title III of the Superfund Amendments and Reauthorization Act (SARA) of 1986 and 40CFR Part 372. Pennsylvania/New Jersey/Massachusetts Right to KnowSee “3. Composition/Information on Ingredients” for hazardous and top five ingredients over 1% (w/w).California Proposition 65: This product does not contain a listed substance known to the State of California to cause cancer, birth defects or other reproductive harm, at levels which would require a warning under the statute.16. Other informationDate issued: 31. 12. 2014 F303-001 Revision: N/ADisclaimer: No representation or warranty, either expressed or implied, of merchantability, fitness for a particular purpose, or of any other nature, is made with respect to information concerning the product referred to in this document. The information contained herein is, to the best of our knowledge and belief, accurate. However, since the conditions of handling and use are beyond our control, it is impossible to foresee every health effect or exposure risk incurred by the use of this product. All chemicals present some degree of hazard and should be used with caution. The information and recommendations contained herein are presented in good faith. The user should review this information in conjunction with their knowledge of the application intended to determine the suitability of this product for such purpose. In no event will the supplier be responsible for any damages of any nature whatsoever, resulting from the use, reliance upon, or the misuse of this information. Furthermore, it is the direct responsibility of the user to comply with all applicable regulations governing the use and disposal of this material. Prepared by: R&D,Canberra Corporation。

非洲猪瘟快检设备

非洲猪瘟快检设备

非洲猪瘟快检设备تادعمةيقيرفلأافشكلاريزانخلا非洲猪瘟快检设备JD-PCR ىمحعيرسلا竞道非洲猪瘟检测仪配套非洲猪瘟病毒荧光pcr检测试剂盒、非洲猪瘟病毒荧光pcr核酸检测试剂盒均已经获得农业农村部产品批准,可以满意非洲猪瘟核酸现场快速检测需求。

可定量快速畜牧类疾病诊断如非洲猪瘟、禽感、猪瘟、猪蓝耳、伪狂犬等疾病,广泛应用于养殖场、屠宰场、食品加工厂、肉产品深加工企业、农业农村部、畜牧局、检验检疫单位使用。

仪器特点1.体积小,重量轻,易于携带。

轻松满意外出试验的需求。

2.内置7寸高清电容屏PDA,触屏操作,简便快捷。

3.Marlow高品质Peltier制冷片,结合德国PT1000温度传感器以及电性电阻加热补偿边缘的温度掌握模式,大升温速度7℃,大降温速度5℃,大大缩短试验时间。

4.整板3s快速采光模式,保证明验结果孔位全都性。

5.简洁直观的软件引导,轻松开启检测试验。

非洲猪瘟PCR检测仪应用领域□ 基础科学讨论□ 病原体检测□ 肉制品掺假□ 转基因检测□ 食品平安检测□ 药物开发及合理用药□ 基因表达□ 水体监测四、技术参数样品容量:8x0.2ml、支持8联管适用耗材:常见透亮PCR 耗材,8x0.2ml 排管,0.2ml 单管反应体系:5-120ul反应模式体系加热/制冷模块:进口半导体热电模块温度掌握范围:4C-99℃升降温平均速率2C/秒温控精度:0.1C温度匀称性: 0.2C温控区域数量:多点(2 点)梯度数:0 个梯度温度范围:无梯度孔数:无激发光源:免维护led激发光波长范围:400-700nm检测部件:进口光电检测器检测通道数:标配 1通道(FAM)、高配(选配)(FAM、VIC)适用染料和探针:FAM/SYBR Green I, VIC/HEX/CY3(选配), ROX/Texas Red(选配), Cy5,TAMARA(选配)软件功能:荧光定量 PCR 系统软件; 实时扩增反应曲线功能;特定标本实时反应曲线显示;数据分析功能;阴阳结果自动判定功能;图形化显示功能。

乐维顿3x3Decora寓居墙开关PIR侦测器LED夜间灯BASIC说明书

乐维顿3x3Decora寓居墙开关PIR侦测器LED夜间灯BASIC说明书

Leviton Mfg. Co., Inc. Lighting & Energy Solutions201 N. Service Rd. Melville, NY 11747-3138 Tech Line: 1-800-824-3005 Fax: 1-800-832-9538 /les © 2012 Leviton Manufacturing Co., Inc. All rights reserved. Subject to change without notice.O S S N L 3 x 3Decora® Wall Switch PIR Occupancy Sensor with LED NightLightBASIC OPERATIONThe passive infrared (PIR) sensor detects motion from a heat-emitting source within its field-of-view to automatically switch lights ON and OFF, offering the same performance features as the ODS family of occupancy sensors. OSSNL has the ability to reduce (dim) and turn off the “Guide Light” function with a simple dial setting. The LED NightLight consumes less than 1/2 W providing energy savings and guide lighting when room lights are off.APPLICATIONSOSSNL is perfect for use in hospitality and health care facilities with either auto-ON or manual-ON settings with adjustable time delay settings of 30 seconds to 2 hours.The NightLight Occupancy Sensor Wall Switch can be used to provide automatic lighting control for energy savings and convenience in a variety of commercial applications, including:• Hotel restrooms • Hospital restrooms • Conference rooms • Classrooms• Small offices • Lounges• Storage areas • BathroomsNightLight High LevelNightLight OffPRODUCT DATA33FEATURES• Fits in standard wallbox and replaces single-pole wall switch; ground and neutral connection required. Gangable with other units.• 180° field-of-view provides approximately 195m 2 of cov-erage.• Convenient pushbutton provides manual-ON/OFF light switching at any time.• Two dual element PIR sensors used to widen detection range.• Segmented Fresnel lens provides optimum sensitivity and performance. Designed with an extensive “minor motion” area where even slight body movements will be detected.• Vandal resistant PIR lens.• Patented blinders - horizontal field-of-view may be adjusted between 180° and 60° of arc by using integral blinders located on either side of the lens. No masking tape required. • Manual-ON/auto-OFF mode for installations where manual-ON switching is required but auto-OFF switching is still desired.• Red LED indicator light flashes when sensor detects motion to verify detection is active.• Time Delay adjustment for delayed-OFF time settings of 30 seconds (for walking test), 10 minutes, 20 minutes, and 30 minutes. Allows customized adjustments to maximize energy savings.• Light Sensor Adjustable Ambient Light Override ranges from approximately 2 foot-candles (20 lux) to 500+ foot-candles (5000+ lux) to prevent lights from turning ON automatically during periods of ample natu-ral light, increasing energy savings.• Light sensor enables the load hold-OFF feature once level has been set.• Vacancy confirmation - when the time out expires and the relays turn OFF, a 30 second vacancy confirmation exists to turn the relays back ON.• False detection circuitry.• Presentation Mode feature for slide or film presenta -tions allows push buttons to turn lights OFF and keep them OFF while the room is occupied.• LED NightLight offers “Guide Light” functionality.• Adjustable NightLight illumination setting for continu -ous or dimmed NightLight.• NightLight Mode - the factory default setting for the NightLight Mode is Dimmed Mode. This means the NightLight will automatically dim to 5% of full bright -ness after 2 minutes of no occupancy when activated by the internal light sensor.• One unit can be used for 120, 208, 220, 230, 240 VAC lighting. Compatible with both electronic and magnetic ballasts.• Exclusive Levition H.I.S. Circuitry. Specifically designed to handle today’s high inrush electronic ballast loads and offer unmatched durability and service.OSSNLField-of-View (in meters)FIELD OF VIEWThe OSSNL provides a 180° field of view with a maxi -mum coverage area of approximately 195m 2. The maximum sensing distance in front of the sensor is 12 meters, and at each side is 9 meters. A “minor-motion” zone detects relatively small body move -ments and allows the lights to stay ON even though a person may not be moving or walking around the room. The remainder of the field of view, the “major-motion” zone, exhibits a lesser degree of sensitivity and requires larger movements.INSTALLATIONThe OSSNL is preset to deliver optimum performance in a wide variety of applications without requiring any adjustments during installation. The unit may replace a single-pole wall switch mounted in a standard wall box. The unit must have a neutral and be prop -erly grounded in order to operate. The unit’s integral blinders may be used to restrict the field-of-view to prevent unwanted detection of hallway traffic. It should be positioned at least 2 metersLeviton Mfg. Co., Inc. Lighting & Energy Solutions201 N. Service Rd. Melville, NY 11747-3138 Tech Line: 1-800-824-3005 Fax: 1-800-832-9538 /les© 2012 Leviton Manufacturing Co., Inc. All rights reserved. Subject to change without notice.O S S N L 3x 3Patented Blinders Control Panel Cover PushbuttonDimensions Night LightOSSNL Sensor FeaturesDIMENSIONAL DIAGRAMSOSSNL Wall Switch Occupancy Sensor Wiring Diagram,Single Location Control86.0mm (3.39in)16.2m (0.64inWIRING DIAGRAMPRODUCT DATAG-8677/A12-tbLeviton Manufacturing Co., Inc. Lighting & Energy Solutions 201 N. Service Rd. Melville, NY 11747-3138 Tech Line: 1-800-824-3005 Fax: 1-800-832-9538 /les Leviton Manufacturing of Canada, Ltd.165 Hymus Boulevard, Pointe Claire, Quebec H9R 1E9 • Telephone: 1-800-469-7890 • FAX: 1-800-563-1853Leviton S. de R.L. de C.V.Lago Tana 43, Mexico DF, Mexico CP 11290 • Tel. (+52) 55-5082-1040 • FAX: (+52) 5386-1797 • .mxVisit our Website at: /les© 2012 Leviton Manufacturing Co., Inc. All rights reserved. Subject to change without notice.33SPECIFICATIONSTo indicate color, add suffix to the end of the catalog number. White (-W) and Light Almond (-T)。

DS-DB数字系列分布式板及音频控制系统用户手册说明书

DS-DB数字系列分布式板及音频控制系统用户手册说明书

DS-DBDigital Series Distribution BoardDN-60565:BGeneralThe DS-DB Digital Series Distribution Board and its associ-ated amplifiers provide bulk amplification capability to theDigital Voice Command (DVC) system while retaining digitalaudio distribution capabilities. Up to four DS-AMP/E amplifi-ers can supply high-level risers spread throughout an instal-lation.The DS-DB converts digital audio to analog and routes it toaudio amplifiers and optional backups. The amplifiers sendback high-level audio, which the DS-DB routes to its risers.Control and status information passes between the DS-DBand its components via DS-BUS. The DS-DB communicateswith the rest of the digital audio system through the DAL (dig-ital audio loop), and takes up two of the 32 DAL addresses. Itmay be mixed with other devices on the same DAL, such asthe DAA2 and DAX series amplifiers.An optional Firefighters’ telephone riser on the DS-DB sup-ports local and network FFT communications.Features•Input capacity of four digital audio channels.•Four low-level audio outputs for connection to amplifiers in the same cabinet.•Eight high-level audio inputs (four primary, four backup), each input capable of handling 125W of audio at 25V RMS or 100W at 70.7V RMS when used with DS-AMP.•Four Class A/eight Class B high-level 125W audio outputs, each of which can output all 125 watts from any one of the four high level primary inputs or four high-level backup inputs when used with DS-AMP.•T wo digital audio loop wire ports, which may be modified to single- or multi-mode fiber ports with fiber option mod-ules.•Local FFT riser, capable of acting as a connection on the digital FFT riser.•DS-BUS interface to communicate with local bulk amplifi-ers and power supplies.•Up to 106 seconds of standard quality backup digital mes-sage storage (from VeriFire T ools® message library, or created by the installer) for use in the event of communica-tion loss with the DVC.•Isolated alarm bus input, to be used for backup activation of alarm messages when normal communication with the DVC is lost.•Audio output activation via network control-by-event equa-tions resident within the DVC.•USB port for VeriFire Tools® communication.•Uploads and downloads via the DVC.•24 VDC input for local power.•Works with AMPS-24 power supply and battery charger.InstallationThe DS-DB arrives from the factory already installed on its chassis. The DS-DB mounts in a CAB-4 Series cabinet, as well as in an EQCAB Series backbox.One or two fiber option modules will plug directly onto a DS-DB for simple installation. A DS-BDA backup amplifier mounts directly onto a DS-DB.Specifications24 VDC Input (TB24): 0.6A alarm or standby, non-resettable. Power-limited by source, supervised. Any device connected to TB24 must be installed in the same enclosure, or within the same room in conduit.Digital Audio Ports, wire media, A and B: EIA-485 proto-col, power-limited. Maximum distance per segment is 1900 feet (579.12m) on Belden 5320UJ (18AWG, TP) FPL cable: 18AWG (0.821 mm2) twisted-pair, unshielded, power-limited. For approved cable types, see wiring documentation, PN 52916ADD, Approved Wire Cables for Digital Audio Loops. Digital Audio Ports, fib er media, fib er option modules: Digital audio loop connectors support single- and multi-mode fiber with the use of fiber option modules. Refer to the fiber option datasheet for fiber specifications.Alarm Bus: Power-limited, supervised by source. Recom-mended wiring: 14-18 AWG twisted-pair. Requires 16VDC 24VDC.FFT Riser: Power-limited output, supervised. Class A or Class B operation. Class B 2-wire connections require a 3/9k ohm 1/2 watt resistor (PN R-3.9K). Max. wiring resistance (including individual telephone zone to last handset) permit-ted is 50 ohms, 10,000 ft (3048 m) max. wiring distance at 14 AWG to last handset.DS-BUS: EI A-485 protocol, power-limited. DS-BUS points must be installed in the same enclosure or within the same room in conduit. End points require end-of-line resistors.•DS-DB endpoint: set termination switch (SW8) to ON.•DS-AMP endpoint: add 120 ohm resistor on empty TB1terminals.DN-60565:B • 11/17/2014 — Page 1 of 2Page 2 of 2 — DN-60565:B • 11/17/2014NOTIFIER® and VeriFire® Tools are registered trademarks of Honeywell International Inc.©2014 by Honeywell International Inc. All rights reserved. Unauthorized use of this document is strictly prohibited.This document is not intended to be used for installation purposes. We try to keep our product information up-to-date and accurate. We cannot cover all specific applications or anticipate all requirements.All specifications are subject to change without notice.For more information, contact Notifier. Phone: (203) 484-7161, FAX: (203) 484-7118.•AMPS-24 endpoint: resistor is present, and power supply must be an endpoint.Use 14-18 AWG, twisted unshielded wire.Audio Out: Power-limited outputs (exception: an output pro-grammed for “Riser Mode to Control Modules”, “Riser Mode to RSM-AI M Series Modules”, or “Riser Mode to CI M/CSM Series Modules” is non-power-limited.)Up to 125 Watts out-put. Supervision determined by programming. 25V RMS or 70V RMS , depending on amplifier setting. Class A or Class B operation. Class B requires 20k end-of-line resistors (included, PN ELR-20K). Class A required 10k end-of-line resistors (included, PN R-10K) on the return. 12-18 AWG twisted-pair (shielded recommended).Primary and Backup 1 through 4: Four low-level audio out-puts for connection to amplifiers. Non-power-limited inputs.Supervision programmable. Amplifiers must be installed in the same enclosure or within the same room in conduit. Rec-ommended wiring: 14-18 AWG, twisted-pair, unshielded.OUT: Four DVC-AO-level audio outputs for connection to amplifiers. Power-limited. Supervision programmable. Ampli-fiers must be installed in the same enclosure or within the same room in conduit. 14-18 AWG, twisted-pair, unshielded.Product Weight: 7.2 lb (3.27 kg).Standards and CodesThe DS-DB Digital Series Distribution Board complies with the following standards:•NFP A 72 2007 National Fire Alarm Code •Underwriter Laboratories Standard UL 864•Underwriter Laboratories of Canada (ULC) ULC-S527-99Standard of Control Units for Fire Alarm Systems•Part 15 Class A conducted and radiated emissions as required by the FCC.•BC 2012, BC 2009, BC 2006, BC 2003, BC 2000(Seismic).•CBC 2007 (Seismic)Listings and ApprovalsThese listings and approvals apply to the DS-DB Digital Dis-tribution Board. In some cases, certain modules may not be listed by certain agencies, or listing may be in process. Con-sult factory for latest listing status.•UL Listed: S635.•ULC Listed: S635.•CSFM: 7165-0028:0243 (NFS2-640/NFS-320), 7165-0028:0224 (NFS2-3030).•Fire Dept. of New Y ork: COA#6121 (NFS2-640/NFS-320),COA#6114 (NFS2-3030).Product Line InformationDS-DB : Digital Series Distribution Board.DS-AMP: 120 VAC Digital Audio Amplifier (50/60 Hz), 125W (25V RMS ), 100W (70V RMS ). Ships with chassis. See DN-60663.DS-AMPE: 220-240 VAC Digital Audio Amplifier (50/60 Hz),125W (25V RMS ), 100W (70V RMS ). 70V RMS configuration requires step-up transformer. Ships with chassis. See DN-60663.DS-BDA: Backup amplifier, provides an economical means of backup for DS-AMP amplifiers in a one-to-one primary/backup configuration. Can also provide a second audio chan-nel for a DS-AMP when programmed as a primary amplifier.25V RMS or 70V RMS . 70V RMS configuration requires step-up transformer. See DN-60663.DS-XF70V: Step-up transformer, required for 70VRMS con-figuration of DS-AMP/E and DS-BDA. Ordered separately.See DN-60663.DS-FM: Fiber option module for multi-mode fiber. Converts a wire DAP (digital audio port) to a multi-mode fiber port. See DN-60633.DS-SFM: Fiber option module for single-mode fiber. Con-verts a wire DAP (digital audio port) to a single-mode fiber port. See DN-60633.DS-RFM: Fiber option module for multi-mode fiber. Used exclusively for compatibility with multi-mode fiber DVC or DAA. See DN-60633.。

海康威视传输产品系列说明书

海康威视传输产品系列说明书

OPTICAL MODULENETWORK CABLESRECOMMENDED OPTIONSWIRELESS BRIDGEAGGREGATION & CORE ETHERNET SWITCHINDUSTRIAL POE ETHERNET SWITCH≤ 100-ch IPCTypeModel Aggregation switchDS-3E0524TFAccess switch DS-3E01(3)xxP-E(B)Access switchDS-3E01(3)xxP-E/M(B)Access switch DS-3E05xxP-E Access switch DS-3E05xx-EOptical moduleHK-SFP-1.25G-1310-DF-MM100-ch < IPC ≤ 300-chTypeModel Aggregation switch DS-3E2528Access switch DS-3E13xxP-E Access switch DS-3E01(3)xxP-E(B)Access switch DS-3E05xxP-E Access switch DS-3E05xx-E Optical moduleHK-SFP-1.25G-20-1310HK-SFP-1.25G-20-1550300-ch < IPC ≤ 500-chType Model Core switch DS-3E3756TF Core switch DS-3E3740Aggregation switchDS-3E2528Access switch DS-3E23xxP-E Access switch DS-3E05xxP-E Access switch DS-3E01(3)xxP-E(B)Optical moduleHK-SFP-1.25G-20-1310HK-SFP-1.25G-20-1550ModelImageDescriptionHK-SFP-1.25G-20-1310TX 1310 nm/1.25G, RX 1550 nm/1.25G, LC, single mode and single fiber, 20 km, 0~70°C, SFPHK-SFP-1.25G-20-1550TX 1550 nm/1.25G, RX 1310 nm/1.25G, LC, single mode and single fiber, 20 km, 0~70°C, SFPHK-SFP-1.25G-1310-DF-MMTX 1310 nm/1.25G, RX 1310 nm/1.25G, LC, Multi mode and duplex fiber, 1 km, 0~70°C, SFPHK-SFP-1.25G-20-1310-DF TX 1310 nm/1.25G, RX 1310 nm/1.25G, LC, Single mode and duplex fiber, 20 km, 0~70°C, SFPHK-SFP+-10G-20-1270TX 1270 nm/10G, RX 1330 nm/10G, LC, single mode and single fiber, 20 km, 0~70°C, SFP+HK-SFP+-10G-20-1330TX 1330 nm/10G, RX 1270 nm/10G, LC, single mode and single fiber, 20 km, 0~70°C, SFP+Outdoor wireless bridgeElevator wireless bridgeModelDS-3WF01C-2N/ODS-3WF02C-5N/ODS-3WF03CDS-3WF0AC-2NTDS-3WF01C-2NDescriptionSupports point-to-point &point-to-multipoint;Range up to 3 km; 802.11 b/g/n, Built-in 12 dBiantenna up to 150 Mbps; Output power 27 dBm; Angle Horizontal: 60° Vertical: 30°; IP65;Supports point-to-point & point-to-multipoint; Range up to 5 km; 802.11 a/n, Built-in 10 dBi 2×2 MIMO antenna up to 300 Mbps; Output power 24 dBm; Angle Horizontal: 60° Vertical: 16°; IP65;Supports point-to-point & point-to-multipoint; Range up to 15 km; 802.11a/n, Built-in 15dBi 2×2 MIMO antenna with 300 Mbps; Output power 27 dBm; Angle Horizontal: 40° Vertical: 15°; IP65;Supports point-to-point, distance 100 m; IEEE 802.11b/g/n, Built-in 8dBi antenna; Output power 20 dBm; Angle Horizontal: 60° Vertical: 30°; Working temperature: -30 ~65°C; Plug and play, no initial setting;Supports point-to-point, distance 500 m; IEEE 802.11b/g/n, Built-in 6dBi antenna; Output power 27 dBm; Angle Horizontal: 65° Vertical: 60°; Working temperature: -30 ~65°C;Plug and play, no initial setting;ModelDS-1LN5E-SDS-1LN6-UUDS-1LN5E-E/EDS-1LN6-UE-WDescriptionUTP CAT 5E, 305 meters Core diameter: 0.5 mm Solid copper,CM,grayUTP CAT 6, 305 meters Core diameter: 0.565 mm Solid copper, CM, orangeUTP CAT 5E, 305 meters Core diameter: 0.45 mm Solid copper, CMX,grayUTP CAT 6, 305 meters, Core diameter: 0.53 mm Solid copper, CM,whiteModelDS-3E0524TFDS-3E2528DS-3E3740DS-3E3756TFManagement Unmanaged Full-managed Full-managed Full-managed Ports12 × Gigabit RJ45 ports 12 × Gigabit SFP ports24 × Gigabit RJ45 ports 4 × Gigabit SFP ports32 × Gigabit RJ45 ports 8 × 10G SFP+ ports24 × Gigabit RJ45 ports 24 × Gigabit SFP ports 8 × 10G SFP+ portsPacket Forwarding Rate 35.7 Mpps 42 Mpps 136 Mpps 136 Mpps Switching Capacity 48 Gbps 56 Gbps 224 Gbps 256 GbpsMAC Address Table 16 K 8 K64 K64 KManagement Mode -Console, Telnet, SSH2.0, Web, SNMP v1/v2/v3, TFTP, RMONOther Software Features-STP, VLAN, Mirroring, IGMP Snoopingand IGMP v1/v2, L2/L3/L4 ACL, LACP,EAPS, ERPSSTP, VLAN, Mirroring, IGMP Snooping and IGMP v1/v2, L2/L3/L4 ACL, LACP, EAPS,Operating Temperature -5°C~50°C0°C~45°C0°C~45°C0°C~45°C Dimension (440 × 186.5 × 44.5) mm (440 × 230 × 45) mm (442.5 × 315 × 44) mm (442.5 × 350 × 44) mmPower SupplyModelELG-150-48AImageOutput Voltage 48 VRated Current 3.13 ARated Power 150 WOperating Temperature-40~90°CIP Rating IP65AccessoryOptional accessory for industrial PoEswitchIndustrial switchModelDS-3T0306PDS-3T0310PManagement UnmanagedUnmanagedPorts 4 × 10/100 Mbps PoE RJ45 ports2 × Gigabit uplink SFP ports 8 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit uplink SFP ports PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget≤ 120 W ≤ 240 W Packet Forwarding Rate 3.6 Mpps 4.2 Mpps Switching Capacity 8.8 Gbps 8.8 Gbps MAC Address Table 4 K 4 K Surge Protection 2 KV 2 KV Operating Temperature -40°C~75°C -40°C~75°C Dimension(155 × 130 × 42) mm(170 × 156 × 42) mmUNMANAGED NON-POE ETHERNET SWITCHUNMANAGED POE ETHERNET SWITCHMANAGED POE ETHERNET SWITCHUNMANAGED SWITCHIEEE 802.3bt Standard Hi-PoE, Max. 90 W for One PortIEEE 802.3bt standard Hi-PoE port provides max. 90 W power supply for high power devices such as domes.Up to 300 m Long Range PoE TransmissionBased on all series of camera tests with Hikvisionnetwork cables, up to 300 m long range PoE transmission is provided.Intelligent PoE ManagementWhen the power supply exceeds the limit, PoE ports intelligently manage the power supply, which extends the switch lifetime.4/8-Core Adaptive Power Supply with Less Power Loss8-core power supply reduces the power loss on cables.6KV Surge Protection to Improve Reliability in Harsh EnvironmentThe built-in surge protection device protects the switch from the sudden lightning surge in harsh environment.Design for Video TransmissionVIP port ensures important data transmission when network congestion occurs.Hi-PoE SwitchesModelDS-3E0106HP-EDS-3E0310HP-EPorts1 × 10/100 Mbps Hi-PoE port 3 × 10/100 Mbps PoE ports2 × 10/100 Mbps RJ45 ports 1 × 10/100 Mbps Hi-PoE port 7 × 10/100 Mbps PoE ports 2 × Gigabit RJ45 ports PoE Standards Port 1: IEEE 802.3af, IEEE 802.3at, IEEE802.3btPorts 2 to 4: IEEE 802.3af, IEEE 802.3atPort 1: IEEE 802.3af, IEEE 802.3at, IEEE802.3btPorts 2 to 8: IEEE 802.3af, IEEE 802.3atPoE Budget 60 W 110 W Max. port PoE power Port 1: 60 W Ports 2 to 4: 30 W Port 1: 90 W Ports 2 to 8: 30 W PoE Extend Mode Max. 300 m, Port 1-4Max. 300 m, Port 1-8Packet Forwarding Rate 0.893 Mpps 4.166 Mpps Switching Capacity 1.2 Gbps 5.6 Gbps MAC Address Table 2 K 16 K Surge Protection 6 KV 6 KV Operating Temperature-10°C~55°C -10°C~55°CDimension(145 × 25.6 × 68.45) mm(217.6 × 27.8 × 103.35) mm10/100 Mbps SwitchesModelDS-3E0105P-E/M(B)DS-3E0109P-E/M(B)DS-3E0318P-E/M(B)DS-3E0326P-E/M(B)DS-3E0105P-E(B)DS-3E0109P-E(C)DS-3E0318P-E(B)DS-3E0326P-E(B)Ports4 × 10/100 Mbps PoE RJ45 ports 1 × 10/100 Mbps uplink RJ45 port8 × 10/100 Mbps PoE RJ45 ports 1 × 10/100 Mbps uplink RJ45 port16 × 10/100 Mbps PoE RJ45 ports 1 × Gigabit uplink RJ45 port 1 × Gigabit uplink SFP port 24 × 10/100 Mbps PoE RJ45 ports1 × Gigabit uplink RJ45 port1 × Gigabit uplink SFP port4 × 10/100 Mbps PoE RJ45 ports1 × 10/100 Mbps uplink RJ45 port8 × 10/100 Mbps PoE RJ45 ports1 × 10/100 Mbps uplink RJ45 port16 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)24 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45Ports and 2 SFP Ports)PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget35 W60 W130 W230 W60 W115 W 230 W370 WPoE Extend Mode Max.300 m, Port 1-4Max. 300 m, Port 1-8Max. 300 m, Port 9-16Max. 300 m, Port 17-24Max 300 m, Port 1-4Max 300 m, Port 1-8Max. 300 m, Port 9-16Max. 300 m, Port 17-24Packet Forwarding Rate0.744 Mpps 1.34 Mpps 5.36 Mpps 6.55 Mpps 0.74 Mpps 1.34 Mpps 5.36 Mpps 6.55 Mpps Switching Capacity1 Gbps 1.8 Gbps 7.2 Gbps 8.8 Gbps 1 Gbps 1.8 Gbps 7.2 Gbps 8.8 Gbps MAC Address Table 1 K 2 K 4 K 4 K 1 K 2 K 4 K 4 K Surge Protection 6 KV 6 KV 6 KV 6 KV 6 KV 6 KV 6 KV 6 KV Operating Temperature-10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C -10°C~55°C Dimension(105 × 27.6 × 83.1)mm(170 × 27.6 × 93.1) mm(266 × 44.5 × 220.8) mm(335 × 44.5 × 226) mm(105 × 27.6 × 83.1) mm(170 × 27.6 × 93.1) mm(440 × 44 × 220.8) mm(440 × 44 × 220.8) mmGigabit SwitchesModel DS-3E0505P-EDS-3E0510P-EDS-3E0518P-EDS-3E0526P-EPorts4 × Gigabit PoE RJ45 ports1 × Gigabit RJ45 port 8 × Gigabit PoE RJ45 ports 1 × Gigabit RJ45 port 1 × Gigabit SFP port 16 × Gigabit PoE RJ45 ports 1 × Gigabit RJ45 port 1 × Gigabit SFP port 24 × Gigabit PoE RJ45 ports 1 × Gigabit RJ45 port 1 × Gigabit SFP port PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget60 W 110 W 230 W 370 W Packet Forwarding Rate 7.44 Mpps 14.88 Mpps 26.784 Mpps 38.688 Mpps Switching Capacity 10 Gbps 20 Gbps 36 Gbps 52 Gbps MAC Address Table 2 K 4 K 8 K 8 K Surge Protection6 KV 6 KV 6 KV 6 KV Operating Temperature-10°C~55°C -10°C~55°C-10°C~55°C -10°C~55°C Dimension(105 × 27.6 × 83.1) mm(217.6 × 27.8 × 108.55) mm(440 × 44 × 220.8) mm(440 × 44 × 220.8) mmModel DS-3E0105D-EDS-3E0108D-EDS-3E0505D-EDS-3E0508D-EDS-3E0508-EDS-3E0516-EDS-3E0524-EPorts 5 × 10/100 Mbps RJ45 ports 8 × 10/100 Mbps RJ45 ports 5 × Gigabit RJ45 ports 8 × Gigabit RJ45 ports 8 × Gigabit RJ45 ports 16 × Gigabit RJ45 ports 24 × Gigabit RJ45 portsSwitching Capacity 1 Gbps 1.6 Gbps 10 Gbps 16 Gbps 16 Gbps 32 Gbps 48 GbpsPacket Forwarding Rate 0.744 Mpps 1.1904 Mpps 7.44 Mpps 11.904 Mpps 11.9 Mpps 23.8 Mpps 35.7 MppsMAC Address Table 1 K 1 K 2 K 4 K 4 K 8 K 8 KSurge Protection ---- 4 KV 4 KV 4 KVOperating Temperature 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°CDimension (82 × 52 × 22.4) mm (124 × 59 × 23.2) mm (92.8 × 65.8 × 22.8) mm (142 × 90 × 23) mm (186.7 × 106.7 × 33.3) mm (440 × 178.8 × 44) mm (440 × 178.8 × 44) mmModel DS-3E1310P-EDS-3E1318P-EDS-3E1326P-EDS-3E2310PDS-3E2318PDS-3E2326PDS-3E2510PDS-3E2528PManagement Web-managed Web-managed Web-managed Full-managed Full-managed Full-managed Full-managed Full-managed Ports 8 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)16 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)24 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)8 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)16 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45 Ports and 2 SFP Ports)24 × 10/100 Mbps PoE RJ45 ports 2 × Gigabit comb ports (2 RJ45Ports and 2 SFP Ports)8 × Gigabit PoE RJ45 ports 2 × Gigabit SFP ports 24 × Gigabit PoE RJ45 ports 4 × Gigabit SFP ports PoE Standards IEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atIEEE 802.3af, IEEE802.3atPoE Budget 123 W 230 W370 W125 W 300 W 380 W 125 W 380 W PoE Extend Mode Max. 250 m, Port 1-8Max. 250 m, Port 1-16Max. 250 m, Port 1-24-----Packet Forwarding Rate 1.34 Mpps 5.36 Mpps 6.55 Mpps 5.6 Mpps 8.4 Mpps 9.6 Mpps 15 Mpps 42 Mpps Switching Capacity5.4 Gbps 7.2 Gbps 8.8 Gbps 10 Gbps 21.2 Gbps 22.8 Gbps 20 Gbps 56 Gbps MAC Address Table 4 K4 K4 K8 K8 K8 K8 K8 KManagement Mode SNMP v1/v2, WEB managementConsole, Telnet, SSH2.0, Web, SNMP v1/v2/v3, TFTP, RMONOther Software Features STP, VLAN, Mirroring, IGMP Snooping and IGMP v1/v2STP, VLAN, Mirroring, IGMP Snooping and IGMP v1/v2, L2/L3/L4 ACL, LACP, EAPS, ERPSSurge Protection 4 KV 4 KV 4 KV 4 KV 4 KV 4 KV 4 KV 4 KV Operating Temperature 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~40°C 0°C~45°C 0°C~45°C Dimension(294 × 165.8 × 44) mm(440 × 285 × 43) mm(440 × 285 × 43) mm(280 × 179 × 45) mm(440 × 232 × 44) mm(440 × 232 × 44) mm(280 × 179 × 45) mm(440 × 232 × 45) mm。

维萨拉验证服务商品说明书

维萨拉验证服务商品说明书

维萨拉验证服务/ 高效、合规的温湿度分布试验 卓越的质量管理体系为确保满足GM P 《药品生产质量管理规范》的要求,各机构必须证明其仓储和运输区域的环境条件都处于适当的控制下。

因此,质量计划的首要步骤应是通过分布研究深入了解这些区域的温度属性。

然而,分布研究需要的不仅仅是设备,还需要验证和校准方面的专业知识与技能。

维萨拉为您提供由娴熟的技术人员完成的世界级验证服务,服务包含用以进行分布研究,内容翔实的验证计划及分布试验协议。

深入透彻的验证后报告将会提升您对受控环境的了解。

这些文档和专业技能将有助于体现您的企业正在遵循受控环境验证与文档记录的当前最佳实践。

我们提供验证所需的专业技能和设备服务,所以您的质量和设施经理能专注于他们的日常工作。

降低生命科学环境的风险在过去20年间,我们已为生命科学行业的受控环境专门设计了创新型设备和软件,这些行业包括:• 制药• 生物技术• 医疗器械• 营养和保健品应用领域:• 冰箱/冷冻柜/冷藏室 • 培养箱• 稳定性试验箱• 仓库/存储区/批发中心翔实、精确的存档为进行分布研究,验证服务技术人员将会收集并分析您所在区域、房间或试验箱的数据,辨识工艺过程中的热点或冷点。

技术人员可对空载/满载试验箱,或仓储区的静态/动态过程进行挑战性实验。

测试可能会根据应用需要部署热电偶或配有传感器的数据记录仪,使用维萨拉验证软件下载分析测试数据。

所有分布研究文档均为安全、演示级品质。

报告包含最小值、最大值以及平均值统计和平均动力学温度(MKT) 数据,可轻松导出为供深入分析使用的通用.csv文件。

温度传感器工作范围:-90 °C至70 °C,精度高达±0.1 °C, 分辨率0.02 °C.相对湿度传感器工作范围:10%至90%,精度高达±1%,分辨率0.05%.合规性: 21 CFR Part 11, E U Annex 11 21随着全球范围的监管机构对制药、生物技术和医疗器械制造商和经销商的审查日趋严格,许多企业开始为其受控环境寻求验证解决方案。

斯波尔安Level-Master控制器说明书

斯波尔安Level-Master控制器说明书

for Valve TypesP-H-M-V-W-D-AThe SPORLAN Level-Master Control is a positive liq-uid level control device suitable for application to all flooded evaporators.The LMC is a standard thermostatic expansion valve equipped with a Level-Master Element. The combina-tion provides a simple, economical and highly effective liquid level control. The bulb of the conventional ther-mostatic element has been modified to an insert type of bulb which incorporates a low wattage heater. A 15 watt heater is supplied as standard. For applications below -60°F evaporating temperature specify a spe-cial 25 watt heater.The insert bulb is installed in the accumulator or surge drum at the point of the desired liquid level. As the level at the insert bulb drops, the electrically added heat in-creases the pressure within the thermostatic element and opens the valve. As the liquid level at the bulb rises, the electrical input is balanced by the heat transfer from the bulb to the liquid refrigerant and the LMC either modulates or eventually shuts off. The evaporator pres-sure and spring assist in providing a positive closure.The Level-Master control can be applied on any system that has been specifically designed for flooded operation.Sporlan is not responsible for system design and, there-fore is not liable for any damage arising from faulty de-sign or improper piping, or for misapplication of its prod-ucts. Figures 2 through 8 are piping schematics only to illustrate possible methods of applying the LMC valves.If these valves are applied in any manner other than as described in this bulletin, the Sporlan warranty is void. The system piping should be designed to protect the compressor at all times. This includes protection against overheating, slugging with liquid refrigerant,and trapping oil in various system locations. Sporlan recommends that recognized piping references, such as equipment manufacturers’ literature and the ASHRAE Handbooks be consulted for assistance.The valve is usually connected to feed into the surge drum above the liquid level. It can also feed into the liquid leg or coil header.The insert bulb can be installed directly in the shell, surge drum or liquid leg on new or existing installations. Existing float systems can be easily converted by install-ing the LMC insert bulb in the float chamber.The Level-Master Control may be installed at any ambi-ent temperature. A thermostatic switch in the heater assembly protects the element from the excessive tem-perature created by the heater.The insert bulb should be installed at the point where the liquid level is to be maintained. The bulb must be in contact with the refrigerant, i.e., NOT installed in a well. If the insert bulb is projected directly into the surge drum, it should be shielded from possible splash from either the valve feed or the return from the coil. While generally in-stalled in a horizontal position, see Figure 1, it will operate effectively at any angle or vertical position.Minor adjustments in liquid level can be made with the expansion valve adjustment stem. The insert bulb assem-bly is provided with a lock ring and gasket joint so the bulb can be removed without breaking the pipe joint.GeneralInsert BulbDESCRIPTION and OPERATIONFOR USE ON REFRIGERATION and/or AIR CONDITIONING SYSTEMS ONLYThe heater comes with a two wire neoprene covered cord two feet in length. It runs through a moisture-proof grommet and a 1/2” male conduit connection af-fixed to the insert bulb assembly, see Figure 2.On installations where the valve is isolated from the surge drum by a hand valve, and a 2 to 3 pound pressure drop from the valve outlet to the bulb location is likely, we recommend using an externally equalized valve.General - All reciprocating compressors allow some oil to pass into the discharge line along with the dis-charge gas. Mechanical oil separators are used exten-sively; however, they are never completely effective. The untrapped oil passes through the condenser, liquid line, expansion device and finally into the evaporator. In a properly designed direct expansion system, the refrigerant velocity in the evaporator tubes, and in the suction line, is high enough to insure a continuous re-turn of oil to the compressor crankcase. But, this is not characteristic of flooded systems. Here we purposely design the surge drum for a relatively low vapor veloc-ity to prevent entrainment of liquid refrigerant droplets and consequent carry over into the suction line. This design prevents oil from returning to the low side in the normal manner.If oil is allowed to concentrate at the insert bulb loca-tion of the Sporlan Level-Master Control, overfeeding with possible floodback can occur. The tendency tooverfeed is caused by the fact that oil does not convey the heat from the low wattage heater element away from the bulb as rapidly as does pure liquid refrigerant. The bulb pressure is higher than normal and the valve remains in the open or partially open position. Oil and Ammonia Systems - Liquid ammonia For flooded chillers that do not use a surge drum, a sump with a drain valve is usually provided at the bot-tom of the chiller shell.The above methods are quite satisfactory, except on some low temperature systems, where the drain leg or sump generally has to be warmed prior to attempting to draw off the oil since the trapped oil becomes quite viscous at lower temperatures.Electrical ConnectionsHand ValvesOil ReturnFigure 4TYPICAL INSTALLATIONPAGE 2If oil is not drained from a flooded ammonia system a reduction in the evaporator heat transfer rate can oc-cur due to an increase in the refrigerant film resistance. Difficulty in maintaining the proper liquid level with any type of flooded control can also be expected.With a float valve you can expect the liquid level in the evaporator to increase with high concentration of oil in a remote float chamber.If a Sporlan Level-Master Control is used with the inset bulb installed in a remote chamber, oil concentration at the bulb can cause overfeeding with possible flood-back. The lower or liquid balance line must be free of traps and must be free draining into the surge drum or chiller as shown in Figure 4. The oil drain leg or sump must be located at the lowest point in the low side. Oil and HFC/HCFC Systems - With HFC and HCFC systems - Refrigerants 134a, 22, 507, etc, the oil and refrigerant are miscible under certain conditions. Mineral oil is partially miscible in liquid R-22 and POE lubricant tends to be more miscible in R-134a and R-507 and other HFC refrigerants. In R-22 systems, a 5% (by weight) of napthenic mineral oil in liquid refriger-ant will remain in solution to approximately 0°F. But at temperatures below 0°F a liquid phase separation occurs. An oil rich solution will appear at the top and a refrigerant rich solution will lie at the bottom of any relatively placid remote bulb chamber. Keep in mind miscibility data for systems using R-22 and HFC refrig-erants depends on the oil used and the percentage of oil present in the refrigerant.In HFC systems, the miscibility of the POE oil depends on the oil approved for the system. Different POE oils will yield different results. POE oils formulated with low-er molecular weight alcohols tend to be more miscible than those with higher molecular weights. Depending on the system,the POE lubricant and refrigerant can be completely miscible at all temperatures normally en-countered, or some liquid phase separation could exist for a particular POE oil/ refrigerant combination.Oil in flooded evaporator applications can produce many effects. Oil as a contaminant will raise the boiling point of the liquid refrigerant if it exists in significant quantity in the evaporator. Oil can change the heat transfer properties with a consequent loss in system capacity. In addition, oil can affect the liquid level con-trol and produce “foaming”, potentially carrying liquid into the suction line.With a float valve you can normally expect the liquid level in the evaporator to decrease with increasing concentration of oil in the float chamber. This is due to the difference in density between the lighter oil in the chamber and lower balance leg, and the heavier refrig-erant/oil mixture in the evaporator. A lower column of dense mixture in the evaporator will balance a higher column of oil in the remote chamber and piping, in a manner similar to a “U” tube manometer with a differ-ent liquid in each leg.With the Sporlan level Master Control the heat trans-fer rate at the bulb is decreased producing overfeed-ing and possible flood back. In order to minimize that, we must keep the oil concentration as low as possible in the evaporator, surge drum, and remote insert bulb chamber - if one is used. With HFC/POE oil systems, the oil/refrigerant mixture is likely homogenous (but not necessarily) and you can drain from almost any lo-cation in the chiller,surge drum, or remote chamber that is below the liquid level. With R-22 or a possible HCFC/POE oil mixture that is not homogenous, the drain must be located at, or slightly below the surface of the liquid since the oil rich layer is at the top. There are many types of oil return devices:1. Direct drain into the suction line.2. Drain through a high pressure liquid warmedheat exchanger.3. Drain through a heat exchanger with the heat sup-plied by an electric heater.The following Figures 5, 6, 7, and 8 are representative of these three methods.Draining directly into the suction line, as shown in Fig-ure 5, is the simplest method but the hazard of possible floodback to the compressor remains.DIRECT DRAIN - of oil to the suction line isone of three ways to recover oil in flooded sys-tems. Heat from the environment or a liquid-suc-tion heat exchanger is required to vaporize theliquid refrigerant so drained. Vapor velocitycarries oil back to the compressor.Draining through a heat exchanger as indicated in Figure 6, is a popular method since liquid refrigerant floodback problems are minimized by using the warm liquid to vaporize the liquid refrigerant in the oil/re-frigerant mixture.The use of a heat exchanger with an insert electric heater, as shown in Figure 7, is a variation of the pre-ceding method.In all of the oil return arrangement discussed a solenoid valve should be installed in the drain line and arranged to close when the compressor is not in operation. Oth-erwise liquid refrigerant could drain from the low sideinto the compressor crankcase during the off cycle.PAGE 3PAGE 4OIL RETURN - by draining oil-refrigerant mix-ture through a heat exchanger is illustrated here. Heat in incoming liquid vaporizes refrigerant to prevent return of liquid to compressor. Liquid feed is controlled by a hand expansion valve.If the insert bulb is installed directly into the surge drum or chiller, then oil return from this point only is necessary. However, if the insert bulb is located in a remote chamber which is tied to the surge drum or chiller with liquid and gas balance lines then oil return should be made from both locations as shown in Fig-ures 5, 6, and 8.ELECTRIC HEATER - may also be used to sepa-rate oil and refrigerant. This system is similar to that of Figure 6 except that heat required for vaporization is added electrically.Conclusions - The problem of returning oil from a flooded system is not highly complex and there are undoubtedly other methods in use today that are com-parable to those outlined above. Regardless of how it is accomplished, oil return must be provided , for proper operation of any flooded system – not only with the Sporlan Level-Master Control but with a float or other type of level control device.Manual CrankcaseFigure 7Figure 8SD-28-705© Copyright 2005 Parker Hannifin Corporation, Washington, Missouri。

Parker Hannifin 公司 Engineered Polymer Systems 部门 B

Parker Hannifin 公司 Engineered Polymer Systems 部门 B

5Click to Go to SECTIONTable of ContentsClick to Go to Table of Contents BD Profile, Premium O-ring Energized Lip Seal With Back-up RingFor enhanced extrusion protection, Parker offers the BD profile with a positively actuated back-up ring located in the heel. See part number nomenclature for designating this option.The BD profile is a non-symmetrical profile rod seal. Its rectangular shaped cross section ensures stability in the gland. The o-ringenergizer functions as a spring to maintain sealing contact under low pressure or vacuum applications. The knife trimmed, beveled lip does an excellent job wiping fluid film. A stabilizing lip is located below the primary sealing lip, just above the base of the seal, to provide enhanced sealing performance and ensure a tight, stable fit in the gland. Available in Parker’s proprietary urethanes, the BD profile provides long life, extrusion resistance, low compression set, shock load resistance and increased sealing performance at zero pressure. The BD profile isdesigned to be used as a stand alone rod seal or for use with the BR or OD profile buffer seal for more critical sealing applications.Catalog EPS 5370/USARod SealBD Profile Preferred ProfileBD Cross-Sectionwith Back-upTechnical DataStandard Temperature Pressure Surface Materials Range Range* Speed P5065A88 -70°F to +200°F 3500 psi < 1.6 ft/s (-57°C to +93°C) (241 bar) (0.5 m/s)Back-up W4655-65°F to +250°F10,000 psi < 1.6 ft/s (-54°C to +93°C)(688 bar) (0.5 m/s)Alternate Materials: For applications that may require an alternate material, please go to /eps/FluidPower to checkcurrent tooling and part number availability, or contact your local Parker representative.*Pressure Range without wear rings. If used with wear rings, see Table 2-4, page 2-5.5Gland Dimensions — BD ProfilePart Number Nomenclature — BD Profile (5065, with Back-up)Table 5-5. BD Profile4-Digit Material Code Example:Example: .375 x 1000 = 375Table 5-6. BD Profile — Rod Gland Calculation*If used with wear rings, refer to wear ring throat diameter, see Section 9. For custom groove calculations, see Appendix C .Above table reflects recommended cross-sections for rod diameters shown. Alternate cross-sections and additional sizes may be considered. Consult /eps/FluidPower for additional cross-sections and sizes, hardware specifications, and part number availability. Contact your Parker representative for assistance.Please refer to Engineering Section 2, page 2-8 for surface finish and additional hardware considerations.5Click to Go to CATALOG Table of ContentsAbove table reflects recommended cross-sections for rod diameters shown. Alternate cross-sections and additional sizes may be considered. Consult /eps/FluidPower for additional cross-sections and sizes, hardware specifications, and part number availability. Contact your Parker representative for assistance.Table 5-7. BD Profile — Rod Gland Dimensions , ·Parker Standard SizesTable 5-7. BD Profile — Rod Gland Dimensions, ·Parker Standard Sizes (cont'd)5。

蘑菇头翻转门簇安装说明书

蘑菇头翻转门簇安装说明书

By PortaPivotPatented technologyDepending on the selected door size, anormal (NL) or extra large (XL) pivot hinge is included. All installation steps are identical, unless stated otherwise.Door width larger than 1250 mmXL pivot hingeDoor width smallerthan 1250 mm NL pivot hingeASSEMBL Y MANUALPortaPivot GLASS1PAP-1WAYWW-black/whiteMagneet 25x5 - north/southDIN916-M6x8carrosseriering M5x25DIN 988-5x10x1 (shims)Maxxfast VK 4,5x50Maxxfast CK 6x50Hiltiplug HUD-1 8x40Hiltiplug HUD-1 6x50TORX BIT TX 25 C6.3TORX BIT TX 20 C6.323Hardware& accessories‘Complete’ StealthPivot XL set PortaPivot GLASS XLexample kit overview4Quick GripRubber hammerWooden wedge Bit screwdriver Saw cut marker (Supplied with kit)Rigid 2mm aid(Supplied)• Safety glass or paneling• Isopropyl alcohol (degreaser)Materials to be purchased locally: Recommended tools:56(=distance from panel edge)PortaPivot GLASS XL detailed cavity dimensions!! for PortaPivot Glass NL see page 7 !!711.008PortaPivot GLASS NL detailed cavity dimensions!! for PortaPivot Glass XL see page 5 !!9Pivot axis can be anywhere from 1/3 (-50 mm) up to 1/2 of the panel.Use 2 wooden spacers (+-15 mm thick) on an assembly table and place the locally purchased panel on top.(XLc a v i t y i s sh o w n )StealthPivot NL and StealthPivot XL share identical installation steps10Degrease the panel edge first Degrease the edge first with isopropylalcohol.Apply the self adhesive rubber strip ontothe panel edge.(X L c a v i t y i ss h o wn)Degrease apply zone first Remove the backing from the adhesive strip from the first aluminium pivot housing (=GMHD).Carefully slide the GMHD in place and press it against the glass.Make sure everything is perfectly aligned.(G M H D f o rS t e al t h P iv o t XL i s sh o w n)Insert the nylon distance spacers (PAP-GLBUS).Carefully place the second GMHD on top.(G MHDf o r S t e a l t h P i vot X L i ssh o w n )Insert and tighten all screws in left to right alternating pattern.(G MH D fo r S t e a l t h P i v o t X L iss h o w n )Check the pivot height of the door with the doorway measurements, and synchronize them if necessary.There are differentmethods to do this, see following pages.1&2-way accessoryBOTTOMBOTTOMLoctiteThe default bottom joint is 11 mm (=distanceTo increase the bottom joint, you have 2 options:(= less stable).1. Use (supplied) shims between hinge and door leaf.This is the preferred method for the bottom hinge.(S te a l t h Pi v o t X L i s sh o w n )Adjust bottom hinge heightTOP TOPLoctite2. Use (supplied) shims between hinge and door leaf.1. Adjust the inbus screws to move the hinge furtheraway from the door leaf (loosen 4 screws first).3. Use supplied shims between ceiling and hinge(= less stable is not preferred at the top hinge).The default top joint dimension is 12,5 mm(=distance between ceiling and door leaf edge).This is necessary for the optional 1-wayaccessory and positioning magnetsl t h Pi v o tX L i ss h o wn)H e i g h t f r o m p i v o t t o p i v o t i n d o o r w a yOuter height from pivot to pivot= equal to measured doorway height on the axis point !(S te a lt hP i v o t X Li ss ho w n )Double check the pivot to pivot distance with the measured doorway height at the axis point.Fully tighten all marked screws when joint dimensions are as desired.Remove the backing from the adhesive strip and press the cover plates in place.(S t e a l t h P i vo t X Li s s h ow n)s90+90°-90°360°The s90 will stop the door in open position at +/-90°.For unlimited 360° rotation, remove the s90 from topand bottom pivot. This is only advised for central axis position.!! Make sure the s90 is always on the same side top and bottom !!(St e a l t h P i v ot X L i s s h o w n )TOP TOP Slide the 2-way + magnet over the panel, +-55 mm from the edge.TOP2-way + magnets can be mountedon both sides of the XL panel.We advise to install the optional 2-way positioning magnet(s) onto the door leaf. (For counter magnets on the ceiling, see ‘Door installation manual’)2-WAY2-WAYTOP Slide the 1-way part over the panel, +-55 mm from the edge.TOPTOP 1-way + magnets can be mountedon both sides of the XL panel.Make sure the 1-way orientation is correct!For 1-way door operation, install the 1-way part(s) and positioning magnet(s) onto the door leaf.(For counter parts & magnets on the ceiling, see ‘Door installation manual’)For further instructions on how to installthe fully assembled door in your doorway, please refer to the DOOR INSTALLATION MANUAL。

罗斯蒙特 DIN-Style 温度传感器和温度井(公制)产品数据手册说明书

罗斯蒙特 DIN-Style 温度传感器和温度井(公制)产品数据手册说明书

Product Data Sheet00813-0200-2654, Rev MBJuly 2022 Rosemount™ DIN-Style Temperature Sensors and Thermowells (Metric)■RTDs (0065) and thermocouples (0185) available to meet any process requirement■DIN-style for easy installation and replacement■Integrated temperature assembly with Rosemount transmitters availableFeatures and benefitsOptimize plant efficiency and increase measurement reliability with industry-proven design and specifications ■Available in a wide variety of sensing technologies – RTD and thermocouples.■All sensor styles and lengths are available in 6 mm diameter.■State of the art manufacturing procedures provide robust element packaging and increasing reliability.■Industry-leading calibration capabilities allow for Callendar-Van Dusen values to give increased accuracy when paired withRosemount transmitters.■Optional Class A accuracy for critical temperature measurement points.Streamline operations and maintenance with sensor and thermowell design■DIN-style sensor uses connection heads that allow quick mounting and replacement while maintaining environmental integrity.■Terminal block, flying leads, and spring loaded threaded adapter styles offer remote or integral transmitter mountingconfiguration.ContentsFeatures and benefits........................................................................................................................................................................2Rosemount DIN-Style Sensor and Thermowell...................................................................................................................................4Rosemount Series 96 Barstock Thermowell.....................................................................................................................................23Sensor reference information..........................................................................................................................................................27Specifications..................................................................................................................................................................................31Product certifications......................................................................................................................................................................34Sensor-to-transmitter matching .....................................................................................................................................................43Accessories......................................................................................................................................................................................49Wake frequency calculation. (52)Sensor and Accessories (Metric)July 2022Explore the benefits of Complete Point Solutions ™ from Emerson■An “Assemble Sensor to Specific Transmitter” option enables Emerson to provide a complete point temperature solution,delivering an installation-ready transmitter and sensor assembly.■Emerson has a complete portfolio of single point and high density temperature measurement solutions, allowing you toeffectively measure and control your processes with the reliability you trust from Rosemount products.Experience global consistency and local support from numerous worldwide Rosemount Temperature manufacturing sites ■World-class manufacturing provides globally consistent products from every factory and the capacity to fulfill the needs of anyproject, large or small.■Experienced instrumentation consultants help select the right product for any temperature application and advise on bestinstallation practices.■An extensive global network of Emerson service and support personnel can be on-site when and where they are needed.Access information when you need it with asset tagsNewly shipped devices include a unique QR code asset tag that enables you to access serialized information directly from the device. With this capability, you can:■Access device drawings, diagrams, technical documentation, and troubleshooting information in your MyEmerson account ■Improve mean time to repair and maintain efficiency ■Ensure confidence that you have located the correct device■Eliminate the time-consuming process of locating and transcribing nameplates to view asset informationJuly 2022Sensor and Accessories (Metric)Rosemount DIN-Style Sensor and ThermowellOnline Product ConfiguratorMany products are configurable online using our Product Configurator. Select the Configure button or visit our website to start.With this tool's built-in logic and continuous validation, you can configure your products more quickly and accurately.Model codesModel codes contain the details related to each product. Exact model codes will vary; an example of a typical model code is shown in Figure 1.Figure 1: Model code example1.Required model components (choices available on most)2.Additional options (variety of features and functions that may be added to products)Specifications and optionsThe purchaser of the equipment must make the specification and selection of product materials, options, or components. For more information, see the Material selection section.Sensor and Accessories (Metric)July 2022July 2022Sensor and Accessories (Metric)Optimizing lead timeThe starred offerings (★) represent the most common options and should be selected for the fastest delivery times. The non-starred offerings are subject to additional delivery lead time.Series 65 Platinum RTD and 185 Thermocouple without thermowellRequired model componentsModelConnection head(1)To maintain IP rating, use a suitable cable gland on the conduit connection thread. All threads must be sealed with a suitable sealing tape.Sensor and Accessories (Metric)July 2022 Sensor lead wire terminationSensor typeExtensionExtension length (N) in millimetersJuly 2022Sensor and Accessories (Metric)Thermowell materialSensor length (L) in millimetersAdditional optionsSensor optionsAvailable with Series 65 Sensor only.Product certificationsRefer to Table 3 for limitation on options available with approvals.Sensor and Accessories (Metric)July 2022Ground screwCable glandsCover chain optionExtension ringJuly 2022Sensor and Accessories (Metric) TerminationAssemble-to optionIf ordering Assemble-to option XA with a transmitter, specify the same option on the transmitter model number.Sensor calibration with works certificateAvailable with Series 65 only.VS system calibrationAvailable with Series 65 Sensor only.GOST calibration certificateTemperature range optionSensor and Accessories (Metric)July 2022 Series 65 Platinum RTD and 185 Thermocouple with tubular thermowellRequired model componentsModelConnection head(1)To maintain IP rating, use a suitable cable gland on the conduit connection thread. All threads must be sealed with a suitable sealing tape.Sensor lead wire terminationSensor typeExtensionExtension length (N) in millimetersThermowell materialImmersion length (U)Thermowell mounting style(1)The NAMUR stepped profile is available in both thermowell material options, however to maintain NAMUR compliance material code Y isrequired. 115 mm is the minimum immersion length stepped thermowells are available and is the minimum requirement to maintain NAMUR compliance however for lengths shorter than 115 mm a straight thermowell with a 8 mm OD will be provided.(2)Not available with thermowell Material code D.Additional optionsSensor optionsAvailable with Series 65 Sensor only.Product certificationsRefer to Table 3 for limitation on options available with approvals.Ground screwCable glandsCover chain optionExtension ringMaterial certificationExternal pressure testDye testAssemble-to optionIf ordering Assemble-to option XA with a transmitter, specify the same option on the transmitter model number.Sensor calibration with works certificateAvailable with Series 65 only.Temperature range optionSeries 65 Platinum RTD and 185 Thermocouple with barstock thermowellRequired model componentsModelConnection head(1)To maintain IP rating, use a suitable cable gland on the conduit connection thread. All threads must be sealed with a suitable sealing tape. Sensor lead wire terminationSensor typeExtensionExtension length (N) in millimetersThermowell materialImmersion lengthThermowell mounting style(1)This mounting style is only available with the lagging length code T040.(2)Full penetration weld option R07 is required with this mounting style.(3)This mounting style has a minimum lagging length of 80 mm.(4)Only available with extension style T.(5)This mounting style is only available with the lagging length code T075.(6)This mounting style is only available with the lagging length code T135.Additional optionsSensor optionsAvailable with Series 65 Sensor only.Product certificationsRefer to Table 3 for limitation on options available with approvals.Ground screwCable glandsCover chain optionExtension ringTerminationMaterial certificationExternal pressure testInternal pressure testDye testNACE approvalOnly available with thermowell material codes D, J, and A.Assemble-to optionIf ordering Assemble-to option XA with a transmitter, specify the same option on the transmitter model number.Sensor calibration with works certificateAvailable with Series 65 only.VS system calibrationAvailable with Series 65 Sensor only.Temperature range optionRosemount Series 96 Barstock ThermowellOnline Product ConfiguratorMany products are configurable online using our Product Configurator. Select the Configure button or visit our website to start. With this tool's built-in logic and continuous validation, you can configure your products more quickly and accurately.Model codesModel codes contain the details related to each product. Exact model codes will vary; an example of a typical model code is shown in Figure 2.Figure 2: Model code example1.Required model components (choices available on most)2.Additional options (variety of features and functions that may be added to products)Specifications and optionsThe purchaser of the equipment must make the specification and selection of product materials, options, or components. For more information, see the Material selection section.Optimizing lead timeThe starred offerings (★) represent the most common options and should be selected for the fastest delivery times. The non-starred offerings are subject to additional delivery lead time.Required model components ModelThermowell materialAdditional materials are available upon request.Immersion length (L) in millimetersThermowell mounting style(1)This mounting style is only available with the lagging length code T040.(2)Full penetration weld option R07 is required with this mounting style.(3)This mounting style has a minimum lagging length of 80 mm.(4)This mounting style is only available with the lagging length code T075.(5)This mounting style is only available with the lagging length code T135. Lagging lengthInstrument connection thread typeAdditional optionsMaterial certificationExternal pressure testInternal pressure testDye testNACE approvalOnly available with thermowell material codes D, J, and A.Plug/chainWeld optionFlange typeWake frequency calculationSensor reference informationOverviewRosemount integral mount temperature sensors, accessory hardware, and assemblies constitute a complete line of industrial temperature-sensing instruments. A variety of RTD and thermocouple sensors are available alone, or as complete assemblies including connection heads, thermowells, and extension fittings. Emerson offers complete temperature measurement assemblies including Rosemount Smart and Programmable Temperature Transmitters. Ask your Emerson representative for details.Series 65 Platinum RTD Temperature Sensors are highly linear and have a stable resistance versus temperature relationship. These sensors are used primarily in industrial environments where high accuracy, durability, and long-term stability are required. Series 65 Sensors are designed to meet the most critical parameters of international standards: IEC 751:1983, Amendment 1:1986 and2:1995 and DIN EN 60751:1996. This standardization provides sensor interchangeability without the need for transmitter circuitry adjustment.Enhanced performance and optimal temperature measurement accuracy is available for Series 65 Sensors coupled with a range of Rosemount Temperature Transmitters through calibration schedules and Callendar-Van Dusen constants.Series 185 Thermocouple Temperature Sensors conform to IEC 584:1982, Amendment 1:1989 and are available in types J, K, and N. Series 185 Sensors are available single ungrounded, or dual ungrounded, isolated.All sensors are available in a variety of lengths(1) and ranges with flying lead, terminal block, or ½-in. NPT spring-loaded adapter lead wire terminations.In addition to complete assemblies, Emerson offers a selection of separate accessory hardware including connection heads and thermowells.Selecting an extension and thermowellAside from ambient temperature variations, heat from the process, in a direct mounting configuration, is transferred from the thermowell to the transmitter housing. If the expected process temperature is near or beyond the transmitter specification limits,consider the use of additional thermowell extension length, an extension nipple, or a remote mounting configuration to isolate the transmitter from these excessive temperatures. Figure 3 provides an example of the relationship between transmitter housing temperature rise and extension length. Use Figure 3 and the accompanying example as a guide for determining adequate thermowell extension length.Figure 3: Transmitter Housing Temperature Rise vs. Uninsulated Extension Length605040302010075100125150175200225H o u s i n g R i s e A b o v e A m b i e n t (°C )Uninsulated Extension “N” Length (mm)A B CA.815 °C process temperatureB.540 °C process temperatureC.250 °C process temperature ExampleThe rated ambient temperature specification for the transmitter is 85 °C. If the maximum ambient temperature is 40 °C and the temperature to be measured is 540 °C, the maximum allowable housing temperature rise is the rated temperature specification limit minus the existing ambient temperature (85 – 40 °F), or 45 °C.As shown in Figure 3, an “N” dimension of 90 mm will result in a housing temperature rise of 22 °C. An “N” dimension of 100 mm would therefore be the minimum recommended length, and would provide a safety factor of about 25 °C. A longer “N” dimension,such as 150 mm, would be desirable in order to reduce errors caused by transmitter temperature effect, although in that case the transmitter may require extra support.Integral mount sensors and assembliesSeries 65 RTD and Series 185 Thermocouple Temperature Sensors may be ordered as complete assemblies, which provide a complete, yet simple, means of specifying the proper industrial hardware for most temperature measurements. One assembly model number, derived from one ordering table, completely defines the type of sensing element, as well as the material, length,and style of extension fittings and thermowells.All sensor assemblies are sized and inspected by Emerson to ensure complete component compatibility and performance.(1)Sensors over one meter long will be supplied coiled unless otherwise requested.Mounting configurationsSeries 65 Platinum RTDs and Series 185 ThermocouplesYou may order the Series 65 RTDs and the Series 185 Thermocouples with flying leads, a terminal block, or a ½-in. NPT spring-loaded adapter.Ordered with flying leads, the sensors are designed to be used with a head mount temperature transmitter attached directly to the sensor. The flying lead configuration allows the removal of the sensor and transmitter as one assembly.The BUZH connection head allows terminal block style sensors and transmitters to be mounted together. The transmitters in these assemblies will be mounted in the cover of the BUZH connection head.The sensors with a ½-in. NPT spring-loaded adapter are used with directly mounted Rosemount 3144P Field Mount Temperature Transmitters or through the use of Rosemount connection heads. This assembly requires a terminal block to be mounted inside the head.Hazardous area approvals are available with all three types of sensors, but they are dependent on the configuration of the entire temperature measurement assembly (see Product certifications).Temperature considerationsAmbient temperature limits for the connection head are –40 °C to +85 °C. The LT option may be extended down to a range of –51°C to +85 °C.Ambient temperature range addresses the connection head only, and requires suitable cable glands and field wiring provisions to meet the temperature requirements below –40 °C.Figure 4: Series 65 RTD Lead Wire ConfigurationSeries 65 RTD terminal block termination code 2Dual element (1)Red Red Wht321Red Red Wht654123456(1)The color of the terminal posts in the terminal block may not match the color of the lead wires connected to the capsule.Figure 5: Series 185 Lead Wire ConfigurationSeries 185 RTD thermocouple terminal block Dual elementSpecificationsSeries 65 Platinum RTD100 Ω RTD at 0 °C, α = 0.00385 °C-1Temperature range-50 to 450 °C (-58 to 842 °F) or -196 to 300 °C (-321 to 572 °F) depending on typeSelf heating0.15 °C/mW when measured per method defined in IEC 751:1983, Amendments 1 and 2Thermal response timeNine seconds maximum required to reach 50 percent sensor response when tested in flowing water according to IEC 751:1983, Amendments 1 and 2Immersion error60 mm minimum usable depth of immersion when tested according to IEC 751:1983, Amendments 1 and 2Insulation resistance1,000 MΩ minimum insulation resistance when measured at 500 Vdc and at room temperatureSheath material316 SST sensor tip (hot end) with 321SST mineral insulated cable constructionLead wirePTFE insulated, silver-coated, 0.21mm2 (24 AWG) stranded copper wire. See Figure 4 for wire configuration.Identification dataThe model and serial numbers are marked on each sensor.Ingress protection (IP) ratingsThe Rosemount connection head is rated to IP66/IP68 and NEMA® 4X. The BUZ and BUZH connection heads are rated to IP65. To maintain IP rating at installation, one of the following options must be used with the connection head:■Extension and/or adapter and barstock thermowell■Tubular thermowell■Sensor and sealing screw (extension option “V”)■General purpose adapterVibration limitsFor sensor types option code “1”, “2”, and “5”, the vibration resistance is ±0.02 percent (0.05 °C) maximum ice-point resistance shift after 3 g vibration between 10 and 500 Hz for 150 hours according to IEC 751:1983, Amendments 1 and 2.For sensor types option code “3”, “4”, and “6” the vibration resistance is 0.1 °C maximum ice-point resistance shift after 1 g vibration between 10 and 500 Hz for 150 hours according to IEC 60751:2008, Amendments 1 and 2.For sensor types option code “7”, “9”, and “0”, the vibration resistance is ±0.02 percent (0.05 °C) maximum ice-point resistance shift after 10 g vibration between 10 and 500 Hz for 150 hours according to IEC 751:1983, Amendments 1 and 2.Table 1: Series 65 InterchangeabilitySeries 185 ThermocoupleConstructionA thermocouple consists of a junction between two dissimilar metals that produces a change in thermoelectric emf in relationship to a change in temperature. Rosemount Series 185 Thermocouple sensors are manufactured from selected materials to meet IEC 584 Tolerance Class 1. The junction of these wires is welded to form a pure joint, maintaining the integrity of the circuit and ensuring the highest accuracy. Ungrounded junctions are protected from the environment by the sensor sheath. The ungrounded and isolated junctions provide electrical isolation from the sensor sheath.Sheath materialRosemount thermocouples are made of a mineral insulated cable design with a variety of sheath materials available to suit both the temperature and the environment. For temperatures up to 800 °C in air, 1.4541 (321 SST) is standard. For temperatures from 800 to 1100 °C in air, 2.4816 (Alloy 600) is standard. For temperatures above 1100 °C, precious metal or ceramic protective sheaths are available upon request. For strongly oxidising or reducing atmospheres, consult your local Emerson representative.Lead wiresPTFE insulated, 0.52 mm2 (20 AWG) stranded thermocouple wire. Color coded per IEC 584. See Figure 5 for wire configuration. Identification dataThe model and serial numbers are marked on each sensor.Insulation resistance1,000 MΩ minimum insulation resistance when measured at 500 Vdc and at room temperature.Ingress protection (IP) ratingsThe Rosemount connection head is rated to IP66/IP68 and NEMA 4X. The BUZ and BUZH connection heads are rated to IP65. To maintain IP rating at installation, one of the following options must be used with the connection head:■Extension and/or adapter and barstock thermowell■Tubular thermowell■Sensor and sealing screw (Extension option “V”)■General purpose adapterTable 2: Characteristics of Series 185 ThermocouplesMaterial selectionEmerson provides a variety of Rosemount product with various product options and configurations including materials of construction that can be expected to perform well in a wide range of applications. The product information presented is intended as a guide for the purchaser to make an appropriate selection for the application. It is the purchaser’s sole responsibility to make a careful analysis of all process parameters (such as all chemical components, temperature, pressure, flow rate, abrasives, contaminants, etc.), when specifying product, materials, options and components for the particular application. Emerson is not in a position to evaluate or guarantee the compatibility of the process fluid or other process parameters with the product, options, configuration or materials of construction selected.Functional specificationsPowerOvervoltage category IEnvironmentalPollution degree 4Product certificationsRev 1.36European Directive informationA copy of the EU Declaration of Conformity can be found at the end of the Quick Start Guide. The most recent revision of the EU Declaration of Conformity can be found at /Rosemount.Ordinary Location CertificationAs standard, the transmitter has been examined and tested to determine that the design meets the basic electrical, mechanical, and fire protection requirements by a nationally recognized test laboratory (NRTL) as accredited by the Federal Occupational Safety and Health Administration (OSHA).North AmericaThe US National Electrical Code® (NEC) and the Canadian Electrical Code (CEC) permit the use of Division marked equipment in Zones and Zone marked equipment in Divisions. The markings must be suitable for the area classification, gas, and temperature class. This information is clearly defined in the respective codes.Hazardous locations certificationsUSAE5 USA Explosionproof (XP) and Dust-Ignitionproof (DIP)Certificate70044744Standards FM 3600:2011, FM 3615:2006, UL 50E:2007, UL 61010-1:2010, ANSI/ISA 60529:2004Markings XP CL I, DIV 1, GP B, C, D; DIP CL II, DIV 1, GP E, F, G; CL III; T6 (-50 °C ≤ T a ≤ +80 °C), T5 (-50 °C ≤ T a ≤ +95 °C); Seal not required; installed per Rosemount drawing 00214-1030; Type 4X† and IP 66/67; V max 35VDC, 750mW max CanadaE6 Canada Explosionproof (XP) and Dust-Ignitionproof (DIP)Certificate70044744Standards CAN/CSA C22.2 No. 0:2010, CAN/CSA No. 25-1966 (R2000), CAN/CSA C22.2 No. 30-M1986 (R2012), CAN/CSA C22.2 No. 94-M1991 (R2011), CAN/CSA C22.2 No. 61010-1:2012Markings XP CL I, DIV 1, GP B, C, D; DIP CL II, DIV 1, GP E, F, G; CL III; T6 (-50 °C ≤ T a ≤ +80 °C), T5 (-50 °C ≤ T a ≤ +95 °C); Seal not required; installed per Rosemount drawing 00214-1030; Type 4X(2) and IP 66/67; Vmax 35VDC, 750mWmax(2)Spring loaded indicator has reduced ingress and dust ratings. Spring loaded sensors must be installed in a thermowell to maintain dust and ingress ratings.EuropeE1 ATEX FlameproofCertificate DEKRA 19ATEX0076XStandards EN IEC 60079-0: 2018, EN 60079-1: 2014Markingsa ≤ +80 °C)Special Conditions for Safe Use (X):1.Flameproof joints are not intended for repair.2.Non-Standard Paint options may cause risk from electrostatic discharge. Avoid installations that cause electrostatic build-upon painted surfaces, and only clean the painted surfaces with a damp cloth. If paint is ordered through a special option code, contact the manufacturer for more information.3.When provided on their own, the adapter style sensors must be assembled to a suitable Ex db enclosure with a free internalvolume no greater than 550 cm3.4.Guard DIN sensors against impacts greater than 4 Joules.(1)Minimum process temperature and minimum ambient temperature is limited to -50 °C for models with enclosure designation “7”, “8”, “9”, “K”,“R” or “W”.I1 ATEX Intrinsic SafetyCertificate Baseefa16ATEX0101XStandards EN 60079-0:2012+A11:2013, EN 60079-11:2012MarkingsSpecial Condition for Safe Use (X):The equipment must be installed in an enclosure which affords it a degree of ingress protection of at least IP20.N1 ATEX Type nCertificate BAS00ATEX3145Standards EN 60079-0:2012+A11:2013, EN 60079-15:2010Markingsa ≤ + 70 °C)ND ATEX DustATEX Certificate DEKRA 19ATEX0076XStandards EN IEC 60079-0:2018, EN 60079-31:2014Markingsa ≤ + 80 °C);Special Conditions for Safe Use (X):1.Non-Standard Paint options may cause risk from electrostatic discharge. Avoid installations that cause electrostatic build-upon painted surfaces, and only clean the painted surfaces with a damp cloth. If paint is ordered through a special option code, contact the manufacturer for more information.2.When provided on their own, the adapter style sensors must be assembled to a suitable Ex tb enclosure with a free internalvolume no greater than 550 cm3.3.The spring loaded adapter style sensors and DIN style sensors must be installed in a thermowell to maintain Ex tbprotection.(1)Minimum process temperature and minimum ambient temperature is limited to -50 °C for models with enclosure designation “7”, “8”,“9”, “K”, “R” or “W”.InternationalE7 IECEx FlameproofCertificate IECEx DEK 19.0041XStandards IEC 60079-0: 2017, IEC 60079-1: 2014Markings Ex db IIC T6...T1 Gb, (–60 °C ≤ T a ≤ + 80 °C)Special Conditions for Safe Use (X):1.Flameproof joints are not intended for repair.2.Non-Standard Paint options may cause risk from electrostatic discharge. Avoid installations that cause electrostatic build-upon painted surfaces, and only clean the painted surfaces with a damp cloth. If paint is ordered through a special option code, contact the manufacturer for more information.3.When provided on their own, the adapter style sensors must be assembled to a suitable Ex db enclosure with a free internalvolume no greater than 550 cm3.4.Guard DIN sensors against impacts greater than 4 Joules.。

DS-3WF03C Outdoor Wireless Bridge产品说明书

DS-3WF03C Outdoor Wireless Bridge产品说明书

DS-3WF03C wireless bridge can be applied in industries, such as wireless video surveillance, railway, transportation, power and other industries, wireless video/data transmission, wireless coverage, carrier wireless backbone network construction, Wi-Fi wireless coverage, rural information construction, and wireless network coverage. The long-distance transmission of the device can guarantee multi-channel HD video transmission.Feature and Function•Up to 15 km wireless transmission distance.•300 Mbps 802.11n wireless.•Built-in 15 dBi 2x2 MIMO antenna.•Point-to-Point, Point-to-Multipoint.•Smooth video enhanced by TDMA technology.Package Content•DS-3WF03C•Power Adapter (24 V, 0.5 A)•Power Cord•Hoop•Quick Start GuideSpecificationModel DS-3WF03CWirelessStandard IEEE802.11 a/nOperating frequency5745~5825 MHz (Note: Available channel may vary depending on localregulations)Antenna Built-in antenna: gain 15 dBi, H: 40°, V: 15°Output power27 dBm (Note: Maximum output power may vary in different channelsdepending on local regulations)Receive sensitivity-72 dBm@54 Mbps, -85 dBm@MCS0Wireless Link Rate 300 MbpsMaximum power consumption10.1 WHardwarePower supply24 V/0.5 A Passive PoEPassive PoE power supply distance Up to 60 meters with Cat.5e or betterInterface10/100 Mbps Base-TX × 2Operating temperature-30°C ~75°C (-22°F ~167°F)Storage temperature-40°C ~85°C (-40°F ~185°F)Operating humidity5%~95%RH non-condensingDimensions270mm × 41mm × 88mm (10.6×1.6×3.5 in)LED indicator Power indicator / LAN / WLAN / signal strength indicatorNet weight283.5gGross weight708.0gSoftwareEncryption WPA-PSK/WPA2-PSKSecurity IP/MAC filter, SSID hiddenNetwork protocol TCP/UDP/ARP/ICMP/HTTP/NTPManagement and Logs NTP, Syslog, SNMPConfiguration Management Support web configuration, Support SNMP managementFirmware update Support update firmware by Web pageBandwidth20 M/40 MHzPhysical InterfacePhysical Interface DescriptionReset Restore default factory settingsLAN Access to the camera, information distribution screen and other equipment POEPoE port connection with PoE power supplyIndicator DescriptionIndicator DescriptionPower indicator.If the green light is steady on, it indicates that the power is on.LANNetwork connection light.The light indicates there is one IPC or other network device connects to the LAN port of PoE adapter. Blinking means sending data.WLANWireless indicator light.The light indicates that the wireless is enabled. Blinking means sending data.Signal strength indicator light.Red light on, indicating that the signal is weak or no signal. Yellow and red lights on, indicating signal level is medium. Green, yellow and red lights on, indicating the wireless signal level is strongAvailable Model• DS -3WF03CDimension (unit: mm)Typical Application。

DS-3E05xxP-E系列未管理的光纤PoE交换机说明书

DS-3E05xxP-E系列未管理的光纤PoE交换机说明书

DS-3E05xxP-E SeriesUnmanaged Gigabit PoE Switch• Up to 24 Gigabit PoE Ports• Compliant with IEEE802.3at/af, IEEE802.3, IEEE802.3u, and IEEE802.3x, IEEE802.3ab, and IEEE802.3z Ethernet Standards • PoE Ports Offer 6 kV Surge Protection • Gigabit Network Access•PoE Output Power Management•Wire-Speed Forwarding and Non-Blocking Design• Solid and High-Strength Metal ShellThe DS-3E05xxP-E is an unmanaged Gigabit PoE switch that requires no configuration and contains up to 24 gigabit ports. It is ideal for managing simple installations that have a large volume of video traffic from high-megapixel IP cameras.This series consists of basic standalone switches with gigabit capability on all ports, which allows for multiple PoE field switches to be connected on one DS-3E05xxP-E Series core switch, which saves space and reduces the need to install additional devices.Available models: DS-3E0505P-E DS-3E0510P-E DS-3E0518P-E DS-3E0526P-EDS-3E0505P-E DS-3E0510P-E DS-3E0518P-E DS-3E0526P-ESpecificationsFront PanelDS-3E0505P-E DS-3E0510P-EDS-3E0518P-EDS-3E0526P-ENetwork ParametersPort Number4 x gigabit PoE ports, and 1 x gigabit RJ45 port8 x gigabit PoE ports, 1 x gigabit RJ45 port, and 1 × gigabit SFP fiber optical port 16 x gigabit PoE ports, 1 x gigabit RJ45 port, and 1 x gigabit SFP fiber optical port24 x gigabit PoE ports, 1 x gigabit RJ45 port, and 1 x gigabit SFP fiber optical portPort Type RJ45 port, full duplex, MDI/MDI-X adaptiveStandards IEEE 802.3, IEEE 802.3u, IEEE 802.3x, IEEE 802.3ab, IEEE 802.3z Forwarding Mode Store-and-forward switching Mac Address Table 2K 4K 8K Switching Capacity 10 Gbps 20 Gbps 36 Gbps 56 Gbps Packet Forwarding Rate7.44 Mbps 14.88 Mbps 26.784 Mpps 38.688 MbpsInternal Cache 1 Mbits 1.5 Mbits 4.1 Mbits PoE Power SupplyPoE Standard IEEE 802.3af, IEEE 802.3atPoE Power PinSupport 4-core power supply, and Ethernet cable 1/2/3/6 provide power supply PoE PortPorts 1 to 4 Ports 1 to 8 Ports 1 to 16 Ports 1 to 24 Maximum Port Power 30 W PoE Power Budget60 W 110 W 230 W 370 W Maximum Power Consumption65 W 120 W 250 W 400 WGeneralShell Metal material Weight6.35 lbs (2.88 kg)Dimensions (L x H x D) 17.3" x 1.7" x 8.7" (440 mm x 44 mm x 220.8 mm) Operating Temperature 32° F to 104° F (0° C to 40° C) Storage Temperature -40° F to 185° F (-40° C to 85° C) Operating Humidity 5% to 95% (no condensation) Storage Humidity5% to 95% (no condensation) Power Supply 100 to 240 VAC, maximum 6.5 A Power Consumption400 WDS-3E0510P-EDS-3E0505P-ERearPanelDS-3E0518P-EDS-3E0526P-E DS-3E0510P-E DS-3E0505P-EDS-3E0518P-EDS-3E0526P-E。

施乐辉配置

施乐辉配置

TOTAL(RMB)
1
5,814.00
1
1,224.00
1
4,284.00
1
28,764.00
1
28,764.00
1
28,764.00
1
28,764.00
1
28,764.00

28,764.00
1
28,764.00
28,764.00
1,095,561.00
72200829 5.8mm Diagnostic Cannula, double-valve, rotatable 1 双阀可旋转镜鞘
4356 Obturator, concial tip
1
钝头穿刺锥
电动动力刨削系统
7205841 Dyonics Power Shaver Unit.
1
动力系统控制主机
Vulcan Footswitch 脚踏控制器 KIT UK 汽化仪电源线/说明书等 单极负极板 单极刀头塑形板 刨削汽化一体头 90度双极刀头 60度双极刀头 软骨温控头
手术器械
1
1 1 1 Box/3 1 1 1
AMOUNT(RMB)
99,450.00
21,114.00 5,814.00
149,940.00 33,660.00 134,640.00 5,000.00 5,000.00 5,000.00
1
4.0mm 圆头打磨头
Vulcan汽化系统
Generator system include: 射频汽化系统,包括如下:
7210812 Vulcan Generator
1
射频汽化仪主机(单/双极两用)
7209692
7210875 7209687 7209597 7209855 7209686 7209685 7209628

安捷伦Brilliant III超快速QPCR Master Mix使用指南说明书

安捷伦Brilliant III超快速QPCR Master Mix使用指南说明书

1Brilliant III Ultra-Fast QPCR Master Mix withHigh ROXQuick Reference Guide for the ABI 7900HT FastReal-Time PCR SystemAgilent Technologies This quick reference guide provides an optimized protocol for usingAgilent’s Brilliant III Ultra-Fast QPCR Master Mix with High ROX (Catalog #600888) with the 7900HT Fast Real-Time PCR System from Life Technologies. For detailed instructions, refer to the full product manual.Prepare theReactions 1Prepare the experimental reactions by combining the components of the reagent mixture in the order listed in the table below. Prepare a singlereagent mixture for replicate reactions (plus at least one reactionvolume excess) using multiples of each component.2Gently mix the reagent mixture without creating bubbles, thendistribute the mixture to the experimental reaction tubes.3Add x μL of experimental DNA to each reaction to bring the finalreaction volume to 20 μL. The table below lists a suggested quantityrange for different DNA templates.*Refers to RNA input amount during cDNA synthesis4Mix the reactions without creating bubbles, then centrifuge briefly.Reagent MixtureNuclease-free PCR-grade water to bring final volume to 20 μL (including DNA)10 μL of 2× QPCR Master Mixx μL of experimental fluorescent probe at optimized concentration (150–600 nM)x μL of upstream primer at optimized concentrationx μL of downstream primer at optimized concentrationDNA Quantity per reactionGenomic DNA 5 pg – 100 ngcDNA 0.1 pg – 100 ng*2Brilliant III Ultra-Fast QPCR Master Mix with High ROX Set Up theQPCR Plate andThermal Profile 1From the SDS software, click File > New to open the Plate Document Wizard.2Enter the appropriate assay and well information for a new experiment.3Click OK . The Wizard will close and the plate document will appear inthe main software window.4Click Add Detector , and select the correct reporter for the assay. ClickCopy to Plate Document , then click Done .5Highlight the wells that will contain samples and check the selectedreporter dye.6On the Instrument/Thermal Profile tab, enter a sample volume of 20 Land select the Fast run mode. Adjust the thermal cycling conditionsaccording to the image below, and set the instrument to reportfluorescence during the 60°C step of each cycle.Run the PCRProgram1Place the reactions in the 7900HT instrument.2On the Instrument/Real Time tab, click Start Run .Analyze Data 1Analyze the results of the run as needed for your experiment.Manual Part Number 5990-7250, Revision B0©Agilent Technologies, Inc. 2015For Research Use Only. Not for use in diagnostic procedures.Product InformationCatalog #600888, 400 reactions Ordering Information By phone (US and Canada*): 800-227-9770On the web: /genomics Technical Services By phone (US and Canada*): 800-227-9770Byemail:*************************For other countries, please contact your local sales representative at /genomics/contactus。

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R OC-M ASTER P IGGABLE W YE F ITTINGS
Roc-Master’s Piggable Wye fitting is a forged Y fitting that
joins pipelines and permits pigging from either inlet branch
toward the single outlet. The Wye Fitting allows pigs to
pass from a full-size or reducing lateral line into a trunk
line. It provides two inlets separated by an angle of
approximately 30°. The angle may be more or less for
intelligent pigs, depending on pipe diameter and pig
manufacturer, and the configuration can be either
symmetrical or asymmetrical. The Wye Fitting will pass
commonly used pigs, including foam-type swab pigs,
articulated scraper pigs, spheres, batching pigs, gauging
pigs, and intelligent pigs. In general, pigs longer than 1.5
to 2.0 times the nominal pipe diameter should be
articulated, and gauging pigs should be assembled with
gauging plates mounted on the rear end of the pig rather
than on the front end. The Wye Fitting is available with
either a weld-end configuration or with flanges and pipe
pups. The Wye Fitting can be designed to suit all ANSI or
API pressure ratings for most pipe sizes.
Design Parameters:
Nominal Pipe Size (NPS):
any API Specification 5L pipe,
wall thickness and grade
Service: Standard (i.e. crude
oil, natural gas, hydrocarbons,
water or chemical injection,
etc.) and Sour (i.e. hydrogen
sulfide, carbon dioxide, etc.)
Design Pressure Rating: up
to ASME Class 2500
Finite element analysis:ANSYS FEA to verify the design integrity before manufacture
Hydrostatic Test Pressure (min): 1.5 times Design Pressure Rating rounded up to nearest 25 psig
Hydrostatic Test Duration (min): 1 hr
Configuration: Symmetric or Asymmetric
Inlet/Outlet Ends: Butt-Weld Ends, other ends on request.
Material Specifications:
Body: ASTM A105, A350 LF2, A694 F52 to F70,
A182 F51 F53, other material on request.
External Coating: Carboline 890 Epoxy Paint
System or other coating on request;
Applicable Design Codes, Standards &
Specifications (latest editions):
ASME Boiler Pressure Vessel Code, Section V
Nondestructive Examination
ASME Boiler Pressure Vessel Code, Section VIII,
Division 1 and 2
ASME Boiler and Pressure Vessel Code, Section IX
Welding and Brazing Qualifications (applicable if
configured with Pipe Pups or RTJ Flanges)
ASME B16.5, Pipe Flanges and Flanged Fittings
ASME B31.4, Pipeline Transportation Systems for
Liquid Hydrocarbons and Other Liquids
ASME B31.8, Gas Transmission and Distribution
Systems
API SPEC 5L, Specification for Line Pipe
MSS SP-44, Steel Pipeline Flanges
NACE Standard MR0175, Sulfide Stress Cracking
Resistant Metallic Materials for Oilfield Equipment
Certification:
ISO 9001:2008 quality system
API 17D-0048:
API6A-1172
PED AD2000
Ordering Information
Please provide the following information on any purchase order or request for quotation: Nominal pipe sizes
Pipe wall thicknesses or bores
Pipe grades
Design rating
Symmetrical or asymmetrical configuration
Butt-weld ends, other end on request.
Specification for weld-neck flanges, if applicable
Gasket type, if applicable
Pig types anticipated, if known。

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