0443800009;中文规格书,Datasheet资料

S A N D P I P E R P U M P.C O MWarren Rupp, Inc. • A Unit of IDEX Corporation 800 N. Main St., Mansfield, Ohio 44902 USA Telephone 419.524.8388 • Fax 419.522.78675 YEAR LIMITED PRODUCT WARRANTY5 Year Guarantee for defects in material or workmanship. See /content/warranty-certificationsfor complete warranty, including terms and conditions, limitations and E ONLY GENUINE SANDPIPER PARTS All certification, standards, guarantees & warrantiesoriginally supplied with this pump will be invalidated by the use of service parts not identified as “Genuine SANDPIPER Parts.”AIR DISTRIBUTION VALVE • No-lube, no-stall design SOLIDS-HANDLING • Up to .25 in. (6 mm)HEADS UP TO• 100 psi or 231 ft. of water (7 bar or 70 meters)MAXIMUM OPERATING PRESSURE • 100 psi (7 bar)DISPLACEMENT/STROKE • .19 Gallon / .72 literWEIGHTS• Polypropylene 42 lbs. (19kg)• PVDF 54 lbs. (24kg)• Conductive Polypropylene 100 lbs. (45kg)DIMENSIONSISO 9001 Certified I SO 14001 CertifiedII II100B A RP S I7 5 (9)10 (17)15 (26)4.0610310.092564X .5313STANDARD INTEGRAL MUFFLERMTG. SLOT2.506417.1243519.9450618.18462SUCTION PORT SUCTION PORT (OPTIONAL) DISCHARGE PORT (OPTIONAL)1" FNPTA9.812492X 2.15554.96126.5013DISCHARGE PORT 1" FNPTAIR INLET 1/2 FNPTS A N D P I P E R P U M P.C O MWarren Rupp, Inc. • A Unit of IDEX Corporation 800 N. Main St., Mansfield, Ohio 44902 USA Telephone 419.524.8388 • Fax 419.522.7867S XX X X X X X X X X X XXModel #:S __ ____ __ __ __ __ __ __ __ __ __ ____(fill in frompump nameplate)Your Model #: Pump Pump Check Design Wetted Diaphragm/ Check Valve Non-Wetted Porting Pump Pump KitConfig. Size Valve Level Material Check Valve Seat Material Options Style Options OptionsMaterial Profile:Operating Temperatures:Max.Min.CONDUCTIVE ACETAL: Tough, impact resistant, ductile. Good abrasion resistance and low friction surface. Generally inert, with good chemical resistance except for strong acids and oxidizing agents.190°F 88°C-20°F -29°CEPDM: Shows very good water and chemical resistance. Has poor resistance to oils and solvents, but is fair in ketones and alcohols.280°F 138°C -40°F -40°C F KM (FLUOROCARBON): Shows good resistance to a wide range of oils and solvents; especially all aliphatic, aromatic and halogenated hydrocarbons, acids, animal and vegetable oils. Hot water or hot aqueous solutions (over 70°F(21°C)) will attack FKM.350°F 177°C-40°F -40°CHYTREL ®: Good on acids, bases, amines and glycols at room temperatures only.220°F 104°C -20°F -29°C NEOPRENE: All purpose. Resistance to vegetable oils. Gener-ally not affected by moderate chemicals, fats, greases and many oils and solvents. Generally attacked by strong oxidizing acids, ketones, esters and nitro hydrocarbons and chlorinated aromatic hydrocarbons.200°F 93°C-10°F -23°CNITRILE: General purpose, oil-resistant. Shows good solvent, oil, water and hydraulic fluid resistance. Should not be used with highly polar solvents like acetone and MEK, ozone, chlorinated hydrocarbons and nitro hydrocarbons.190°F 88°C -10°F -23°CNYLON: 6/6 High strength and toughness over a wide tem-perature range. Moderate to good resistance to fuels, oils and chemicals.180°F 82°C 32°F 0°CPOLYPROPYLENE: A thermoplastic polymer. Moderate tensile and flex strength. Resists stong acids and alkali. Attacked by chlorine, fuming nitric acid and other strong oxidizing agents.180°F 82°C 32°F 0°C PVDF: (Polyvinylidene Fluoride) A durable fluoroplastic with excellent chemical resistance. Excellent for UV applications. High tensile strength and impact resistance.250°F 121°C 0°F -18°C SANTOPRENE ®: Injection molded thermoplastic elastomer with no fabric layer. Long mechanical flex life. Excellent abrasion resistance.275°F 135°C -40°F -40°C UHMW PE: A thermoplastic that is highly resistant to a broad range of chemicals. Exhibits outstanding abrasion and impact resistance, along with environmental stress-cracking resistance.180°F 82°C -35°F -37°C URETHANE: Shows good resistance to abrasives. Has poor resistance to most solvents and oils.150°F 66°C 32°F 0°C VIRGIN PTFE: (PFA/TFE) Chemically inert, virtually impervious. Very few chemicals are known to chemically react with PTFE; molten alkali metals, turbulent liquid or gaseous fluorine and a few fluoro-chemicals such as chlorine trifluoride or oxygen difluoride which readily liberate free fluorine at elevated temperatures.220°F 104°C-35°F -37°CMaximum and Minimum Temperatures are the limits for which these materials can be operated. Temperatures coupled with pressure affect the longevity of diaphragm pump components. Maximum life should not be expected at the extreme limits of the temperature ranges.Metals:ALLOY C: Equal to ASTM494 CW-12M-1 specification for nickel and nickel alloy.STAINLESS STEEL: Equal to or exceeding ASTM specification A743 CF-8M for corro-sion resistant iron chromium, iron chromium nickel and nickel based alloy castings for general applications. Commonly referred to as 316 Stainless Steel in the pump industry.For specific applications, always consult the Chemical Resistance Chart.CAUTION! Operating temperature limitations are as follows:EXPLANATION OF PUMP NOMENCLATUREPUMP BRANDSSANDPIPER ®PUMP SIZE1F 1” Full Flow CHECK VALVE TYPE B BallDESIGN LEVEL3Design LevelWETTED MATERIALKPVDFP PolypropyleneC Conductive Polypropylene VConductive PVDFDIAPHRAGM/CHECK VALVE MATERIALS1 Santoprene/Santoprene2 PTFE Santoprene Backup/PTFE3 PTFE Pumping, PTFE-Santoprene Backup Driver/PTFE4 Santoprene Pumping/Santoprene B Nitrile/NitrileG PTFE-Neoprene Backup/PTFE M Santoprene/PTFE N Neoprene/Neoprene V FKM/FKM Y PTFE Pumping/One-Piece BondedDriver/PTFE Z One-Piece Bonded/PTFEMATERIALSCHECK VALVE SEATKPVDFPPolypropyleneNON-WETTED MATERIAL OPTIONSP Polypropylene1 40% Glass Filled Polypropylenewith PTFE hardwareC Conductive Polypropylene PORTING OPTIONSN NPT ThreadU Universal (Fits ANSI and DIN) 7 Dual Porting (ANSI) 8 Top Dual Porting (ANSI) 9Bottom Dual Porting (ANSI)PUMP STYLEDWith Electronic Leak Detection (110 V) E With Electronic Leak Detection (220V)I Inline Porting NPT Threads M With Mechanical Leak Detection S StandardV With Visual Leak Detection PUMP OPTIONS 0 None6Metal MufflerKIT OPTIONS00. NoneP0. 10.30VDC Pulse Output Kit P1. Intrinsically-Safe 5.30VDC, 110/120VAC 220/240 VAC Pulse Output KitP2. 110/120 or 220/240VAC Pulse Output KitKIT OPTIONS (CONT.)E0. Solenoid Kit with 24VDC Coil E1. Solenoid Kit with 24VDC Explosion-Proof CoilE2. Solenoid Kit with 24VAC/12VDC Coil E3. Solenoid Kit with 12VDC Explosion-Proof CoilE4. Solenoid Kit with 110VAC Coil E5. Solenoid Kit with 110VAC Explosion-Proof CoilE6. Solenoid Kit with 220VAC Coil E7. Solenoid Kit with 220VAC Explosion-Proof CoilE8. Solenoid Kit with 110VAC, 50 Hz Explosion-Proof CoilE9. Solenoid Kit with 230VAC, 50 HzExplosion-Proof Coil SP . Stroke Indicator PinsA1. Solenoid Kit with 12 VDC ATEX Compliant CoilA2. Solenoid Kit with 24 VDC ATEX Compliant CoilA3. Solenoid Kit with 110/120 VAC 50/60 Hz ATEX Compliant Coil A4. Solenoid Kit with 220/240 VAC 50/60 Hz ATEX Compliant CoilNOTE: See service manual for ATEX details.SP_DS_TemplateDataSheet_0817II 2II 2。

N E W P R O D U C TProduct SummaryDescription and ApplicationsThe schottky rectifier providing low V F and excellent reverse leakage stability at high temperatures, this device is ideal for use in general rectification applications such as:∙ Boost Diode ∙ Blocking Diode ∙ Recirculating DiodeFeatures and Benefits∙ Reduced Low Forward Voltage Drop (V F ); Better Efficiency and Cooler Operation∙Reduced High-temperature Reverse Leakage; Increased Reliability against Thermal Runaway Failure in High Temperature Operation.∙ Lead-Free Finish; RoHS Compliant (Notes 1 & 2)∙ Halogen and Antimony Free. “Green” Device (Note 3)Mechanical Data∙ Case: SMA∙ Case Material: M olded Plastic, “Green” Molding Compound. UL Flammability Classification Rating 94V-0 ∙ Moisture Sensitivity: Level 1 per J-STD-020∙ Terminals: Finish - Matte Tin Annealed over Copper Leadframe. Solderable per MIL-STD-202, Method 208 ∙ Polarity: Cathode Band∙Weight: 0.063 grams (Approximate)Notes: 1. EU Directive 2002/95/EC (RoHS) & 2011/65/EU (RoHS 2) compliant. All applicable RoHS exemptions applied.2. See /quality/lead_free.html for more information about Diodes Incorporated’s definitions of Hal ogen- and Antimony-free, "Green" and Lead-free.3. Halogen- and Antimony-free "Green” products are defined as those which contain <900ppm bromine, <900ppm chlorine (<1500ppm total Br + Cl) and <1000ppm antimony compounds.4. For packaging details, go to our website at /products/packages.html.Marking InformationB3XXAE = Product Type Marking Code, ex: B320AE= Manufacturers’ Code Marking YWW = Date Code MarkingY = Last Digit of Year (ex: 6 for 2016) WW = Week Code (01 to 53)Top ViewSMABottom ViewB3XXAEGreenN E W P R O D U C TMaximum Ratings (@T A = +25°C, unless otherwise specified.)Single phase, half wave, 60Hz, resistive or inductive load.Thermal CharacteristicsNotes: 5. Device mounted on FR-4 substrate, 1"*1", 2oz, single-sided, PC boards with 0.56"*0.73" copper pad.6. Short duration pulse test used to minimize self-heating effect.N E W P R O D U C TN E W P R O D U C TPackage Outline DimensionsPlease see /package-outlines.html for the latest version.SMASuggested Pad LayoutPlease see /package-outlines.html for the latest version.SMAN E W P R O D U C T万联芯城专注电子元器件配单服务，只售原装现货库存，万联芯城电子元器件全国供应，专为终端生产，研发企业提供现货物料，价格优势明显，BOM配单采购可节省逐个搜索购买环节，只需提交BOM物料清单，商城即可为您报价，万联芯城现货库存销售能够满足多种客户的物料需求，一站式报价为客户节省采购成本，点击进入万联芯城。

USA SAFETY DATA SHEET1. CHEMICAL PRODUCT AND COMPANY IDENTIFICATIONProduct name:THERMOSET ME-588 BKProduct Use/Class: EncapsulantLORD Corporation111 LORD DriveCary, NC 27511-7923 USATelephone: 814 868-3180Non-Transportation Emergency: 814 763-2345Chemtrec 24 Hr Transportation Emergency No.800 424-9300 (Outside Continental U.S. 703 527-3887)EFFECTIVE DATE: 02/26/20212. HAZARDS IDENTIFICATIONGHS CLASSIFICATION:Acute toxicity DermalCategory 4 - 92.0% of the mixture consists of ingredient(s) of unknown toxicity.Skin corrosion/irritation Category 2Serious eye damage/eye irritation Category 2ASkin sensitization Category 1Carcinogenicity Category 2Hazardous to the aquatic environment - chronic hazard Category 2GHS LABEL ELEMENTS:Symbol(s)Signal WordW ARNINGHazard StatementsHarmful in contact with skin.Causes skin irritation.Causes serious eye irritation.May cause an allergic skin reaction.Suspected of causing cancer.Toxic to aquatic life with long lasting effects.Precautionary StatementsPreventionObtain special instructions before use.Do not handle until all safety precautions have been read and understood.Wear protective gloves/protective clothing/eye protection/face protection.Use personal protective equipment as required.Avoid breathing dust/fume/gas/mist/vapors/spray.Wash thoroughly after handling.Contaminated work clothing should not be allowed out of the workplace.Avoid release to the environment.ResponseCall a POISON CENTER or doctor/physician if you feel unwell.Specific treatment (see supplemental first aid instructions on this label).300001009080IF ON SKIN: Wash with plenty of soap and water.If skin irritation or rash occurs: Get medical advice/attention.IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do.Continue rinsing.Take off contaminated clothing and wash before reuse.Collect spillage.StorageStore locked up.Disposal:Dispose of contents/container in accordance with waste/disposal aws and regulations of your country or particular locality.Other Hazards:This product contains component(s) which have the following warnings; however based on the GHS classification criteria of your country or locale, the product mixture may be outside the respective category(s).Acute: May cause respiratory tract irritation. May cause allergic respiratory reaction.May be harmful if swallowed.Ingestion is not an expected route of entry in industrial or commercial uses.Chronic: Contains an epoxy resin which is a possible mutagen, based on animal data. Prolonged exposure to the silica-containing sanding dust of this product could cause long-term lung damage. Crystalline silica is classified by IARC and NTP as a known human carcinogen as a respirable dust. The silica in LORD products is not in a form that can be inhaled and presents no risk to the end user. No exposure is expected during normal use of this product.Sanding or abrading the cured materials is not recommended. Wear appropriate respiratory protection if exposure to dusts is possible.withheld.FIRST AID - EYE CONTACT: Flush eyes immediately with large amount of water for at least 15 minutes holding eyelids open while flushing. Get prompt medical attention.FIRST AID - SKIN CONTACT: Flush contaminated skin with large amounts of water while removing contaminated clothing. Wash affected skin areas with soap and water. Get medical attention if symptoms occur.FIRST AID - INHALATION: Move person to fresh air. Restore and support continued breathing. If breathing is difficult, give oxygen. Get immediate medical attention.FIRST AID - INGESTION: If swallowed, do not induce vomiting. Call a physician or poison control center immediately for further instructions. Never give anything by mouth if victim is rapidly losing consciousness, unconscious or convulsing.SUITABLE EXTINGUISHING MEDIA: Carbon Dioxide, Dry Chemical, Foam, Water FogUNSUITABLE EXTINGUISHING MEDIA: Not determined for this product.SPECIFIC HAZARDS POSSIBLY ARISING FROM THE CHEMICAL: Keep containers tightly closed. Closed containers may rupture when exposed to extreme heat. Use water spray to keep fire exposed containers cool. During a fire, irritating and/or toxic gases and particulate may be generated by thermal decomposition or combustion.SPECIAL PROTECTIVE EQUIPMENT AND PRECAUTIONS FOR FIRE-FIGHTERS: Wear full firefighting protective clothing, including self-contained breathing apparatus (SCBA). If water is used, fog nozzles are preferable.PERSONAL PRECAUTIONS, PROTECTIVE EQUIPMENT AND EMERGENCY PROCEDURES: Avoid breathing vapors. Avoid contact. Use appropriate respiratory protection for large spills or spills in confined area.ENVIRONMENTAL PRECAUTIONS: Do not contaminate bodies of water, waterways, or ditches, with chemical or used container.METHODS AND MATERIALS FOR CONTAINMENT AND CLEANUP: Notify appropriate authorities if necessary. Avoid contact. Keep non-essential personnel away from spill area. Scoop spilled material into an appropriate container for proper disposal. (If necessary, use inert absorbent material to aid in containing the spill).HANDLING: Keep closure tight and container upright to prevent leakage. Avoid skin and eye contact. Wash thoroughly after handling. Do not handle until all safety precautions have been read and understood. Empty containers should not be re-used. Use with adequate ventilation.STORAGE: Store only in well-ventilated areas. Keep container closed when not in use. Avoid excessive heat. Avoid moisture contamination. Product should be stored frozen for best shelf life. See LORD Technical Datasheet for product specific storage instructions.INCOMPATIBILITY: Strong acids and bases.Engineering controls: Sufficient ventilation in pattern and volume should be provided in order to maintain air contaminant levels below recommended exposure limits.PERSONAL PROTECTION MEASURES/EQUIPMENT:RESPIRATORY PROTECTION: Use a NIOSH approved air-purifying organic vapor respirator if occupational limits are exceeded. For emergency situations, confined space use, or other conditions where exposure limits may be greatly exceeded, use an approved air-supplied respirator. For respirator use observe OSHA regulations (29CFR 1910.134) or use in accordance with applicable laws and regulations of your country or particular locality.SKIN PROTECTION: Use neoprene, nitrile, or rubber gloves to prevent skin contact.EYE PROTECTION: Use safety eyewear including safety glasses with side shields and chemical goggles where splashing may occur.OTHER PROTECTIVE EQUIPMENT: Use disposable or impervious clothing if work clothing contamination is likely. Remove and wash contaminated clothing before reuse.HYGIENIC PRACTICES: Wash hands before eating, smoking, or using toilet facility. Food or beverages should not be consumed anywhere this product is handled or stored. Wash thoroughly after handling.Typical values, not to be used for specification purposes.ODOR: Characteristic VAPOR PRESSURE: N.D.APPEARANCE: Black VAPOR DENSITY: Heavier than Air PHYSICAL STATE: Paste LOWER EXPLOSIVE LIMIT: Not ApplicableUPPER EXPLOSIVE LIMIT: Not ApplicableFLASH POINT:≥ 201 °F, 93 °CSetaflash Closed CupBOILING RANGE: N.A.EVAPORATION RATE: Slower than n-butyl-acetate AUTOIGNITION TEMPERATURE:N.D.DENSITY: 1.53 g/cm3 (12.77 lb/gal) DECOMPOSITION TEMPERATURE:N.D. VISCOSITY, DYNAMIC: ≥18,350 mPa.s @ 25 °C ODOR THRESHOLD: N.D.VISCOSITY, KINEMATIC: ≥11,993 mm2/s @ 25 °CSOLUBILITY IN H2O: Insoluble VOLATILE BY WEIGHT: 0.02 %pH: N.A.VOLATILE BY VOLUME: 0.03 %FREEZE POINT: N.D. VOC CALCULATED: 0 lb/gal, 0 g/l COEFFICIENT OF WATER/OILN.D.DISTRIBUTION:LEGEND: N.A. - Not Applicable, N.E. - Not Established, N.D. - Not DeterminedHAZARDOUS POLYMERIZATION: Hazardous polymerization will not occur under normal conditions.STABILITY: Product is stable under normal storage conditions.CONDITIONS TO AVOID: Moisture.; High temperatures.; Storage temperatures above 40F will cause the material to react and solidify.INCOMPATIBILITY: Strong acids and bases.HAZARDOUS DECOMPOSITION PRODUCTS: Carbon monoxide, carbon dioxide, oxides of nitrogen, Organic acid vapors, Aldehydes, Hydrogen cyanideEXPOSURE PATH: Refer to section 2 of this SDS.SYMPTOMS:Refer to section 2 of this SDS.TOXICITY MEASURES:Germ cell mutagenicity: No classification proposedCarcinogenicity: Category 2 - Suspected of causing cancer.Components contributing to classification: Epoxy resin.Reproductive toxicity: No classification proposedPERSISTENCE AND DEGRADABILITY:Not determined for this product.BIOACCUMULATIVE: Not determined for this product.MOBILITY IN SOIL: Not determined for this product.OTHER ADVERSE EFFECTS: Not determined for this product.DISPOSAL METHOD: Disposal should be done in accordance with Federal (40CFR Part 261), state and local environmental control regulations. If waste is determined to be hazardous, use licensed hazardous waste transporter and disposal facility.US DOT RoadProper Shipping Name: Environmentally hazardous substances, liquid, n.o.s.Hazard Class: 9SECONDARY HAZARD: NoneUN/NA Number: 3082Packing Group: IIIEmergency Response Guide Number: 171For US DOT non-bulk road shipments this material may be classified as NOT REGULATED. For the most accurate shipping information, refer to your transportation/compliance department regarding changes inpackage size, mode of shipment or other regulatory descriptors.IATA CargoPROPER SHIPPING NAME: Environmentally hazardous substance, liquid, n.o.s.Hazard Class: 9HAZARD CLASS: NoneUN NUMBER: 3082PACKING GROUP: IIIEMS: 9LIMDGPROPER SHIPPING NAME: Environmentally hazardous substance, liquid, n.o.s.Hazard Class: 9HAZARD CLASS: NoneUN NUMBER: 3082PACKING GROUP: IIIEMS: F-AThe listed transportation classification applies to non-bulk shipments. It does not address regulatory variations due to changes in package size, mode of shipment or other regulatory descriptors. For the most accurate shipping information, refer to your transportation/compliance department.U.S. FEDERAL REGULATIONS: AS FOLLOWS:SARA SECTION 313This product contains the following substances subject to the reporting requirements of Section 313 of Title III of the Superfund Amendment and Reauthorization Act of 1986 and 40 CFR part 372.:NoneTOXIC SUBSTANCES CONTROL ACT:INVENTORY STATUSThe chemical substances in this product are on the TSCA Section 8 Inventory.EXPORT NOTIFICATIONThis product contains the following chemical substances subject to the reporting requirements of TSCA 12(B) if exported from the United States:Chemical Name CAS NumberEpoxy resin PROPRIETARYUnder HazCom 2012 it is optional to continue using the HMIS rating system. It is important to ensure employees have been trained to recognize the different numeric ratings associated with the HazCom 2012 and HMIS schemes.HMIS RATINGS - HEALTH: 2* FLAMMABILITY: 1 PHYSICAL HAZARD: 1* - Indicates a chronic hazard; see Section 2Revision: Section 1, Section 2, Section 3, Section 8, Section 11, Section 12Effective Date: 02/26/2021The 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, we make no guarantee of results, and assume no liability for damages incurred by use of this material. It is the responsibility of the user to comply with all applicable federal, state and local laws and regulations.。

COP8SG Family8-Bit CMOS ROM Based and OTP Microcontrollers with 8k to 32k Memory,Two Comparators and USARTGeneral DescriptionThe COP8SG Family ROM and OTP based microcontrollers are highly integrated COP8™Feature core devices with 8k to 32k memory and advanced features including Analog comparators,and zero external components.These single-chip CMOS devices are suited for more complex applica-tions requiring a full featured controller with larger memory,low EMI,two comparators,and a full-duplex USART.COP8SGx7devices are 100%form-fit-function compatible OTP (One Time Programmable)versions for use in produc-tion or development of the COP8SGx5ROM.Erasable windowed versions (Q3)are available for use with a range of COP8software and hardware development tools.Family features include an 8-bit memory mapped architec-ture,15MHz CKI with 0.67µs instruction cycle,14inter-rupts,three multi-function 16-bit timer/counters with PWM,full duplex USART,MICROWIRE/PLUS ™,two analog com-parators,two power saving HALT/IDLE modes,MIWU,idle timer,on-chip R/C oscillator,high current outputs,user se-lectable options (WATCHDOG ™,4clock/oscillator modes,power-on-reset),2.7V to 5.5V operation,program code se-curity,and 28/40/44pin packages.Devices included in this datasheet are:Device Memory (bytes)RAM (bytes)I/O Pins Packages Temperature COP8SGE58k ROM 25624/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGG516k ROM 51224/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGH520k ROM 51224/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGK524k ROM 51224/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGR532k ROM 51224/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGE78k OTP EPROM 25624/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGR732k OTP EPROM 51224/36/4028DIP/SOIC,40DIP ,44PLCC/QFP/CSP -40to +85˚C,-40to +125˚C COP8SGR7-Q332k EPROM51224/36/4028DIP ,40DIP ,44PLCCRoom Temp.Key Featuresn Low cost 8-bit microcontrollern Quiet Design (low radiated emissions)n Multi-Input Wakeup pins with optional interrupts (8pins)nMask selectable clock options —Crystal oscillator—Crystal oscillator option with on-chip bias resistor —External oscillator —Internal R/C oscillatorn Internal Power-On-Reset —user selectablen WATCHDOG and Clock Monitor Logic —user selectable n Eight high current outputsn 256or 512bytes on-board RAMn8k to 32k ROM or OTP EPROM with security featureCPU Featuresn Versatile easy to use instruction set n 0.67µs instruction cycle timen Fourteen multi-source vectored interrupts servicing —External interrupt /Timers T0—T3—MICROWIRE/PLUS Serial Interface —Multi-Input Wake Up —Software Trap—USART (2;1receive and 1transmit)—Default VIS (default interrupt)n 8-bit Stack Pointer SP (stack in RAM)n Two 8-bit Register Indirect Data Memory Pointers n True bit manipulationn BCD arithmetic instructionsPeripheral Featuresn Multi-Input Wakeup Logicn Three 16-bit timers (T1—T3),each with two 16-bit registers supporting:—Processor Independent PWM mode —External Event Counter mode —Input Capture modeCOP8™is a trademark of National Semiconductor Corporation.October 2001COP8SG Family,8-Bit CMOS ROM Based and OTP Microcontrollers with 8k to 32k Memory,Two Comparators and USART©2001National Semiconductor Corporation Peripheral Features(Continued)n Idle Timer (T0)n MICROWIRE/PLUS Serial Interface (SPI Compatible)n Full Duplex USARTnTwo Analog ComparatorsI/O Featuresn Software selectable I/O options (TRI-STATE ®Output,Push-Pull Output,Weak Pull-Up Input,and High Impedance Input)n Schmitt trigger inputs on ports G and L n Eight high current outputsn Packages:28SO with 24I/O pins,40DIP with 36I/O pins,44PLCC,PQFP and CSP with 40I/O pinsFully Static CMOS Designn Low current drain (typically <4µA)n Two power saving modes:HALT and IDLETemperature Rangen −40˚C to +85˚C,−40˚C to +125˚CDevelopment Supportn Windowed packages for DIP and PLCCn Real time emulation and debug tools availableBlock Diagram10131744FIGURE 1.COP8SGx Block DiagramC O P 8S G F a m i l y 21.0Device Description1.1ARCHITECTUREThe COP8family is based on a modified Harvard architec-ture,which allows data tables to be accessed directly from program memory.This is very important with modern microcontroller-based applications,since program memory is usually ROM or EPROM,while data memory is usually RAM.Consequently data tables need to be contained in non-volatile memory,so they are not lost when the micro-controller is powered down.In a modified Harvard architec-ture,instruction fetch and memory data transfers can be overlapped with a two stage pipeline,which allows the next instruction to be fetched from program memory while the current instruction is being executed using data memory. This is not possible with a Von Neumann single-address bus architecture.The COP8family supports a software stack scheme that allows the user to incorporate many subroutine calls.This capability is important when using High Level Languages. With a hardware stack,the user is limited to a small fixed number of stack levels.1.2INSTRUCTION SETIn today’s8-bit microcontroller application arena cost/ performance,flexibility and time to market are several of the key issues that system designers face in attempting to build well-engineered products that compete in the marketplace. Many of these issues can be addressed through the manner in which a microcontroller’s instruction set handles process-ing tasks.And that’s why COP8family offers a unique and code-efficient instruction set—one that provides the flexibil-ity,functionality,reduced costs and faster time to market that today’s microcontroller based products require.Code efficiency is important because it enables designers to pack more on-chip functionality into less program memory space.Selecting a microcontroller with less program memory size translates into lower system costs,and the added security of knowing that more code can be packed into the available program memory space.1.2.1Key Instruction Set FeaturesThe COP8family incorporates a unique combination of in-struction set features,which provide designers with optimum code efficiency and program memory utilization.Single Byte/Single Cycle Code ExecutionThe efficiency is due to the fact that the majority of instruc-tions are of the single byte variety,resulting in minimum program space.Because compact code does not occupy a substantial amount of program memory space,designers can integrate additional features and functionality into the microcontroller program memory space.Also,the majority instructions executed by the device are single cycle,result-ing in minimum program execution time.In fact,77%of the instructions are single byte single cycle,providing greater code and I/O efficiency,and faster code execution.1.2.2Many Single-Byte,Multifunction InstructionsThe COP8instruction set utilizes many single-byte,multi-function instructions.This enables a single instruction to accomplish multiple functions,such as DRSZ,DCOR,JID, LD(Load)and X(Exchange)instructions with post-incrementing and post-decrementing,to name just a fewexamples.In many cases,the instruction set can simulta-neously execute as many as three functions with the samesingle-byte instruction.JID:(Jump Indirect);Single byte instruction;decodes exter-nal events and jumps to corresponding service routines(analogous to“DO CASE”statements in higher level lan-guages).LAID:(Load Accumulator-Indirect);Single byte look up tableinstruction provides efficient data path from the programmemory to the CPU.This instruction can be used for tablelookup and to read the entire program memory for checksumcalculations.RETSK:(Return Skip);Single byte instruction allows returnfrom subroutine and skips next instruction.Decision tobranch can be made in the subroutine itself,saving code.AUTOINC/DEC:(Auto-Increment/Auto-Decrement);Theseinstructions use the two memory pointers B and X to effi-ciently process a block of data(analogous to“FOR NEXT”inhigher level languages).1.2.3Bit-Level ControlBit-level control over many of the microcontroller’s I/O portsprovides a flexible means to ease layout concerns and saveboard space.All members of the COP8family provide theability to set,reset and test any individual bit in the datamemory address space,including memory-mapped I/O portsand associated registers.1.2.4Register SetThree memory-mapped pointers handle register indirect ad-dressing and software stack pointer functions.The memorydata pointers allow the option of post-incrementing or post-decrementing with the data movement instructions(LOAD/EXCHANGE).And15memory-maped registers allow de-signers to optimize the precise implementation of certainspecific instructions.1.3EMI REDUCTIONThe COP8SGx5family of devices incorporates circuitry thatguards against electromagnetic interference—an increasingproblem in today’s microcontroller board designs.National’spatented EMI reduction technology offers low EMI clockcircuitry,gradual turn-on output drivers(GTOs)and internalICCsmoothing filters,to help circumvent many of the EMI issues influencing embedded control designs.National hasachieved15dB–20dB reduction in EMI transmissions whendesigns have incorporated its patented EMI reducing cir-cuitry.1.4PACKAGING/PIN EFFICIENCYReal estate and board configuration considerations demandmaximum space and pin efficiency,particularly given today’shigh integration and small product form factors.Microcon-troller users try to avoid using large packages to get the I/Orge packages take valuable board space andincreases device cost,two trade-offs that microcontrollerdesigns can ill afford.The COP8family offers a wide range of packages and do notwaste pins:up to90.9%(or40pins in the44-pin package)are devoted to useful I/O.COP8SGFamily3Connection Diagrams10131704Top ViewOrder Number COP8SGXY28M8See NS Package Number M28B Order Number COP8SGXY28N8See NS Package Number N28B Order Number COP8SGR728Q3See NS Package Number D28JQ10131753Top ViewOrder Number COP8SGR7HLQ8See NS Package Number LQA44A10131705Top ViewOrder Number COP8SGXY40N8See NS Package Number N40A Order Number COP8SGR5740Q3See NS Package Number D40KQ10131706Top ViewOrder Number COP8SGXY44V8See NS Package Number V44A Order Number COP8SGR744J3See NS Package Number EL44C10131743Top ViewOrder Number COP8SGXYVEJ8See NS Package Number VEJ44ANote 1:X =E for 8k,G for 16k,H for 20k,K for 24k,R for 32k Y =5for ROM,7for OTPC O P 8S G F a m i l y 4Pinouts for28-,40-and44-Pin PackagesPort Type Alt.Fun 28-PinSO40-Pin DIP44-PinPLCC44-Pin PQFP44-Pin CSPL0I/O MIWU1117171112 L1I/O MIWU or CKX1218181213 L2I/O MIWU or TDX1319191314 L3I/O MIWU or RDX1420201415 L4I/O MIWU or T2A1521251920 L5I/O MIWU or T2B1622262021 L6I/O MIWU or T3A1723272122 L7I/O MIWU or T3B1824282223 G0I/O INT2535393334 G1I/O WDOUT*2636403435 G2I/O T1B2737413536 G3I/O T1A2838423637 G4I/O SO1334142 G5I/O SK2444243 G6I SI3554344 G7I CKO466441 D0O1925292324 D1O2026302425 D2O2127312526 D3O2228322627 D4O29332728 D5O30342829 D6O31352930 D7O32363031 F0I/O79934 F1I/O COMP1IN−8101045 F2I/O COMP1IN+9111156 F3I/O COMP1OUT10121267 F4I/O COMP2IN−131378 F5I/O COMP2IN+141489 F6I/O COMP2OUT1515910 F7I/O16161011 C0I/O39433738 C1I/O40443839 C2I/O113940 C3I/O224041 C4I/O211516 C5I/O221617 C6I/O231718 C7I/O241819 VCC68823 GND2333373132 CKI I57712 RESET I2434383233 *G1operation as WDOUT is controlled by ECON bit2.COP8SG Family 52.1Ordering Information10131708FIGURE 2.Part Numbering SchemeC O P 8S G F a m i l y 63.0Electrical CharacteristicsAbsolute Maximum Ratings(Note2) If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications.Supply Voltage(V CC)7VVoltage at Any Pin−0.3V to V CC+0.3VTotal Current into V CCPin(Source)100mATotal Current out ofGND Pin(Sink)110mAStorage TemperatureRange−65˚C to+140˚CESD Protection Level2kV(Human BodyModel) Note2:Absolute maximum ratings indicate limits beyond which damage to the device may occur.DC and AC electrical specifications are not ensured when operating the device at absolute maximum ratings.DC Electrical Characteristics−40˚C≤T A≤+85˚C unless otherwise specified.Parameter Conditions Min Typ Max Units Operating Voltage 2.7 5.5V Power Supply Rise Time1050x106ns V CC Start Voltage to Guarantee POR00.25V Power Supply Ripple(Note4)Peak-to-Peak0.1V cc V Supply Current(Note5)CKI=15MHz V CC=5.5V,t C=0.67µs9.0mA CKI=10MHz V CC=5.5V,t C=1µs 6.0mA CKI=4MHz V CC=4.5V,t C=2.5µs 2.1mA HALT Current(Note6)V CC=5.5V,CKI=0MHz<410µA IDLE Current(Note5)CKI=15MHz V CC=5.5V,t C=0.67µs 2.25mA CKI=10MHz V CC=5.5V,t C=1µs 1.5mA CKI=4MHz V CC=4.5V,t C=2.5µs0.8mA Input Levels(V IH,V IL)RESETLogic High0.8V cc V Logic Low0.2V cc V CKI,All Other InputsLogic High0.7V cc V Logic Low0.2V cc V Internal Bias Resistor for theCrystal/Resonator Oscillator0.512MΩCKI Resistance to V CC or GND when R/COscillator is selectedV CC=5.5V5811kΩHi-Z Input Leakage V CC=5.5V−2+2µA Input Pullup Current V CC=5.5V,V IN=0V−40−250µA G and L Port Input Hysteresis V CC=5.5V0.25V cc V COP8SG Family 7DC Electrical Characteristics(Continued)−40˚C ≤T A ≤+85˚C unless otherwise specified.ParameterConditionsMinTypMaxUnitsOutput Current Levels D Outputs Source V CC =4.5V,V OH =3.3V −0.4mA V CC =2.7V,V OH =1.8V -0.2mA Sink V CC =4.5V,V OL =1.0V 10mA V CC =2.7V,V OL =0.4V 2mA All OthersSource (Weak Pull-Up Mode)V CC =4.5V,V OH =2.7V −10.0−110µA V CC =2.7V,V OH =1.8V -2.5-33µA Source (Push-Pull Mode)V CC =4.5V,V OH =3.3V −0.4mA V CC =2.7V,V OH =1.8V -0.2mA Sink (Push-Pull Mode)V CC =4.5V,V OL =0.4V V CC =2.7V,V OL =0.4V 1.60.7mA mA TRI-STATE LeakageV CC =5.5V−2+2µA Allowable Sink Current per Pin (Note 9)D Outputs and L0to L315mA All Others3mA Maximum Input Current without Latchup (Note 7)Room Temp.±200mA RAM Retention Voltage,Vr 2.0V V CC Rise Time from a V CC ≥2.0V (Note 10)12µsEPROM Data Retenton (Note 8),(Note 9)T A =55˚C >29years Input Capacitance (Note 9)7pF Load Capacitance on D2(Note 9)1000pFAC Electrical Characteristics−40˚C ≤T A ≤+85˚C unless otherwise specified.ParameterConditionsMin Typ Max Units Instruction Cycle Time (t C )Crystal/Resonator,External 4.5V ≤V CC ≤5.5V 0.67µs 2.7V ≤V CC ≤4.5V 2µsR/C Oscillator (Internal) 4.5V ≤V CC ≤5.5V 2µs Frequency Variation (Note 9) 4.5V ≤V CC ≤5.5V ±35%External CKI Clock Duty Cycle (Note 9)fr =Max4555%Rise Time (Note 9)fr =10MHz Ext Clock 8ns Fall Time (Note 9)fr =10MHz Ext Clock5ns MICROWIRE Setup Time (t UWS )(Note 11)20ns MICROWIRE Hold Time (t UWH )(Note 11)56nsMICROWIRE Output Propagation Delay (t UPD )(Note 11)220nsInput Pulse Width (Note 9)Interrupt Input High Time 1t C Interrupt Input Low Time 1t C Timer 1,2,3,Input High Time 1t C Timer 12,3,Input Low Time 1t C Reset Pulse Width1µsNote 3:t C =Instruction cycle time.C O P 8S G F a m i l y 8AC Electrical Characteristics(Continued)Note4:Maximum rate of voltage change must be<0.5V/ms.Note5:Supply and IDLE currents are measured with CKI driven with a square wave Oscillator,External Oscillator,inputs connected to V CC and outputs driven low but not connected to a load.Note6:The HALT mode will stop CKI from oscillating in the R/C and the Crystal configurations.In the R/C configuration,CKI is forced high internally.In the crystal or external configuration,CKI is TRI-STATE.Measurement of I DD HALT is done with device neither sourcing nor sinking current;with L.F,C,G0,and G2–G5 programmed as low outputs and not driving a load;all outputs programmed low and not driving a load;all inputs tied to V CC;clock monitor disabled.Parameter refers to HALT mode entered via setting bit7of the G Port data register.Note7:Pins G6and RESET are designed with a high voltage input network.These pins allow input voltages>V CC and the pins will have sink current to V CC when biased at voltages>V CC(the pins do not have source current when biased at a voltage below V CC).The effective resistance to V CC is750Ω(typical).These two pins will not latch up.The voltage at the pins must be limited to<14V.WARNING:Voltages in excess of14V will cause damage to the pins.This warning excludes ESD transients.Note8:National Semiconductor uses the High Temperature Storage Life(HTSL)test to evaluate the data retention capabilities of the EPROM memory cells used in our OTP microcontrollers.Qualification devices have been stressed at150˚C for1000hours.Under these conditions,our EPROM cells exhibit data retention capabilities in excess of29years.This is based on an activation energy of0.7eV derated to55˚C.Note9:Parameter characterized but not tested.Note10:Rise times faster than the minimum specification may trigger an internal power-on-reset.Note11:MICROWIRE Setup and Hold Times and Propagation Delays are referenced to the appropriate edge of the MICROWIRE clock.See and the MICROWIRE operation description.Comparators AC and DC CharacteristicsV CC=5V,−40˚C≤T A≤+85˚C.Parameter Conditions Min Typ Max Units Input Offset Voltage(Note12)0.4V≤V IN≤V CC−1.5V±5±15mV Input Common Mode Voltage Range0.4V CC−1.5V Voltage Gain100dB Low Level Output Current V OL=0.4V−1.6mA High Level Output Current V OH=V CC−0.4V 1.6mA DC Supply Current per Comparator(When Enabled)150µAResponse Time(Note13)200mV step input100mV Overdrive,100pF Load600nsComparator Enable Time(Note14)600ns Note12:The comparator inputs are high impedance port inputs and,as such,input current is limited to port input leakage current.Note13:Response time is measured from a step input to a valid logic level at the comparator output.software response time is dependent of instruction execution. Note14:Comparator enable time is that delay time required between the end of the instruction cycle that enables the comparator and using the output of the comparator,either by hardware or by software.10131709FIGURE3.MICROWIRE/PLUS Timing COP8SG Family 9Absolute Maximum Ratings(Note 2)If Military/Aerospace specified devices are required,please contact the National Semiconductor Sales Office/Distributors for availability and specifications.Supply Voltage (V CC )7VVoltage at Any Pin −0.3V to V CC +0.3VTotal Current into V CC Pin (Source)100mA Total Current out of GND Pin (Sink)110mAStorage Temperature Range−65˚C to +140˚C ESD Protection Level2kV (Human BodyModel)Note 15:Absolute maximum ratings indicate limits beyond which damage to the device may occur.DC and AC electrical specifications are not ensured when operating the device at absolute maximum ratings.DC Electrical Characteristics−40˚C ≤T A ≤+125˚C unless otherwise specified.ParameterConditionsMin TypMax Units Operating Voltage 4.5 5.5V Power Supply Rise Time1050x 106ns V CC Start Voltage to Guarantee POR 00.25V Power Supply Ripple (Note 4)Peak-to-Peak0.1V ccVSupply Current (Note 5)CKI =10MHz V CC =5.5V,t C =1µs 6.0mA CKI =4MHz V CC =4.5V,t C =2.5µs 2.1mA HALT Current (Note 6)V CC =5.5V,CKI =0MHz<410µAIDLE Current (Note 5)CKI =10MHz V CC =5.5V,t C =1µs 1.5mA CKI =4MHz V CC =4.5V,t C =2.5µs0.8mAInput Levels (V IH ,V IL )RESET Logic High 0.8V ccV Logic Low 0.2V ccVCKI,All Other Inputs Logic High 0.7V ccV Logic Low0.2V ccV Internal Bias Resistor for the Crystal/Resonator Oscillator0.512M ΩCKI Resistance to V CC or GND when R/C Oscillator is selected V CC =5.5V 5811k ΩHi-Z Input Leakage V CC =5.5V−5+5µA Input Pullup CurrentV CC =5.5V,V IN =0V −35−400µA G and L Port Input Hysteresis V CC =5.5V0.25V ccVOutput Current Levels D Outputs Source V CC =4.5V,V OH =3.3V −0.4mA Sink V CC =4.5V,V OL =1.0V9mAAll OthersSource (Weak Pull-Up Mode)V CC =4.5V,V OH =2.7V −9−140µA Source (Push-Pull Mode)V CC =4.5V,V OH =3.3V −0.4mA Sink (Push-Pull Mode)V CC =4.5V,V OL =0.4V 1.4mA TRI-STATE LeakageV CC =5.5V−5+5µAAllowable Sink Current per Pin (Note 9)D Outputs and L0to L31515mA All Others33mAC O P 8S G F a m i l y 10DC Electrical Characteristics(Continued)−40˚C≤T A≤+125˚C unless otherwise specified.Parameter Conditions Min Typ Max UnitsMaximum Input Current without Latchup (Note7)Room Temp.±200mARAM Retention Voltage,Vr 2.0V V CC Rise Time from a V CC≥2.0V(Note10)12µs EPROM Data Retenton(Note8),(Note9)T A=55˚C>29years Input Capacitance(Note9)7pF Load Capacitance on D2(Note9)1000pF COP8SG FamilyAC Electrical Characteristics−40˚C ≤T A ≤+125˚C unless otherwise specified.ParameterConditionsMinTypMaxUnitsInstruction Cycle Time (t C )Crystal/Resonator,External 4.5V ≤V CC ≤5.5V 1µs R/C Oscillator (Internal) 4.5V ≤V CC ≤5.5V 2µs Frequency Variation (Note 9) 4.5V ≤V CC ≤5.5V ±35%External CKI Clock Duty Cycle (Note 9)fr =Max4555%Rise Time (Note 9)fr =10MHz Ext Clock 12ns Fall Time (Note 9)fr =10MHz Ext Clock8ns MICROWIRE Setup Time (t UWS )(Note 11)20ns MICROWIRE Hold Time (t UWH )(Note 11)56ns MICROWIRE Output Propagation Delay (t UPD )(Note 11)220nsInput Pulse Width (Note 9)Interrupt Input High Time 1t C Interrupt Input Low Time 1t C Timer 1,2,3,Input High Time 1t C Timer 12,3,Input Low Time 1t C Reset Pulse Width1µsComparators AC and DC CharacteristicsV CC =5V,−40˚C ≤T A ≤+125˚C.ParameterConditionsMinTypMaxUnits Input Offset Voltage (Note 12)0.4V ≤V IN ≤V CC −1.5V±5±25mV Input Common Mode Voltage Range 0.4V CC −1.5V Voltage Gain100dB Low Level Output Current V OL =0.4V −1.6mA High Level Output CurrentV OH =V CC −0.4V1.6mA DC Supply Current per Comparator (When Enabled)150µAResponse Time (Note 13)200mV step input 100mV Overdrive,600ns Comparator Enable Time600nsC O P 8S G F a m i l yTypical Performance Characteristics TA=25˚C(unless otherwise specified)10131749101317501013175110131752COP8SG Family4.0Pin DescriptionsThe COP8SGx I/O structure enables designers to reconfig-ure the microcontroller’s I/O functions with a single instruc-tion.Each individual I/O pin can be independently configured as output pin low,output high,input with high impedance or input with weak pull-up device.A typical example is the use of I/O pins as the keyboard matrix input lines.The input lines can be programmed with internal weak pull-ups so that the input lines read logic high when the keys are all open.With a key closure,the corresponding input line will read a logic zero since the weak pull-up can easily be overdriven.When the key is released,the internal weak pull-up will pull the input line back to logic high.This eliminates the need for external pull-up resistors.The high current options are avail-able for driving LEDs,motors and speakers.This flexibility helps to ensure a cleaner design,with less external compo-nents and lower costs.Below is the general description of all available pins.V CC and GND are the power supply pins.All V CC and GND pins must be connected.CKI is the clock input.This can come from the Internal R/C oscillator,external,or a crystal oscillator (in conjunction with CKO).See Oscillator Description section.RESET is the master reset input.See Reset description section.Each device contains four bidirectional 8-bit I/O ports (C,G,L and F),where each individual bit may be independently configured as an input (Schmitt trigger inputs on ports L and G),output or TRI-STATE under program control.Three data memory address locations are allocated for each of these I/O ports.Each I/O port has two associated 8-bit memory mapped registers,the CONFIGURATION register and the output DATA register.A memory mapped address is also reserved for the input pins of each I/O port.(See the memory map for the various addresses associated with the I/O ports.)Figure 4shows the I/O port configurations.The DATA and CONFIGURATION registers allow for each port bit to be individually configured under software control as shown be-low:CONFIGURATIONRegisterDATA RegisterPort Set-Up00Hi-Z Input(TRI-STATE Output)01Input with Weak Pull-Up 10Push-Pull Zero Output 11Push-Pull One OutputPort L is an 8-bit I/O port.All L-pins have Schmitt triggers on the inputs.Port L supports the Multi-Input Wake Up feature on all eight pins.Port L has the following alternate pin functions:L7Multi-input Wakeup or T3B (Timer T3B Input)L6Multi-input Wakeup or T3A (Timer T3A Input)L5Multi-input Wakeup or T2B (Timer T2B Input)L4Multi-input Wakeup or T2A (Timer T2A Input)L3Multi-input Wakeup and/or RDX (USART Receive)L2Multi-input Wakeup or TDX (USART Transmit)L1Multi-input Wakeup and/or CKX (USART Clock)L0Multi-input WakeupPort G is an 8-bit port.Pin G0,G2–G5are bi-directional I/O ports.Pin G6is always a general purpose Hi-Z input.All pins have Schmitt Triggers on their inputs.Pin G1serves as thededicated WATCHDOG output with weak pullup if WATCHDOG feature is selected by the Mask Option reg-ister.The pin is a general purpose I/O if WATCHDOG feature is not selected.If WATCHDOG feature is selected,bit 1of the Port G configuration and data register does not have any effect on Pin G1setup.Pin G7is either input or output depending on the oscillator option selected.With the crystal oscillator option selected,G7serves as the dedicated output pin for the CKO clock output.With the internal R/C or the external oscillator option selected,G7serves as a gen-eral purpose Hi-Z input pin and is also used to bring the device out of HALT mode with a low to high transition on G7.Since G6is an input only pin and G7is the dedicated CKO clock output pin (crystal clock option)or general purpose input (R/C or external clock option),the associated bits in the data and configuration registers for G6and G7are used for special purpose functions as outlined below.Reading the G6and G7data bits will return zeroes.Each device will be placed in the HALT mode by writing a “1”to bit 7of the Port G Data Register.Similarly the device will be placed in the IDLE mode by writing a “1”to bit 6of the Port G Data Register.Writing a “1”to bit 6of the Port G Configuration Register enables the MICROWIRE/PLUS to operate with the alter-nate phase of the SK clock.The G7configuration bit,if set high,enables the clock start up delay after HALT when the R/C clock configuration is used.Config.Reg.Data Reg.G7CLKDLY HALT G6Alternate SKIDLEPort G has the following alternate features:G7CKO Oscillator dedicated output or general purposeinputG6SI (MICROWIRE Serial Data Input)G5SK (MICROWIRE Serial Clock)G4SO (MICROWIRE Serial Data Output)G3T1A (Timer T1I/O)G2T1B (Timer T1Capture Input)G1WDOUT WATCHDOG and/or CLock Monitor if WATCH-DOG enabled,otherwise it is a general purpose I/O G0INTR (External Interrupt Input)Port C is an 8-bit I/O port.The 40-pin device does not have a full complement of Port C pins.The unavailable pins are not terminated.A read operation on these unterminated pins will return unpredictable values.The 28pin device do not offer Port C.On this device,the associated Port C Data and Configuration registers should not be used.Port F is an 8-bit I/O port.The 28--pin device does not have a full complement of Port F pins.The unavailable pins are not terminated.A read operation on these unterminated pins will return unpredictable values.Port F1–F3are used for Comparator 1.Port F4–F6are used for Comparator 2.The Port F has the following alternate features:F6COMP2OUT (Comparator 2Output)F5COMP2+IN (Comparator 2Positive Input)F4COMP2-IN (Comparator 2Negative Input)F3COMP1OUT (Comparator 1Output)F2COMP1+IN (Comparator 1Positive Input)F1COMP1-IN (Comparator 1Negative Input)C O P 8S G F a m i l y。

(3).010 Oversize OD: 231177 (4).010 Oversize OD: 231178 (5)Use 331166 For +.010 or 331167 For +.020 (6)Cam Plug Kit: 731137CU-239-Q 4/1/2004Provide Engine Serial # To Verify All Parts APPLICATION: Backhoes: 570LXT Series 2, 580L Series 2 Case; Crawlers: 550G After JJG0255793 Case;Forklifts: 584E, 585E, 586E Case After JJG251721; 585G, 586G, 588G Case;Skid Loaders: 1840, 1845C Case Thru ESN 45636368 w/Bosch Pump; 85XT Case-IH w/Bosch Pump;Telescopic Handlers: 686G, 686GXR; 688G Series 2 Case; Sky Trak 5028;Windrowers: 8860, 8860HP Case-IH; Miscellaneous Farm & Construction EquipmentQTY ITEM # DESCRIPTION LETTERED ITEMSINCLUDED IN KIT1 934146 In-Frame Kit I1 935146 Out-of-Frame Kit, w/In-Line Pump O4 131189 STD Piston Kit (Includes Pin & Rings) (1) O I4 131191 0.50 MM Piston Kit (Includes Pin & Rings)4 131192 1.00 MM Piston Kit (Includes Pin & Rings)4 131167 Piston Pin (3.255" OAL)4 131149 Repair Liner (4.118" OD / 7.875" OAL)4 131193 STD Piston Ring Set (Rectangular Top Ring)4 131194 0.50 MM Piston Ring Set (Rectangular Top Ring)4 131195 1.00 MM Piston Ring Set (Rectangular Top Ring)4 231139 STD Rod Bearing O I4 231141 0.25MM Rod Bearing (3)4 231142 0.50MM Rod Bearing (4)4 231143 0.75MM Rod Bearing4 231144 1.00MM Rod Bearing1 231155 STD Main Bearing Set O I1 231156 0.25MM Main Bearing Set1 231157 0.50MM Main Bearing Set1 231158 0.75MM Main Bearing Set1 231159 1.00MM Main Bearing Set1 331173 Head Gasket Set O I1 331165 STD Head Gasket (5)8 331163 Positive Valve Seal1 331174 Full Gasket Set w/Seals, w/In-Line Pump1 331168 Lower Gasket Set w/Seals, w/Rotary Pump1 331175 Lower Gasket Set w/Seals, w/In-Line Pump O1 331171 Tappet Cover Gasket1 331172 Pan Gasket Set I1 331155 Front Crank Seal "For OS Seal & Sleeve Kit Use 331188"1 331156 Front Crank Thin Wall Wear Sleeve "Use w/Standard Seal"1 331123 STD Rear Crank Seal (Dry Housing)1 331124 OS Rear Crank Seal & Wear Sleeve Kit (Dry Housing)1 331125 STD Rear Crank Seal (Wet Housing)1 331126 OS Rear Crank Seal & Wear Sleeve Kit (Wet Housing)1 331128 Rear Crank Thin Wall Wear Sleeve "Use w/Standard Seal"4 231151 Pin Bushing (Centered Hole) "Late Offset Hole Use 231161"1 231152 Front Cam Bearing, Thru ESN 45537237 (6)1 231154 Front Cam Bearing, After ESN 45537237 (STORM Block) (6)4 231153 Cam Bearing, Intermediate & Rear (Requires Machining) (6)8 731135 Rod Bolt1 731141 Head Bolt Kit(1)Grade B Piston Kit, Use 131458 to service piston stamped 4975; Grade C Piston Kit, Use 131459 to service piston stamped 4976(8)Use 531125 For Bosch or CAV Rotary PumpCU-239-Q 4/1/2004 Provide Engine Serial # To Verify All Parts APPLICATION: Backhoes: 570LXT Series 2, 580L Series 2 Case; Crawlers: 550G After JJG0255793 Case; Forklifts: 584E, 585E, 586E Case After JJG251721; 585G, 586G, 588G Case;Skid Loaders: 1840, 1845C Case Thru ESN 45636368 w/Bosch Pump; 85XT Case-IH w/Bosch Pump;Telescopic Handlers: 686G, 686GXR; 688G Series 2 Case; Sky Trak 5028;Windrowers: 8860, 8860HP Case-IH; Miscellaneous Farm & Construction EquipmentQTY ITEM # DESCRIPTION LETTERED ITEMSINCLUDED IN KIT1 939515 Camshaft Kit C1 939115 Valve Train Kit V1 531131 Camshaft C1 531112 Cam Thrust Plate8 531113 Tappet C4 4 8 431143 431144 431157 Exhaust Valve Intake Valve Valve Wear Cap (Optional Service Repair)V V8 431145 Ex/In Service Repair Valve Guide (.439 OD / 2.500" OAL) 4 431146 Exhaust Service Repair Valve Guide (.552 OD / 2.052" OAL)4 431147 Intake Service Repair Valve Guide (.552 OD / 2.397" OAL) 8 431158 Valve Spring V 16 431149 Valve Keeper (Half) V 8 431151 Valve Spring Retainer 4 431152 Exhaust Valve Seat (OEM Special Size) 4 401138 Exhaust Valve Seat (Universal Size / Uses Standard Cutter)4 431153 Intake Valve Seat (OEM Special Size)4 401139 Intake Valve Seat (Universal Size / Uses Standard Cutter)4 431154 Rocker Arm, Exhaust4 431155 Rocker Arm, Intake4 431156 Rocker Arm Support & Shaft1 531123 Cam Gear 1 531124 Crank Gear1 531127 Injection Pump Drive Gear, w/Bosch In-Line Pump (8)8 531126 Push Rod1 631131 New Oil Pump 1 631132 Rebuilt Oil Pump 1 631129 Oil Cooler4 631126 Piston Cooling Nozzles1 731111 Crankshaft 1 731139 Expansion Plug Kit (Includes 18 Plugs For Head & Block) 1 831133 Thermostat Kit (Includes Seal)1 831134 New Water Pump1 831118 Fan Drive Bearing1 831114 Belt Tensioner Assembly1 831135 Block Heater (Cup Plug)1 831139 Block Heater, After ESN 45537237(STORM Block 3/4" NPT)1 831117 Fuel Transfer Pump, w/Bosch In-Line Pump1 831136 Fuel Transfer Pump, w/Bosch Rotary Pump1 831137 Oil Fill Cap (2")8 831138 Exhaust Manifold Bolt。

__________________________________________________________________________________________________________________________________________ SAE Technical Standards Board Rules provide that:“This report is published by SAE to advance the state of technical and engineering sciences. The use of this report is entirely voluntary, and its applicability and suitability for any particular use, including any patent infringement arising therefrom, is the sole responsibility of the user.”SAE reviews each technical report at least every five years at which time it may be reaffirmed, revised, or cancelled. SAE invites your written comments and suggestions. Copyright © 2009 SAE InternationalAll rights reserved. No part of this publication may be reproduced, stored in a retrieval system or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of SAE. TO PLACE A DOCUMENT ORDER:Tel: 877-606-7323 (inside USA and Canada) Tel: 724-776-4970 (outside USA) Fax: 724-776-0790Email: CustomerService@ SAE WEB ADDRESS:V RIssued 1992-06 Revised 2009-08 SupersedingJ2044 SEP2002(R) Quick Connect Coupling Specification for Liquid Fuel and Vapor/Emissions SystemsRATIONALEThis revision is to encompass changes in fuel and emission technology and clarification of test procedures.TABLE OF CONTENTS1.SCOPE .......................................................................................................................................................... 22.REFERENCES .............................................................................................................................................. 32.1Applicable Publications ................................................................................................................................. 32.1.1SAE Publications ........................................................................................................................................... 32.1.2ASTM Publication .......................................................................................................................................... 32.2Related Publication ....................................................................................................................................... 32.2.1SAE Publication ............................................................................................................................................ 33.DEFINITIONS ............................................................................................................................................... 43.1Unexposed Coupling ..................................................................................................................................... 43.2Lot ................................................................................................................................................................. 43.3Dimensions ................................................................................................................................................... 44.SIZE DESIGNATION .................................................................................................................................... 45.TEST TEMPERATURES .............................................................................................................................. 46.FUNCTIONAL REQUIREMENTS ................................................................................................................. 46.1Leak Test (In-Process) .................................................................................................................................. 56.1.1Low Pressure Leak Test Procedure ............................................................................................................. 56.1.2Low Pressure Leak Acceptance Criteria ....................................................................................................... 56.1.3High Pressure Leak Test Procedure (Liquid Fuel Only) ............................................................................... 56.1.4High Pressure Test Acceptance Criteria ....................................................................................................... 56.1.5Vacuum Leak Test Procedure (Vapor Systems only at Customer’s Request) ............................................. 56.1.6Vacuum Test Acceptance Criteria ................................................................................................................ 56.2Assembly Effort ............................................................................................................................................. 86.2.1Test Procedure (New Parts) ......................................................................................................................... 86.2.2Test Procedure (Connectors after Section 7 Exposure) ............................................................................... 86.2.3Acceptance Criteria ....................................................................................................................................... 86.3Pull-Apart Effort ........................................................................................................................................... 106.3.1Test Procedure ............................................................................................................................................ 106.3.2Acceptance Criteria (10)SAE J2044 Revised AUG2009 Page 2 of 23 6.4Side Load Capability (12)6.4.1Test Procedure (12)6.4.2Acceptance Criteria (Side Load Leak Test) (12)6.4.3Acceptance Criteria (Side Load Fracture Test) (12)6.5Electrical Resistance (13)6.5.1Test Procedure (13)6.5.2Acceptance Criteria (13)6.6Resistance to Evaporative Emissions (13)7.DESIGN VERIFICATION/VALIDATION TESTING (13)7.1Corrosion (13)7.1.1Test Procedure (13)7.1.2Acceptance Criteria (13)7.2Zinc Chloride Resistance (14)7.2.1Test Procedure (14)7.2.2Acceptance Criteria (14)7.3External Chemical and Environmental Resistance (14)7.3.1Test Procedure, Fluid or Medium (14)7.3.2Acceptance Criteria (15)7.4Fuel Compatibility (15)7.4.1Test Procedure (15)7.4.2Test Fuels (15)7.4.3Test Requirement (16)7.4.4Acceptance Criteria (16)7.5Life Cycle (16)7.5.1Test Procedure (16)7.5.2Vibration Frequency (16)7.5.3Acceleration (16)7.5.4Vibration Duration (17)7.5.5Fluid Pressure (17)7.5.6Fluid Flow (Liquid Fuel Quick Connect Couplings Only) (17)7.5.7Test Duration (17)7.5.8Test Cycles (18)7.5.9Acceptance Criteria (19)7.6Elevated Temperature Burst (20)7.6.1Test Procedure (20)7.6.2Acceptance Criteria (21)8.DESIGN VERIFICATION/VALIDATION AND IN-PROCESS TESTING MATRIX (21)9.NOTES (22)9.1Marginal Indicia (22)APPENDIX A PROCEDURE FOR MEASURING MATING TUBE ENDFORM BEAD WIDTH (23)1. SCOPEThis SAE Recommended Practice defines the minimum functional requirements for quick connect couplings used for supply, return, and vapor/emission fuel system connections. This document also defines standard male tube end form dimensions, so as to guarantee interchangeability between all connector designs of the same male tube end form size. This document applies to automotive and light truck applications under the following conditions:a. Gasoline and diesel fuel delivery systems or their vapor venting or evaporative emission control systems.b. Operating pressure up to 500 kPa, 5 bar, (72 psig).c.Operating vacuum down to–50kPa,–0.5bar(–7.2psi).d.Operating temperatures from–40°C(–40°F)to115°C(239°F).Quick connect couplings function by joining the connector to a mating tube end form, then pulling back to assure a complete connection. The requirements stated in this document apply to new connectors in assembly operations unless otherwise indicated. For service operations, the mating tube should be lubricated with SAE 30-weight oil before re-connecting.Vehicle OEM fuel system specifications may impose additional requirements beyond the scope of this general SAE document. In those cases, the OEM specification takes precedence over this document.2. REFERENCES2.1 Applicable PublicationsThe following publications form a part of this specification to the extent specified herein. Unless otherwise specified, the latest issue of SAE publications shall apply.2.1.1 SAE PublicationsAvailable from SAE International, 400 PA 15096-0001, Tel: 877-606-7323 (insideSAE J526 Welded Low-Carbon Steel TubingSAE J527 Brazed Double Wall Low-Carbon Steel TubingSAE J1645Fuel Systems and Components—Electrostatic Charge MitigationSAE J1681 Gasoline, Alcohol, and Diesel Fuel Surrogates for Materials TestingSAE J1737 Test Procedure to Determine the Hydrocarbon Losses from Fuel Tubes, Hoses, Fittings, and Fuel Line Assemblies by RecirculationSAE J2045 Performance Requirements for Fuel System Tubing AssembliesSAE J2587 Optimized Fuel Tank Sender Closure2.1.2 ASTM PublicationASTM B 117 Method of Salt Spray (Fog) Testing2.2 Related PublicationThe following publication is provided for information purposes only and is not a required part of this specification.2.2.1 SAE PublicationAvailable from SAE International, 400 PA 15096-0001, Tel: 877-606-7323 (insideSAE J30 Fuel and Oil Hoses3. DEFINITIONS3.1 Unexposed CouplingOne that has not been used or deteriorated since manufacture.3.2 LotA group of couplings that can be traced to a single assembly set-up or material lot. No more than one week production ina lot.3.3 DimensionsUnless otherwise specified all dimensions are in millimeters (mm).4. SIZE DESIGNATIONThe size of quick connect couplings in this document are designated by three dimensions, and presented as x x , defined in Figure 1 below. Dimension designates the nominal male endform diameter. Dimension designates the tubing or hose size suited for the stem end of the coupling. Dimension designates the minimum straight length, of nominal diameter tubing, behind the male endform bead, required for proper installation and removal of the fitting.EXAMPLE: 9.5 mm x 8 mm x 12 mm connector couples with a 9.5 mm male tube end, is inserted into an 8 mm flexible tube or hose and requires 12 mm clearance behind the bead on the tube end.FIGURE 1 - CONNECTOR NOMENCLATUREDetails for standard coupling sizes and dimensions for standard tube end forms are shown in Table 1 and Figure 2.NOTE: On metal or plastic tubing the OD is used to designate size. On flexible hose the ID is used to designate size.5. TEST TEMPERATURESUnless otherwise specified, all tests will be performed at room temperature 23 °C ± 2 °C (73.4 °F ± 4 °F).6. FUNCTIONAL REQUIREMENTSThis section defines the minimum functional requirements for quick connector couplings used in flexible tubing fuel systems.NOTE: New connector designs using the same materials as previously tested connectors may use the original results as surrogate data for 7.1 Corrosion, 7.2 Zinc Chloride Resistance, 7.3 External chemical and Environmental Resistance, and 7.4 Fuel Compatibility.6.1 Leak Test (In-Process)In accordance with stringent emissions regulations, including CARB PZEV, and safety regulations, quick connector couplings must be free of leaks and micro-leaks. Production leak testing is performed to assure conformance to the requirement. Compressed air leak testing is a proven technique which provides required leak sensitivity as well as a proof test for pressure resistance. Depending on the application, test conditions for Low Pressure (vapor), high pressure (liquid) and vacuum systems are described below.NOTE: Leak test acceptance criteria for this document are in customary leak units of flow (cc/min) or mass flow (scc/min). In the fuel system industry, an alternate leak test criteria, based on units of equivalent channel dimension rather than flow rate, have been applied. For example, see SAEJ2587 for leak criteria for fuel pump module tank interface joint. The equivalent channel specification is especially appropriate for parts such as fuel tanks with large internal volume, with high deformation with applied pressure or vacuum and where use pressures are low. Leak tests for such parts include vacuum, pressure, and accumulation methods. It can be difficult to compare the indicated leak rates for various techniques, so an equivalent channel criteria is established. The equivalent channel dimension specification is based on test data indicating that fuel system micro-leaks will plug over time. Effectively, micro-leaks plug to a near zero hydrocarbon emission level. The high pressure leak tests defined in 6.1.3 have been demonstrated, with experiment and analysis, to satisfy an equivalent channel of15 micron diameter and 3 mm length. No further testing is recommended to validate the equivalent channelcriteria. Standard leak rate conditions are defined as 101.325 kPa (14.696 psia) and 293 K (20 C).6.1.1 Low Pressure Leak Test Procedurea. Insert leak test pin, shown in Figure 3, into the connector.b. Pressurize between the seals (for single seal connectors, the stem must be capped or sealed) with suitable air leaktest equipment to 69 kPa ± 7 kPa, 0.69 bar ± 0.07 bar (10 psig ± 1 psig).6.1.2 Low Pressure Leak Acceptance CriteriaMaximum leak rate 2 scc/min (1.19 cc/min) at stabilization.6.1.3 High Pressure Leak Test Procedure (Liquid Fuel Only)a. Insert leak test pin, shown in Figure 3, into the connector.b. Pressurize between the seals with suitable air leak test equipment to 1034 kPa ± 35 kPa, 10.34 bar ± 0.35 bar(150 psig ± 5 psig).6.1.4 High Pressure Test Acceptance CriteriaMaximum leak rate 5 scc/min (0.45 cc/min) at stabilization.NOTE: Appropriate safety precautions should be taken when testing with high-pressure air. Not required for vapor/emission quick connector couplings. Vapor connectors are not generally used for high pressure applications.6.1.5 Vacuum Leak Test Procedure (Vapor Systems only at Customer’s Request)a. Insert leak test pin shown in Figure 3 into connector.b.Apply a vacuum of7kPa(–1.02psig)with suitable vacuum leak test equipment.6.1.6 Vacuum Test Acceptance CriteriaMaximum leak rate 2 scc/min (2.14 cc/min) at stabilization.Stabilization can be determined by viewing a graphic output of actual leak rate. This will vary by connector size and leak test method. Permeation is not the same phenomenon as leaks. Permeation tests measure permeation rate.TABLE 1 - STANDARD TUBE END-FORM DIMENSIONSdependant on tubing wall thickness.For formed metal tube wall thicknesses other than specified in Table1;D=2X wall+0.5/–0.0, bead width recommended. Nominal steel tube dimensions per SAEJ526 and SAE J527. For material thicknesses other than specified in Table 1, see your Quick Connect supplier for compatibility. Molded plastic endform suitability with the various fitting types and applications, should be confirmed with the fitting manufacturer. See Appendix A for Bead Width measurement method.Dimension“F”is the distance from the rear of the Bead(the retaining surface side)to the tangent of a bend or a surface that may not deviate from the nominal tube diameter. This dimension may vary by coupling manufacturer to provide sufficient clearance for latching mechanisms, release tools, redundant latches or any circumstances required by the customer.FIGURE 2 - MATING TUBE END FORMNote: Molded endforms with sharp (K) cornershould be confirmed for serviceability.Tube sizes up to 10 mm (for overlay check)Tube sizes greater than 10 mm (for overlay check)FIGURE 2 - DETAIL A (CONTINUED)NOTE: Nose shape must be smooth and allow insertion without seal damage. Also it must conform to the required minimum internal diameter in Table 1.SAE J2044 Revised AUG2009 Page 8 of 23FIGURE 3 Basic Size“A”Maximum“A”Minimum mm mm4.78 mm (3/16 in) 4.57 4.556.35 mm (1/4 in) 6.24 6.227.94 mm (5/16 in) 7.83 7.819.53 mm (3/8 in) 9.43 9.4110 mm 9.83 9.8111.11 mm (7/16 in) 10.95 10.9312 mm 11.70 11.6812.70 mm (1/2 in) 12.51 12.4915.88 mm (5/8 in) 15.72 15.7019.05 mm (3/4 in) 18.80 18.7822.23 mm (7/8 in) 22.55 22.53FIGURE 3 - LEAK TEST PINNOTE: SAE J2044 rev 2002, test pins are acceptable for use.6.2 Assembly EffortQuick connect coupling assembly effort is the peak force required to fully assemble (latch or retain) the mating tube end into the connector. Use a suitable tensile/compression tester to verify conformance to this document.6.2.1 Test Procedure (New Parts)a. Test a minimum of 10 couplings.b. Test the quick connect coupling as supplied. Do not add additional lubrication to the quick connect coupling or testpin.c. Attach quick connect coupling to a suitable test fixture.d. Wipe the test pins, before each test, with a clean lint-free cloth to prevent an accumulation of lubrication.e. Insert assembly test pin, shown in Figure 4, into the quick connect coupling at a rate of 51 mm/min ± 5 mm/min(2 in/min ± 0.2 in/min) and measure assembly effort. (Simulated maximum tube end form)6.2.2 Test Procedure (Connectors after Section 7 Exposure)a. Allow samples to dry 48 h before insertion testing.b. Lubricate test pin with SAE 30-weight oil by dipping the end in oil up to the retaining bead.c. Insert assembly test pin, shown in Figure 4, into the quick connector at a rate of 51 mm/min ± 5 mm/min (2 in/min ±0.2 in/min) and measure assembly effort.6.2.3 Acceptance Criteriaa. Maximum first time assembly effort must not exceed 67 N (15 lb) for sizes <11 mm male tubes, and 111 N (25 lb) forsizes 11 mm male tubes.b. Maximum assembly effort after Section 7 exposures must not exceed 111 N (25 lb) for <11 mm male tubes and 156 N(35 lb) for 11 mm male tubes.SAE J2044 Revised AUG2009 Page 9 of 23A B C D E+0.00 +0.00+0.00+0.00+0.00–0.01–0.01–0.05–0.02–0.054.78 mm (3/16 in) 4.69 7.25 20.18 1.93 4.766.35 mm (1/4 in) 6.36 8.90 21.16 1.93 6.358 mm (5/16 in) 7.95 11.13 21.37 1.93 7.949.53 mm (3/8 in) 9.55 13.15 21.37 1.93 9.5310 mm 9.95 13.63 24.99 1.93 10.0011.11 mm (7/16 in) 11.15 15.05 27.12 1.93 11.1112 mm 11.90 16.76 27.12 1.93 12.0012.70 mm (1/2 in) 12.71 16.76 27.12 1.93 12.7015.88 mm (5/8 in) 15.92 19.43 27.12 2.74 15.8819.05 mm (3/4 in) 19.00 22.58 27.12 2.74 19.0522.23 mm (7/8 in) 22.85 26.20 30.00 2.74 22.23PA COATED ENDFORMS6.35 mm (1/4 in) PA 6.36 8.90 21.16 2.32 6.358 mm (5/16 in) PA 7.95 11.13 21.37 2.32 7.949.5 mm (3/8 in) PA 9.55 13.15 21.37 2.32 9.53FIGURE 4 - ASSEMBLY TEST PINNOTE: Dimensions represent Test Pin diameters @ Maximum Material Condition. Surface finish must be 30 RT or better. SAE J2044 rev 2002, test pins are acceptable for use.SAE J2044 Revised AUG2009 Page 10 of 23 6.3 Pull-Apart EffortQuick connect coupling pull-apart effort is the peak force required to pull the mating tube end out of the quick connect coupling. Use a suitable tensile tester to verify conformance to this document. For hose pull-off, see SAE J2045.6.3.1 Test Procedurea. Attach the quick connector body stem to a fixture suitable for pulling axially through the centerline of the quickconnector.b. Use the pull-apart test pin shown in Figure 5. (Simulated minimum mating end form)c. Apply a tensile load, at a rate of 51 mm/min ± 5 mm/min (2 in/min ± 0.2 in/min), until complete separation occurs.6.3.2 Acceptance Criteriaa. The Force required to separate unexposed liquid fuel quick connects from the test pin should be, 450 N minimum.b. The Force required to separate exposed liquid fuel quick connects (after Section 7) from the test pin should be, 297 Nminimum.c. The Force required to separate unexposed vapor/emissions quick connects from the test pin should be, 222 Nminimum.d. The Force required to separate exposed vapor/emissions quick connects (after Section 7) from the test pin should be,75 N minimum.SAE J2044 Revised AUG2009 Page 11 of 23A B C D E+0.01 +0.02 +0.05 +0.05 +0.05–0.00–0.00–0.00–0.00–0.004.76 mm (3/16 in) 4.57 6.95 19.68 1.57 4.766.35 mm (1/4 in) 6.24 8.60 20.66 1.57 6.358 mm (5/16 in) 7.83 10.83 20.87 1.57 7.949.5 mm (3/8 in) 9.43 12.73 20.87 1.57 9.5310 mm 9.83 13.21 24.49 1.57 10.0011.1 mm (7/16 in) 10.95 14.55 26.12 1.57 11.1112 mm 11.70 16.26 26.12 1.57 12.0012.7 mm (1/2 in) 12.51 16.26 26.12 1.57 12.7016 mm (5/8 in) 15.72 18.93 26.12 2.34 15.8819 mm (3/4 in) 18.80 22.08 26.12 2.34 19.0523 mm (7/8 in) 22.55 25.20 29.00 2.34 22.23PA COATED ENDFORMS6.35 mm (1/4 in) PA 6.24 8.60 20.66 1.98 6.358 mm (5/16 in) PA 7.83 10.83 20.87 1.98 7.949.5 mm (3/8 in) PA 9.43 12.73 20.87 1.98 9.53FIGURE 5 - PULL APART PINNOTE: Dimensions represent Test Pin diameters @ Minimum Material Condition. Surface finish must be 30 RT or better.SAE J2044 rev 2002, test pins are acceptable for use.6.4Side Load CapabilityQuick connect couplings must be able to withstand side loads typical of what might be imposed by hose routing in a vehicle application as well as from having the hose pushed aside to reach other objects on the vehicle during service procedures. The connector side load capability is measured using a side load leak test and a side load fracture test. 6.4.1Test Procedurea. Insert quick connector into a length of flexible tubing or hose with the opposite end sealed.b. Mount a sample in the fracture fixture (see Figure 6), side load quick connector at a rate of 12.7 mm/min ± 5 mm/min(0.5 in/min ± 0.2 in/min) until the specified force is applied or fracture of the quick connector occurs. Kinking of flexible tubing or hose is permitted c. For liquid fuel quick connect couplings, pressurize the assembly with 1034 kPa ± 35 kPa, 10.34 bar ± 0.35 bar(150 psig ± 5 psig) air pressure. d. For vapor/emission quick connect couplings, pressurize the assembly with 70 kPa ± 7 kPa, 0.7 bar ± 0.07 bar(10 psig ± 1 psig) air pressure. e. Side load the quick connect to a load of 152 N, then stop the machine and perform the leak test. (For male tubeendform sizes less than 8mm (5/16”)side load to 44.5N and perform leak test.)f. Continue side load to fracture (must exceed minimum requirement without damage to test equipment). 6.4.2Acceptance Criteria (Side Load Leak Test)a. Maximum leak rate is 8 scc/min (0.71 cc/min) at stabilization for liquid fuel quick connectors.b. Maximum leak rate is 2 scc/min (1.19 cc/min) at stabilization for vapor/emission quick connects. 6.4.3Acceptance Criteria (Side Load Fracture Test)For stem sizes 5/16”and above,no fracture,rupture,or yield of the quick connector permitted below a minimum of 200N (45lbf).For stem sizes less than 5/16”,acceptance criteria is per agreement between fitting supplier and OEM.FIGURE 6 - SIDE LOAD TEST FIXTURETensile Test Machine Center of PullAir pressure Test endform Tensile Test inletperFigure 5–Pull Apart PinMachine Center of PullAlternate Fixture Setup6.5 Electrical ResistanceIf required by the OEM, all connectors used in fuel system applications involving flowing liquid fuel must be sufficiently conductive and capable of creating an electrical connection with the flexible tubing into which they are inserted and with the tube end form that is inserted into them in order to prevent the buildup of harmful electrostatic charges.6.5.1 Test Procedurea. Test specimen is to consist of a coupling representative of the design as it will be installed in a vehicle application.The coupling is to be in the middle of the specimen. The length of both the flexible tubing or hose and rigid tubing must be 250 mm.b. Expose the specimens in accordance with 7.4 Fuel Compatibility of this document, Fuel C only, then dry the exteriorthoroughly (defer on fuel soak samples).c. Test per SAE J1645 between the inner surfaces at each end of the specimen.CAUTION: Measurement device may produce hazardous electrical charge, handle components with insulated means. 6.5.2 Acceptance CriteriaAcceptance criteria are specified in SAE J1645.6.6 Resistance to Evaporative EmissionsFuel line couplings are an integral part of the fuel system barrier to evaporative emissions. They are viewed as potential emissions or leak sites in the system. The evaporative losses from a single coupling are normally too small to measure accurately. While connector emissions have been estimated by testing 10 or more couplings concurrently, it is recommended that couplings be tested as a part of the fuel line assembly, per SAE J2045.7. DESIGN VERIFICATION/VALIDATION TESTING7.1 CorrosionThe corrosion test is performed to assure that the quick connector components will meet the functional requirements of the fuel system after exposure to the corrosion test.7.1.1 Test Procedurea. Insert design intent mating tube ends, shown in Figure 2, into the quick connect couplings.b. Cap the mating tube ends and the stem ends of the quick connect couplings, so internal surfaces remain free of waterand corrosion.c. Perform salt spray test per ASTM B 117 for 500 h.d. Rinse with water before functional tests.7.1.2 Acceptance CriteriaThe quick connect couplings shall be capable of meeting the functional requirements of 6.1 Leak Test, 6.2 Assembly Effort, and 6.3 Pull Apart Effort, after salt spray exposure. Appearance is not a functional requirement.NOTE: New connector sizes using the same materials and architectural design as previously tested connectors may use the original results as surrogate data.7.2 Zinc Chloride ResistanceZinc chloride is an environmental stress-cracking agent to which some hygroscopic polymers are sensitive. This test is performed to assure that the quick connect couplings meet their functional requirements after exposure to zinc chloride.7.2.1 Test Procedurea. Insert mating tube ends, shown in Figure 2, into the quick connect couplings.b. Cap the mating tube ends and stem ends of the quick connect couplings, so internal surfaces remain free of waterand corrosion.c. Immerse the couplings in a 50% aqueous solution (by weight) of zinc chloride for 200 h at 23 °C (room temperature).Cover or cap the container to prevent the solution from changing concentration significantly during the exposure.When in doubt, measure the concentration of ZnCl at the completion of the test.d. When the exposure is complete, remove the quick connect couplings from the zinc chloride solution, do not rinse orclean.e. The quick connect couplings must then be held at room temperature for 24 h.f. Quick connect couplings are to be inspected after each exposure sequence for any evidence of cracking.g. Rinse with water before functional tests.7.2.2 Acceptance Criteriaa. No cracks or fractures of the quick connector or its components permitted.b. The quick connect couplings shall be capable of meeting the functional requirements of 6.1 Leak Test, 6.2 AssemblyEffort, and 6.3 Pull Apart Effort, after exposure to zinc chloride.NOTE: New connector sizes using the same materials and architectural design as previously tested connectors may use the original results as surrogate data.7.3 External Chemical and Environmental ResistanceQuick connect couplings may be exposed to a range of chemicals typical of the automotive environment. This chemical resistance test is performed to assure that the quick connect couplings will meet their functional requirements after exposure to typical automotive fluids.7.3.1 Test Procedure, Fluid or MediumSee Table 2.a Insert mating tube ends, shown in Figure 2, into the quick connect couplings.b. Cap mating tube ends and stem ends of the quick connect couplings.c. Submerge the quick connect coupling assemblies completely.d. At the end of 60 days, dry connectors at room temperature for 48 h.e. Rinse before functional tests. (See Table 2)。

存货编码存货名称规格型号参考售价产地0408-021B 进样垫221-48398-91 岛津耐高温50只/瓶221-48398-91 742.7 岛津0408-021K 进样垫岛津201-35584 20只/包60 岛津0409-051K 石墨垫圈岛津小口径毛细管用(221-32126-05)10只/盒450 岛津0409-053K 石墨垫圈岛津大口径毛细管用(221-32126-08)10只/盒450 岛津0409-055K 石墨垫圈岛津玻璃柱用(221-15563-91) 4只/盒300 岛津0409-057K 石墨垫圈岛津TCD用(221-10076-91) 10只/盒200 岛津0411-031K 开口螺帽岛津毛细管用(221-32705) 130 岛津0411-037K 岛津柱螺帽不锈钢(201-30008) 75 岛津0411-037M 岛津三通螺帽221-30019 岛津0411-037N 岛津GCMS柱螺帽670-11009 岛津0411-039K 螺帽岛津WBC用(221-16325-01) 85 岛津0411-039T 螺帽10只/包，221-16325-81 400 岛津0411-041K 螺帽岛津玻璃柱用221-15561-91 165 岛津0411-045L 大口径附件包221-29992-91 2520 岛津0412-031K 岛津不锈钢柱接头GC-9A/14A、B、C(DET)221-08882-91 625 岛津0412-033K 岛津不锈钢柱接头GC-9A/14A、B、C(TCD) 450 岛津0412-035K 岛津不锈钢柱接头GC-8A/INJ 221-22954-91 250 岛津0412-037K 岛津不锈钢柱接头GC-17A/INJ 221-43143-91 700 岛津0412-039K 岛津不锈钢柱接头GC-17A/DET 221-43143-92 720 岛津0412-041K 岛津不锈钢柱接头柱头进样/INJ 221-17920-91 480 岛津0412-043K 岛津尾吹接头GC-9A/14A、B、C(DET)221-33193-90 700 岛津0412-081K 岛津不锈钢柱接头GC-9A/14A、B、C(INJ)221-14087-91 606 岛津0413-035K 金属O型垫片岛津气路管上用 2 岛津0413-039K 铝垫片不锈钢柱子密封用500片/包201-35183-84 186 岛津0413-041K 硅胶0型圈玻璃柱用250片/包201-35184-84 200 岛津0413-043K 硅胶O型垫玻璃柱用50片/包201-35184 25 岛津0413-045K 岛津钨丝垫片岛津TCD用10 岛津0413-063K 石墨O型圈221-48393-91 岛津衬管用221-48393-91 2 岛津0413-064K O型圈221-47222-91 2 岛津0414-037L 石英衬管岛津(填3.0mm)221-14093 188 苏州岛津0414-041K 石英衬管岛津(填2.6 m)221-14094 100 苏州岛津0414-043K 石英衬管GC-14C/14B Split(221-32544-01) 120 岛津0414-044K 石英衬管CLH-14(L-118) 221-48335-01 400 岛津0414-045K 石英衬管GC-14B/14C Splitless( 221-32544) 100 岛津0414-048K 石英衬管GC-9A 221-25440-03 850 岛津0414-049K 石英衬管岛津GC-14C(毛)221-37574-01 310 岛津0414-053K 石英衬管岛津GC-17A分流(221-41444) 1支/盒240 岛津0414-055K 石英衬管岛津225-09145 GC-17A分流5支/盒1450 岛津0414-057K 石英衬管岛津221-41544 GC-17A不分流2支/盒180 岛津0414-059K 石英衬管岛津221-41484 GC-17A填充柱4支/盒1000 岛津0414-061K 石英衬管岛津221-41599 GC-17A(WBC) 4支/盒2500 岛津0414-063K 石英衬管分流221-41444-01 250 岛津0414-065K 石英衬管不分流221-48335-01 680 岛津0414-167K 石英衬管CLH-14(L-118)(221-32998-01) 350 岛津0414-169K 石英衬管GC-9A 221-25440-03 岛津0414-171K 石英衬管GC-9A 221-18756-02 岛津0414-172K 石英衬管GC-2014 分流221-48876-02,硅烷化处理5支/包2886 岛津0414-173K 石英衬管GC-2014 不分流221-48876-03,去活处理5支/包2886 岛津0415-033K 石英喷嘴岛津221-21920-90 300 岛津0415-033L 石英喷嘴岛津221-21920-91 300 岛津0415-033M 石英喷嘴岛津221-48258-91 1480 岛津0415-033N 石英喷嘴2014 岛津221-70162-95 1480 岛津0415-034K 毛细管喷嘴221-37304-03 320 岛津0416-047K 铼钨丝岛津GC-8A～14C,100欧姆,4支/付1000 岛津0421-035L 玻璃空柱GC-8A/2M(组装) 岛津0421-037k 玻璃空柱GC-9A-14C/0.5M(组装) 160 国产0421-039k 玻璃空柱GC-9A-14C/1.0M(组装) 100 国产0421-040K 玻璃空柱GC-9A-14C/1.5M(组装) 150 国产0421-041k 玻璃空柱GC-9A-14C/1.0M(原装) 250 岛津0421-043k 玻璃空柱GC-9A-14C/2M(组装) 200 国产0421-045k 玻璃空柱GC-9A-14C/2M(原装) 500 岛津0421-046K 玻璃空柱GC-9A-14C/2.5M(组装) 300 国产0421-047k 玻璃空柱GC-9A-14C/3M(组装) 300 国产0421-049k 玻璃空柱GC9A-14C/3M(原装)221-14368-31 920 岛津0421-050K 玻璃空柱GC-9A-14C/3.5M(组装) 450 国产0421-051k 玻璃空柱GC-9A-14C/4M(组装) 300 国产0421-051M 玻璃空柱GC-9A-14C/4.5M(组装) 600 国产0421-100K 玻璃空柱GC-9A-14C/4M(原装) 1200 岛津0422-045K 不锈钢柱岛津1M 201-35584-91 230 岛津0422-045L 不锈钢柱岛津1M 201-48705-10 岛津0422-046K 不锈钢柱201-48705-05 0.5M 100 岛津0422-047K 不锈钢柱岛津组装1M 100 岛津0422-049K 不锈钢柱201-48705-20 2M 360 岛津0422-051K 不锈钢柱岛津组装2M 200 岛津0422-053K 不锈钢柱201-48705-30 3M 500 岛津0422-055K 不锈钢柱岛津组装3M 100 岛津0422-057K 不锈钢柱岛津4M 750 岛津0422-059K 不锈钢柱岛津组装4M 250 岛津0422-061K 不锈钢柱岛津组装5M 300 岛津0422-063K 不锈钢柱岛津组装6M 350 岛津0422-065K 不锈钢柱岛津组装7M 420 岛津0422-067K 不锈钢柱岛津组装8M 480 岛津0440-001A 导针附件221-34579 43 岛津0440-021K 石英棉2g/包201-47616-01 180 岛津0440-021L 硅烷化石英棉2g/包225-09147 180 岛津0440-021M 硅烷化石英棉221-48600 650 岛津0440-022L 气化室隔离导针垫221-22206 55 岛津0440-023K 皂膜流量计1ml(221-35969-91) 50 岛津0440-025K FTD铷盐池体GC-14,15,17(221-18704-91) 3200 岛津0440-027K 离子线适GC-9、14、15、16(221-21912-92) 337 岛津0440-029K 配件221-18544-93 800 岛津0440-031K 离子线GC-8A(221-21912-91) 337 岛津0440-033K 配件221-33431-91 300 岛津0440-037K 毛细管接头(221-32542) 100 岛津0440-039K 柱接头221-43143-92 740 岛津0440-041K Twin capillary kit,splitless (221-33493-91) 1427 岛津0440-043K 离子线组件GC-8A(221-21906-91) 466 岛津0440-045K 离子线组件GC-9、14、15、16(221-21906-92) 466 岛津0440-046J 样品瓶 1.5ml(228-15652-92) 990 岛津0440-046K 样品瓶 1.5ml (221-34274-91) 100/PCT 780 岛津0440-046L 样品瓶4ml 50/PCT 221-34269-91 558 岛津0440-046M 样品瓶2ml 100/PCT 221-34274-91 790 岛津0440-046Q 样品瓶40ml 72/盒038-00158-01 1400 岛津0440-047A 瓶盖200/包40ml 038-00165-40 岛津0440-047K 瓶垫 1.5ml 100/PCT(221-26718-93) 305 岛津0440-047L 瓶盖 1.5ml 100/PCT(228-15653-92) 135 岛津0440-047M 瓶垫 4.0ml(221-34266-92) 50/PCT 434 岛津0440-047N 瓶垫 1.5ml 221-41239-91 264 岛津0440-047Q 瓶垫100/包40ml 038-00165-50 2200 岛津0440-047R 气相瓶垫221-34266-92 岛津0440-048K 顶空瓶(含橡胶塞) 10ml 岛津0440-048L PTFE白色/硅蓝色密封垫1030-51298(100个/包，1.5mm厚度) 岛津0440-049K Signal cord,ITG GC-9A(221-23898-91) 86 岛津0440-050K 石墨管206-50587 320 岛津0440-051K 石英喷嘴(221-21920-91)(带密封圈) 400 岛津0440-059K 发射极GC-14(221-21925-91) 180 岛津0440-061K Adapter,for capillary,det side (221-33193-91) 200 岛津0440-065K Column connect,KIT,TCD (221-10078-91) 250 岛津0440-069K 填充柱接头221-14087-91 250 岛津0440-075K 铝垫片不锈钢柱子密用(221-35183) 186 岛津0440-081K 岛津气路管(原装) 201-48067-05(5m)(N2) 571 岛津0440-083K 岛津气路管(原装) 221-18990-50(5m)(H2) 571 岛津0440-085K 岛津气路管(原装) 201-48070(2m)(Air) 357 岛津0440-091K 岛津气路管(组装) 201-48067-05(5m) 286 岛津0440-093K 岛津气路管(组装) 221-18990-50(5m) 286 岛津0440-094K 岛津气路管(组装) 3m H2 岛津0440-095K 岛津气路管(组装) 201-48070(2m) 179 岛津0440-097K 岛津气路管(组装) 201-48067-10(10m) 995 岛津0440-098K 岛津气路管接头201-49801 岛津0440-101K 配件221-23898-91 100 岛津0440-103K 柱接头(TCD出口) 221-10079-91 480 岛津0440-104K 低流失隔垫GC-2014C/AOC用10只/包(221-35507-01) 285.4 岛津0440-105K O形圈20只/包(201-47614) 110 岛津0440-106K O形圈5只/包(036-11203-84) 38 岛津0440-107K 垫圈201-30019 35 岛津0440-111K 稳压阀221-18150-92 1492 岛津0440-111M 稳流阀GC-9A/14 1800 岛津0440-112K 配件075-00076-06 岛津0440-113K 喷嘴工具670-18800 119 岛津0440-114K 钨灯(岛津UV通用) 062-65005 270 岛津0440-115K 保险丝072-02004-16 9 岛津0440-116K 保险丝072-01652-18 11 岛津0440-117K 保险丝250V，3A 岛津0440-118K 保险丝072-01660-16 9 岛津0440-119K 加热丝GC-14B 1200 岛津0440-119M 高密度加热元件GC-9A/14 900 岛津0440-119N 加热模块进样口，GC-2014 岛津0440-200K 配件(COLUMN ADAPTOROUTC221-08882-91 岛津0440-201K 氢弧灯204-03133-01 岛津0440-221K 六通阀安装支架221-42868-91 520 岛津0440-222A 手动十通阀221-25500-91 5860 岛津0440-222B 手动四通阀201-35597-02 5860 岛津0440-222K 手动六通阀MGS-4(221-42574-02) 5940 岛津0440-222L 六通阀膜片201-35011-05 岛津0440-222M 截止阀201-35039-01 岛津0440-223K 微量注射器10ul 221-34618 600 岛津0440-224K 监测器边适配器221-34012-91 400 岛津0440-225K PT传感器组合221-47366-91 943 岛津0440-225N PT传感器组合221-44685-92 1136 岛津0440-226K 热电耦组合COL 221-47367-91 280 岛津0440-227K 风扇电机组合221-46633-93 岛津0440-228K Ni催化剂221-27719 岛津0440-229K 定量管1ml 201-42483-02 岛津0440-230K 定量管2ml 201-42484 岛津0440-231K RS-232C cable 2M(228-35397-92) 720 岛津0440-232K 鼓风电机GC-9A 1500 岛津0440-233K 键盘板GC-14C(221-47260-91/221-46629-91) 岛津0440-234K 电磁阀221-43690-93 1613 岛津0440-235K 岛津适配器221-29676 1880440-236K 岛津清洗垫片201-30051 80440-237k 岛津吸附管221-34121-93 91 岛津0440-238A 岛津5V电源板074-80667-01 GC-14C 630 岛津0440-238B 岛津CPU板221-43295-92 GC-14C 13025 岛津0440-238C 开关电源板(+24V) 074-80383-27 589 岛津0440-238D 电源板221-44300-93 2525 岛津0440-239K 标准铷珠Standard FTDCollector221-18704-91(GC-14，17A/2014C) 3700 岛津0440-240K 专用铷珠Special FTDCollector221-42512-91(GC-17A/2014C) 4617.6 岛津0440-241K 毛细管专用铷珠FTDCollector221-45586-91(GC-2014) 3482 岛津0440-242K 白金触媒638-60116 802 岛津0440-243K 振动器本体3001-12211 1780 岛津0440-244K 调整器3001-12212 1200 岛津0440-245K 键盘板KEY UNIT AB12C-4006(221-32367-01) 3800 岛津4011-044K 顶空进样器HSS-2B (221-41818-93) 136000 岛津4011-045K 封口器Vial Crimper Kit(221-37415-91) 8820 岛津4011-091K 转化炉221-41820-91 15860 岛津4011-095K 变压器670-17490 3997 岛津4011-096K 221-42559-92过滤片221-42559-92过滤片752 岛津4011-238K 221-38107(WBC配套件) 221-38107 岛津4011-561K 注射器670-12098-11 612 岛津4011-571K 配件(检测器电脑接口板) 228-34164-92 9000 岛津4011-572K 键盘单元GC14A/B用221-31772-96 4212 岛津4011-573K 点火线圈GC2010(221-41847-93) 1000 岛津4011-574K 柱连接头201-35041-01 104 岛津4011-574L 点火线圈GC17A(221-41327-91) 1033 岛津4011-574N 转子密封垫9125-082 9725i阀Tefzel 岛津4011-575K 过滤器221-34121-93 150 岛津4011-575L 清洗管228-42203 岛津4011-576K 喷嘴GC2014 221-70162-94 492 岛津4011-577K 进样针670-12552-21 岛津4011-578K 喷嘴GC2014 (221-70162-92) 492 岛津4011-579K 键盘板GC14C(221-46629-91) 4550 岛津4011-580K 铝垫圈221-32543-844011-581K FID放大板GC-14C 221-47356-91 7807 岛津4011-582K 导针孔221-14773 岛津4011-583L TOC进样针25ul 3305 岛津4011-583M Flanged Tubing(638-41337-03) 1504011-583N 进样口隔垫(蓝色) 221-48972-91 508 岛津4011-583P 机械泵油017-30163-11 260 岛津4011-583Q 灯丝套装225-10340-91 1450 岛津4011-584A 连接管线228-33833-92 228-33833-92 765 岛津4011-584B 进样瓶221-34247-91 岛津4011-585A 玻璃过滤器(GC2010用) 221-42559-92 751 岛津4011-585B 刷垫225-01068 133 岛津4011-585K 热电偶221-47367-91 208 岛津。

注：在任何部分将结束时，遇到周末试验可中断或暂停7.5.4 振动持续周期按7.5.8（测试周期）要求保持振动。

7.5.5 流体压力a.液体燃油用快插接头在压力测试过程中，压力变化从0到1034KPa±35Kpa，10.34bar±0.35bar（150psig±5psig），每分钟变化一次（i.e. 每个压力保持一分钟）。

b.燃油蒸发用快插接头在压力测试过程中，压力变化从0到69KPa±2Kpa，0.69bar±0.03bar（10psig±2psig），每分钟变化一次（i.e. 每个压力保持一分钟）。

7.6 高温爆破高温爆破测试是确保快插接头在最大工作温度下仍能达到燃油系统的性能要求。

这个测试是下面SAE J2045 对管子总成要求的一部分。

7.6.1 试验步骤a.把快插接头插入到长500mm的压力燃油管的一端，如有要求可用软管夹。

b.把阳接头，如图6所示，插入到快插接头。

c.把总成接到适当的气体或流体压力源上。

d.把总成放在115˚C的环境中，保存1小时。

e.以速率7000KPa/min（1000psig/min）向管子总成加压，直到总成发生爆破或撕裂。

7.6.2 接受准则a.液体燃油用快插接头最小爆破压力为2000 Kpa（290 psig）。

b.燃油蒸发用快插接头最小爆破压力为138 Kpa（20psig）。

说明：爆破试验仅针对快插接头，如管子泄露或撕裂不能认定为快插接头不合格。

如果管子在试验中破裂，选用承压能力较高的管子重新开始。

8.设计确认/确认和试验过程列表—见表6这部分说明的是对快插接头、阳接头、和连接件的最低试验要求。

该文件为保密性文件。

我们保留一切更改权利。

未经大众公司康采恩集团标准部门的书面许可，不得转载、复印。

采购者只能通过相关的采购部门才能得到该标准。

在标准使用之前对其当前版本的有效性进行检查来源：N O L I S格式F E 41-01.03第二页PV 3939：2004-034.2 检验仪器：应使用可以达到较高的照射密度并能够对其进行调整的风蚀仪器。

为确保供应商和用户之间取得相同的检验结构，应与主管的大众康采恩的实验室进行协商，对于试验应使用那些制造商生产的产品。

4.3 风蚀条件：参看表格1。

为能够尽可能地保持检验温度，推荐将检验仪器放置在恒温的检验房间中。

4.4 检验体：4.4.1 试样准备：试样是从待检验的成品中或者从按批量生产条件生产的试样板上的有代表性的位置中选取的。

它们应尽可能地保持平直。

只要没有超出仪器上的试样托架的尺寸，那么就可以对整体的部件进行检验。

在此应注意，在进行氙测试alpha时，待检验的表面不应超出相对于照射源的试样托架面10mm及5mm。

应将试样固定在试样托架上。

可用钢膜将试样的一半盖起来。

为对机械特性的更改进行的检验，例如：通过拉伸试验和冲击韧性的限定，可按检验方法中必需的或者在标准中规定的尺寸制作试样体。

第三页PV 3939：2004-034.4.2 试样尺寸：试样尺寸应以标准试样托架中最大可夹紧的检验面为准，具体为- 氙测试1 200 CPS （175X60）mm- 氙测试alpha （140X40）mm- Weather-Ometer Ci35A、Ci65A和Ci3 000 （145X45）mm- Beta LM （350X80）mm对于最小试样尺寸应这样进行选择，即能够利用规定的方法进行正常的评价。

4.4.3 试样托架：仅用于氙测试1 200 CPS：为了照射密度能够均匀地分布在试样托架面上，应使用弯曲的旋转托架。

4.5 风蚀检验：4.5.1 过滤器的清洗：应对过滤系统进行定期的检查和清洗。

Eaton 044948Eaton Moeller® series B3 Three-phase busbar link, Circuit-breaker:5, 261 mm, For PKZM0-... or PKE12, PKE32 without side mountedauxiliary contacts or voltage releasesGeneral specificationsEaton Moeller® series B3 AccessoryThree-phase busbar link0449484015080449485264 mm34 mm11 mm0.109 kgCECSA Class No.: 3211-06CSA File No.: 98494ULUL File No.: E36332CSACSA-C22.2 No. 14IEC/EN 60947-4-1UL 508UL Category Control No.: NLRV B3.1/5-PKZ0Product Name Catalog NumberEANProduct Length/Depth Product Height Product Width Product Weight Certifications Model CodeBlackForkInsulatedCan be extended by rotating installation 3Three-pole 45 + 9 mmIII3Accessories 6000 V AC5 Circuit-breakers-25 °C 55 °C 690 V 690 V 63 A0 kA 0 kA 8.4 W0 W2.8 W63 A0 WMeets the product standard's requirements.ColorElectric connection type FeaturesFunctionsNumber of phases Number of poles Mounting widthOvervoltage categoryPollution degreeProduct categoryRated impulse withstand voltage (Uimp) Suitable forAmbient operating temperature - min Ambient operating temperature - max Rated operational voltage (Ue) - max Rated operational voltage (Ue) at AC - max Rated uninterrupted current (Iu)Rated conditional short-circuit current (Iq) Rated short-time withstand current (Icw)Equipment heat dissipation, current-dependent PvidHeat dissipation capacity PdissHeat dissipation per pole, current-dependent PvidRated operational current for specified heat dissipation (In) Static heat dissipation, non-current-dependent Pvs10.2.2 Corrosion resistanceMeets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.Does not apply, since the entire switchgear needs to be evaluated.Does not apply, since the entire switchgear needs to be evaluated.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Is the panel builder's responsibility.Save time and space thanks to the new link module PKZM0-XDM32ME Motor Starters in System xStart - brochureProduct Range Catalog Switching and protecting motorsSwitching and protecting motors - catalogDA-DC-00004245.pdfDA-DC-00004109.pdfDA-DC-00004544.pdfDA-DC-00004601.pdfDA-DC-00004951.pdfDA-DC-00004890.pdfDA-DC-00004944.pdfDA-DC-00004879.pdfDA-DC-00004888.pdfDA-DC-00004884.pdfDA-DC-00004917.pdfDA-DC-00004945.pdfDA-DC-00004891.pdfDA-DC-00004920.pdfDA-DC-00004911.pdfDA-DC-00004892.pdfDA-DC-00004962.pdfDA-DC-00004918.pdfDA-DC-00004887.pdfDA-DC-00004883.pdfDA-DC-00004914.pdfDA-DC-00004921.pdfeaton-manual-motor-starters-busbar-b3-accessory-dimensions-007.eps eaton-manual-motor-starters-busbar-b3-accessory-3d-drawing-007.epsDA-CE-ETN.B3.1_5-PKZ010.2.3.1 Verification of thermal stability of enclosures10.2.3.2 Verification of resistance of insulating materials to normal heat10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effects10.2.4 Resistance to ultra-violet (UV) radiation10.2.5 Lifting10.2.6 Mechanical impact10.2.7 Inscriptions10.3 Degree of protection of assemblies10.4 Clearances and creepage distances10.5 Protection against electric shock10.6 Incorporation of switching devices and components10.7 Internal electrical circuits and connections10.8 Connections for external conductors10.9.2 Power-frequency electric strength10.9.3 Impulse withstand voltage10.9.4 Testing of enclosures made of insulating material BrochuresCataloguesCertification reports Declarations of conformityDrawingseCAD modelInstallation instructionsEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Is the panel builder's responsibility. The specifications for the switchgear must be observed.The device meets the requirements, provided the information in the instruction leaflet (IL) is observed.IL122027ZUWIN-WIN with push-in technologyDA-CS-b3_1_5_pkz0DA-CD-b3_1_5_pkz010.10 Temperature rise10.11 Short-circuit rating10.12 Electromagnetic compatibility 10.13 Mechanical function Installation videos mCAD model。

1455KleppeLane|Sparks,NV89431|[p]775.359.4712|[f]775.359.7424|[e]***************||4March,2009 DISCLAIMER: Continued product improvements make specifications subject to change without notice. Check for the latest product information and updates.12/06Model 3380FR/3380GFR/3380.6519FR Page 1 of 6No. 2077370(11) 1455KleppeLaneSparks, NV 89431-6467 (775) 359-4712 Fax (775) 359-7424HAWS AG Bachweg 3 CH-3401 Burgdorf SwitzerlandHaws Mfg. Pte Lt. 2A Sungei Kadet Drive Singapore 729554Avlis-Avenido Senador, Testonio Vilela 505 Jardim Aeroporto Itu, S.P. 13304-550 BrasilE-mail: *************** website: Model 3380FR/3380GFR/3380.6519FRDrinking FountainLIMITED WARRANTYHAWS® warrants that all of its products are guaranteed against defective material or poor workmanship for a period of one year from date of shipment. HAWS liability under this warranty shall be discharged by furnishing without charge F.O.B. HAWS Factory any goods, or part thereof, which shall appear to the Company upon inspection to be of defective material or not of first class workmanship, provided that claim is made in writing to company within a reasonable period after receipt of the product. Where claims for defects are made, the defective part or parts shall be delivered to the Company, prepaid, for inspection. HAWS will not be liable for the cost of repairs, alterations or replacements, or for any expense connected therewith made by the owner or his agents, except upon written authority from HAWS, Sparks, Nevada. HAWS will not be liable for any damages caused by defective materials or poor workmanship, except for replacements, as provided above. Buyer agrees that Haws has made no other warranties either expressed or implied in addition to those above stated, except that of title with respect to any of the products or equipment sold hereunder and that HAWS shall not be liable for general, special, or consequential damages claimed to arise under the contract of sale. The drinking fountain manufactured by HAWS is warranted to function if installation and maintenance instructions provided are adhered to. The units also must be used for the purpose for which they were intended.NO OTHER WARRANTIES EXPRESSED OR IMPLIED ARE AUTHORIZED, PROVIDED OR GIVEN BY HAWS.NOTE TO INSTALLER: Please leave this information with the Maintenance Department.SHOULD YOU EXPERIENCE DIFFICULTY WITH THE INSTALLATION OF THIS MODEL, PLEASE CALL:1-800-766-5612FOR PARTS CALL:1-800-758-9378(U.S.A. AND CANADA ONLY) MONDAY-THURSDAY: 6:00 A.M. – 4:00 P.M. PSTFRIDAY: 6:00 A.M –1:00 P.M. PSTRECOMMENDED TOOLS: Hack saw, pipe joint sealant, screwdriver, level, 12" adjustable wrench, 10" pipe wrench, 5/64“ hex key wrench, 9/16”, 1/2", 7/16” socket wrench or open end wrench.LOCATION OF UNIT: The Model 3380FR/3380GFR Drinking Fountain is a wheelchair accessible drinking water facility. The height dimensions shown, meet current ADA requirements. When installing this unit, local, state or federal codes should be adhered to. If height other than shown is required, then dimensions must be adjusted accordingly.SUPPLY LINE: The minimum recommended line size is 1/2“IPS. Flowing pressure is 30-90 psi (2-6 ATM) for Models 3121FR and 3121.6280FR.Flowing pressure for Model 3121.6519FR is 45-90 psi (3-6 ATM). Where sediment or mineral content is a problem, an inlet filter is recommended.PLUMBING CONNECTIONS: Supply inlet is 1/2" IPS male. Waste outlet is 1-1/2”O.D. tailpiece.MAINTENANCE: Refer to 6518FR or 6519FR Operation and Maintenance Sheet for additional information.INSTALLATION INSTRUCTIONS FOR 6519FR(SEE INSTALLATION DRAWING SHEET 2 OF 2)1. Cut fountain waste line (1-1/2” Tiger Flex) as required and use PVC primer and cementto attach 6519FR waste and air gap assembly. (NOTE: Locate assembly at lowestpossible point inside fountain).2. Attach 2” long piece of 1-1/2” Tiger Flex Hose (supplied) to bottom of 6519FR waste andair gap assembly tee. Next attach adaptor with tailpiece (supplied with fountain), usePVC primer and cement on these connections.TROUBLESHOOTING 3380FR/3380GFR W/6518FRPROBLEM REPAIR CHECKLIST1. Insufficient bubbler flow. a. Check that inlet screwdriver stop valve iswide open (customer supplied).b. Verify minimum 30 psi flowing supplypressure.c. Adjust valve to increase flow. See 6518FRmanual.TROUBLESHOOTING 3380.6519FRPROBLEM REPAIR CHECKLIST1. Insufficient bubbler flow. a. Check that inlet screwdriver stop valve iswide open (customer supplied).b. Verify minimum 45 psi flowing supplypressure.c. Adjust valve to increase flow. See 6519FRmanual.© 2006 Haws® Corporation – All Rights ReservedHAWS® and other trademarks used in these materials are the exclusive property of Haws Corporation.12/06 Model 3380FR/3380GFR/3380.6519FR Page 2 of 6。

Product Data SheetPerkadox 16Di(4-tert-butylcyclohexyl) peroxydicarbonatePerkadox® 16 is applied as an initiator for the suspension and mass polymerization of vinyl chloride in the temperature range between 40°C and 65°C. Perkadox® 16 can be used alone or in combination with other peroxides, such as 1,1,3,3-Tetramethylbutyl peroxyneodecanoate (Trigonox 423), Cumyl peroxyneodecanoate (Trigonox 99) or Dilauroyl peroxide (Laurox), to increase reactor efficiency.CAS number15520-11-3EINECS/ELINCS No.239-557-1TSCA statuslisted on inventoryMolecular weight398.5SpecificationsAppearance White powderAssay94.0-97.0 %Inorganic + organic hydrolysable chloride≤ 4000 mg/kgCharacteristicsBulk density, 20 °C450-480 kg/m³Density, 20 °C 1.13 g/cm³ApplicationsPerkadox® 16 can be used for the market segments: polymer production, thermoset composites and acrylics with their different applications/functions. For more information please check our website and/or contact us.Half-life dataThe reactivity of an organic peroxide is usually given by its half-life (t½) at various temperatures. For Perkadox® 16 in chlorobenzene:0.1 hr82°C (180°F)1 hr64°C (147°F)10 hr48°C (118°F)Formula 1kd = A·e-Ea/RTFormula 2t½ = (ln2)/kdEa126.39 kJ/moleA7.44E+15 s-1R8.3142 J/mole·KT(273.15+°C) KThermal stabilityOrganic peroxides are thermally unstable substances, which may undergo self-accelerating decomposition. The lowest temperature at which self-accelerating decomposition of a substance in the original packaging may occur is the Self-Accelerating Decomposition Temperature (SADT). The SADT is determined on the basis of the Heat Accumulation Storage Test.SADT40°CEmergency temperature (Tₑ)35°CControl temperature (Tc)30°CMethod The Heat Accumulation Storage Test is a recognized test method for thedetermination of the SADT of organic peroxides (see Recommendations on theTransport of Dangerous Goods, Manual of Tests and Criteria – United Nations,New York and Geneva).StorageDue to the relatively unstable nature of organic peroxides a loss of quality can be detected over a period of time. To minimize the loss of quality, Nouryon recommends a maximum storage temperature (Ts max. ) for each organic peroxide product.Ts max.20°C (please see note below)Note When stored under the recommended storage conditions, Perkadox® 16 willremain within the Nouryon specifications for a period of at least 3 months afterdelivery. The Ts max of 20°C is not to be interpretated as ambient or roomtemperature as this differs per region and season. Perkadox® 16 has a high qualitycomposition and to hold that it should be stored at below 20°C. At temperaturesabove 20°C the decomposition of Perkadox® 16 progresses fast which leads tosignificant loss of quality. If you have questions about this, please contact yourlocal Nouryon account manager for advice.Packaging and transportIn North America Perkadox® 16 is packed in non-returnable cartons containing 25 polyethylene bags of 1 lb net weightor 5 polyethylene bags of 5 lb net weight. In other regions the standard packaging is a cardboard box for 20 kg peroxide. Both packaging and transport meet the international regulations. For the availability of other packed quantities contact your Nouryon representative. Perkadox® 16 is classified as Organic peroxide type C; solid, temperature controlled; Division 5. 2; UN 3114.Safety and handlingKeep containers tightly closed. Store and handle Perkadox® 16 in a dry well-ventilated place away from sources of heat or ignition and direct sunlight. Never weigh out in the storage room. Avoid contact with reducing agents (e. g. amines), acids, alkalis and heavy metal compounds (e. g. accelerators, driers and metal soaps). Please refer to the Safety Data Sheet (SDS) for further information on the safe storage, use and handling of Perkadox® 16. This information should be thoroughly reviewed prior to acceptance of this product. The SDS is available at /sds-search.Major decomposition products Carbon dioxide, 4-tert-Butyl-cyclohexanolAll information concerning this product and/or suggestions for handling and use contained herein are offered in good faith and are believed to be reliable.Nouryon, however, makes no warranty as to accuracy and/or sufficiency of such information and/or suggestions, as to the product's merchantability or fitness for any particular purpose, or that any suggested use will not infringe any patent. Nouryon does not accept any liability whatsoever arising out of the use of or reliance on this information, or out of the use or the performance of the product. Nothing contained herein shall be construed as granting or extending any license under any patent. Customer must determine for himself, by preliminary tests or otherwise, the suitability of this product for his purposes.The information contained herein supersedes all previously issued information on the subject matter covered. The customer may forward, distribute, and/or photocopy this document only if unaltered and complete, including all of its headers and footers, and should refrain from any unauthorized use. Don’t copythis document to a website.Perkadox® and Trigonox are registered trademarks of Nouryon Functional Chemicals B.V. or affiliates in one or more territories.Contact UsPolymer Specialties Americas************************Polymer Specialties Europe, Middle East, India and Africa*************************Polymer Specialties Asia Pacific************************2023-1-10© 2023Polymer production Perkadox 16。

馏程：纯化合物都有一定的沸点，但石油及其产品则是一个主要由多种烃类及少量烃类衍生物组成的复杂混合物，其沸点表现为一很宽的范围，是沸点连续的多组分的混合物，因而石油产品没用一个确定的沸点，通常以该产品的沸点范围或馏程表示。

当加热石油产品时，首先蒸发出来的主要是分子量小的，沸点低的组分，随着加热温度的升高，分子量大的，沸点高的也逐渐蒸发出来，直到最后高沸点的物质全部蒸发出来为止。

油品在规定条件下，蒸馏所得到的以初馏点和终馏点表示其蒸发特征的温度范围叫馏程。

馏程规定的实质是将一定体积或重量的油品加热蒸馏，测出各溜出量的相应温度，或相当于一定馏出温度的馏出量。

初馏点：在恩氏蒸馏设备里，当油品加热蒸馏出来第一滴油品时，记录下来的油蒸汽温度。

终馏点：当油品基本上全部蒸馏出来时，油蒸汽温度达最高温度叫油品的干点又叫终馏点。

闪点：又叫闪燃点，是指可燃性液体表面上的蒸汽和空气的混合物与火接触而初次发生闪光时的温度。

各种油品的闪点可通过标准仪器测定。

闪点温度比着火点温度低些。

液体闪点就是可能引起火灾的最低温度。

闪点越低，引起火灾的危险性越大。

燃点：又叫着火点，是指可燃性液体表面上的蒸汽和空气的混合物与火接触而发生火焰能继续燃烧不少于5s时的温度。

可在测定闪点后继续在同一标准仪器中测定。

可燃性液体的闪点和燃点表明其发生爆炸或火灾的可能性的大小，对运输、储存和使用的安全有极大关系。

倾点:是指油品在规定的试验条件下，被冷却的试样能够流动的最低温度。

凝点：是指油品在规定的试验条件下，被冷却的试样油面不再移动时的最高温度，都以℃表示。

是用来衡量润滑油低温流动性的常规指标，同一油品的倾点比凝点略高几度，过去常用凝点，现在国际通用倾点。

倾点或凝点偏高，油品的低温流动性就差。

人们可以根据油品倾点的高低，考虑在低温条件下运输、储存、收发时应该采取的措施，也可以用来评估某些油口的低温使用性能。

苯胺点：在标准试验条件下石油产品与等体积的苯胺，在互相溶解成为单一液相的最低温度叫苯胺点。