ENW1O-D16-L0020000256中文资料

occupancy sensor product guideLutron |12 |LutronASHRAE/IESNA 90.1 StandardThe American Society of Heating, Refrigerating, and Air Conditioning Engineers Inc. (ASHRAE)and the Illuminating Engineering Society of North America (IESNA) jointly sponsor the ASHRAE/ IESNA Standard 90.1, “Energy Standard for Buildings Except Low-Rise Residential Buildings.”This standard encourages the use of energy efficient lighting controls in design practice for both interior and exterior lighting. Most states have or will adopt energy codes based on this standard. One of the key lighting requirements in this widely adopted standard is:Automatic lighting shut-off:All buildings greater than 5000 square feet shall be equipped with an automatic control deviceto shut-off building lighting in all spaces. Lutron occupancy sensors that turn lights off within30 minutes after a space is vacated provideone solution for this requirement.IECC 2003 Lighting Control ProvisionsSimilar to ASHRAE/IESNA 90.1, the International Energy Conservation Code (IECC) has been adopted by states for minimum energy efficiency in commer-cial building design. As in the ASHRAE/IESNA 90.1 Standard, the IECC 2003 also has a mandatory requirement of automatic shut-off of lighting in build-ings larger than 5000 square feet. Lutron occupancy sensors are a perfect solution for this requirement. Furthermore, Lutron occupancy sensors provide a solution for the Light Reduction Controls requirement (Section 805.2.2.1), which states that areas having manually controlled lights must also have a manual lighting control that reduces the light level by at least 50% or an occupancy sensor can control the area. California Energy Commission(CEC) Title 24 Building StandardsThe California Energy Commission (CEC) created California's 2005 Building and Energy Efficiency Standards/Regulations for Residential and Nonresidential Buildings (Title 24), which provides mandatory lighting controls requirements for commercial and residential buildings. All Lutron occupancy sensors are CEC Title 24-compliant for commercial buildings. Lutron occupancy sensors provide an excellent solution to these keyTitle 24 provisions:Automatic shut-off:For every floor, all indoor lighting systems shallbe equipped with a separate automatic controlto shut off the lighting.Area control:Each area enclosed by ceiling-height partitions must have an independent switching or control device (occupancy sensor or manual switch) that: –is readily accessible; and–is located so that a person using the device can see the lights or area controlled by the switch,or so that the area being lit is annunciated; and –is able to override other devicesMulti-level lighting control:Any enclosed space 100 sq. ft. or larger that has a connected lighting load greater than 0.8 watts/sq. ft., and that has more than one luminaire shall use a multi-level lighting control (control that reduces lighting power by either continuous dimming, stepped dimming, or stepped switching while maintaining a reasonably uniform level of illuminance throughout the controlled space). The multi-level lighting controls must have one control step that is between 50% and 70% of design lighting power and at least one step of mini-mum output operating at less than 35% of full rated lighting system power (this could be completely off). Lutron occupancy sensors that switch alternate rows of lights are a solution for this requirement. Residential buildings:For newly constructed or remodeled residential buildings Title 24 requires the use of a manual-on occupancy sensors, fluorescent lights, or dimmers in most rooms of the home such as the bathroom, garage, utility room, hallway, bedroom, and living room. Lutron offers two models of wall switch occupancy sensors to meet this requirement,see pages 14 – 15. These ‘M’ models turn the lights on manually, when someone pushes the button, and they automatically turn the lights off when the room is unoccupied.Lutron |3Occupancy sensors are only one component of a larger energy saving strategy, which includes dimming, daylighting, and load shedding. Lutron occupancy sensors offer additional benefits when combined with a completeLutron lighting control system, such as an EcoSystem™fluorescent lighting control system or a RadioTouch™wireless remote lighting control system.4 |LutronLutron |5Typical occupancy sensors require manual adjustment of time and sensitivity settings to avoid false triggering.By analyzing occupancy patterns, Lutron self-adaptive occupancy sensors constantly update their time and sensitivity settings toensure that the sensors have the greatest accuracy. The occupancy sensors learn from their mistakes and make adjustments accordingly.Therefore, no manual sensitivity or timer adjustments are necessary –providing maintenance free “install and forget” operation.Lutron occupancy sensors feature self-adaptive technologyOccupancy sensor without self-adaptive technologyInterference repeatedly causes the occupancy sensor to falsely believe an occupant is in the room so the lights briefly turn on and then off again multiple times.Occupancy sensor with self-adaptive technologyOccupancy sensor automatically adjusts timing and sensitivity after the first false-on so the interference will not cause the repeated false-on situation to occur.6 |LutronUnoccupied Sensor Signal with Interference Spike Occupancy Sensor Timing and Sensitivity SettingsUnoccupied Sensor Signal with Interference Spike Occupancy Sensor Timing and Sensitivity SettingsChoose the technology most appropriate for thetype of activity, pg.8.steptechnology selection 1Determine the mounting type and placement basedon the location of activity within the space, pg.10.stepmounting type selection 2Determine the range of coverage ensuring that all appropriateareas of the space are within the sensor’s reach, pg.11.stepcoverage considerations 3Select the appropriate Lutron occupancy sensorfor your application, pg.11.stepfamily/model selection 4Lutron |7Choose the technology most appropriate for the type of activity.steptechnology selection 1Passive infrared (PIR)PIR technology senses occupancy by detecting the difference between heat emitted from the human body in motion and the background space. PIR sensors require an unobstructed line-of-sight for accurate detection.These sensors utilize a segmented lens which divides the coverage area into zones. Movement between these zones is interpreted as occupancy.Generally , PIR sensors are good at detecting major motion (e.g. walking) and work best in small, enclosed spaces with high levels of occupant movement.considerations:•Ensure a clear line-of-sight between the lens and the location of the activity •Ensure that there is a discernable temperature difference between occupant and ambient temperatureUltrasonic (US)Ultrasonic technology senses occupancy by bouncing ultrasonic sound waves (32kHz – 45kHz) off objects in a space and detecting a frequency shift between the emitted and reflected sound waves. Movement by a person or object within the space causes a shift in the wave frequency,which is interpreted as occupancy. Ultrasonic occupancy sensors are good at detecting minor motion (e.g. typing, reading) and do not require an unobstructed line-of-sight, thus making them suitable for applications such as an office with cubicles or a restroom with stalls.considerations:•Do not place within 6ft. of HVAC as this may cause false triggering •Avoid placement facing doors or exits as coverage may spill into adjacent areasDual technology (DT)Dual-technology occupancy sensors use both passive infrared and ultrasonic technologies for maximum reliability. These sensors also minimize the risk of false triggering (lights coming on when the space is unoccupied). Both US and PIR technologies must detect occupancy to turn lighting on, while continued detection by only one technology will keep lighting on.best for use in areas with:•an unobstructed view •high air flow •ceiling fansbest for use in areas with:•low air flow•partitions and dividers•a high level of minor motionbest performing sensor for most applications8 |Lutronstepmounting type selection 2Wall mount pg.16Use when:•Pendant fixtures present •Ceiling fans used•Ceiling height is greater than 12ft.•Integrating with Lutron lighting control systems or in stand-alone applicationsCeiling mount pg.18Use when:•Ceiling height is 12ft. or less •There are no obstructions such as ceiling fans and pendant fixtures•Integrating with Lutron lighting control systems or in stand-alone applicationsWall switch pg.14Use when:•Need an economical retrofit wallbox solution•Not integrating with a Lutron lighting control system •Application does not require dual technology•Room is small and enclosed with a clear point of entryexample of wall switch occupancy sensor with ultrasonic technology example of wall mount occupancy sensor with passive infrared technology example of ceiling mount occupancy sensor with dual technology4 f t .8 f t . – 12 f t .12 f t . o r l e s sDetermine the mounting type and placement based on thelocation of activity within the space and the following guidelines:wall switch occupancy sensorsLOS-S SeriesThe LOS-S series of sensors offer a direct and quick replacement of wall switches for stand-alone line voltage switching of small spaces. Ultrasonic sensors provide excellent detection of minor motion such as typing at a keyboard. Infrared detectors have good false tripping immunity, and are better suited for major motion such as walking.A two-circuit version of the PIR wall switch (LOS-S2IR-HD)is designed for dual-level lighting applications and allows for two primary input circuits, each with independentswitching. The ‘HD’ versions of this series have a hardened lens, which provides a barrier to accidental and vandal-imposed damage.Lutron offers ‘M’ models (LOS-SIR-M-WH and LOS-SIR-M-IV),which are manual-on occupancy sensors. Users push the button to turn the lights on and the lights turn off automatically when space is unoccupied. These ‘M’ models meet Title 24 energy code requirements for residential buildings in California.Key features:•Coverage from 900 sq. ft to 1000 sq. ft•Passive infrared (PIR) and ultrasonic (US) technologies •LOS-SUS model has self-adaptive technology which automatically adjusts timing and sensitivity •120/277 VAC dual voltage operation •Dual circuit with independent switching model available (LOS-S2IR)•LED test indicator•No power pack required•2 heavy-duty models ‘HD’ which are vandal resistantLOS-SIR-HD-WH shown actual sizewall mount occupancy sensorsLOS-W SeriesThe LOS-W series are wall-mounted sensors that are usedin spaces with pendant fixtures, ceiling fans, or high ceilings(greater than 12 ft. high). The passive infrared (PIR) versionhas good false tripping immunity and is well suited for majormotion. The dual-technology versions offer excellent minormotion detection via ultrasonic (US) technology to ensureoptimal power savings and occupancy detection.The LOS-W sensors all have self-adaptive technologythat eliminates the need for manual range adjustment.After proper mounting, the sensors automatically adjustsensitivity and timing to prevent false-off and false-onconditions. To control other building systems such asHVAC or security systems use the ‘R’ model, whichprovides an additional dry contact closure.Key features:•Coverage of 1600 sq. ft. if mounted at 8 ft. to 12 ft.from floor•Passive infrared (PIR), or dual-technology –both PIR and US•Self-adaptive sensors automatically adjust sensitivityand timing•20-24 VDC, Class 2 (PELV) low-voltage wiring•Integrate with Lutron systems (no power pack needed) orfunction as stand-alone controls using a Lutron power pack•Non-volatile memory (saved changes are stored duringloss of power)•Model with additional output (dry contact closure) available•8-second test mode to easily confirm proper operationLOS-WDT-WHshown actual sizeceiling mount occupancy sensorsLOS-C SeriesThe LOS-C series ceiling mount sensors offer a wide range of technologies and can either integrate into Lutron systems (no power pack needed) or function as stand-alone controls using a Lutron power pack. The ultrasonic sensors provide excellent detection of minor motion, such as typing at a keyboard. The passive infrared sensors provide false tripping immunity, and are better suited for major motion such as walking. The dual-technology versions combine both features to provide optimal power savings and occupancy detection.The LOS-C sensors all have self-adaptive technology that eliminates the need for manual adjustments. After correct mounting, the sensors automatically adjust sensitivity and timing to prevent false-off and false-on conditions. To control other building systems such as HVAC or security systems use the ‘R’ models, which provides an additional dry contact closure.Key features:•Coverage from 450 sq. ft. to 2000 sq. ft. mounted on an 8 ft. to 12 ft. ceiling•Passive infrared (PIR), ultrasonic (US) or dual technology (DT)•Self-adaptive sensors automatically adjust sensitivity and timing •20-24 VDC, Class 2 (PELV) low-voltage wiring •Non-volatile memory (saved changes are stored during loss of power)•Model with additional output (dry contact closure) available •8-second test mode to easily confirm proper operationLOS-CDT -2000-WHactual diameter: 4.5" (114 mm)power packsPP SeriesA Lutron power pack is required for wall and ceiling mount occupancy sensors used as a stand-alone lighting control.The power pack provides 24 VDC to the occupancy sensor,and accepts control input from the occupancy sensor,which it uses to switch the lighting load. This series includes a full line of voltages.The PP-SH is an auxiliary relay that allows for control of multiple lighting circuits or load types. The PP-SH draws power from another power pack and takes its control signal from the occupancy sensor. It counts as one of the three occupancy sensors connected to a power pack.Key features:•120, 277, 347 VAC power input @ 60 Hz •230 VAC power input @ 50/60 Hz •24 VDC, 100 mA power output•Plenum rated – complies with requirements for use in a compartment handling conditioned air •Switch rating:–20 A: 120/230/277 V ballast –15 A: 347 V ballast–15 A: 120 V incandescent•Supports up to 3 Lutron occupancy sensorsPP-120H actual size:W:3.69" (94 mm)H: 2.33" (59 mm)D: 1.36" (35 mm)The following are examples of Lutron suggested solutions to common single room applications. For further assistance in designing the right solution for your space, complete our Occupancy Sensor Design & Layout Request Form at /pdfspecs/occupancy_sensor_design.pdfor email us at ***************************Footnotes:1Use approximately half this value for excellent minor motion detection.2Self-adaptive technology: Automatic adjustments of sensitivity and timing so no calibration is required.3Passive infrared technology does not emit a signal into the space. Therefore, it uses less currentand is useful in rooms that may contain sensitive equipment such as medical facilities or laboratories.4California Energy Commission (CEC) residential Title 24-compliant.5Contact closure for integration with other building systems such as a security system or HVAC system. Also, these models can be used with Lutron RadioRA®and HomeWorks®Systems (power pack required).Note: All Lutron occupancy sensors are California Energy Commission (CEC) commercial Title 24-compliant. All ceiling and wall mount occupancy sensors require a power pack for stand-alone applications.Lutron World Headquarters Campus, Coopersburg, PennsylvaniaLutron’s first principleis to take care of our customer.Commitment to innovationLutron has been dedicated to producing innovative lighting controls for commercial buildings of every type and style since 1961.This dedication is matched by our commitment to quality, performance, value and service for our customers.World-class qualityLutron quality is fueled by a relentless pursuit of the highest standards. Constant improvement activities include an integrated quality system, strict engineering guidelines, and world-class manufacturing processes.Comprehensive lighting control solutionsfor electric and natural lightLutron is your comprehensive resource for lighting control solutions for any commercial or institutional application.•Architectural dimming systems•Daylighting•Low-voltage switching systems•Floor plan based control software•Lighting management systems•Integrated lighting automation systems•Factory service plansPlease contact us for information on Lutron residentiallighting control products.Worldwide sales and service The Lutron Team is hereto support you wheneveryou need us.•Barcelona•Beijing•Berlin•Hong Kong•London•Madrid•Mexico City•Paris•Sao Paulo•Shanghai•Singapore•TokyoTechnical Support:24 Hours/7 Days1.800.523.9466Customer Service:8am-8pm ET1.888.LUTRON1Internet Support:/occsensorsCover photograph: Genzyme Center, Cambridge, MA, USA.Photograph © Peter Vanderwarker. Behnisch Behnisch and Partner Architects.World HeadquartersLutron Electronics Co., Inc.7200 Suter RoadCoopersburg, PA 18036-1299U.S.A.Tel:+1-610-282-3800Fax :+1-610-282-1243Email:*******************European Headquarters Lutron EA Ltd.Lutron House 6 Sovereign Close London E1W 3JF , UKTel: +44-(0)207-702-0657Fax: +44-(0)207-480-6899Email:***********************Technical Support: 24 Hours/7 Days 1.800.523.9466Customer Service: 8am-8pm ET 1.888.LUTRON1Internet Support:/occsensorsWorldwide sales and serviceLighting control application experts are available 24 hours/7 days a week to assist you. Service is available in over 140 languages.。

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Oktober 2011DEUTSCHE NORMNormenausschuss Eisen und Stahl (FES) im DINPreisgruppe 8DIN Deutsches Institut für Normung e. V. · Jede Art der Vervielfältigung, auch auszugsweise, nur mit Genehmigung des DIN Deutsches Institut für Normung e. V., Berlin, gestattet.ICS 77.140.65!$nr."1757911www.din.de DDIN EN ISO 16120-2Walzdraht aus unlegiertem Stahl zum Ziehen –Teil 2: Besondere Anforderungen an Walzdraht für allgemeine Verwendung (ISO 16120-2:2011);Deutsche Fassung EN ISO 16120-2:2011Non-alloy steel wire rod for conversion to wire –Part 2: Specific requirements for general-purpose wire rod (ISO 16120-2:2011);German version EN ISO 16120-2:2011Fil-machine en acier non allié destiné à la fabrication de fils –Partie 2: Exigences spécifiques au fil-machine d’usage général (ISO 16120-2:2011);Version allemande EN ISO 16120-2:2011©Alleinverkauf der Normen durch Beuth Verlag GmbH, 10772 BerlinErsatz fürDIN EN 10016-2:1995-04www.beuth.deGesamtumfang 12 SeitenN o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12DIN EN ISO 16120-2:2011-10Nationales VorwortDer Text von ISO 16120-2:2011 wurde vom Technischen Komitee ISO/TC 17 …Steel“ der Internationalen Organisation für Normung (ISO) erarbeitet und als EN ISO 16120-2:2011 durch das Technische Komitee ECISS/TC 106 …Walzdraht und gezogener Draht“ übernommen, dessen Sekretariat von AFNOR (Frankreich) gehalten wird.Das zuständige deutsche Normungsgremium ist der Unterausschuss NA 021-00-08-02 UA …Walzdraht zum Ziehen“ des Normenausschusses Eisen und Stahl (FES).ÄnderungenGegenüber DIN EN 10016-2:1995-04 wurden folgende Änderungen vorgenommen: a) Normative Verweisungen aktualisiert; b) Abschnitt 3 …Bezeichnung“ neu;c) Tabelle 1 …Chemische Zusammensetzung“: Angabe von Werkstoffnummern entfallen; Angaben für dieZusatzanteile an Cr und V festgelegt; neue Option für die Spanne für den Kohlenstoffgehalt; Mindestwert für den Mangangehalt festgelegt; die Spanne für den Aluminiumanteil geändert; d) Tabelle 2: neue Option für die Grenzabweichungen der Stückanalysen;e) Tabelle 3 – Grenzwerte für die Tiefe von Fehlstellen: neue Aufteilung und neue Werte; f) Abschnitt 4.5: neue Anforderungen für Kernseigerungen;g) neue Abschnitte: 4.6 …Zugfestigkeit“, 4.7 …Eigenschaften von Zunderschicht“ und 4.8 …MechanischeBeschädigungen“; h) neuer Anhang A: …Vergleichbare Stahlbezeichnungen nach nationalen oder regionalen Normen“; i) redaktionelle Überarbeitung.Frühere Ausgaben DIN 17140:1962-12 DIN 17140-1:1983-03 DIN EN 10016-2:1995-042N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EUROPÄISCHE NORM EUROPEAN STANDARD NORME EUROPÉENNEEN ISO 16120-2Juli 2011ICS 77.140.60Ersatz für EN 10016-2:1994Deutsche FassungWalzdraht aus unlegiertem Stahl zum Ziehen —Teil 2: Besondere Anforderungen an Walzdraht für allgemeineVerwendung (ISO 16120-2:2011)Non-alloy steel wire rod for conversion to wire —Part 2: Specific requirements for general-purpose wire rod(ISO 16120-2:2011)Fil-machine en acier non allié destiné à la fabrication de fils—Partie 2: Exigences spécifiques au fil-machine d’usagegénéral(ISO 16120-2:2011)Diese Europäische Norm wurde vom CEN am 30. Juni 2011 angenommen.Die CEN-Mitglieder sind gehalten, die CEN/CENELEC-Geschäftsordnung zu erfüllen, in der die Bedingungen festgelegt sind, unter denen dieser Europäischen Norm ohne jede Änderung der Status einer nationalen Norm zu geben ist. Auf dem letzten Stand befindliche Listen dieser nationalen Normen mit ihren bibliographischen Angaben sind beim Management-Zentrum des CEN-CENELEC oder bei jedem CEN-Mitglied auf Anfrage erhältlich.Diese Europäische Norm besteht in drei offiziellen Fassungen (Deutsch, Englisch, Französisch). Eine Fassung in einer anderen Sprache, die von einem CEN-Mitglied in eigener Verantwortung durch Übersetzung in seine Landessprache gemacht und dem Management-Zentrum mitgeteilt worden ist, hat den gleichen Status wie die offiziellen Fassungen.CEN-Mitglieder sind die nationalen Normungsinstitute von Belgien, Bulgarien, Dänemark, Deutschland, Estland, Finnland, Frankreich, Griechenland, Irland, Island, Italien, Kroatien, Lettland, Litauen, Luxemburg, Malta, den Niederlanden, Norwegen, Österreich, Polen,Portugal, Rumänien, Schweden, der Schweiz, der Slowakei, Slowenien, Spanien, der Tschechischen Republik, Ungarn, dem Vereinigten Königreich und Zypern.EUR OP ÄIS C HES KOM ITEE FÜR NOR M UNG EUROPEAN COMMITTEE FOR STANDARDIZATION C O M I T É E U R O P ÉE N D E N O R M A LI S A T I O NManagement-Zentrum: Avenue Marnix 17, B-1000 Brüssel© 2011 CENAlle Rechte der Verwertung, gleich in welcher Form und in welchemVerfahren, sind weltweit den nationalen Mitgliedern von CEN vorbehalten.Ref. Nr. EN ISO 16120-2:2011 DN o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)2Inhalt SeiteVorwort ................................................................................................................................................................3 1 Anwendungsbereich .............................................................................................................................4 2 Normative Verweisungen......................................................................................................................4 3 Bezeichnung...........................................................................................................................................4 4 Anforderungen.......................................................................................................................................4 4.1 Allgemeines............................................................................................................................................4 4.2 Chemische Zusammensetzung............................................................................................................4 4.3 Innere und äußere Beschaffenheit.......................................................................................................6 4.4 Tiefe von Oberflächenfehlern...............................................................................................................6 4.5 Kernseigerung........................................................................................................................................7 4.6 Zugfestigkeit...........................................................................................................................................7 4.7 Eigenschaften der Zunderschicht........................................................................................................7 4.8 Mechanische Beschädigungen............................................................................................................7 Anhang A (informativ) Stahlsorten nach ISO 16120-2 und vergleichbare Stahlbezeichnungen nachnationalen oder regionalen Normen....................................................................................................8 Literaturhinweise. (10)DIN EN ISO 16120-2:2011-10 N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)3VorwortDieses Dokument (EN ISO 16120-2:2011) wurde vom Technischen Komitee ISO/TC 17 …Steel“ in Zusammenarbeit mit dem Technischen Komitee ECISS/TC 106 …Walzdraht und gezogener Draht“ erarbeitet, dessen Sekretariat vom AFNOR gehalten wird.Diese Europäische Norm muss den Status einer nationalen Norm erhalten, entweder durch Veröffentlichung eines identischen Textes oder durch Anerkennung bis Januar 2012, und etwaige entgegenstehende nationale Normen müssen bis Januar 2012 zurückgezogen werden.Es wird auf die Möglichkeit hingewiesen, dass einige Texte dieses Dokuments Patentrechte berühren können. CEN [und/oder CENELEC] sind nicht dafür verantwortlich, einige oder alle diesbezüglichen Patentrechte zu identifizieren.Dieses Dokument ersetzt EN 10016-2:1994.Entsprechend der CEN/CENELEC-Geschäftsordnung sind die nationalen Normungsinstitute der folgenden Länder gehalten, diese Europäische Norm zu übernehmen: Belgien, Bulgarien, Dänemark, Deutschland, Estland, Finnland, Frankreich, Griechenland, Irland, Island, Italien, Kroatien, Lettland, Litauen, Luxemburg, Malta, Niederlande, Norwegen, Österreich, Polen, Portugal, Rumänien, Schweden, Schweiz, Slowakei, Slowenien, Spanien, Tschechische Republik, Ungarn, Vereinigtes Königreich und Zypern.AnerkennungsnotizDer Text von ISO 16120-2:2011 wurde vom CEN als EN ISO 16120-2:2011 ohne irgendeine Abänderung genehmigt.DIN EN ISO 16120-2:2011-10N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)41 AnwendungsbereichDieser Teil der ISO 16120 gilt für Walzdraht für allgemeine Verwendung zum Ziehen und/oder Kaltwalzen.2 Normative VerweisungenDie folgenden zitierten Dokumente sind für die Anwendung dieses Dokuments erforderlich. Bei datierten Verweisungen gilt nur die in Bezug genommene Ausgabe. Bei undatierten Verweisungen gilt die letzte Ausgabe des in Bezug genommenen Dokuments (einschließlich aller Änderungen).ISO 4948-1, Steels — Classification — Part 1: Classification of steels into unalloyed and alloy steels based on chemical compositionISO 4948-2, Steels — Classification — Part 2: Classification of unalloyed and alloy steels according to main quality classes and main property or application characteristics ISO/TS 4949, Steel names based on letter symbolsISO 16120-1:2011, Non-alloy steel wire rod for conversion to wire — Part 1: General requirements3 BezeichnungC##D – …C“ ist die Bezeichnung für nicht legierten Stahl (siehe ISO/TS 4949); …##“ ist der Mittelwert des Kohlenstoffgehaltes; …D“ ist die Bezeichnung für …Ziehen“.Falls die Stähle anhand der chemischen Zusammensetzung bestellt werden, ist der Mittelwert …##“ entsprechend der Stahlsorte nach Spalte 1 in Tabelle 1, von dem Besteller anzugeben.Die Stähle können auch anhand der Zugfestigkeit bestellt werden. Der Mittelwert des angeforderten Zugfestigkeitsbereiches (UTS, en: Ultimate Tensile Strength) ist als Suffix zu der Stahlsortenbezeichnung anzugeben. Zum Beispiel: in der Bezeichnung C##D – 1020 ist der Mittelwert des Zugfestigkeitsbereiches 1020 MPa. Bei der Bestellung anhand der Zugfestigkeit ist unter der Bezeichnung …##“ keine Angabe zu machen, da in diesem Fall die genaue Angabe …##“ des Kohlenstoffgehaltes, gemäß Stahlsorte, von dem Hersteller gemacht wird. Die Stahlsorten sind in Tabelle 1 angegeben.4 Anforderungen4.1 AllgemeinesWegen der allgemeinen Anforderungen siehe ISO 16120-1.4.2 Chemische ZusammensetzungFür die chemische Zusammensetzung nach der Schmelzenanalyse gelten die in Tabelle 1 angegebenen Werte. Die Grenzabweichungen der Stückanalyse zu der Schmelzenanalyse sind der Tabelle 2 zu entnehmen.DIN EN ISO 16120-2:2011-10 N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)5Tabelle 1 — Chemische Zusammensetzung (Schmelzanalyse)aSchmelzanalyseStahlsorte bC c % Si d % Mn e % P % max. S % max. Cr % max. Ni % max. Mo % max. Cu f % max. Al g % max. C4D C7D C9D C10D C12D C15D C18D C20D C26D C32D C38D C42D C48D C50D C52D C56D C58D C60D C62D C66D C68D C70D C72DC76D C78D C80D C82D C86D C88D C92D≤0,06 0,05-0,09 ≤0,10 0,08-0,13 0,10-0,15 0,12-0,17 0,15-0,20 0,18-0,23 0,24-0,29 0,30-0,35 0,35-0,40 0,40-0,45 0,45-0,50 0,48-0,53 0,50-0,55 0,53-0,58 0,55-0,60 0,58-0,63 0,60-0,65 0,63-0,68 0,65-0,70 0,68-0,73 0,70-0,75 0,73-0,78 0,75-0,80 0,78-0,83 0,80-0,85 0,83-0,88 0,85-0,90 0,90-0,95≤0,30 ≤0,30 ≤0,30 ≤0,30 ≤0,30 ≤0,30 ≤0,30 ≤0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,30 0,10-0,300,30-0,60 0,30-0,60 0,30-0,60 0,30-0,60 0,30-0,60 0,30-0,60 0,30-0,60 0,30-0,60 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,80 0,50-0,800,035 0,035 0,035 0,035 0,035 0,035 0,035 0,035 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,0300,035 0,035 0,035 0,035 0,035 0,035 0,035 0,035 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,030 0,0300,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,15 0,150,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,20 0,200,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,05 0,050,30 0,30 0,30 0,30 0,30 0,30 0,30 0,30 0,30 0,30 0,30 0,30 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,25 0,250,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01 0,01aIn dieser Tabelle nicht aufgeführte Elemente dürfen dem Stahl, außer zum Fertigbehandeln der Schmelze, ohne Zustimmung des Bestellers nicht absichtlich zugegeben werden. Falls bei der Bestellung vereinbart, können Anteile von Cr ≤ 0,30 % und V von 0,05 % bis 0,10 %, allgemein bekannt als Zusatz von Mikrolegierungen, zugefügt werden. b Unlegierter Qualitätsstahl nach ISO 4948-2.c Für Stahlsorten C26D bis C92D kann die Spanne für Kohlenstoff durch Absenkung des unteren Grenzwertes um 0,01 % und durch Erhöhung des oberen Grenzwertes um 0,01 % erhöht werden, falls bei der Bestellung vereinbart.d Für Walzdraht bestimmt zum Verzinken sollte der Mindestanteil für Silizium bei der Bestellung festgelegt werden. Für dieStahlsorten C4D bis C20D kann bei der Bestellung eine weitere Einengung des Höchstgehaltes an Silizium vereinbart werden. eFür Stahlsorten C15D bis C92D kann bei der Bestellung ein von der Tabelle abweichender Bereich vereinbart werden. Allerdings muss die Spanne gleich bleiben, der Höchstwert darf 1,20 % nicht überschreiten und der Mindestwert darf 0,30 % nicht unterschreiten.f Bei der Bestellung kann ein Höchstgehalt an Kupfer von 0,20 % vereinbart werden. Für die Sorten C48D bis C92D gilt: Cu + Sn ≤ 0,25 %.gNach Vereinbarung bei der Bestellung kann für Aluminium ein Bereich von 0,01 % bis 0,06 % vereinbart werden. Auf Verlangen kann dann für Silizium ein Anteil von ≤ 0,10 % festgelegt werden.DIN EN ISO 16120-2:2011-10N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)6Tabelle 2 — Grenzabweichungen der Stückanalyse zu der SchmelzenanalyseaElement Stahlsorte Grenzabweichung derStückanalyse%C4D bis C20D± 0,02 C26D bis C82D ± 0,03 CC86D bis C92D± 0,04Si alle Sorten ± 0,04 Mn alle Sorten ± 0,06 P und Salle Sorten + 0,005aFalls bei der Bestellung vereinbart, müssen die Grenzabweichungen für Kohlenstoff auf die in Tabelle 1 angegebenen Werte fürdie Schmelzanalyse Bezug nehmen.4.3 Innere und äußere BeschaffenheitDer Walzdraht darf keine inneren und/oder äußeren Unvollkommenheiten wie Lunker, Risse, Überwalzungen, Einwalzungen, Kerben, Schalen oder Walzgrate aufweisen, die seine sachgemäße Verwendung beeinträchtigen können.4.4 Tiefe von OberflächenfehlernDer Walzdraht darf keine Fehlstelle von größerer Tiefe als die in Tabelle 3 angegebenen Werte aufweisen. Diese Grenzwerte gelten für die entsprechend ausgewählte Prüfung nach ISO 16120-1:2011, 9.4.3 und 9.5.3.Die Grenzwerte für die Tiefe von Oberflächenfehlern nach Tabelle 3 gelten nur für runden Walzdraht. Für andere Profile können die Grenzwerte vereinbart werden.Tabelle 3 — Grenzwerte für die Tiefe von Oberflächenfehlern für runden WalzdrahtMaße in MillimeterNenndurchmesserd NHöchstzulässige Tiefe von Oberflächenfehlern – radialeTiefe a Höchstzulässige Länge von Oberflächenfehlern b, c5 ≤ d N ≤ 12 0,20 0,25d N > 120,25 0,30a Die Tiefe von Oberflächenfehlern ist von der vorliegenden Oberfläche ausgehend in radialen Richtung zu messen. bDie gemessene Länge der Fehlstelle.Für Definitionen, siehe ISO 16120-1:2011, Anhang B.cDie Prüfung der max. realen Länge der Oberflächenfehler kann ausgesetzt werden, falls bei der Bestellung vereinbart.DIN EN ISO 16120-2:2011-10 N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)74.5 KernseigerungFalls bei Bestellung vereinbart, dürfen nicht mehr als 20 % der Probenabschnitte der Stahlsorte C60D oder von Sorten mit höherem Kohlenstoffgehalt Klasse 4 entsprechen; Klasse 5 ist unzulässig (siehe ISO 16120-1:2011, Anhang A). Es wird empfohlen, diese Bewertung als Teil des Qualitätssicherungssystems vorzunehmen.4.6 ZugfestigkeitBei Angabe der chemischen Zusammensetzung muss der Hersteller, falls vom Kunden bei der Bestellung verlangt, Anhaltswerte der Zugfestigkeit mitteilen.Bei Angabe der Zugfestigkeit sind die Bezeichnungen nach Abschnitt 3 anzuwenden. Die Werte für die Zugfestigkeit dürfen die Abweichungen nach Tabelle 4 nicht überschreiten.Tabelle 4 — Zulässige Abweichung der ZugfestigkeitStahlsorte Zulässige AbweichungMPa C4D bis C20D ± 80 C26D bis C70D ± 100 C72D bis C92D± 1204.7 Eigenschaften der ZunderschichtDie Eigenschaften der Zunderschicht können bei der Bestellung vereinbart werden. Das kann als Zundermenge und/oder als Entzunderungsfähigkeit ausgewiesen werden.4.8 Mechanische BeschädigungenDer Walzdraht darf keine Reibschäden (als Folge der Reibung zwischen Walzdraht/Walzdraht, Walzdraht/Beton oder Walzdraht/Stahl) aufweisen, die die nachfolgende Bearbeitung und die Endanwendung negativ beeinträchtigen. Das zulässige Schadensbild kann bei der Bestellung vereinbart werden. Beispiele von mechanischen Beschädigungen sind in ISO 16120-1:2011, Anhang C, aufgezeigt.DIN EN ISO 16120-2:2011-10N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)8Anhang A (informativ)Stahlsorten nach ISO 16120-2 und vergleichbare Stahlbezeichnungennach nationalen oder regionalen NormenDieser Teil der ISO 16120 wird vom CEN ohne irgendeine Änderung übernommen. Die äquivalenten Europäischen Werkstoffnummern sind der Tabelle A.1, Spalte 2, zu entnehmen.Tabelle A.1ISO 16120-2JIS G 3505GB/T 24242.2:2009 StahlsorteEuropäische WerkstoffnummerStahlsorten / nr / y aStahlsorten / nr / y aC4D 1.0300 C4D yC7D 1.0313 SWRM6 nr C7D y C9D 1.0304 SWRM8 y C9D y C10D 1.0310 SWRM10 y C10D y C12D 1.0311 SWRM12 y C12D y C15D 1.0413 SWRM15 y C15D y C18D 1.0416 SWRM17 y C18D y C20D 1.0414 SWRM20 y C20D y SWRM22 nC26D 1.0415 SWRH27 nr C26D y C32D 1.0530 SWRH32 nr C32D y C38D 1.0516 SWRH37 nr C38D y SWRH42A C42D 1.0541SWRH42B nr C42D ySWRH47AC48D 1.0517SWRH47B nr C48D y C50D 1.0586nr C50D y SWRH52AC52D 1.0588SWRH52B nr C52D y C56D 1.0518nr C56D y SWRH57AC58D 1.0609SWRH57B nr C58D y C60D 1.0610nr C60D y SWRH62AC62D 1.0611SWRH62B nr C62D y C66D 1.0612nrC66D yDIN EN ISO 16120-2:2011-10 N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12EN ISO 16120-2:2011 (D)9 Tabelle A.1 (fortgesetzt) ISO 16120-2JIS G 3505 GB/T 24242.2:2009 Stahlsorte EuropäischeWerkstoffnummer Stahlsorte n / nr / y a Stahlsorte n / nr / y aSWRH67A C68D 1.0613 SWRH67Bnr C68D y C70D 1.0615 nr C70D ySWRH72A C72D 1.0617 SWRH72B nr C72D y C76D 1.0614 nr C76D y SWRH77A C78D 1.0620 SWRH77B nr C78D y C80D 1.0622 C80D y SWRH82A C82D 1.0626 SWRH82B nr C82D y C86D 1.0616 C86D y C88D 1.0628 C88D y C92D 1.0618 C92D y a Abweichung in der chemischen Zusammensetzung (Schmelzanalyse) zu ISO 16120-2: n = keine / nr = nicht relevant / y = relevant.DIN EN ISO 16120-2:2011-10 N o rm en-Down l oad -Beu th -F .S.F ehrerAu to mo tiveGm bH-KdNr .6523786-L fNr .57687971-212-05-1114:12EN ISO 16120-2:2011 (D)10Literaturhinweise[1] JIS G 3505, Low carbon steel wire rods[2] GB/T 24242.2:2009, Non-alloy steel wire rods for conversion to wire — Part 2: Specific requirementsfor general purpose wire rodDIN EN ISO 16120-2:2011-10 N o r m e n -D o w n l o a d -B e u t h -F . S . F e h r e r A u t o m o t i v e G m b H -K d N r .6523786-L f N r .5768797001-2012-05-11 14:12。

TRANSMITTER BATTERY REPLACEMENTReplacement battery - 9 volt NEDA 1604 (Eveready 216 or equivalent).The battery in the transmitter can be checked or changed by removing the front lower half of the transmitter. Refer to the directions under “accessing the code switch” for battery replacement.TO REPLACE OR ADD A SETA replacement or new transmitter or receiver may be purchased by specifying the Model Number and the RF frequency designated on the identification label. The RF frequency is set at the factory and must not be adjusted in the field. The digital code can be matched to the companion receiver or transmitter by following the above procedure.OPERATIONAL CHECKTo check operation, move back a reasonable distance (about 50 feet) and press the transmitter button. Operation should be reliable at this distance but environment and location of both the transmitter and receiver will affect the range. If the transmitter is stowed well out of sight, it may be necessary to remove it from its mounting and hold near the windshield. Try different locations and positions. If operation is still unsatisfactory, the problem maybe isolated by: 1 .Checking the door operator. If the door will not open when the wall button ispressed, the problem is likely to be the operator. If the door will open by pressing the wall button, but not when the radio control button is pressed, the problem is probably in the radios.2.Replacing the transmitter battery.If, after performing the above operational checks, the controls still do not function, they should be returned to your dealer for repair or replacement or they may be returned, postage prepaid.CAUTION: Any c hanges or m odifications in intentional or unintentional radiators which are not expressly approved by LINEAR CORPORATION could void the user’s authority to operate this equipment. This applies to intentional and unintentional radiators certified per part 15 of the F.C.C. rules and regulations.LINEAR CORPORATION2055 Corte del Nogal • Carlsbad, CA 92008(760) 438-7000Copyright © 1999 Linear Corporation214961 AInstallation Instructions GARAGE DOOR RADIO CONTROLSModel 3089 TransmitterModel 1090 ReceiverWARNING:•Disconnect power before any installation or repair•Wear safety glassesYour MULTI-CODE™ Radio Controls are designed specifically to remotely control a garage door from within an automobile and to give years of dependable service without adjustment. The transmitter/receiver combination utilizes the MULTI-CODE™ scheme which permits the selection of as many as 1024 code combinations of the owner’s personal choice. Because all radio controls are set with the even numbered switches in the “ON” position when they leave the factory, it is recommended that a different code be selected and set at the time of installation. Please refer to the “Accessing the Code Switch” section for instructions. The radio frequency (RF) portion of the controls, however, are tuned to standard frequencies and are thoroughly tested at the factory. This permits the addition or replacement of either the transmitter or the receiver by spec if ying the M odel N um ber and the R F frequency designated on the identification label. No RF adjustments are needed nor should any be attempted.RECEIVER INSTALLATIONThe receiver is designed to mount directly to the operator. It can be remotely installed if the operator terminal strip is not accessible, or if power for the receiver is not obtainable from the operator. To direct mount the receiver, simply loosen the terminal screws on the operator and insert the two-way lugs from the receiver under the screw heads along with the wall button wires), and tighten the screws (See Fig #1).Place the antenna (an 11 inch white wire) in a vertical position as far from any metal as possible.®For remote installation the receiver may be mounted near the operator head on a joist or the ceiling by using the mounting tab. Order Model 1092-06 adapter, which permits connection between the operator terminal and the two-way lugs on the receiver.Slip on connectors at one end of the adapter connect to the flat side of each spade lug on the receiver, and spade connectors at the other end connect to the operator terminal. Connect the wires as follows:(a)White wire to terminal “1” or “24v”(b)Black wire to terminal “2” or “Relay”(c)Red wire to terminal “3” or “Common” (“Radio Power”)(d) Connect push button wires to terminal “1” and “2” (See Figure #2). Where power for the radio receiver is not available from the operator order aM od el 1092-01 po w er t r an s f o r m e r ad ap t or f or c o nn e ction betw een the operator and the remote receiver.ACCESSING THE CODE SWITCHUsing a small screwdriver, pry the rectangular hatch from the receiver for access to the code switch. On the transmitter the entire front lower half of the case is removable. Grasp the front lower half of the case near the bottom on both sides and pull upward away from the transmitter, this will disengage the lower end. Then pull down ward to remove the lower cover, this will expose both the code switch and battery compartment. Set both switches to the code of your choice, being sure both are set the same since a different setting of just one switch will prevent operation. The digital code is determined by the position of 10 s m al l s w it c h es n um be r e d 1 t h rou gh 10 loc ated in the receiver and transmitter. Any combination of “on” or “off” positions can be selected by using a pencil or ball point pen. (Note: The switches are in the “on” position when the switch is depressed toward the number.) See Figure #3.Once the codes have been set, check operation and reinsert the hatches. TRANSMITTER INSTALLATIONThe transmitter is completely self contained, including battery, and can be operated while mounted in the car. It is supplied with a clip for attaching to the sun visor, if desired. If the clip is used attach to the case by sliding it into the recess provided on the back of the transmitter until the small dimples fit into the holes in the clip.CAUTION:Keep the clip flat when pushing it into position so that is doesn’t extend down into the case where it could touch the circuit board and cause damage.OPERA TOR TERMINA L24 VOLTRELA Y COMMON 1 2 3WA LL B UTTON 2 - WA Y LUGSCODE SWITCH MA TCHMOUNTING TA BA NTENNAFigure 1OPERATORTERMINALSTRIPTO WALLPUSH BUTTONSWITCHWhiteBlackRed WhiteBlackRedFigure 212345678910Figure 3OPEN。

HPMLDL系列服务器hpML系列服务器HP ProLiant ML110G7(C8R00A)参数规格差不多参数产品类型工作组级产品类别塔式产品结构4U处理器CPU类型奔腾双核CPU型号奔腾双核G860CPU频率3GHzHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML330 G6(B9D22A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600 CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML350 G6(638180-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sCPU核心四核CPU线程四线程数主板HP ProLiant ML350 G6(600431-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML350 G6(594869-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML310e Gen8(686146-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1220 v2CPU频率 3.1GHz标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MB总线规格DMI 5GT/sHP ProLiant ML310e Gen8(686147-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1240 v2CPU频率 3.4GHz智能加速主3.8GHz频标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MBHP ProLiant ML350e Gen8(C3Q10A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2403CPU频率 1.8GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q08A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2407CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q09A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2420CPU频率 1.9GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3F91A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2430CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(646675-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2609CPU频率 2.4GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(668271-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2620CPU频率2GHz智能加速主2.5GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm。

Leviton Manufacturing Co., Inc. Lighting & Controls10385 SW Avery Street, Tualatin, OR 97062 tel 800-736-6682 tech line (6:00AM-4:00PM PT Mon-Fri) 800-959-6004 ©2022 Leviton Manufacturing Co., Inc. All rights reserved. Subject to change without notice.DescriptionWireless Decora ® 0-10V Room Controller with 5A Relay (DL057) is the primary user interface combining both familiar toggle ON/OFF control, dimming control and energy management business logic into line voltage-powered wireless controldevices. Requires use with Lumina™ RF Keypad Room Controller or GreenMAX ® DRC Wireless Keypad Room Controller.The DL057 works with compatible wireless devices to create an advanced intelligent lighting system. The DL057 alsoprovides the primary interface between the smartphone/tablet commissioning and control device. The DL057 manages a room by coordinating activities of all wireless devices within thespace and can be used to control loads up to 5A.Wireless Decora ® 0-10V Dimmer Room Controller with 5A RelayApplications• Bluetooth interface for connection to any Android or iOS devices with Bluetooth 4.0 with BLE • Configuration • Control• Status monitoring • Every node is a repeater • Line voltage powered • LED status indicators • Decora aesthetic• Complies with IEEE 80.15.4 standards—for domestic and international wireless networks• Can be used to meet energy code requirements forIECC, ASHRAE 90.1 and 2019 Title 24, Part 6 space/area control, dimming, manual-ON/OFF, occupancy control and automatic shutoff requirementsDimensions DiagramWiring Diagram*Depending on manufacture date, pink wire may be grayUser InterfaceSpecificationsLES-G-10377B/H22-aaREV AUG 2022Leviton Manufacturing Co., Inc. Lighting & Controls10385 SW Avery Street, Tualatin, OR 97062 tel 800-736-6682 tech line (6:00AM-4:00PM PT Mon-Fri) 800-959-6004 ©2022 Leviton Manufacturing Co., Inc. All rights reserved. Subject to change without notice.。

用户指南Dell E1916HVDell E1916HLDell E1916HMDell E2016HVDell E2016HLDell E2016HMDell E2216HVDell E2216HVM认证型号：E1916HV / E1916HL / E1916HM / E2016HV / E2016HL / E2016HM / E2216HV© 2015~2020 Dell Inc. 2020 – 12 Rev. A10目录关于您的显示器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5物品清单. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5产品特性. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6识别部件和控制 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7显示器规格 (9)即插即用功能 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11液晶显示器质量和像素政策 . . . . . . . . . . . . . . . . . . . . . . . . . . 18维护指南 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18设置显示器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19安装底座 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19连接显示器 (20)管理电线. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20卸下显示器底座 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21壁挂（可选） . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22操作显示器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23打开显示器电源 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23使用前面板控制 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23使用屏幕显示(OSD)菜单 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25设置最大分辨率 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49使用倾斜 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 513故障排除 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52自检 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52内置诊断 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53常见问题 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54产品特定问题 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Dell Soundbar问题 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56附录 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58安全说明 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58 FCC声明（仅限美国）和其他管制信息 (58)中国能源效率标识 (58)联系Dell . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58能源标签和产品参数信息表适用的欧盟产品数据库. . . . . . . . . . . . .594关于您的显示器物晶清单此显示器在出厂时包括如下所示的全部组件。

产品规范USB-621016 AI（16位、250 kS/s）、4 DI、4 DO USB 多功能I/O设备定义担保产品规范给出了型号在规定操作条件下的性能，其中内容涵盖于型号质量担保中。

下列特性产品规范给出了型号在规定操作条件下使用的相关值，但其中内容未涵盖于型号质量担保中。

•常规产品规范给出了多数型号符合的性能。

•额定产品规范给出了基于设计、一致性测试或补充测试的属性。

除非另外声明，否则产品规范为常规产品规范。

条件除非另外声明，否则下列规范的适用温度均为25 °C。

模拟输入通道数8个差分或16个单端ADC分辨率16位DNL保证无丢失代码INL请参考AI绝对精度采样率单通道最大值250 kS/s多通道最大值（多路综合）250 kS/s最小值0 S/s定时精度采样率的50 ppm定时分辨率50 ns输入耦合DC输入范围±0.2 V、±1 V、±5 V、±10 V±10.4 V，AI GND模拟输入的最大工作电压（信号+共模）CMRR（DC至60 Hz）100 dB输入阻抗设备开启AI+对AI GND>10 GΩ，与100 pF电容并联AI-对AI GND>10 GΩ，与100 pF电容并联设备关闭AI+对AI GND1,200 ΩAI-对AI GND1,200 Ω输入偏置电流±100 pA串扰(100 kHz)相邻通道-75 dB非相邻通道-90 dB小信号带宽(-3 dB)450 kHz输入FIFO容量4,095个采样扫描列表内存4,095项数据传输USB信号流、编程控制I/O 所有模拟输入和SENSE通道的过压保护设备开启±30 V，最多2个AI引脚设备关闭±20 V，最多2个AI引脚过压时的输入电流±20 mA/AI引脚，最大值多通道测量的稳定时间精度、全幅跳变、全量程跳变的±90 ppm (±6 LSB) 4 μs转换间隔跳变的±30 ppm (±2 LSB) 5 μs转换间隔跳变的±15 ppm (±1 LSB)7 μs转换间隔2||USB-6210产品规范典型特性图图1. 稳定误差和不同源阻抗时间的关系误差（跳变大小的p p m ）时间 (µs)图2. AI CMRR40608010012060100 1 k 10 k 100 k频率 (Hz)C M R R (d B )140AI 绝对精度（担保）注： 自设备外部校准起，表中给出精度的有效期为一年。

Nokeval No 9082001ManualModel2081Grey-, BCD- and Bi-nary inputsPanel meter 2081 forBCD, Grey and Binary inputs• 5-digit display• Selectable BCD, Grey and Binary inputs • Red or green display• Front panel configuration• Power supply 85..240VAC or 12..32VDC • Front panel protection IP65• Easily changeable for other inputsPanelmeter 2081 is designed for BCD, Grey and Binary coded inputs. Input selection is easy by front panel keys. Two power supply alternatives,85..240 VAC and 12..32 VDC or 24 VAC, both galvanic isolated from inputs. Meter generates 24 VDC, 100 mA power supply for f. ex. PLC’s closing contacts. Selectable pass word for configuration stage. Selectable brightness of display. Front panel protection is IP65.Meter is a part of larger product family, series 2000, and may be changed to other type of meter only by changing input card. Change of input card changes also meter type. Each meter has its own data sheet and instruction manual. Additional,optional cards are the same for all input cards of product family series 2000. Changing of meter type needs no calibrations; only sensor selections and other settings are made by front panel keys.Technical specifications:Display: BCD code -9999..99999 (5 digits)Grey code 0..65535 Binary code 0..65535Display height 14.5 mm Display color Red or green LED, adjustable brightness Input 1 = 5-24 VDV, 0 = <1V Input resistance >10k ΩSupply for input loop 24 VDC, max 150 mA Power 85..240 VAC or 12..32 VDC and 24 VAC Protection IP65, front panel onlyOptional field enclosure 2000IP65Order code 2081GR- BCD2-BCD2-24VDC2081GR green display 2 BCD inputs 2 BCD inputs12..32 VDC, 24VACor 85..240VACBasic meter has 1 BCD-digit and 4 bit Grey- and Binary input. More numbers with optional cards, two in each. Above example has 5BCD-numbers. Standard colour is red unless otherwise specified.Dec.4-bit Binary 4-bit Grey Code Display8 MSB 1 000LSB MSB 1 1 00LSB891 0011 1 01910 1 010 1 1 1110111 0111 1 1011120 10 01 0 101213 1 10 1 1 0 111314 1 11 0 1 0 011415 1 1 11 1 0 0 015Applications:Binary code is simple to use from PLC I/O-lines. Grey-code changes only one bit at a time. Most common Grey code application is angle sensors (aerials etc.)NumberCode Example18, 4, 2, 1 0001= 1 28, 4, 2, 1 0010= 2 38, 4, 2, 1 0011= 3 48, 4, 2, 1 0100= 4 58, 4, 2, 1 0101= 5 68, 4, 2, 1 1001= 9Number 9 in BCD-code is selected as 1001 i.e. 1001 = 8+_+_+1=9BCD-Code➤-button➤-button.➤-button. Text DonE in display Press and hold ★- and ▲-keys simultaneously for 2 seconds.Fix decimal point 0..4, default 0.Choose by ▲▼ -buttons and accept setting by➤-button.Input type selection, default BCD-code.Choose type by ▲▼- keys and accept setting by ➤-button.BCD = BCD-code Bin = Binary-code Garay = Gray-codeMoving into selected menu title.Front panelArrow-buttons(▲▼) are used to change numerical values and when moving in menu-structure.Star-key (★User controllable indicators.Configuration stageConfiguration can be started by pressing and holding ★- and ▲-keys simultaneously for 2seconds.Resetting configuration parametersSome times it is necessary to return indicator parameters to factory defaults, e.g. if secretaccess code is missed. Resetting can be done by pressing and holding ★- and ➤-keys simulta-neously for 2 seconds when connecting supply voltage. Prosedure will reset all settings to factory defaults.Purista kevyesti mittaria etulevun takaa ja vedä eturaamia ulospäinyläreunasta Irroita riviliittimet ja kiinnitysruuviverkkoliittimen vierestä. Irroita etulevy javedä mittari ulos etukautta.avaamalla neljä kulmaruuvia.or 85..240 VAC(Grey connector)The 2000 series panelmeters are modular and easyto assemble. According to customers wishes. Thebasic construction consists of mother board with treeslots, A, B and C. Slot A determines meter type andprovides always input signal. Slot B and C areinterchangeable. As factory delivery input signal isalways installed into slot A , mA output into slot B andalarms into slot C. In case of f.ex 4 alarms and relaycard with 2 change-over contact (2 + 2 relays) areused, you must place second relay card into slot B. IfSlots A-CChange of meter type:Input card is placed always toslot A. By changing input cardyou can get an other type ofmeter. You can change meterwith pulse input to meter withcurrent input, thermocouple,strain gage etc.Additional slots:Additional cards provide output4..20 mA, alarms, serial interface,BCD output etc. Meter data sheetdictates possible combinations.grey connectors allow line voltage110..240 VAC(relay contacts).Power supply:There are two different motherboards power supply85..240VAC and 12..32 VDC.mother board accepts24 VAC. Connectors arecolour coded.you accept only closing or opening relay contacts,you need only one relay card with 4 relays placedinto slot C. The slot B is now usable for otheroptional outputs.You can have different types of meters by onlychanging the input card in slot A. Data sheet of eachtype of meter dictates the possible combinations.Recalibration of card is not needed; only scalingand other settings must be set by front panel keys. memoryRemoving meter from case:Panelmeter 2000 construction。

1EN02产品规格、用户参考手册Version1.214.MAY.2010深圳市英锐恩科技有限公司 SHENZHEN ENROO-TECH CO.,LTD中国·深圳市福田区深南中路嘉汇新城汇商中心27楼2701室 全国服务电话：4007-888-234ENROO TECHNOLOGIES CO., LIMITED香港新界荃灣青山道388號中国染廠大廈7樓P 室联系电话：86-755-83167411,61357155,82543411，88845951 联系传真：86-755-82543511单片机集成方案全方位解决服务商优质智能电子产品“芯”方案解决商21. EN02概述2. 功能特点如下是关于软硬件的一些特点：◆ 完全CMOS 静态设计◆ 工作电压：2.0V――6.0V ◆ 工作频率：0~20MHZ◆ IC的DA0脚在接收到三组数据中任何一组时， 其会相应地发送与之对应的数据组◆ 数据通讯协议：自定义特殊传输串口形式 ◆ 数据传输波特率：300 ◆ 小体积6脚贴片封装。

◆ 静态功耗：4.0V时，IC静态功耗是8.5UA以下，保护板静态功耗是15UA以下； 3.5V时，IC静态功耗是7.5UA以下，保护板静态功耗是12UA以下； （该功耗对于手机电池的耗电可忽略不计，以1000mah的电池为例， 该电池保护板一个星期耗掉电池电量仅占1%）VCC GP2/RTCCGP0 GP3 GP1EN02EN02（ASCII-IC）是专用的控制器,是一个集高速、体积小、低功耗和抗高噪声一体的静态CMOS芯片。

带有 64Byte EEPROM, 集成CMOS 静态设计方案。

专用于黑霉手机系列电池保护板码片，由控制器EN02，通过数据通信为主机传递相关信息。

识别电池真伪，从而给予手机是否正常开机，性能十分稳定，适应各种工作温度环境使用，无丢码无死码现象。

3. 应用专用于黑霉手机系列电池保护板码片,支持手机型号:8100系列,8300系列,8700系列,8800系列,9000系列,9100系列,9360系列，9500系列,9800系列,9900系列。

LED 驱动控制专用电路 TM16381©Titan Micro Electronics Ver1.2概述TM1638是带键盘扫描接口的LED（发光二极管显示器）驱动控制专用电路，内部集成有MCU 数字接口、数据锁存器、LED 高压驱动、键盘扫描等电路。

主要应用于冰箱、空调 、家庭影院等产品的高段位显示屏驱动。

特性说明采用功率CMOS 工艺 显示模式 10 段×8 位 键扫描（8×3bit）辉度调节电路（占空比8 级可调） 串行接口（CLK，STB，DIO）振荡方式：RC 振荡（450KHz+5%） 内置上电复位电路采用SOP28封装管脚定义：GRID1GRID2GRID3GRID4GND DIO CLK STB K3K2SEG1/KS1SEG2/KS2SEG3/KS3SEG4/KS4SEG8/KS8SEG7/KS7SEG6/KS6SEG5/KS5SEG9SEG10K1VDDGRID5GRID6GRID7GRID8GNDLED 驱动控制专用电路 TM16382©Titan Micro Electronics Ver1.2管脚功能说明：符号管脚名称说明DIO数据输入/输出在时钟上升沿输入/输出串行数据，从低位开始； STB 片选 在上升或下降沿初始化串行接口，随后等待接收指令。

STB 为低后的第一个字节作为指令，当处理指令时，当前其它处理被终止。

当STB 为高时，CLK 被忽略 CLK 时钟输入 上升沿输入/输出串行数据。

K1～K3 键扫数据输入 输入该脚的数据在显示周期结束后被锁存SEG1/KS1~ SEG8/KS8 输出（段） 段输出（也用作键扫描）,P管开漏输出 SEG9～SEG10 输出（段） 段输出，P管开漏输出 GRID1～GRID8输出（位） 位输出，N管开漏输出 VDD 逻辑电源 5V±10% GND逻辑地接系统地▲ 注意：DIO口输出数据时为N管开漏输出，在读键的时候需要外接1K-10K的上拉电阻。

V3200Series11th Gen Intel®Core™processor railway computers with power isolation,multiple expansion slots for wireless,2SSD slotsFeatures and Benefits•Intel®Celeron®/Intel®Core™i3/i5/i7embedded computer for in-vehicleapplications•Multiple interfaces:Up to8GbE,2serial,2USB ports,2DIs,2DOs,and2M.2B key slots for wireless(5G),1mPCIe slot for wireless(Wi-Fi5or4G),1M.2E key for wireless(Wi-Fi6)•Supports dual independent displays(VGA and HDMI with4K resolution)•Native TSN support(for models with i7-1185GRE processor)•Onboard TPM module for enhanced cybersecurity•Complies with all EN50155mandatory test items1•Compliant with EN50121-4•IEC61373certified for shock and vibration resistanceCertificationsIntroductionThe V3200Series embedded computers are built around an Intel®Core™i7/i5/i3or Intel®Celeron®high-performance processor and come with up to64GB RAM,one M.22280M key slot,and two2.5"SSD slots for storage expansion.The computers are compliant with EN50155:2017and EN50121-4standards covering operating temperature,power input voltage,surge,ESD,and vibration,making them suitable for railway onboard and wayside applications.For connecting with onboard and wayside systems and devices,the V3200computers are equipped with a rich set of interfaces including4Gigabit Ethernet ports(default;can go up to8ports)with one-pair LAN bypass function to ensure uninterrupted data transmission,2RS-232/422/485serial ports,2DIs,2DOs,and2USB3.0ports.The built-in TPM2.0module ensures platform integrity and provides hardware-based security as well as protection from tampering.Vehicular applications require reliable connectivity.They also require clear indicators on the device that identify the status of the software.TheV3200computers come with two5G/one LTE and6SIM-card slots to help establish redundant LTE/Wi-Fi connections and three programmable LEDs that enable monitoring of the runtime status of software.1.This product is suitable for rolling stock railway applications,as defined by the EN50155standard.For a more detailed statement,click here:/doc/specs/EN_50155_Compliance.pdfAppearance Front View8P ModelsFront View4P ModelsRear ViewSpecificationsComputerCPU V3210-TL1-4L-T/8L-T/4L-CT-T/8L-CT-T:Intel®Celeron®6305E processor(2C/2T,4M cache,1.8GHz)V3210-TL3-4L-T/8L-T/4L-CT-T/8L-CT-T:Intel®Core™i3-1115G4E processor(2C/4T,6M cache,2.2GHz)V3210-TL5-4L-T/8L-T/4L-CT-T/8L-CT-T:Intel®Core™i5-1145G7E processor(4C/8T,8M cache,1.5GHz)V3210-TL7-4L-T/8L-T/4L-CT-T/8L-CT-T:Intel®Core™i7-1185G7E processor(4C/8T,12M cache,1.8GHz)V3210-TL7-4L-TSN-CT-T/8L-TSN-CT-T:Intel®Core™i7-1185GRE processor(4C/8T,12M cache,1.8GHz) System Memory Slot SODIMM DDR4slots x2(64GB max)System Memory Pre-installed16GB DDR4Storage Slot 2.5-inch SSD slots x2M.2M key2280slot x1(NVMe;128GB preinstalled)Supported OS Windows10Embedded IoT Ent2021LTSC64-bitLinux Debian11/Ubuntu20.04/CentOS7.9(driver)Graphics Controller Intel®Celeron®/Core™i3Models:Intel®UHD GraphicsIntel®Core™i5/i7Models:Intel®Iris®Xe GraphicsComputer InterfaceEthernet Ports Default:4ports(2.5GbE x1and GbE x3),can go up to8portsAuto-sensing1000/2500Mbps x1Auto-sensing10/100/1000Mbps x up to7LAN1:Intel®Ethernet Network Adapter I225with Intel®AMT support Serial Ports RS-232/422/485ports x2,software selectable(DB9male)Digital Input DIs x2Digital Output DOs x2USB3.0USB3.0hosts x2,type-A connectorsVideo Output VGA x1,15-pin D-sub connector(female)HDMI x1,HDMI connector(type A)Wi-Fi Antenna Connector QMA x8(optional with accessory kit)Expansion Slots M.2B key3052/3050slots x2(for5G;4Micro SIMs)M.2E key slots x1(for Wi-Fi6)mPCIe slots x1(for cellular with2Micro SIMs,Wi-Fi5,or I/O expansion) SIM Format MicroNumber of SIMs6TPM TPM v2.0Digital InputsConnector Screw-fastened Euroblock terminalIsolation3k VDCSensor Type Dry contactWet contact(NPN)Dry Contact Logic0:Close to GNDLogic1:OpenWet Contact(COM to DI)Logic0:10to30VDCLogic1:0to3VDCDigital OutputsConnector Screw-fastened Euroblock terminalCurrent Rating200mA per channelI/O Type SinkVoltage0to30VDCIsolation3k VDCLED IndicatorsSystem Power x1Storage x1LAN2per port(LAN1:1000/2500Mbps,LAN2to LAN8:100/1000Mbps)1per LAN bypass pair(LAN7-LAN8)Serial2per port(Tx,Rx)User Programmable3Serial InterfaceBaudrate50bps to115.2kbpsConnector DB9maleESD Contact:6kV;Air:8kV(level3)Isolation2kVData Bits5,6,7,8Stop Bits1,1.5,2Parity None,Even,Odd,Space,MarkFlow Control RTS/CTS,XON/XOFFAutomatic Data Direction Control(ADDC)for RS-485RTS Toggle(RS-232only)Serial SignalsRS-232TxD,RxD,RTS,CTS,DTR,DSR,DCD,GNDRS-422Tx+,Tx-,Rx+,Rx-,GNDRS-485-2w Data+,Data-,GNDRS-485-4w Tx+,Tx-,Rx+,Rx-,GNDPower ParametersInput Voltage24to110VDCPower Connector M12A-coded male connectorPower Consumption100W(max.)Physical CharacteristicsHousing AluminumDimensions(without ears)249x88.9x180mm(9.80x3.50x7.09in) Weight Product Only:3.86kg(8.51lb)Product With Package:5.10kg(11.24lb)IP Rating IP30Installation Wall mountingProtection PCB conformal coatingAvailable on requestEnvironmental LimitsOperating Temperature-40to70°C(-40to158°F)Storage Temperature(package included)-40to85°C(-40to185°F)Ambient Relative Humidity5to95%(non-condensing)Standards and CertificationsEMC EN55032/35EMI CISPR32,FCC Part15B Class AEMS IEC61000-4-2ESD:Contact:6kV;Air:8kVIEC61000-4-3RS:80MHz to1GHz:20V/mIEC61000-4-4EFT:Power:2kV;Signal:2kVIEC61000-4-5Surge:Power:2kVIEC61000-4-6CS:10VIEC61000-4-8PFMFSafety EN62368-1IEC62368-1UL62368-1Railway Fire Protection EN45545-2:2020Railway EN50121-4EN50121-3-2EN50155:2017Shock IEC60068-2-27,IEC61373Vibration IEC60068-2-64,IEC61373DeclarationGreen Product RoHS,CRoHS,WEEEMTBFTime4L Models:382,624hrs8L Models:305,836hrsStandards Telcordia(Bellcore),GBWarrantyWarranty Period3yearsDetails See /warrantyPackage ContentsDevice1x V3200Series computer Installation Kit4x SSD/HDD brackets1x wall-mounting kit Documentation1x quick installation guide1x warranty card Dimensions8P Models4P ModelsOrdering InformationModel NameCPUMemoryOS Storage (M.2M Key) 2.5"SSD Slots (2)GbE PortsTPM 2.0Native TSN Enhance mentPower InputOperating Temp.Conforma l CoatingV3210-TL1-4L-TCeleron 6305E 16GB 128GBOptional 4✓–24-110VDC -40to 70°C –V3210-TL3-4L-T i3-1115G4E16GB 128GB Optional 4✓–24-110VDC -40to 70°C –V3210-TL3-4L-CT-T i3-1115G4E 16GB 128GB Optional 4✓–24-110VDC -40to 70°C ✓V3210-TL7-4L-T i7-1185G7E 16GB 128GB Optional 4✓–24-110VDC -40to 70°C –V3210-TL1-8L-CT-T Celeron 6305E 16GB 128GB Optional 8✓–24-110VDC -40to 70°C ✓V3210-TL5-8L-CT-T i5-1145G7E16GB 128GB Optional 8✓–24-110VDC-40to 85°C✓2.0V3210-TL7-8L-CT-T i7-1185G7E16GB128GB Optional8✓–24-110VDC-40to70°C✓V3210-TL7-8L-TSN-CT-T i7-1185GRE16GB128GB Optional8✓✓24-110VDC-40to70°C✓Accessories(sold separately)CablesCBL-M12(FF5P)/OPEN-100IP67A-coded M12-to-5-pin power cable,IP67-rated5-pin female M12connector,1m©Moxa Inc.All rights reserved.Updated Sep21,2023.This document and any portion thereof may not be reproduced or used in any manner whatsoever without the express written permission of Moxa Inc.Product specifications subject to change without notice.Visit our website for the most up-to-date product information.。

LM016L说明硬件原理图我们对液晶显示器并不陌生。

液晶显示模块已作为很多电子产品的通过器件，如在计算器、万用表、电子表及很多家用电子产品中都可以看到，显示的主要是数字、专用符号和图形。

在单片机的人机交流界面中，一般的输出方式有以下几种:发光管、LED数码管、液晶显示器。

发光管和LED数码管比较常用，软硬件都比较简单，在前面章节已经介绍过，在此不作介绍，本章重点介绍字符型液晶显示器的应用。

在单片机系统中应用晶液显示器作为输出器件有以下几个优点: 显示质量高由于液晶显示器每一个点在收到信号后就一直保持那种色彩和亮度，恒定发光，而不像阴极射线管显示器(CRT)那样需要不断刷新新亮点。

因此，液晶显示器画质高且不会闪烁。

数字式接口液晶显示器都是数字式的，和单片机系统的接口更加简单可靠，操作更加方便。

体积小、重量轻液晶显示器通过显示屏上的电极控制液晶分子状态来达到显示的目的，在重量上比相同显示面积的传统显示器要轻得多。

功耗低相对而言，液晶显示器的功耗主要消耗在其内部的电极和驱动IC上，因而耗电量比其它显示器要少得多。

液晶显示简介液晶显示原理液晶显示的原理是利用液晶的物理特性，通过电压对其显示区域进行控制，有电就有显示，这样即可以显示出图形。

液晶显示器具有厚度薄、适用于大规模集成电路直接驱动、易于实现全彩色显示的特点，目前已经被广泛应用在便携式电脑、数字摄像机、PDA移动通信工具等众多领域。

液晶显示器的分类液晶显示的分类方法有很多种，通常可按其显示方式分为段式、字符式、点阵式等。

除了黑白显示外，液晶显示器还有多灰度有彩色显示等。

如果根据驱动方式来分，可以分为静态驱动(Static)、单纯矩阵驱动(Simple Matrix)和主动矩阵驱动(Active Matrix)三种。

液晶显示器各种图形的显示原理:线段的显示点阵图形式液晶由M×N个显示单元组成，假设LCD显示屏有64行，每行有128列，每8列对应1字节的8位，即每行由16字节，共16×8=128个点组成，屏上64×16个显示单元与显示RAM区1024字节相对应，每一字节的内容和显示屏上相应位置的亮暗对应。

FEATURESMultilayer structure allows diverse resistance value in the same B constantMultilayer structure allows lower resistance at high B constant.Solder plating with Ni barrier gives high reliability for both flow and reflow soldering.Unified shape and tightly controlled dimension is fit to high mounting speed.APPLICATIONSTemperature compensation for crystal oscillator (TCXO)Temperature compensation for Personal computer Temperature detection for CPU and memory device Temperature detection for battery packTemperature compensation for contrast of LCDLNS V 16 G 103 J PDESCRIPTIONThe LNS series is manganese oxide based NTC thermistor,which shows non-linear resistance-temperature behavior.Multilayered structure has as high reliability as monoblock type,even without protective glass coating, since the active electrode and sensor layer is buried inside the ceramic body.NTC Thermistor SMDSeries B constantZ 3250K K 3435K Y 3670K W 3890K A 3970K V 4150K U 4550K T 4750KChip size (mm)10 1.0 x 0.5 x 0.5 (inches 0402)16 1.6 x 0.8 x 0.8 (inches 0603)202.0 x 1.2 x 0.8 (inches 0805)Resistance at 25 ¡10110 ¡¿101= 100¥10210 ¡¿102= 1 K ¥10310 ¡¿103= 10 K ¥PackageP Paper taping E Emboss taping BBulkResistance deviation rangeF ¡1£¥H ¡3£¥J ¡5£¥K¡10£¥ORDERING INFORMATIONB constant deviation rangeF ¡1%G ¡2%H¡3%SPECIFICATIONS1005(0402) sizeResistance @ 25o CThe zero-power resistance at the standard temperature of 25o C. The zero-power resistance means the value of DC resistance of a thermistor measured at a specified temperature, with electric load being kept so small that there is no noticeable change in the measured resistance by the influence of the applied electric load.Bconstant 25 / 85B = ln(R0/R1) / (1/T- 1/T1) Without special note, B constant is calculated from the resistance values at 25o C and 85o C[B25/85], which is the most common.Dissipation constant (¥‰)Dissipation factor is defined as the ratio at a specified ambient temperature of a change in power dissipation in a thermistor to the resultant body temperature change.¡⁄¥= P/( T1- 25o C) mW/ o C¡⁄P : dissipated power¡⁄T1 : thermistor temp, 85¡0.1o CMaximum power rating PThis is the maximum handling power, keeping its temperature not exceeding the allowed maximum temperature for operation.¡⁄P max = ¥(T max- T a)¡⁄¥:dissipation constant¡⁄T a:25o C¡⁄T max:125o CThermal Time ConstantThe time necessary for an unloaded thermistor to vary its temperature by 63.2%of the difference between its initial and final temperatures. Initial temperature is 85¡0.1o C and final1608(0603) sizeResistance @ 25o CThe zero-power resistance at the standard temperature of 25o C. The zero-power resistance means the value of DC resistance of a thermistor measured at a specified temperature, with electric load being kept so small that there is no noticeable change in the measured resistance by the influence of the applied electric load.Bconstant 25 / 85B = ln(R0/R1) / (1/T- 1/T1) Without special note, B constant is calculated from the resistance values at 25o C and 85o C[B25/85], which is the most common.Dissipation constant (¥‰)Dissipation factor is defined as the ratio at a specified ambient temperature of a change in power dissipation in a thermistor to the resultant body temperature change.¡⁄¥= P/( T1- 25o C) mW/ o C¡⁄P : dissipated power¡⁄T1 : thermistor temp, 85¡0.1o CMaximum power rating PThis is the maximum handling power, keeping its temperature not exceeding the allowed maximum temperature for operation.¡⁄P max = ¥(T max- T a)¡⁄¥:dissipation constant¡⁄T a:25o C¡⁄T max:125o CThermal Time ConstantThe time necessary for an unloaded thermistor to vary its temperature by 63.2%of the difference between its initial and final temperatures. Initial temperature is 85¡0.1o C and final temperature is 47.1¡0.1o C.Resistance @ 25o CThe zero-power resistance at the standard temperature of 25o C . The zero-power resistance means the value of DC resistance of a thermistor measured at a specified temperature,with electric load being kept so small that there is no noticeable change in the measured resistance by the influence of the applied electric load.Bconstant 25 / 85B = ln(R 0/R 1) / (1/T 0- 1/T 1) Without special note, B constant is calculated from the resistance values at 25oC and 85o C [B25/85], which is the most common.Dissipation constant (¥‰)Dissipation factor is defined as the ratio at a specified ambient temperature of a change in power dissipation in a thermistor to the resultant body temperature change. ¡⁄¥= P/( T 1- 25o C ) mW/ o C ¡⁄P : dissipated power ¡⁄T1 : thermistor temp, 85¡0.1o C Maximum power rating PThis is the maximum handling power, keeping its temperature not exceeding the allowed maximum temperature for operation. ¡⁄P max = ¥(T max - T a )¡⁄¥:dissipation constant ¡⁄T a :25o C ¡⁄T max :125o C Thermal Time ConstantThe time necessary for an unloaded thermistor to vary its temperature by 63.2%of the difference between its initial and final temperatures. Initial temperature is 85¡0.1o C and final temperature is 47.1¡0.1o C .2012(0805) sizeRESISTANCE VS. TEMPERATURE TABLERELIABILITY TEST METHODStructure and Dimension CHIP STRUCTURECHIP DIMENSIONSize A B C D E F G H Jtnote 1608 1.0¡0.1 1.9¡0.18.0¡0.1 3.5¡0.05 1.75¡0.1 4.0¡0.1 2.0¡0.05 4.0¡0.1 1.5+0.1-0.00.23¡0.02paper 10050.62¡0.04 1.12¡0.048.0¡0.1 3.5¡0.05 1.75¡0.1 4.0¡0.1 2.0¡0.05 4.0¡0.1 1.5+0.1-0.00.6¡0.05paperTape and Reel Packaging for Paper PackageStructure of TapingTaping must have leader and empty component compartment as shown in the following figure.Size A B W F E P1P2P0D0t1t2note 3216 1.73¡0.1 3.56¡0.18.0+0.3-0.1 3.5¡0.05 1.75¡0.1 4.0¡0.1 2.0¡0.05 4.0¡0.1 1.5+0.1-0.00.23¡0.02 1.14¡0.1emboss 2012 1.45¡0.1 2.25¡0.18.0+0.3-0.1 3.5¡0.05 1.75¡0.1 4.0¡0.1 2.0¡0.05 4.0¡0.1 1.5+0.1-0.00.23¡0.02 1.0¡0.1embossTape and Reel Packaging for Emboss PackagePackage Quantity12,000(pcs/Reel) - 1005 size4,000(pcs/Reel) - 1608, 2012, 3216 sizePackagingRecommended Land PatternSolderingHand soldering : 280o C max., 5sec max.Reflow profileComponent LayoutLocate the product horizontal to the direction at which bending is applied.Component MountingSMT Process CharacteristicsSolder and FluxSolder : Eutetic solder recommended Flux : Rosin based flux recommendedHalogen content 0.2 w% or less recommendedFlow profile。

AD2000-W01. AD2000规范W系列适用用于压力容器承压部件的不同产品类型的制造的金属。

AD2000规范规定对于产品的质量，制造和试验的总则。

AD2000规范W系列规定了各种产品类型的适用和要求，例如：板、带、管。

AD2000规范不包含下面材料：－垫圈－附件和安装零件－阀体－其他的附件AD2000规范A4包含阀体AD2000规范N系列覆盖非金属材料。

2．总的要求2．1材料应获得最终结构件所要求的机械性能。

与容器连接的材料既不能有严重的腐蚀倾向，同时也不能形成危险的化合物。

2．2当采用正确的工艺，采购商或容器制造商应选择与在役条件完全相容的性能的材料。

应检查规定的最低运行温度范围是否满足PED附录1中的要求。

2．3供货条件下的材料的质量特性，尤其满足2.1和2.2条件，加工过程中影响质量采取的措施应在材料规程中有所描述。

这种文件应优先全部或部分参考标准或其他技术供货条件。

2．4产品检验通常由制造商进行。

除非在材料规程中有其他描述（见3.4.1），相关的DIN标准和试验单适用于试验程序。

3．压力容器用材3．1特殊要求3．1．1材料规程是压力容器用材适用性评估的基础。

为了满足条款2中的总要求，文件中制定的最低要求是;－规定化学成分和机械性能的要求－考虑加工和热处理方法和惯例的状况－证书的类型和内容的材料试验条件－标识要求－设计特性的条件3．1．2材料制造商应－采用确保产品制造和试验的设备－聘用有能力的人员进行制造、试验和检验机构进行无损检验（若材料规范中规定）。

－运用恰当的方法制造产品－确保质量控制和适当的记录，适用的产品制造和加工，同时也要满足材料规范中制定的条件对于原材料制造同样适用。

签发3.1证书的工厂检验师应满足DIN EN10204的条件。

名字和印章应通知相关第三方。

3．2材料适用性的制定材料的适用性应由第三方依据3.1.1材料规范来制定。

如果材料的适用性不能依据材料规范制定时，第三方应采取另外的基本安全条件和恰当的产品检验。