HA17723

Power Circuit and Motor-mounted Apparatus Certified for CanadaAccessories, "Inrush Limiter SITOP Series", Model(s) 6EP1967-2AA00 Accessories , Model(s) 6EP4134-3AB00-0AY0, 6EP4134-3AB00-1AY0, 6EP4134-3AB00-2AY0, 6EP4136-3AB00-0AY0, 6EP4136-3AB00-1AY0, 6EP4136-3AB00-2AY0, 6EP4137-3AB00-0AY0, 6EP4137-3AB00-1AY0, 6EP4137-3AB00-2AY0Industrial control equipment, miscellaneous apparatus , Model(s) 6EP1333-1AL12, 6EP1333-3BA00, 6EP1333-3BA00-8AC0, 6EP1334-1AL12, 6EP1334-3BA00, 6EP1334-3BA00-8AB0, 6EP1336-2BA10, 6EP1336-3BA00, 6EP1336-3BA00-8AA0, 6EP1336-3BA10, 6EP1337-3BA00, 6EP1424-3BA00, 6EP1433-0AA00, 6EP1434-2BA10, 6EP1436-2BA10, 6EP1436-3BA00, 6EP1436-3BA00-8AA0, 6EP1436-3BA01, 6EP1436-3BA10, 6EP1437-2BA20, 6EP1437-3BA00, 6EP1437-3BA00-0AA0, 6EP1437-3BA00-8AA0, 6EP1437-3BA10, 6EP1437-3BA20, 6EP1456-2BA00, 6EP1456-3BA00, 6EP1457-3BA00, 6EP1457-3BA00-0AA0, 6EP1961-3BA01, 6EP1962-2BA00, 6EP1964-2BA00Industrial control equipment, miscellaneous apparatus, current monitors , Model(s) 6EP1961-2BA00Industrial control equipment, miscellaneous apparatus, hold-up modules , Model(s) 6EP1961-3BA00Industrial control equipment, miscellaneous apparatus, redundance modules , Model(s) 6EP1961-3BA20, 6EP1961-3BA21Industrial control equipment, miscellaneous apparatus, signaling modules , Model(s) 6EP1961-3BA10Miscellaneous apparatus, power supplies, open type , Model(s) 6EP1311-1SH02, 6EP1311-1SH03, 6EP1311-1SH12, 6EP1311-1SH13, 6EP1321-1SH02, 6EP1321-1SH03, 6EP1321-5BA00, 6EP1322-1SH02, 6EP1322-1SH03, 6EP1322-5BA10, 6EP1331-1SH02, 6EP1331-1SH03, 6EP1331-5BA00, 6EP1331-5BA10, 6EP1332-1SH04, 6EP1332-1SH42, 6EP1332-1SH43, 6EP1332-1SH51, 6EP1332-1SH52, 6EP1332-1SH61, 6EP1332-1SH71, 6EP1332-5BA00, 6EP1332-5BA10, 6EP1332-5BA20, 6EP1351-1SH02, 6EP1351-1SH03, 6EP1352-1SH02, 6EP1352-1SH03, 6EP1536-3AA00Miscellaneous apparatus, Power Supply Accessories, open type , Model(s) 6EP1931-2DC21, 6EP1931-2DC31, 6EP1931-2DC42, 6EP1931-2EC01, 6EP1931-2EC11, 6EP1931-2EC21, 6EP1931-2EC31, 6EP1931-2EC42, 6EP1931-2FC21, 6EP1931-2FC42, 6EP1933-2EC41, 6EP1933-2EC51, 6EP1935-5PG01Power supplies , Model(s) 6EP1321-1LD00, 6EP1332-1LD00Power supplies, open type, "AS-Interface Series", Model(s) 3RX9501-0BA00, 3RX9501-1BA00, 3RX9501-2BA00, 3RX9502-0BA00, 3RX9503-0BA00, 3RX9511-00AA00, 3RX9512-00AA00, 3RX9513-00AA00Power supplies, open type, "SITOP Series", Model(s) 6EP1322-2BA00, 6EP1322-2BA10, 6EP1323-2BA00, 6EP1332-2BA20, 6EP1333-2AA01, 6EP1333-2AA01-0AA0, 6EP1333-2BA01, 6EP1333-2BA20, 6EP1334-2AA01, 6EP1334-2AA01-0AA0, 6EP1334-2AA01-0AB0, 6EP1334-2AA01-0AC0, 6EP1334-2BA01, 6EP1334-2BA20, 6EP1332-1LB00, 6EP1333-1LB00, 6EP1334-1LB00Switch mode power supplies, open type, "SITOP EVS", Model(s) (SITOP EVP 100)6EP1232-1AA10, (SITOP EVP 150)6EP1233-1AA00, (SITOP EVP 300)6EP1234-1AA00, (SITOP EVP 60)6EP1232-1AA00Switch mode power supplies, open type, "SIYOUNG Power", Model(s) (SIYOUNG Power 100)6EP0123-2AAO-0AB0, (SIYOUNG Power 150)6EP0123-3AAO-0AB0, (SIYOUNG Power 300)6EP0123-4AAO-0AB0, (SIYOUNG Power 60)6EP0123-2AAO-0AA0Switching Power Supplies , Model(s) 6EP1322-1LD00, 6EP1331-1LD00, 6EP1332-1LD10, 6EP1333-1LD00, 6EP1334-1LD00NMTR7.E197259Power Circuit and Motor-mounted Apparatus Certified for CanadaPage BottomSee General Information for Power Circuit and Motor-mounted Apparatus Certified for CanadaSIEMENS AGE197259OESTERREICHSIMEAPOSTFACH 83, SIEMENSSTRASSE 901211 VIENNA, AUSTRIALast Updated on 2013-05-20Questions? Print this page Terms of Use Page Top© 2013 UL LLCWhen the UL Leaf Mark is on the product, or when the word "Environment" is included in the UL Mark, please search the UL Environment database for additional information regarding this product's certification.The appearance of a company's name or product in this database does not in itself assure that products so identified have been manufactured under UL's Follow-Up Service. Only those products bearing the UL Mark should be considered to be Certified and covered under UL's Follow-Up Service. Always look for the Mark on the product.UL permits the reproduction of the material contained in the Online Certification Directory subject to the following conditions: 1. The Guide Information, Assemblies, Constructions, Designs, Systems, and/or Certifications (files) must be presented in their entirety and in a non-misleading manner, without any manipulation of the data (or drawings). 2. The statement "Reprinted from the Online Certifications Directory with permission from UL" must appear adjacent to the extracted material. In addition, the reprinted material must include a copyright notice in the following format: "© 2013 UL LLC".。

July 2015 • H-1-5219tTECHNICAL DATA / COLOR NEGATIVE FILMKODAK VISION3 500T ColorNegative Film 5219 / 7219 / SO-219KODAK VISION3 500T Color Negative Film 5219 / 7219 / SO-219 gives you control and flexibility at every phase of the filmmaking process—from capture through post, in both digital and traditional workflows.VISION3 500T Film has outstanding skin tones and color reproduction, while adding technical innovations that improve product performance and increase product versatility. The proprietary, advanced Dye Layering Technology (DLT) provides noticeably reduced grain in shadows, allowing you to pull out an amazing amount of shadow detail. The proprietary Sub-Micron Technology enables 2 stops of extended highlight latitude, so you can follow the action into bright light-in a single shot-without worrying about blown-out details.VISION3 500T Film is designed to extend thecapabilities of the DI (digital intermediate) process. The improved grain provides better to signal to noisecapabilities allowing the colorist to provide greater detail in shadows, while the extended highlight latitude enables improved digital "dodging and burning" to provide more details in highlights.BASEKODAK VISION3 500T Color Negative Films 5219 and 7219 have an acetate safety base with rem-jet backing.KODAK VISION3 500T Color Negative Film SO-219 has an ESTAR Safety Base with rem-jet backingSTORAGEStore unexposed film at 13°C (55°F) or lower. Forextended storage, store at -18°C (0°F) or lower. Process exposed film promptly.Store processed film according to the recommendations in ISO 18911:2010, Imaging Materials - Processed Safety Photographic Films - Storage Practices .This relates to optimized film handling rather than preservation; static, dust-attraction and curl-related problems are generally minimized at the higher relative humidity. After usage, the film should be returned to theShort T erm(less than 6 months)Long T erm(more than 6 months)Unexposed film in original, sealed package 13°C (55°F)RH below 60%-18 to -23°C (0 to-10°F)RH below 50%Exposed film, unprocessed -18 to -23°C (0 to-10°F)RH below 20%Not recommended.Process film promtly.Process film21°C (70°F)RH 20 to 50%2°C (36°F)RH 20 to 30%appropriate medium- or long-term storage conditions as soon as possible.Warm-upT imesT o prevent film telescoping, moisture condensation, and spotting, allow your film to warm to room temperature before use:For more information about film storage and handling, see ANSI/PIMA ISO-18911, SMPTE RP131-2002, and KODAK Publicatio No. H-845, The EssentialReference Guide for Filmmakers , available online at /go/referenceguide.DARKROOM RECOMMENDATIONSDo not use a safelight. Handle unprocessed film in total darkness.EXPOSUREExposure IndexesTungsten (3200K) - 500 Daylight - 320 (with 85 filter)Use these indexes with incident- or reflected-light exposure meters and cameras marked for ISO or ASA speeds or exposure indexes. These indexes apply for meter readings of average subjects made from the camera position or for readings made from a gray card of18-percent reflectance held close to and in front of the subject. For unusually light- or dark-colored subjects, decrease or increase the exposure indicated by the meter accordingly.Film Package Typical Warm-up Time (Hours)14°C (25°F) Rise55°C (100°F) RiseSuper 81 1 1/216 mm 1 1 1/235 mm35Color BalanceThese films are balanced for exposure with tungsten illumination (3200K). You can also expose them with tungsten lamps that have slightly higher or lower color temperatures (+/- 200K) without correction filters, since final color balancing can be done in printing.* These are approximate corrections only. Make final corrections duringprinting.† These are starting-point recommendations for trial exposures. If the kind of lamp is unknown, a KODAK Color Compensating Filter CC30R + CC20Y can be used with an exposure index (EI) of 250.Note: Consult the manufacturer of high-intensity ultraviolet lamps for safety information on ultraviolet radiation and ozone generation.Exposure Table—Tungsten LightAt 24 frames per second (fps), 180-degree shutteropening, use this table for average subjects that contain a combination of light, medium, and dark colors:Reciprocity CharacteristicsYou do not need to make any filter corrections or exposure adjustments for exposure times from 1/1000 of a second to 1 second.Light Source KODAK Filters on Camera *Exposure Index T ungsten (3000 K)None 500T ungsten (3200 K)None 500KINO FLO 29KINO FLO 32None500Daylight (5500 K)WRATTEN 2 OpticalFilter / 85320Metal Halide WRATTEN 2 OpticalFilter / 85320H.M.I.WRATTEN 2 OpticalFilter / 85320KINO FLO 55WRATTEN 2 OpticalFilter / 85320Fluorescent, Warm White †CC30R + CC05M320Fluorescent, Cool White †CC40R160Lens Aperture f /1.4f /2f /2.8f /4f /5.6f /8f /11f /16Footcandles Required510204080160320640PROCESSINGProcess in Process ECN-2.Most commercial motion-picture laboratories provide a processing service for these films. See KODAK Publication No. H-24.07, Processing KODAK Color Negative Motion Picture Films, Module 7 available online at/go/h24, for more information on the solution formulas and the procedure for machineprocessing these films. There are also pre-packaged kits available for preparing the processing solutions. For more information on the KODAK ECN-2 Kit Chemicals, check Kodak's Motion Picture Films for Professional Use price catalog, also available online at /go/motion.IDENTIFICATIONAfter processing, the product code numbers 5219 (35 mm), 7219 (16 mm), or SO-219 (16, 35, and 65 mm; edgeprint shows 0219) emulsion, roll, and strip number identification, KEYKODE Numbers, and manufacturer/film identification code (EJ) are visible along the length of the film.POST PRODUCTIONScanningThe wider exposure latitude in KODAK VISION3 Films differentiate film capture from the limited dynamic range of digital capture. Digital "dodging and burning," a very powerful tool in the colorists' toolkit, is now even more powerful—up to two stops more image information can be extracted from scene highlights in VISION3 Films.If traditional 10-bit scanner data encoding schemes are used to digitize films having this extended density range, highlight information captured on these film could be lost. Kodak has recommendations for extracting the full density range stored on high dynamic range films in a technical document titled Scanning Recommendations for Extended Dynamic Range Camera Films , available online at /go/scanning.Laboratory Aim Densities (LAD)T o maintain optimum quality and consistency in the final prints, the laboratory must carefully control the color timing, printing, and duplicating procedures. T o aid in color timing and curve placement, negative originals should be timed relative to Laboratory Aim Density (LAD) Control Film supplied by Eastman Kodak Company. The LADControl Film provides both objective sensitometric control and subjective verification of the duplicating procedures used by the laboratory.In the LAD Control Method, the electronic color analyzer used for color timing is set-up with the LAD Control Film to produce a gray video display of the LAD patch, corresponding to 1.0 neutral density (gray) on the print. The negative printing original is then scene-to-scene timed. There are specific LAD values for each type of print or duplicating film that the original can be printed on. Forprint films, the LAD patch is printed to a neutral gray of 1.0 visual density. For duplicating films, the specified aims are at the center of the usable straight-line portion of the sensitometric curve of the film.Due to normal variations in exposure and processing of color negative films, particular scenes may not print exactly at the same printer lights as the LAD Control Film. The LAD Control Film is intended as a set-up tool for electronic color analyzers and printers. It is NOT a reference that every scene must match. Normalfilm-to-film and scene-to-scene exposure variability is accommodated by the color timing (grading) process, on an electronic color analyzer set up with the LAD Control Film. Normally exposed and processed color negatives will typically print well within the range of an additive printer setup with the LAD Control Film, although SIGNIFICANT or UNEXPECTED departures from this center point balance may indicate an exposure/filtration problem with the cinematography or with the process control. Some specialized films and/or specialized negative processing techniques (push-processing, pull-processing,"skip-bleach" processing, etc.) may require more extreme adjustment from the LAD printing condition to attain desired results.More information is contained in KODAK Publication H-61, Laboratory Aim Density, available online at/go/lad.Film-to-Tape TransfersWhen you transfer the film directly to tape, you can set up the telecine using KODAK T elecine Analysis Film (TAF) supplied by Eastman Kodak Company. The TAF consists of a neutral density scale and an eight-bar color test pattern with a LAD gray surround.The TAF gray scale provides the telecine operator (colorist) with an effective way to adjust subcarrier balance and to center the telecine controls before timing and transferring a film. The TAF color bars provide the utility of electronic color bars, even though they do not precisely match the electronically generated color bars. Using the TAF will help obtain optimum quality and consistency in the film-to-tape transfer. For more information regarding TAF, see KODAK Publication No. H-606, KODAK Telecine Tool Kit and Reference Manual, available online at /go/telecine. IMAGE STRUCTUREFor more information on image-structure characteristics, see KODAK Publication No. H-845, The Essential Reference Guide for Filmmakers available online at / go/referenceguide.Note: The sensitometric curves and data in this publication represent product tested under the conditions of exposure and processing specified. They are representative of production coatings, and therefore do not apply directly to a particular box or roll of photographic material. They do not represent standards or specifications that must be met by Eastman Kodak Company. The company reserves the right to change and improve product characteristics at any time.Modulation Transfer FunctionThe "perceived" sharpness of any film depends on various components of the motion picture production system. The camera and projector lenses and film printers, among other factors, all play a role. But the specific sharpness of a film can be measured and is charted in the Modulation Transfer Function Curve.This graph shows a measure of the visual sharpness of this film. The x-axis, "Spatial Frequency," refers to the number of sine waves per millimeter that can be resolved. The y-axis, "Response," corresponds to film sharpness. The longer and flatter the line, the more sine waves per millimeter that can be resolved with a high degree of sharpness—and, the sharper the film.rms Granularity:Read with a microdensitometer, (red, green, blue) using a 48-micrometer aperture.The "perception" of the graininess of any film is highly dependent on scene content, complexity, color, and density. Other factors, such as film age, processing, exposure conditions, and telecine transfer may also have significant effects.To find the rms Granularity value for a given density, find the density on the left vertical scale and follow horizontally to the characteristic curve and then go vertically (up or down) to the granularity curve. At that point, followhorizontally to the Granularity Sigma D scale on the right. Read the number and multiply by 1000 for the rms value. Note: This curve represents granularity based on modified measuring techniques. Sensitometric and Diffuse RMS Granularity curves are produced on different equipment. Aslight variation in curve shape may be noticed.SensitometryThe curves describe this film's response to red, green, and blue light. Sensitometric curves determine the change indensity on the film for a given change in log exposure.Note: The exposure scale for VISION3 5219 / 7219 Film is longer than previous VISION and VISON2 Films. Because of the extended highlight latitude we have expanded the exposure scale from a 0-4 increment to a 0-5 scale. In addition to the longer exposure scale, we are plotting 21 steps instead of 20.Spectral SensitivityThese curves depict the sensitivity of this film to the spectrum of light. They are useful for determining,KODAK VISION3 500T Color Negative Film 5219 / 7219 / SO-219Revised 7-15Printed in U.S.A.KODAK VISION3 500T ColorNegative Film 5219 / 7219 / SO-219Spectral Dye DensityThese curves depict the spectral absorptions of the dyes formed when the film is processed. They are useful for adjusting or optimizing any device that scans or prints the film.Spectral Dye Density CurvesNote: Cyan, Magenta, and Yellow Dye Curves arepeak-normalized.MORE INFORMATIONOutside the United States and Canada, please contact your Kodak representative. You can also visit our web site at /go/motion for further information. You may want to bookmark our location so you can find us easily the next time.H-2Cinematographer’s Field GuideH-845The Essential Reference Guide for Filmmakers H-24Manual for Processing KODAK Motion Picture Films, Process ECN-2 Specifications, Module 7H-61LAD—Laboratory Aim DensityH-606KODAK Telecine Tool Kit and Reference ManualSIZES AVAILABLEStandard Products Available*for AATON A-MINIMA CamerasIdentification No.Length in Metres (Feet)Core Description Perforations 65 mm SP332305 (1000)PEmulsion InKS-4740 (KS-1866)35 mm SP41730 (100)S-83 100-ft. spoolBH-4740 (BH-1866)35 mm SP71861 (200)U BH-4740 (BH-1866)35 mm SP718122 (400)U BH-4740 (BH-1866)35 mm SP718305 (1000)U BH-4740 (BH-1866)35 mm SP239710 (2000)YBH-4740 (BH-1866)16 mm SP45530 (100)R-90 100-ft. spoolWinding B 1R-7605 (1R-2994)16 mm SP445*61 (200)A-MIN Winding A 1R-7605 (1R-2994)16 mm SP457122 (400)T Winding B 1R-7605 (1R-2994)16 mm SP458244 (800)TWinding B1R-7605 (1R-2994)16 mm SP44930 (100)R-90 100-ft. spool 2R-7605 (2R-2994)16 mm SP578122 (400)S-153 400-ft. spool2R-7605 (2R-2994)16 mm SP451122 (400)T2R-7605 (2R-2994)16 mm SP434122 (400)S-153 400-ft. spool2R-7620 (2R-3000)S8 mm SP46415 (50)Super 8 cartridgeKodak, Eastman, Keykode, Vision, and Wratten are trademarks.。

Single-Function Safety Relays5-28Visit our website: /catalogsPublication S117-CA001A-EN-PMSR131RTPDescriptionThe MSR131RTP is a versatile monitoring safety relay. It can be connected in four different input wiring configurations: one normally closed, 2 normally closed, 2 PNP connections from a light curtain,or a four-wire safety mat. When connected in the two normally closed fashion, the MSR131RTP checks for cross faults across the two inputs. When connected to light curtains, the light curtain must perform the cross-fault detection.The MSR131RTP has output monitoring that can accommodate either automatic/manual reset or a monitored manual reset. When configured with automatic/manual reset (jumpers on X1-X2 and X3-X4), the MSR131RTP can have the reset terminals S33-S34jumpered or can be converted to an unmonitored manual reset by adding a normally open switch in the monitoring loop (S33-S34).When configured to monitored manual reset, the MSR131RTPchecks the output monitoring circuit through the manual application of the reset switch.The outputs include three normally open safety rated outputs, two normally closed auxiliary outputs, and two solid-state outputs. One solid-state output indicates that the inputs are closed. The second solid-state output indicates that the safety outputs are active.The safety outputs have independent and redundant internalcontacts to help ensure the safety function. The auxiliary output is a nonsafety output intended to provide an external signal about the status of the safety outputs.FeaturesCategory 4 per EN 954-1 Stop category 0Light curtain, safety mat, E-stop inputs Three safety contacts Two auxiliary contact Two solid-state outputs Cross fault monitoringMonitored or automatic reset Removable terminalsLED IndicatorsGreen Power Green Start Green CH1 Input Closed Green CH2 Input Closed Green CH1 Output Active GreenCH2 Output ActiveSpecificationsSafety Ratings StandardsEN 954-1, ISO 13849-1, IEC/EN 60204-1,IEC 60947-4-1, IEC 60947-5-1, ANSI B11.19,AS4024.1Safety ClassificationCat. 4 per EN 954-1 (ISO 13849-1), SIL CL3 per EN IEC 62061, PLe per ISO 13849-1Functional Safety Data 1Note : For up-to-dateinformation, visit/Safety/PFH D : < 1.67 x 10-9MTTFd: > 389 years Suitable for performance levels Ple (according to ISO 13849-1:2006) and for use in SIL3systems (according to IEC 62061) depending onthe architecture and application characteristics Certifications CE Marked for all applicable directives, cULus,BG, and c-TickPower Supply Input Power Entry 24V AC/DC, 115V AC or 230V AC Power Consumption 4 WInputs Safety Inputs 1 N.C., 2 N.C., LC or SM Input Simultaneity Infinite Input Resistance, Max.45 ΩResetAuto./Manual or Monitored Manual Power On Delay/Recovery Time 1 second/100 ms Response Time 15 msOutputs Safety Contacts 3 N.O.Auxiliary Contacts 2 N.C.; 1 SS PNP inputs closed; 1 SS PNP outputs active; 30V DC/20 mA solid state Thermal Current I lth 1 x 6 A or 3 x 5 A nonswitching Rated Impulse withstand Voltage2500V Switching Current @Voltage, Min.10 mA @ 10VFuses, OutputExternal 6 A slow blow or 10 A fast acting Electrical Life (Operations)(With surge suppression)250V AC/6 A/1500VA cos φ= 1…0.1 M 250V AC/2.5 A/625VA cos φ= 1…0.5 M 250V AC/1.5 A/375VA cos φ= 0.35…0.3 M 250V AC/5 A/1250VA cos φ= 0.6…0.1 M 24V DC/2 A/48 W = 1 M 10V DC/0.01 A/0.1 W = 2 M Mechanical Life 2,000,000 operations Utilization Category Resistive: AC-1 6 A/250V AC Resistive: DC-1 6 A/24V DC Inductive: AC-15 6 A/250V AC 6 A/125V AC Inductive: DC-13 3 A/24V DC6 A/24V DC @ 6ops/minULB300, R300, 1 x 6 A or 2 x 5 A resistive/250V AC, 24V DC Environmental and Physical Characteristics Enclosure Type Rating/Terminal ProtectionIP40 (NEMA 1)/IP20Operating Temperature [C (F)]-5…+55° (23…131°)Vibration 10…55 Hz, 0.35 mm Shock 10 g, 16 ms 100 shocks Mounting 45 mm housing, 35 mm DIN RailWeight [g (lbs)]24V DC: 320 (0.71) 115/230V AC: 450 (0.99)Conductor Size, Max.0.2…4 mm 2(24…12 AWG)1Usable for ISO 13849-1:2006 and IEC 62061. Data is based on thefollowing assumptions:- Mission time/Proof test interval of 20 years- Functional test at least once within six-month periodSingle-Function Safety Relays5-29Visit our website: /catalogsPublication S117-CA001A-EN-PMSR131RTP5-S a f e t y R e l a y sProduct SelectionDimensions are shown in mm (in.). Dimensions are not intended to be used for installation purposes.Block DiagramTypical Wiring DiagramsLight Curtain, Monitored Manual Reset,Monitored OutputSingle Channel Safety Gate, Automatic Reset,No Output MonitoringDual Channel E-Stop, Monitored Manual Reset,Monitored OutputSafety Mat, Automatic Reset,No Output Monitoring115/230V AC Supply, 24V DC, Light Curtain,Monitored Manual Reset, Monitored Output 115/230V AC Supply, 24V DC, Light Curtain,Monitored Manual Reset, No Output MonitoringApproximate Dimensions。

建设项目环境影响报告表（试行）项目名称:北京市通州区台湖镇4-1-011、4-1-013、4-1-018、4-1-026、4-1-037地块F3其它类多功能，4-1-022地块F2公建混合住宅项目建设单位(盖章):北京中维泰禾置业有限公司编制日期2015年9月国家环境保护总局制建设项目基本情况项目名称北京市通州区台湖镇4-1-011、4-1-013、4-1-018、4-1-026、4-1-037地块F3其它类多功能，4-1-022地块F2公建混合住宅项目建设单位北京中维泰禾置业有限公司法人代表胡卫国联系人李然通讯地址北京市通州区台湖镇环渤海高端总部基地联系电话150****0551传真邮政编码101116建设地点北京市通州区台湖镇立项审批部门北京市发展和改革委员会批准文号建设性质新建√改扩建□技改□行业类别及代码房地产业建筑面积(平方米)253361.84绿化面积(平方米)50277总投资(万元)267950其中：环保投资(万元)385环保投资占总投资比例0.14评价经费(万元)预期投产日期2018年7月工程内容及规模：一、项目背景通州区北京环渤海高端总部基地，位于北京市东南五环外，通州区与亦庄经济技术开发区的交界处。

该基地占地面积17.21km2，规划建筑规模1720万m2。

总部基地是通州区“一核五区”中的重要一区，是北京东南部现代服务业和战略性新兴产业聚集区的重要节点，同时总部基地还是北京市、通州区两级土储项目，得到北京市委市政府的大力支持。

目前总部基地已纳入中关村国家自主创新示范区，享受中关村相关优惠政策和产业扶持政策。

按照环渤海高端总部基地（两站一街）的整体规划设想，该地区分为核心商务区、总部基地园区、绿色生活区、别墅区、回迁区、生态设施园和城市湿地等功能片区，其中北部城市蓄滞洪地区将被打造为精品城市湿地，是总部基地整体规划的亮点之一。

本项目位于北京市通州区台湖镇，为通州区的住宅、商业、综合及配套用房。

HA17723/F/PPrecision Voltage RegulatorDescriptionThe HA17723 high-accuracy general-purpose voltage regulator features a very low stand-by current, (quiescent current) a low temperature drift, and high ripple rejection ratio. If you need over than 150mA output current, adding external PNP or NPN transistor. This voltage regulator is suitable for various applications, for example, series or parallel regulator, switching regulator.Ordering InformationType No.Application PackageHA17723Commercial use DP-14HA17723F FP-14DAHA17723P Industrial use DP-14Pin ArrangementHA17723/F/P Circuit Schematic2HA17723/F/P3Absolute Maximum Ratings (Ta = 25°C)ItemSymbol HA17723/P HA17723F Unit Supply voltageVCC 4040V Input/Output voltage differential Vdiff (IN-O)4040V Differential input voltage V IN (diff)±5±5V Maximum output current I OUT 150150mA Current from VREF I REF 1515mA Power dissipation P T 830 (Note 1)625 (Note 2)mW Operating temperature Topr 0 to +70 / –20 to +750 to +70°C Storage temperatureTstg–55 to +125–55 to +125°CNotes: 1.Above 25°C derate by 8.3mW/°C2.Allowable temperature of IC junction part, Tj (max), is as shown below.Tj (max) = θj - a • Pc (max)+Ta(θj - a is thermal resistance value during mounting, and Pc (max) is the maximum value of IC power dissipation.)Therefore, to keep Tj (max) ≤ 125°C, wiring density and board material must be selected according to the board thermal conductivity ratio shown below.Be careful that the value of Pc (max) does not exceed that P T .HA17723/F/P4Electrical Characteristics (Ta = 25°C)ItemSymbol Min Typ Max Unit Test Conditions Line regulationδV O Line—0.010.1%V IN = 12 to 15V —0.10.5%V IN = 12 to 40V ——0.4%V IN = 12 to 15V,TA = –20 to +75°C ——0.3%V IN = 12 to 15V,Ta = 0 to +70°C Load regulationδV O Load—0.030.2%I OUT = 1 to 50mA ——0.7%V IN = 12 to 15V,TA = –20 to +75°C ——0.6%I OUT = 1 to 50mA,Ta = 0 to +70°C Ripple rejectionR REJ—74—dBf = 50Hz to 10kHzC REF = 0—86—C REF = 5µFAverage temperaturecoefficient of output voltage δV O /δT—0.0030.018%/°C TA = –20 to +75°C —0.0030.015%/°C Ta = 0 to +70°C Reference voltage V REF 6.807.157.50V V IN = V CC = V C = 12V,V EE = 0Standby current I ST —— 4.0mA V IN = 30V, I L = 0Short circuit current limitI SC—65—mA R SC = 10Ω, V OUT = 0Electrical Characteristics Measuring CircuitHA17723/F/P5HA17723 ApplicationsFixed Voltage Source in SeriesLow Voltage (2 to 7 V) Regulator: Figure 1 shows the construction of a basic low voltage regulator. The divider (resistors R 1 and R 2) from V REF makes the reference voltage, which will be provided to the noninverted input of the error amplifier, less than output voltage. In the fixed voltage source where the output voltage will be fed back to the error amplifier directly as shown in figure 1. Output voltage will be divided VREF since the output voltage is equal to the reference voltage.Thus, the output voltage V OUT is:V OUT = nV REF , n =R 212Figure 1 Low Voltage (2 to 7 V) RegulatorHigh Voltage (7 to 37 V) Regulator: Figure 2 shows the construction of a regulator whose output voltageis higher than the reference voltage, V REF . V REF is added to the non-inverted input of the error amplifier via a resistor, R 3. The feedback voltage is produced by dividing the output voltage with resistors R 1 and R 2.Thus, the output voltage V OUT is:V OUT =, n =V REF R 212Figure 2 High Voltage (7 to 37 V) RegulatorHA17723/F/P6Negative Voltage Regulator: Figure 3 shows the construction of a so-called negative voltage regulator,which generates a negative output voltage with regard to GND. Assume that the output voltage, –V OUT ,increases in the negative direction. As the voltage across the R 1 is larger than that across the R 3, which provides the reference voltage, the output current of the error amplifier increases. In the control circuit, the impedance decreases with the increase of input current, which makes the base current of the external transistor Q approach GND. As a result, the output voltage returns to the established value and output voltage is stable.The output voltage –VOUT of this circuit is:–V OUT = –= –V REF×VREF×R 334(R 1 + R 2) · (R 3 + R 4)234412R 1 + R 2R 3 + R 4R 3R 1Figure 3 Negative Voltage RegulatorHow to Increase the Output Current: To increase the output current, you must increase the current capacity of the control circuit. Figures 4 and 5 show examples with external transistors.Figure 4 Increasing Output Current (1)HA17723/F/P7Figure 5 Increasing Output Current (2)Fixed Voltage Source in Parallel ControlFigure 6 shows the circuit of a fixed voltage source in parallel control.Figure 6 Fixed Voltage Source in Shunt RegulatorSwitching RegulatorFigure 7 shows a switching regulator circuit. The error amplifier, control circuit, and forward feedback circuit R 4 and R 3 operate in together as a comparator, and make the external transistors Q 1 and Q 2 to turn on/off. In this circuit, the self-oscillation stabilizes the output voltage and the change in output is absorbed by the changes of the switches conducting period.Figures 8 and 9 show a negative voltage switching regulator circuit and its characteristics.HA17723/F/PFigure 7 Positive Voltage Switching RegulatorFigure 8 Negative Voltage Switching Regulator 8HA17723/F/PFigure 9 Negative Voltage Switching Regulator Operating Characteristics9HA17723/F/P10Floating-Type Fixed Voltage SourceVoltage sources of the floating type or boost type are typically employed when high voltage output is required. Figure 10 shows the circuit of a floating-type fixed voltage source. Considering the stabilization in this circuit, assume that the output voltage increases. At the input terminal of the error amplifier the non-inverted input will become low compared with the inverted input, and the output current of the error amplifier decreases. Then, the current from the terminal V Z in the control circuit decreases. As a result the base current of the external resistor Q 1 will decrease and collector current will decrease, controlling increase of the output voltage.The output voltage V OUT in the circuit in figure 10V OUT =– 1 V REF×R 1 + R 2R 3 + R 4R 4R 1Figure 11 is the circuit diagram of a negative fixed voltage source in floating type.Figure 10 Positive Voltage Floating RegulatorFigure 11 Negative Voltage Floating RegulatorFixed Voltage Source with Reduction Type Current LimiterFigure 12 Fixed Voltage Source with Reduction Type Current LimiterFigure 13 Current Control Characteristics of Fixed Voltage Sourcewith Reduction Type Current LimiterFixed Voltage Source Switching External ControlFigure 14 Fixed Voltage Source Switching External ControlFigure 15 Operating Characteristics of Fixed Voltage Source Switching External ControlCharacteristic CurvesPackage DimensionsCautions1.Hitachi neither warrants nor grants licenses of any rights of Hitachi’s or any third party’s patent,copyright, trademark, or other intellectual property rights for information contained in this document.Hitachi bears no responsibility for problems that may arise with third party’s rights, includingintellectual property rights, in connection with use of the information contained in this document.2.Products and product specifications may be subject to change without notice. Confirm that you have received the latest product standards or specifications before final design, purchase or use.3.Hitachi makes every attempt to ensure that its products are of high quality and reliability. However,contact Hitachi’s sales office before using the product in an application that demands especially high quality and reliability or where its failure or malfunction may directly threaten human life or cause risk of bodily injury, such as aerospace, aeronautics, nuclear power, combustion control, transportation,traffic, safety equipment or medical equipment for life support.4.Design your application so that the product is used within the ranges guaranteed by Hitachi particularly for maximum rating, operating supply voltage range, heat radiation characteristics, installationconditions and other characteristics. Hitachi bears no responsibility for failure or damage when used beyond the guaranteed ranges. Even within the guaranteed ranges, consider normally foreseeable failure rates or failure modes in semiconductor devices and employ systemic measures such as fail-safes, so that the equipment incorporating Hitachi product does not cause bodily injury, fire or other consequential damage due to operation of the Hitachi product.5.This product is not designed to be radiation resistant.6.No one is permitted to reproduce or duplicate, in any form, the whole or part of this document without written approval from Hitachi.7.Contact Hitachi’s sales office for any questions regarding this document or Hitachi semiconductor products.Hitachi, Ltd.Semiconductor & Integrated Circuits.Nippon Bldg., 2-6-2, Ohte-machi, Chiyoda-ku, Tokyo 100-0004, Japan Tel: Tokyo (03) 3270-2111 Fax: (03) 3270-5109Copyright ' Hitachi, Ltd., 1998. All rights reserved. Printed in Japan.Hitachi Asia Pte. Ltd.16 Collyer Quay #20-00Hitachi TowerSingapore 049318Tel: 535-2100Fax: 535-1533URLNorthAmerica : http:/Europe : /hel/ecg Asia (Singapore): .sg/grp3/sicd/index.htm Asia (Taiwan): /E/Product/SICD_Frame.htm Asia (HongKong): /eng/bo/grp3/index.htm Japan : http://www.hitachi.co.jp/Sicd/indx.htmHitachi Asia Ltd.Taipei Branch Office3F, Hung Kuo Building. No.167, Tun-Hwa North Road, Taipei (105)Tel: <886> (2) 2718-3666Fax: <886> (2) 2718-8180Hitachi Asia (Hong Kong) Ltd.Group III (Electronic Components)7/F., North Tower, World Finance Centre,Harbour City, Canton Road, Tsim Sha Tsui,Kowloon, Hong Kong Tel: <852> (2) 735 9218Fax: <852> (2) 730 0281 Telex: 40815 HITEC HXHitachi Europe Ltd.Electronic Components Group.Whitebrook ParkLower Cookham Road MaidenheadBerkshire SL6 8YA, United Kingdom Tel: <44> (1628) 585000Fax: <44> (1628) 778322Hitachi Europe GmbHElectronic components Group Dornacher Stra βe 3D-85622 Feldkirchen, Munich GermanyTel: <49> (89) 9 9180-0Fax: <49> (89) 9 29 30 00Hitachi Semiconductor (America) Inc.179 East Tasman Drive,San Jose,CA 95134 Tel: <1> (408) 433-1990Fax: <1>(408) 433-0223For further information write to:。

123 34I1E1I1E1χrχr1216206910131417192171114151822I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχr242836 232527293132343538 263033363740I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχr394044464958626468707474787883 404246454750505053555457596064636670697276757680798084 41434848515254565861656771737782818286I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχr90949297971021068584878991969394989810310410810711312112787868892951009910511010911512396126I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχr130136174178180184190195208211 133132137176179180182186185191192196197203204207209209210220 134138177180181183187193194198205206208210211222135I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχr212287288291222223226265268269270269276280281283285288289292293294 223224228267270271274270278281282285286289290293294I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχrχr145162167138136140141146151159165164168169175139138142147153166170176I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχrχrχrχrχrχrχrχr233236238241243246225230231234238236239242241244247247249251252253258255261227232233235237240244243245248249250252254257260259262I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1I1E1χrχrχrχrχrχrχrχrχrχrχrχrχrχrχr元 素 周 期 表Periodic Table常用物理化学常数910712第1周期第2周期1.00794(7)Ar1312.072.77Ⅰ BⅡ BⅢ AⅣ AⅧ1718Ⅰ AⅡ AⅢ BⅣ BⅤ BⅥ BⅦ B81112131415345616Lithium3Li2.2030第3周期第4周期第5周期第6周期111.3MagnesiumBeryllium4Be铍Ar248Cesium55钙Ar40.078(4)589.8 2.37第7周期Hydrogen1H氢Ⅴ AⅥ ACs铯铷Ar85.4678(3)403.046.88418.848.380.82232Rubidium37RbPotassium19K钾Ar39.0983(1)4s19.0121831(5)899.5（—）1.57Ⅶ AAr22.98976928(2)495.852.870.931860.98152Sodium11Na钠3s1锂Ar 6.941(2)520.259.63Boron Carbon Nitrogen Oxygen FluorineB6C7N1313.9140.981681.0 393.0(44.38)1.31160Calcium20Ca12Mg镁Ar24.3050(6)3s2Radium88Ra0.7270Francium87Fr钫Ar[223]7s1Ar132.90545196(6)375.745.500.792650.824s2737.7（—）Barium56Ba钡Ar137.327(7)Ar87.62(1)549.5 4.630.952151.00197Strontium38Sr锶1.22180钇Ar88.90584(2)599.929.6218.141.36162Yttrium39Y0.9(220)Scandium21Sc钪Ar44.955908(5)633.1镭Ar[226]509.3(9.65)7s2502.913.950.89217.3640.141.104d25s2658.87.621.54147Zirconium40ZrTitanium22Ti钛Ar47.867(1)3d24s2(5.40)Vanadium23V钒ArRutherfordium104RfAr[267]6d27s2Ar178.49(2)658.5(1.35)1.31591.33160Hafnium72Hf铪5d26s2锆Ar91.224(2)1.5146Dubnium105Db6d37s2钽Ar180.94788(2)728.431.075d36s2652.188.381.6146Tantalum73Ta652.964.261.66128Molybdenum42MoChromium24Cr铬Ar51.9961(6)Ar[270](55.00)41Nb铌Ar92.90637(2)4d45s150.9415(1)650.950.651.63134NiobiumManganese25Mn锰ArSeaborgium106SgAr[269]Ar183.84(1)758.878.761.71392.16139Tungsten74W钨钼Ar95.95(1)684.372.171.9137Bohrium107Bh铼Ar186.207(1)755.8(14.47)702.4(53.07)2.10136Rhenium75ReCobaltIron58.933194(4)Ar55.845(2)Ar钴铁1251.881261.8363.87760.414.57762.5Ar[270]43Tc锝Ar[97.90721]54.938043(2)717.3（—）1.55127Technetium钌铑ArRuthenium Rhodium Palladium Silver44Ru45Rh46PdCo27Fe262.2134 2.28134 2.20137 1.93144710.2(101.31)719.7109.70804.454.22Ar101.07(2)102.90550(2)ArAr190.23(3)Ar192.217(3)Ar195.084(9)Ar196.966570(4)79Au锇铱铂金Osmium Iridium Platinum Gold76Os77Ir78Pt5d76s2Hassium Meitnerium Darmstadtium Roentgenium108Hs109Mt110Ds890.1222.752.2135 2.2135.5 2.2138.5 2.4144814.2(106.13)865.2150.88864.4205.326d77s2Ar[270]Ar[278]Ar[281]Ar[281]Neon—1402372.3（—）Ar 4.002602(2)氦2HeHelium111Rg731.0125.6247Ag硼碳氮氧氟氖8O9F10Ne5328.162080.7（—）Ar18.998403163(6)Ar20.1797(6)800.626.991086.5121.781402.3—Ar10.811(7)Ar12.0107(8)Ar14.0067(2)Ar15.9994(3)Aluminium Silicon Phosphorus Sulfur Chlorine Argon3.4466 3.9864—1542.0488 2.5577.23.0470铝硅磷硫氯氩16S17Cl18Ar13Al14Si15P3s23p1999.6200.411251.2348.571350.8（—）Ar35.453(2)Ar39.948(1)577.541.76786.5134.071011.872.04Ar26.9815384(3)Ar28.0855(3)Ar30.973761998(5)Ar32.065(5)Gallium Germanium Arsenic Selenium Bromine Krypton2.581043.1699—1921.61143.1 1.901172.19110锗砷硒溴氪34Se35Br36Kr31Ga32Ge33As镓Ar79.904(1)Ar83.798(2)578.841.49762.2118.94944.577.57Ar69.723(1)Ar72.630(1)Ar74.921595(6)Ar78.971(8)2.55117 2.96114—1981.811352.01128 2.01121941.0194.961139.9324.541170.3（—）碲碘氙52Te53I54Xe49In50Sn51SbIndium Tin Antimony Tellurium Iodine Xenon铟锡锑Ar126.90447(3)Ar131.293(6)558.328.95708.6107.30830.6100.92Ar114.818(1)Ar118.710(7)Ar121.760(1)Ar127.60(3)2.10137 2.66133 2.602181.78167 1.961512.05145869.3190.161008.4295.151037.1519.2（—）钋砹氡84Po85At86Rn81Tl82Pb83BiThallium Lead Bismuth Polonium Astatine Radon铊铅铋812.2(183.32)(270.16)（—）Ar[209.98715]Ar[222.01758]589.436.37715.635.12702.990.92Ar204.3833(2)Ar207.2(1)Ar208.98040(1)Ar[208.98243]118Og113Nh114Fl115McNihonium Flerovium Moscovium Livermorium Tennessine Oganesson2.0164 2.21.8170 1.8175 1.9154.7(75)(155)Ar[293]Ar[294](30)Ar[286]Ar[289]Ar[289]Ar[293]119.16906.4—Ar58.6934(4)Ar63.546(3)Ar65.409(4)镍铜锌Nickel Copper Zinc28Ni29Cu30Zn1007.1—867.8—1.69148.9Mercury80HgCadmium48Cd镉Ar112.414(4)1.91124 1.90128 1.65134钯银106.42(1)Ar107.8682(2)Pu95Md102No103LrAr[285]1.9151Copernicium112Cn6d107s2116Lv117TsAm96Cm97Bk98U93NpMendelevium Nobelium Lawrencium 89Ac90Th91Pa92Americium Curium Berkelium Californium Einsteinium FermiumActinium Thorium Protactinium Uranium Neptunium Plutonium94ArAr[227]Ar232.0377(4)Ar镄钔锘6d17s25f76d17s25f46d17s25f36d17s25f26d17s2铹钚镅锔锫锎锿[262.1097]5f67s2锕钍镤铀镎519.2(33.77)608.5568.3597.6604.5[257.09511]Ar[258.09843]Ar[259.1029]Ar[247.07031]Ar[251.07959]Ar[252.0830]Ar[244.06421]Ar[243.06138]Ar[247.07035]Ar231.03588(2)Ar238.02891(3)Ar[237.04817]1.3 1.5 1.7627.2634.9641.6598.0606.1614.4581.4576.3578.1Lanthanum Cerium Praseodymium Neodymium Promethium1.3 1.3478.61.168Er63Eu64Gd65Tb154 157152 156 160Thulium Ytterbium Lutetium 57La58Ce59PrSamarium Europium Gadolinium Terbium Dysprosium Holmium4f66s2镧铈镨钕钷钐144 148Ar173.045(10)Ar174.9668(1)Ar162.500(1)Ar164.930328(2)Ar167.259(3)4f75d16s24f15d16s2158.925354(8)Ar144.242(3)Ar140.116(1)Ar140.90766(2)铕钆铽镝钬铒573.0581.0589.3547.183593.4565.8183 1.12181.8 1.13182.4533.1538.6544.5538.145.35Ar138.90547(7)Ar1.14181.4—183.4 1.17180.4534.4[144.91276]Ar150.36(2)1s12s12s2La-Lu镧系89-103Ac-Lr锕系176.257-71La-Lu镧系89-103Ac-Lr锕系57-716s26s15s15s2价层电子构型1.22178.1 1.235d26s263528.19360Nd611.102s22p32s22p43s23p4Pm5d16s25d16s23s23p57s27p43s23p37s27p24f116s23d64s2184 188 192186 189187 1904f46s2142 145 150143 1463d54s13d34s24d75s15d66s26d67s24f56s262Sm6s26p35s25p34s24p369Tm加中括号的为元素半衰期最长的同位素的质量数；末尾数的不确定度加注在其后的小括号内1s22s22p63s23p66s26p55s25p54s24p54f136s24f146s24s24p45s25p46s26p4120 124 128122 125 130123 126737.1111.54745.54f126s24s24p25s25p26s26p22s22p23s23p26s26p15s25p14s24p14f96s24f106s23d104s24d105s25d106s2Erbium未加括号的为实验值，加括号的为理论值，“—”表示不稳定18族稀有气体为范德华半径；金属元素为金属半径；非金属元素为共价半径4s24p65s25p66s26p6124 129 132126 130 134128 131 1362s22p52s22p1—208.4 1.20180.4—177.3Ar151.964(1)Ar157.25(3)Ar1.25175.9—193.3 1.0173.81.24176.1相对原子质量6d57s24f36s26d47s25d46s24d55s1Ar168.934218(6)168 172 176170 173171 174106 111 114108 112 116110 113196 200 204198 201199 202112 117 120114 118 122115 119 12470Yb71Lu66Dy67Ho铥镱镥6d17s23d84s24d105d96s16d87s24f76s25f77s2156 161 164158 162160 1635f97s25f107s25f137s25f147s25f117s25f127s2596.799603.4523.533Cf99Es100Fm101汞Ar200.592(3)稀有气体过渡元素注：本表数据摘自 James G Speight. Lange'sHandbook of Chemistry. 16th ed. 以及 W MHaynes. CRC Handbook of Chemistry andPhysics. 97th ed.金属元素非金属元素（加底线的为天然丰度最大的同位素；红色的为放射性元素）元素的同位素的质量数元素符号（红色为放射性元素）χr电负性原子半径（单位：pm）E1第一电离能(kJ·mol-1)第一电子亲和能(kJ·mol-1)凡例元素英文名称原子序数I1元素中文名称96 100 10498 10199 102155 1585d106s16d107s13d104s14d105s13d14s24d15s24d85s1Ar原子的质量单位u = 1.660 540 2(10) × 10-27 kg标准大气压强atm = 101.325 kPa电子静止质量m e= 9.109 389 7(54) × 10-31 kg摩尔气体常数R = 8.314 510(70) J · K-1 · mol-1真空中光速c0 = 299 792 458 m · s-1阿伏伽德罗常数N A = 6.022 136 7(36) × 1023 mol-1普朗克常量h = 6.626 068 76(52) × 10-34 J · s里德伯常量电子电荷量e = 1.602 176 462(63) × 10-19 C玻尔兹曼常量k = 1.380 658(12) × 10-23 J · K-1法拉第常数 F = 96 485.309(29) C · mol-1玻尔磁子μB= 9.274 008 99(37) × 10-24 J · T-1R∞= 1.097 373 153 4(13) × 107 m-13d74s2144 149 154147 150148 1523d54s24d55s25d56s2。