GE400.A10A102中文资料

2013年10月北京捷麦通信器材有限公司R4050开关量模块用户手册 DATA ACQUISITION MODULES *************目录1概述 (3)1.1 特点 (3)1.2 外观和安装 (3)1.3 技术指标 (4)1.4指示灯状态 (4)2 电路连接 (5)2.1 输入电路连接 (5)2.2 输出电路连接 (6)2.3 通信电路的连接 (7)2.4 模块的输出值 (7)3 通用指令和模块的基本设置 (7)3.1 指令的基本格式 (7)3.2 设置模块配置－%AANNTTCCFF (9)3.3读配置信息－$AA2 (10)3.4读版本信息－$AAF (10)3.5 读复位状态－$AA5 (11)3.6 读模块名－$AAM (11)3.7写模块名－~AAO(数据) (12)4 采集和输出指令 (13)4.1同步采样－#** (13)4.2读同步数据－$AA4 (14)4.3数字输出－#AABBDD (14)4.4设置数字输出－@AA(数据) (15)4.5读数字输出/输入状态－$AA6 (16)4.6读数字输入/输出状态－@AA (16)4.7 读锁存状态－$AALS (17)4.8 清除锁存状态－$AAC (18)4.9 读入计数值－#AAN (19)4.10 清计数器－$AACN (19)5 遥控和报警指令及应用 (20)5.1 模式 (20)5.2读模块模式－#AAM (22)5.3设置模块模式－#AAMAB (23)5.4 读遥控目的地址－#AAR (24)5.5写遥控目的地址－#AAR（数据） (24)5.6读重发间隔时间－#AAT (25)5.7设置重发间隔时间－#AATDD (25)6 看门狗的使用和指令 (26)6.1 ~** (26)6.2 ~AA0 (27)6.3 ~AA1 (27)6.4~AA2 (28)6.5 ~AA3EVV (28)6.6 ~AA4V (29)6.7 ~AA5V (30)————————————————————————————————————————————————附件1：ASCII码对照表 (31)————————————————————————————————————————————————1概述1.1 特点R4050模块是R4000系列采集模块中的开关量输入输出模块，具有7路电压开关量输入，8路晶体管集电极开路输出。

CONNOLS-AIRLINEAR GRILLES & REGISTERSCONTENTSSLIM, ATTRACTIVE & STREAMLINED APPEARANCE3 FRAMES/BLADE STYLES, SIZES & FINISH4 CUSTOMIZED DESIGNS & SPECIAL APPLICATIONS5 ACCESSORIES6 MODEL TYPES7 STANDARD MODELSS1100/S11158 S1200/S12159 S2200/S221510 REMOVABLE CORE MODELSRS1100/RS111511 RS1200/RS121512 RS2200/RS221513 HINGED-TYPE MODEL RETURN AIR-GRILLESFS1100/FS1200/FS220014 SPECIFICATIONS15 SUPPLY AIR PERFORMANCE — S2200 / RS220016 SUPPLY AIR PERFORMANCE — SV2200 / RSV220017 RETURN AIR PERFORMANCE — S2200 / RS220018 RETURN AIR PERFORMANCE — FS2200193C O N N O L S -A I R L I N E A R G R I L L E S & R E G I S T E R SContemporary DesignStylishly designed with a slim, streamlined and modern look, Connols-Air linear air grilles and registers are most suitable for buildings which require long and continuous linear air grilles to blend into its interior.Quick and Easy CleaningThe linear grilles may be supplied with specially designed concealed hinges and latches, which permits quick and easy removal of the air filter for cleaning. Streamlined AppearanceAvailable in standard lengths ranging from 600mm to 2,400mm, at 300mm increments. Other lengths are also available upon request.For continuous installation, 2,400mm long grilles may be butted together during on-site installation with joining kits provided. These joining kits will ensure neat and strong joints, to create a straight and continuous line that will not distort over time.Connols-Air Return Linear Grilles may be supplied with specially designed concealed hinges and latches, which permits quick and easy removal of the air filter for cleaning.SLIM, ATTRACTIVE & STREAMLINEDAPPEARANCE4necessary to deflect the air slightly down to achieve sufficient room residual air velocity within the occupied zone. For rooms with normal ceiling heights of about 3 meters where the linear air grilles can be installed near to the ceiling, it is not necessary to use 15° deflection bars. Linear return air grilles do not require the use of 15° deflection bars and return air performance data are available for 0˚ deflection bars only.STANDARD SIZESAll linear grilles are supplied in standard widths of 50mm to 600mm for grilles with blade spacing of 12.7mm, and 450mm for grilles with blade spacing of 6.25mm. They are available in standard lengths of 600mm to a maximum of 2,400mm, at 300mm increments. Return linear grilles may be supplied in larger widths up to 1,200 mm, depending on the lengths required. However, hinged type return linear grille will have minimum widths of 300mm. It is recommended that our standard incremental widths be used to achieve equal spacing between blades and between blades and frames.FINISHESAll of our grilles are subject to cleaning, de-oiling, phosphating before the finishing coats are applied and baked to ensure paint adhesion.• Available in standard baked white enamel (RAL 9010)• Other colours are available upon request.• Special finishes such as stainless hairline or non-standardcoloured grilles, are also available at additional cost and longer lead-time will be required.ALUMINIUM-OPPOSED BLADE DAMPERS • Available in standard mill finishes.• Matt black enamel finish is also available at additional cost.FRAME/BLADE STYLES, SIZES & FINISHFRAME STYLESConnols-Air linear grilles and registers are available in different frame styles. Refer to Figure 1: Frame Styles.Style A frames: 17.4mm flat face.Suitable for surface mounting.Suitable for corner installations using mitre corners.Style B frames: 30mm wide face with curved edges. Suitable for surface mounting.Available in heights of 30mm and 50mm. 50mm frames are suitable f O r use with deflector.Suitable for straight length and floor/ceiling mitre corner.Style C frames: Suitable for use with concealed hinges and latchesMainly for access to air filter and ceiling spaceBLADE STYLEConnols-Air linear grilles and registers are available in 4 different blade styles:5mm bars with 0˚ deflection 3mm bars with 0˚ deflection 5mm bars with 15˚ deflection 3mm bars with 15˚ deflectionThe 15˚ deflection bars may be utilized to provide the necessary air deflection as a result of installation constraints as in the case where the linear grille cannot be installed near the ceiling, the air may need to be deflected toward the ceiling to achieve the Coanda Effect. Conversely, if the linear grille is installed on high wall, it may be1: Side wall Interior Mitred Corner; 2: Side wall Exterior Mitred Corner; 3: Floor or Ceiling Mitred Corner3215Connols-Air Supply Linear Air Grilles may be supplied with an engineered plenum, designed to achieve uniform air flow across the grilles and attenuate upstream ductborne noise.Colour SchemesSelecting only the best colour schemes to match your interior, our continuous linear grilles with mitre joints can greatly enhance the look and feel of any interiors of a building premise. Non-standard or customised designs such as curved linear grilles are also available upon special request.Matching ReturnsThe supply linear air grilles and registers may be supplied with matching returns.Engineered PlenumThe supply linear air grilles may be supplied with an engineered plenum, designed to achieve uniform air flow across the grilles and attenuate upstream duct borne noise.Hinged-type linear return air grilles• A standard range (with concealed latches) is available for applications where returnlinear grilles may be used for access to the ceiling space or air filters.• These linear return grilles are best suited for use in air-conditioning systems with fancoil units as found in most high-end residential or hotel projects.• Air filters can be removed easily from these return linear grilles for cleaningand maintenance.CUSTOMISED DESIGNS & SPECIALAPPLICATIONS6ACCESSORIESDAMPERS• Linear registers are fitted with extrudedaluminium opposed blade damper, which is adjustable from the face of the grilles without special tools. (Refer to Figure 2).• Linear grilles smaller than 150mm may besupplied with an inexpensive steel adjustable flapped damper in matt black finish. (Refer to Figure 1).AIR FILTERConnols-Air standard air filters are designed for easy removal from the linear grilles during maintenance. The air filter frame is constructed of 12.5mm extruded aluminum suitable for 6mm thick washable filter, which has a filtration efficiency of 78% according to Ashrae 52-76. The filtered media is inserted between a layer of expanded metal and flexible wire that can be easily removed for access to the media. When ordering air filter, specify F78.BLANK-OFFBlank-off panels may be fitted at the rear of linear grilles. They are constructed of 0.5mm thick cold-formed steel channels in matt black finish as shown in Figure 3. When ordering blank-offs, specify B.EQUALIZING -THERMAL-ACOUSTIC (ETA) PLENUMThe supply air linear grille may be supplied with an engineered plenum designed to achieve uniform airflow across the full length of the grille. The engineered plenum is internally lined with high-density semi-rigid board to provide the required thermal insulation. The equalizer incorporated within the plenum effectively ensures uniform air distribution. As a result, pressure loss and noise generated by the linear grilles are reduced. With the equalizer and high-density insulation, the plenum provides significant noise absorption, effective in attenuating upstreamed ductbourne noise, including noise generated by throttling dampers. When ordering, specify ETA if equalizing-thermal-acoustic plenum is required. If you require non-ETA plenums, specify P.7C O N N O L S -A I R L I N E A R G R I L L E S & R MODEL TYPESS 2200 Series Models:S 2200SV 2200S 2215 Series Models:S 2215SV 2215S 1200 Series Models:S 1200SV 1200S 1215 Series Models S 1215SV 1215S 1100 Series Models: S 1100SV 1100S 1115 Series Models:S 1155SV 1155RS 2200 Series Models:RS 2200RSV 2200RS 2215 Series Models:RS 2215RSV 2215RS 1200 Series Models:RS 1200RSV 1200RS 1215 Series Models: RS 1215RSV 1215RS 1100 Series Models:RS 1100RSV 1100RS 1115 Series Models RS 1115RV 1115Filter Series Models FS 2200FS 1200FS 11001. S 22002. RS 22003. SV 22004. S 12005. S 2200 Mitred cornerTo specify the model you wish to order, refer to the following chart:Example:S 2200 refers to linear grille with 0˚, 5mm thick bars spaced at 12.7mm centers.MODELSXXX X X XX00 — 0˚ bars 15 — 15˚ bars1 — 6.25mm blade spacing2 — 12.7mm blade spacing1 — 3mm thick bar2 — 5mm thick barS : Standard modelRS : Removable core model FS : Hinged modelSV : Standard model with deflector RSV : Removable core with deflector6. FS 11007. FS 22008. S 11009. RSV 1100SUPPLY AND RETURN AIRC (Nominal Width)9C O N N O L S -A I R L I N E A R G R I L L E S & R E G I S T E R SSIZES• Minimum width: 50mm SUPPLY AND RETURN AIRSUPPLY AND RETURN AIRSIZESC (Nominal Width)• Minimum width: 50mm• Maximum width: 600mm• Maximum length(one piece):2,400mm11C O N N O L S -A I R L I N E A R G R I L L E S & R E G I S T E R SSUPPLY AND RETURN AIRRS1100RS1115SERIESNorminal Width No. of Blades Core WidthFace Width (Style C Frame)75535107100960132125138515715017110182175211352072002516023222529185257250332102822753723530730041260332325452853573504931038237553335407400573604324256138545745065410482Note: Dampers will be supplied separately for installation on ductwork by contractor.piece): 2,400mmC (Nominal Width)12SUPPLY AND RETURN AIRRS1200RS1215SERIESNorminal Width No. of Blades Core WidthFace Width (Style C Frame)7523410610046013212568515715081101821751013620820012161233225141862582501621228427518237309300202623343252228735935024312384375263374094002735642842529381453450314064784753343150350035456528525374815535503950657857541531603600435566282,400mm13C O N N O L S -A I R L I N E A R G R I L L E S & R E G I S T E R SSUPPLY AND RETURN AIRRS2200RS2215SERIESNorminal Width No. of Blades Core WidthFace Width (Style C Frame)752331051004581301256831551508108180175101342062001215923122514184256250162102822751823530730020261333325222863583502431138337526337409400283624344253038745945032412484475344375095003646253452537481553550395065785754153160360043556628Note: Grille with 5mm thick bars cannot be supplied with 6.25mm blades spacings.C (Nominal Width)14RETURN AIR WITH CONCEALED HINGES AND LATCHESFS1100FS1200FS2200SERIESNote: Grill with 5mm thick bars cannot be supplied with 6.25mm blades spacing.Face Width (Style C Frame)250332102822753723530730041260332325452853573504931038237553335407400573604324256138545745065410482FS1100Face Width (Style C Frame)250162122842751823730930020262334325222873593502431238437526337409400273564284252938145345031406478475334315035003545652852537481553550395065785754153160360043556628FS1200Face Width (Style C Frame)250162102822751823530730020261333325222863583502431138337526337409400283624344253038745945032412484475344375095003646253452537481553550395065785754153160360043556628FS220015Specifications* Specify the required blade deflection, thickness and spacing.Nominal Length60—600mm 90—900mm 100—1,000mm 120—1,200mm 150—1,500mm 180—1,800mm 210—2,100mm240—2,400mmModelSee Page 7Nominal Width50—50mm 75—75mm 100—100mm200—200mm 300—300mm 600—600mmFrame Styles17:17.4 mm flatface frame 30:30 mm curvedface frame 36:Removable / Hinged-Type frameFinishW :Standard white O :Other colours A :Anodised S :Stainless steel finishAccessoriesD :Opposed blade damper D1:Flapped damper ETA :Equalising-thermal-acoustic plenum P :Non-ETA plenum B :Blank-offF78:13mm washable filterORDERING INSTRUCTIONSLinear supply air grilles shall be constructed of extruded frame of minimum 1.25mm thick aluminium alloy 6063 tempered to T5. All linear air grilles shall be designed with semi-airfoil blades of X*degree deflection (10˚ or 15˚) and Y*mm thick (3mm or 5mm) bars spaced at Z*mm centers (6.25mm or 12.75mm) that will give it a streamlined appearance. All parallel blades shall be securely fastened onto specially designed support bars to prevent rattling. The linear air grille shall have concealed mounting with adjustable mounting bracket for fine adjustments to ensure perfect butting on the wall or ceiling. Matching grilles shall be used for return air.Where air distribution with short throw and wider spread are required to suit the room configuration, individually adjustable airfoil deflectors shall be added onto the rear of the grille. The deflectors shall be constructed of airfoil extruded aluminum blades securely fastened onto the frame with plastic bushes to ensure precise blade adjustment and to prevent rattling. Using steel wire as a means of preventing rattling of the blades is not acceptable.For area utilizing fan coil unit with ceiling return, the return grille shall be supplied with acoustic plenum to minimize noise from the equipment through the grille. Where plenum is required as shown on the drawing, the plenum shall be engineered to provide uniform air distribution and shall have good noise attenuation property. Engineered plenum shall be of proprietary made by approved manufacturers. Data on plenum attenuation property and air distribution performance must be submitted for approval.Damper shall be of the opposed blade type with blade parallel to short side and shall be adjustable from the face of the grille without special tool. Damper shall be required for all linear supply or return registers.Where the duct take-off is shorter than two times the horizontal dimension of the linear air grilles, an air volume extractor shall be used instead of a volume damper. Installed at the take-off on the upstream side, the air volume extractor Model E25 type 1 extracts, equalizes and provides volume control of air flow into the supply linear grille, reducing air turning pressure loss and ensuring a quieter system operation. The air volume extractor shall be constructed of steel vanes assembled at 25mm centers, gang-operated and synchronized to remain parallel with airflow, regardless of the extractor angle. All supply linear air grilles performance shall be rated in accordance to ISO 5219-1984.LINEAR FILTER RETURN AIR GRILLESThe return linear air grille shall be of the hinged type with washable filter specially designed for this type of grille. The grilles shall be constructed of two extruded aluminum frames, an inner core frame and a mounting frame. The semi-airfoil blades of Y*mm thick (3mm or 5mm) spaced at Z*mm (6.25mm or 12.75mm) centers shall be securely fastened onto the inner core frame with special support bars to prevent rattling. The core consisting of the inner core frame and semi airfoil blades shall be attached at one side to the mounting frame with concealed hinges – exposed hinges are not acceptable. The hinged-type return air grilles shall also incorporate specially designed concealed core latches and filter retainer clips which permit quick and easy removal of filter for cleaning without special tools. Filtered frame shall be constructed of extruded aluminum with washable media similar to model 78/4 as manufactured by Connols-Air. The filtered media shall be retained in the filter frame such that the media can be easily removed for cleaning, by simply releasing the flexible wire. The filter shall have a dust extraction efficiency of 70% according to ASHRAE 52-76. All return air grilles performance shall be rated in accordance to ISO 5219-1984.SUPPLY AIR PERFORMANCES2200 STANDARD MODEL WITH NO ADJUSTABLE BLADERS2200 REMOVABLE CORE MODEL WITH NO ADJUSTABLE BLADERemarks :• "-" for NC represent level below 20dB• "-" for pressure loss represent loss below 5Pa• All throw are based on terminal velocity of 0.25m/s• All throw are based on isothermal conditions, for conversion factor, please refer to note 6 on page 19• All performance data are based on 1,000mm grille length1617C O N N O L S -A I R L I N E A R GRemarks :• "-" for NC represent level below 20dB• "-" for pressure loss represent loss below 5Pa• All throw are based on terminal velocity of 0.25m/s• All throw are based on isothermal conditions, for conversion factor, please refer to note 6 on page 19•All performance data are based on 1,000mm grille lengthSUPPLY AIR PERFORMANCESV2200 STANDARD MODEL WITH REAR ADJUSTABLE BLADERSV2200 REMOVABLE CORE MODEL WITH REAR ADJUSTABLE BLADERETURN AIR PERFORMANCES2200 STANDARD MODEL WITH NO ADJUSTABLE BLADERS2200 REMOVABLE CORE MODEL WITH NO ADJUSTABLE BLADE• Remarks:• “-” for NC represent level below 20dB.• “-” for pressure loss represent loss below 5Pa.• All performance data are based on 1,000mm grille length.1819C O N N O L S -A I R L I N E A R G R I L L E S &RETURN AIR PERFORMANCEFS2200 Hinged Model with FilterFS2200 Hinged Model without FilterNotes:1. NC values are based on 10 dB room absorption.2. Throw data are based on 0.25 m/s terminal velocity.3. NC Values are based on 1,000mm length grilles. For grillesof other lengths add the correction factor as shown in Table 1 below.4. NC values are applicable to register with damper in full openpostion. Effect of damper closure on noise generated by the register is shown in table 2 below.5. NC values are based on noise generated by a single grilleor register. When more than one grille is present it may be necessary to add the appropriate value from table 3 below for the effect of of multiple grilles and register.6. Throw data are based on isothermal conditions. To determinethrow for temperature differential of 10 degrees, multiply a factor of 0.78 to the throw values.7. Data obtained above are based in the tests conducted in thereverberation laboratory according to ISO 5135, ISO 3741, ISO 5219.Connols-Air (S) Pte Ltd3-B Joo Koon Circle, Singapore 629034 Telephone: +65 6861 5253 Website: LAG-99126R3, May 2019。

PMEG4010CEA40 V, 1 A low VF MEGA Schottky barrier rectifier18 November 2016Product data sheet1. General descriptionPlanar Maximum Efficiency General Application (MEGA) Schottky barrier rectifier with anintegrated guard ring for stress protection, encapsulated in a very small SOD323 (SC-76) Surface-Mounted Device (SMD) plastic package.2. Features and benefits•Average forward current: I F(AV) ≤ 1 A•Reverse voltage: V R ≤ 40 V•Low forward voltage typ. V F = 720 mV•Low reverse current typ. I R = 1.5 µA•Very small SMD plastic package•AEC-Q101 qualified3. Applications•Low voltage rectification•High efficiency DC-to-DC conversion•Switch mode power supply•Reverse polarity protection•Low power consumption applications•Automotive applications4. Quick reference data[1]Very short test pulse to keep junction temperature unchanged.5. Pinning information6. Ordering information7. Marking8. Limiting valuesTable 5. Limiting values[1]Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.[2]Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm2.9. Thermal characteristics[1]For Schottky barrier diodes thermal runaway has to be considered, as in some applications the reverse power losses P R are asignificant part of the total power losses.[2]Device mounted on an FR4 PCB, single-sided copper, tin-plated and standard footprint.[3]Device mounted on an FR4 PCB, single-sided copper, tin-plated, mounting pad for cathode 1 cm2.[4]Soldering point of cathode tab.10. Characteristics[1]Very short test pulse to keep junction temperature unchanged.11. Test informationThe current ratings for the typical waveforms are calculated according to the equations: I F(AV) = I M× δ with I M defined as peak current, I RMS = I F(AV) at DC, and I RMS = I M × √δ with I RMS defined asRMS current.Quality informationThis product has been qualified in accordance with the Automotive Electronics Council (AEC)standard Q101 - Stress test qualification for discrete semiconductors, and is suitable for use inautomotive applications.12. Package outline13. Soldering14. Revision history15. Legal informationData sheet status[1]Please consult the most recently issued document before initiating orcompleting a design.[2]The term 'short data sheet' is explained in section "Definitions".[3]The product status of device(s) described in this document may havechanged since this document was published and may differ in case of multiple devices. The latest product status information is available on the Internet at URL .DefinitionsPreview — The document is a preview version only. The document is still subject to formal approval, which may result in modifications or additions. Nexperia does not give any representations or warranties as tothe accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information.Draft — The document is a draft version only. The content is still under internal review and subject to formal approval, which may result in modifications or additions. Nexperia does not give anyrepresentations or warranties as to the accuracy or completeness of information included herein and shall have no liability for the consequences of use of such information.Short data sheet — A short data sheet is an extract from a full data sheet with the same product type number(s) and title. A short data sheet is intended for quick reference only and should not be relied upon to contain detailed and full information. For detailed and full information see the relevant full data sheet, which is available on request via the local Nexperia sales office. In case of any inconsistency or conflict with theshort data sheet, the full data sheet shall prevail.Product specification — The information and data provided in a Product data sheet shall define the specification of the product as agreed between Nexperia and its customer, unless Nexperia andcustomer have explicitly agreed otherwise in writing. In no event however, shall an agreement be valid in which the Nexperia productis deemed to offer functions and qualities beyond those described in the Product data sheet.DisclaimersLimited warranty and liability — Information in this document is believed to be accurate and reliable. However, Nexperia does not giveany representations or warranties, expressed or implied, as to the accuracy or completeness of such information and shall have no liability for the consequences of use of such information. Nexperia takes no responsibility for the content in this document if provided by an information source outside of Nexperia.In no event shall Nexperia be liable for any indirect, incidental,punitive, special or consequential damages (including - without limitation -lost profits, lost savings, business interruption, costs related to the removal or replacement of any products or rework charges) whether or not such damages are based on tort (including negligence), warranty, breach of contract or any other legal theory.Notwithstanding any damages that customer might incur for any reason whatsoever, Nexperia’s aggregate and cumulative liability towards customer for the products described herein shall be limited in accordance with the Terms and conditions of commercial sale of Nexperia.Right to make changes — Nexperia reserves the right tomake changes to information published in this document, including without limitation specifications and product descriptions, at any time and without notice. This document supersedes and replaces all information supplied prior to the publication hereof.Suitability for use in automotive applications — This Nexperiaproduct has been qualified for use in automotiveapplications. Unless otherwise agreed in writing, the product is not designed, authorized or warranted to be suitable for use in life support, life-critical or safety-critical systems or equipment, nor in applications where failure or malfunction of a Nexperia product can reasonably be expectedto result in personal injury, death or severe property or environmental damage. Nexperia and its suppliers accept no liability forinclusion and/or use of Nexperia products in such equipment or applications and therefore such inclusion and/or use is at the customer's own risk.Quick reference data — The Quick reference data is an extract of the product data given in the Limiting values and Characteristics sections of this document, and as such is not complete, exhaustive or legally binding. Applications — Applications that are described herein for any of these products are for illustrative purposes only. Nexperia makesno representation or warranty that such applications will be suitable for the specified use without further testing or modification.Customers are responsible for the design and operation of their applications and products using Nexperia products, and Nexperiaaccepts no liability for any assistance with applications orcustomer product design. It is customer’s sole responsibility to determine whether the Nexperia product is suitable and fit for thecustomer’s applications and products planned, as well as for the planned application and use of customer’s third party customer(s). Customers should provide appropriate design and operating safeguards to minimize the risks associated with their applications and products.Nexperia does not accept any liability related to any default,damage, costs or problem which is based on any weakness or defaultin the customer’s applications or products, or the application or use by customer’s third party customer(s). Customer is responsible for doing all necessary testing for the customer’s applications and products using Nexperia products in order to avoid a default of the applicationsand the products or of the application or use by customer’s third party customer(s). Nexperia does not accept any liability in this respect.Limiting values — Stress above one or more limiting values (as defined in the Absolute Maximum Ratings System of IEC 60134) will cause permanent damage to the device. Limiting values are stress ratings only and (proper) operation of the device at these or any other conditions above thosegiven in the Recommended operating conditions section (if present) or the Characteristics sections of this document is not warranted. Constant or repeated exposure to limiting values will permanently and irreversibly affect the quality and reliability of the device.Terms and conditions of commercial sale — Nexperiaproducts are sold subject to the general terms and conditions of commercial sale, as published at /profile/terms, unless otherwise agreed in a valid written individual agreement. In case an individual agreement is concluded only the terms and conditions of the respective agreement shall apply. Nexperia hereby expressly objects toapplying the customer’s general terms and conditions with regard to the purchase of Nexperia products by customer.No offer to sell or license — Nothing in this document may be interpretedor construed as an offer to sell products that is open for acceptance or the grant, conveyance or implication of any license under any copyrights, patents or other industrial or intellectual property rights.Export control — This document as well as the item(s) described herein may be subject to export control regulations. Export might require a prior authorization from competent authorities.Translations — A non-English (translated) version of a document is for reference only. The English version shall prevail in case of any discrepancy between the translated and English versions.TrademarksNotice: All referenced brands, product names, service names and trademarks are the property of their respective owners.16. Contents1. General description (1)2. Features and benefits (1)3. Applications (1)4. Quick reference data (1)5. Pinning information (2)6. Ordering information (2)7. Marking (2)8. Limiting values (3)9. Thermal characteristics (3)10. Characteristics (5)11. Test information (8)12. Package outline (9)13. Soldering (9)14. Revision history (11)15. Legal information (12)For more information, please visit: Forsalesofficeaddresses,pleasesendanemailto:*************************** Date of release:18 November 2016Mouser ElectronicsAuthorized DistributorClick to View Pricing, Inventory, Delivery & Lifecycle Information:N experia:PMEG4010CEAX。

ElectricityInductionFaraday’s Law of InductionGENERATING A VOLTAGE PULSE IN A CONDUCTING LOOP BY THE MOTION OF A PER-MANENT MAGNET∙ Observing the motion of a permanent bar magnet through a set of induction coils connected in series. ∙ Measuring the induced voltage as a function of time. ∙ Calculating the magnetic flux as a function of time.UE3040100 05/18 UDGENERAL PRINCIPLESAny change of the magnetic flux through a closed conduc-ting loop induces in it an electrical voltage. Such a change is produced, for example, when a permanent bar magnet moves through a stationary conducting loop. (Fig. 2). In this case it is instructive to consider not only the time-de-pendent induced voltage(1) ()t dtd t U Φ-=)(, where Φ: magnetic fluxbut also its integral over time, viz. the voltage pulse(2)()()2121)(t t dt t U t t Φ-Φ=⋅⎰This corresponds to the difference between the magnetic flux at the beginning (t 1) and that at the end (t 2) of the observed process.In the experiment, a permanent bar magnet is allowed to fall through six identical induction coils that are connected in se-ries. The induced voltage is recorded as a function of time (green curve in Fig. 3).The voltage amplitude increases from coil to coil as the magnet moves through each coil, because the velocity of the magnet increases steadily.The areas under all the positive and negative voltage signals are equal. They correspond to the maximum flux Φ produced by the permanent magnet inside each individual coil.Fig. 1: Experiment set-up.Fig. 2: Principle for measurement.LIST OF EQUIPMENT1 Tube with 6 Induction Coils 1001005 (U8511200) 1 Voltage Sensor 500 mV, Differential 1021681 (UCMA-BT32i) 1 Sensor Cable1021514 (UCMA-BTsc1) 1 €Lab 1021478 (UCMA-008 1Coach 7, School Site License 5 Years 1021522 (UCMA-18500)or1 Coach 7, University License5 Years 1021524 (UCMA-185U)SET-UP AND CONFIGURATIONFree-fall tubeNote:Bumps, knocks or any lateral forces acting on the tube may damage the instrument. ∙ Do not subject the tube to any mechanical stress. ∙ Put the base on a horizontal, level working surface. ∙ Set up the tube in the socket of the plinth using gentle pres-sure.∙Place the cork board under the base.€Lab, voltage sensor and Coach 7 ∙ Install Coach 7 software on the computer you will be using for the measurement.∙ Connect the €Lab module to the computer with the help of the USB cable.∙Connect the voltage sensor to the appropriate 4-mm sock-ets of the free-fall tube with the help of the 4-mm experi-ment lead and use the sensor cable to connect it to Analog input 1 on the €Lab module.∙Start Coach 7. Press the button and select the "User level: Author" from the drop-down menu in the "Log-in" window which opens. Enter the password for "Author key" and confirm it with OK.∙Click the button. The "Activity Options" window will open. Confirm the pre-selected settings, "Actvity type: Measurement" and "Interface: EuroLab" by clicking OK. The software will establish a connection to €Lab. A graphic rep-resenting the €Lab module with a pictogram of the voltage sen-sor connected to it will appear in the bottom left of the four win-dows.∙In the window displaying the €Lab graphic click the icon for the voltage sensor with the right mouse button. In the menu which opens select "Set to zero" and confirm with "OK".∙Click the button, enter the following parameters and then confirm with OK: MethodType: Time-basedDuration of measurement: 0.3 seconds Frequency: 1000 per second Number of measurements: 300 TriggeringTrigger channel: Channel: Differential voltmeterTrigger threshold: 0.1 mA Edge direction: RisingPre-trigger time: 0.01 seconds Note:For The purposes of evaluation it is particularly important to se-lect an optimum duration for the measurement (here: 0.3 s) while the measurement parameters are being entered. ∙ Click thebutton.∙ The data table will appear in the top right window. It will have columns for time t and voltage U , both initially empty.∙Click the button. In the menu which opens select "Add new", then move the mouse cursor to the top left window and click on it.The window will then display a trace plot (initially blank) ∙Click the time symbol "t(s)" in the header for the first col-umn of the data table and, keeping the mouse button down, drag it to the axis button for the bottom of the plot, then click on the border when it lights up blue. Click the voltage symbol "V(mV)" in the header for the second column and, again keeping the mouse button held down, drag it to the axis button for the left of the plot, then click on the border when it lights up blue.This assigns the x-axis of the trace to be time and the y-axis to be voltage.€Lab and Coach 7 are now fully configured for the measure-ment.EXPERIMENT PROCEDUREThe experiment set-up is such that the induced voltage is pos-itive when the magnet is introduced into the coil. It may be nec-essary to carry out the measurement procedure described be-low twice, since the sign of the voltage is dependent on the orientation of the magnet as it falls down the tube, i.e. with the north or south pole facing down (Fig. 2). ∙ Start the measurement in Coach 7 by clicking the but-ton. A "Waiting for trigger event" window opens.∙Hold the magnet in the opening at the top of the tube and then let it go. Measuring starts automatically as soon as the set trigger level is reached and stops automatically once the configured measurement duration has elapsed.Fig. 3: Change in induced voltage U and magnetic flux Φ over time (screenshot from Coach 7).SAMPLE MEASUREMENT AND EVALUA-TIONInduced voltageThe green curve in Fig. 3 shows the trace of how voltage changes over time.As described in the procedure, a positive voltage is induced as the magnet enters an induction coil. This induced voltage goes back to zero when the magnet reaches the centre of the coil. During the subsequent exit of the magnet from the coil, a neg-ative voltage is induced. Since the speed of the magnet in-ceases as it progresses from coil to coil along the tube, the magnitude of the voltage signals gets higher and higher, but the width of the peaks becomes narrower, i.e. the area of the surfaces under all the positive and negative signal peaks re-mains the same in absolute terms.Magnetic flux∙Click the button for the trace and choose "Integral"from the menu. In the "Integral" window which opens click "Plot".The plot in the "Integral" window shows the variable "V*t" in units of "mV*s" (violet curve in Fig. 3). This corresponds to the magnetic flux Φ i n equation (2)∙Close the "Integral" window by clicking "OK".A third column "V*t (mV*s)" appears in the data table and the symbol " V*t" is shown beneath the cursor.∙Click on the still empty window at the bottom right.A plot of the variable "V*t (mV*s)" will now be shown as a trace. To show the induced voltage and and magnetic flux simultane-ously in the top left window, proceed as follows:∙Click the symbol "V*t (mV*s)" in the header for the third column of the data table and, keeping the mouse buttonheld down, drag it to the active axis region for the right of the plot, then click on the border when it lights up blue. The y-axis on the right-hand side of the plot is now assigned to the magnetc flux. To display the curve in optimum fashion, pro-ceed as follows:∙Click with the right mouse button on the background of the trace and select "Zoom to Fit" from the menu which opens. Scaling of the axes is modified automatically in such a way that the curve is optimally displayed. For subsequent measure-ments both the induced voltage and magnetic flux will be dis-played at their best automatically on the trace.The magnetic flux reaches a maximum when the induced volt-age returns to zero (Fig. 3), i.e. when the magnet has reached the centre of the coil. The area of the surfaces under all the positive and negative signal peaks remains the same in abso-lute terms (see above). This correponds to the maximum mag-netic flux Φ of the permanent magnet inside an individual coil. The maximum magnetic flux therefore reaches the same value of Φmax≈ 250 μVs within the given measurement tolerances.3B Scientific GmbH, Rudorffweg 8, 21031 Hamburg, Germany, 。

2Gas pressure regulator HON 402applications• Device for municipal consumers, power plants and industrial stations• S uitable for gases in accordance with DVGW Worksheet G 260 and neutral, non-aggressive gases; other gases on requestcharacteristics• Large inlet pressure range• Diaphragm valve acts as final control element• Available with safety shut-off valve (SSV)• CE mark according to the Pressure Equipment Directive PED/GAD• Made up of few parts, easy to maintain, and quiet operation• A pproved as an equipment component of gas consumption devices in accordancewith the EC Gas Equipment DirectiveApplications, characteristics, technical data3Gas pressure regulator HON 402Applications, characteristics, technical data4Gas pressure regulator HON 402Applications, characteristics, technical data*) for natural gas with d = 0.64 (ρn ≈ 0,83 kg/m3) and t u = 15 °C gas inlet temperature **) if ∆p u is < 8 bar5Gas pressure regulator HON 402Applications, characteristics, technical datasafety shut-off valve applicationsA safety shut-off valve can be pre-installed or retrofitted in the main valve body. Then the gas pressure regulator HON 402 is equipped with the SSV systems HON 720 or HON 721 depending on the necessary actuation pressures.*) Please note: When using control units for both overpressure and underpressure release, make sure that the pressure deviation between the two setpoints p dso is at least 10 % greater than the sum of the two values p dsu ∆p wo and ∆p wu :p dso – p dsu ≥ 1.1 x (∆p wo + ∆p wu )**) T he higher AG group applies to the first half, the lower AG group to the second half of the setting range.6Gas pressure regulator HON 402pressure deviation between the two setpoints p dso is at least 10% greater than the sum of the two values p dsu ∆p wo and ∆p wu:p dso – p dsu≥ 1.1 x (∆p wo +∆p wu)**) T he higher AG group applies to the first half, the lower AG group to the second half of the setting range.1) Control devices K16 and K17 can also be used in combination.Applications, characteristics, technical data7Gas pressure regulator HON 402Construction and mode of operationThe HON 402 gas pressure regulator unit is used to keep the outlet pressure of a gaseous medium at a constantlevel independent of any disturbance variables such as changes in inlet and / or outlet pressure throughout the controlled system.The HON 402 is composed of the main valve and the functional units ‘regulator’ and ‘safety shut-off valve (SSV)’.The external regulators (HON 630 / HON 630-1 / HON 625) are connected to the main valve via control lines. An upstream fine mesh filter is switched in front of the pilot to protect it from impurities. The SSV can also be retrofitted. Thanks to the fact that it is made up of only a few parts, the actuator is particularly easy to maintain: its only wearing part, the throttling diaphragm, can be subjected to a quick inspection by simply removing the upper partof the housing without the need to remove the main valve body from the controlled system. The SSV functionalunit can also be easily removed from the valve body by loosening the connecting screws.The final control element is designed as a diaphragm valve. The diaphragm supports itself on the grid platefitted with holes. An all-around sealing edge is located in front of the relief slots. A closing spring generates the necessary closing force for bubble-tight shut-off.A metal foam ring can be installed under the grid plate for noise reduction. Then a KG value reduced by approx.15 % is to be expected.Regulator HON 625Start-up valveFine mesh filterBleed lineThrottlingSetpoint springThrottleMeasuring lineLoadingpressure linePilot stagePressure stageSetpoint adjusterFlow diagram of the gas pressure regulator HON 402 with HON 625application example: Hon 402 with outlet expansion and Hon 625Inlet pressureOutlet pressureLoad limiting pressureLoading pressureAtmosphere8Gas pressure regulator HON 402Construction and mode of operationapplication example: Hon 402 with outlet expansion, with regulator Hon 630 and ssV system Hon 721/K10aThe outlet pressure you want to control is fed to the controller via the measuring line. The double diaphragm system inside the controller captures the actual value of the outlet pressure as a force acting on the measuring diaphragm and compares it to the setpoint force of the setpoint spring. If this comparison reveals any deviations from the controlled pressure, the device will adjust the set pressure by changing the opening position of the throttling diaphragm in an effort to bring the outlet pressure (actual value) in line with the set point. Thanks to its use of a diaphragm construction as a final control element, the HON 402 manages to operate soundly even when handling only low flow rates.The device will seal tightly when consumption is zero.The gas pressure regulator HON 402 must be equipped with a start-up valve. The start-up valve is provided for faster pressure equalisation at the throttle diaphragm with application of the inlet pressure.The gas pressure regulator HON 402 can be equipped with the optional SAV functional units system HON 720 or HON 721. Both SSVs consist of an actuator with integrated pressure equalisation valve, tripping device and control device. The control devices have spring-loaded compensators that are arranged for the upper and lower shut-off pressures. The actuator of the function unit ‘safety shut-off valve (SSV)’ arranged on the inlet-side closes when the adjusted response pressure is exceeded or undercut.Refer to the SSV control device brochure pages for the functional description, adjustment possibilities and handling of the re-engage.Double diaphragm system Throttle Setpoint springsStart-up valve Closing spring Throttling diaphragm Grid plate Fine mesh filterSwitch deviceRe-engagement latchMeasuring lineBleed lineSetpoint adjuster Load limiting stage Setpoint adjusterPilot stageInlet pressure Load limiting pressureLoading pressure Outlet pressure AtmosphereSafety shut-off valvemeasuring line SSV valve plate SSV closing springBall catch mechanismSSV measuringdiaphragmSSV setpoint springsregulator Hon 630main valve Hon 402ssV system Hon 721/K10aFlow diagram of the gas pressure regulator HON 402 with regulator Hon 630 and ssV system Hon 721/K10a9BC D A BCDA433 12 1412 1Gas pressure regulator HON 402Dimensionsumax **) Body made of GJS not available in PN 40Example combinationsInlet expansion width DN 50 and larger, with regulator HON 630-1 and SSV system HON 721 (Control device K10a, K11a/1, K11a/2, K16, K17)Inlet expansion width DN 50 and larger, with regulator HON 630 and SSV system HON 721 (Control device K10a, K11a/1, K11a/2, K16, K17)Inlet expansion width DN 25 and larger, with regulator HON 625 and SSV system HON 720 (Control device K1a, K2a or K4/K5/K6)10Gas pressure regulator HON 402 Connection and weight11Hon 402 - 50/100 - K4 / f - 625 - soGas pressure regulator HON 402Device designation*) Control devices K16 and K17 can also be used in combination.figures and representations are only examples and may deviate from the actual scope of supply.HON 402.002017-01© 2017 Honeywell International Inc.For More Information To learn more about Honeywell’s Advanced Gas Solutions, visit or contact your Honeywell account manager GERMANYHoneywell Process Solutions Honeywell Gas Technologies GmbH Osterholzstrasse 4534123 Kassel, Germany Phone: +49 (0) 561 5007-0Fax:+49 (0) 561 5007-107。

Critical PowerTechnical Data SheetUninterruptible Power SupplyGE Consumer & Industrial SA General Electric Company CH – 6595 Riazzino (Locarno) SwitzerlandT +41 (0)91 / 850 51 51 F +41 (0)91 / 850 52 52imagination at workModel: TLE Scalable Series 40 - 150 UL S1TLE Scalable Series 150/40 UL S1TLE Scalable Series 150/50 UL S1TLE Scalable Series 150/80 UL S1TLE Scalable Series 150/100 UL S1TLE Scalable Series 150/120 UL S1TLE Scalable Series 150/150 UL S1Issued by: Product Document Department – Riazzino - CHApproved by: R & D Department – Riazzino - CHDate of issue: 10/27/2017File name: GE_UPS_TDS_TLE_SUL_40K_M15_1US_V010Revision: 1.0Identification No.:Up-datingRevision Concern DateCOPYRIGHT © 2017 by GE Consumer & Industrial SAAll rights reserved.The information contained in this publication is intended solely for the purposes indicated.The present publication and any other documentation supplied with the UPS system is not to be reproduced, either in part or in its entirety, without the prior written consent of GE.The illustrations and plans describing the equipment are intended as general reference only and are not necessarily complete in every detail.The content of this publication may be subject to modification without prior notice.GENERAL DATATopologyVFI, double conversion Nominal output apparent power from PF=0.6 lag. to PF=0.9 lead.KVA405080100120150Nominal output active power at PF=1 kW 40 50 80 100 120 150Efficiency at 100% load PF=0.9 lag. / 1 in VFI & PF=1 in Eco-Mode%VFI 95.6 / 95.5 95.6 / 95.5 95.7 / 95.6 95.6 / 95.5 95.6 / 95.5 95.6 / 95.4 Eco-Mode 98.6 98.8 98.8 98.9 98.9 98.9 Efficiency at 75% load PF=0.9 lag. / 1 in VFI & PF=1 in Eco-Mode%VFI 95.7 / 95.6 95.7 / 95.6 95.8 / 95.7 95.8 / 95.7 95.8 / 95.7 95.9 / 95.7 Eco-Mode 98.3 98.4 98.5 98.6 98.7 98.7 Efficiency at 50% load PF=0.9 lag. / 1 in VFI & PF=1 in Eco-Mode %VFI 95.2 / 95.1 95.6 / 95.5 95.6 / 95.5 95.7 / 95.6 95.7 / 95.5 95.9 / 95.7 Eco-Mode 97.7 98.0 98.2 98.3 98.4 98.4 Audible noise level dB(A) 62 Battery typeValve regulated lead-acid (VRLA), vented lead-acid, NiCdOperating temperature range UPS: 32°F ÷ 104°F / 0°C ÷ 40°C (up to 122F / 50°C subjected to conditions) Storage temperature rangeUPS: -13°F ÷ +131°F Battery: -4°F ÷ +104°F (higher the temperature, shorterthe storage time of the battery)-25°C ÷ +55°C -20°C ÷ +40°C Max. altitude without power deratingPower derating (according to EN/IEC 62040-3)1000m1500m: -2.5% / 2000m: -5% / 2500m: -7.5% / 3000m: -10%Protection degree IP 30 (IEC 60529 - ANSI/NEMA 60529) Standards UL 1778 UL marking EMC (Electromagnetic Compatibility) EN/IEC 62040-2 Category C3 (Category C2 as option) Electrostatic discharge immunity 4kV contact / 8kV air discharge Internal protection All internal live parts shrouded Transport On pallet- Cabinet suitable for handling by forklift Color RAL 9005 (black) Installation Minimum distance from the wall 2” / 5 cm and floor fixed Service access Front and top access only External cable connections Bottom at the front of the cabinet or top with lateral sidecar Cooling Enforced ventilation with fan failure detection Paralleling (RPA version) Up to 6 units for redundancy or capacity in RPA configuration (option) Eco-Mode Operation StandardRECTIFIERRectifier bridgeThree phase, IGBT rectifier, overtemperature protection Standard input voltageNominal: 3 x 480V + NRectifier accepted ph-ph voltage range: 410V ÷ 550V (wider voltages subject to de-rated loads)Other input voltages On request Input frequency 60 Hz +/-10% (54 ÷ 66 Hz) Power factor 0.99 Input current THD <3% Inrush current Limited by soft-start circuit Power walk-in 15 seconds (programmable) Output voltage tolerance +/- 1% Battery voltage ripple <1% Battery current ripple Max. 5% the battery capacity [Ah], expressed in A Battery charging characteristic IU (DIN 41773), T° compensated floating voltage Battery charging current limit Programmable Input power data kW 40 50 80 100 120 150Input power at inverter nominal load and charged battery at PF=0.9 lag. kW38.1 47.7 76.3 95.3 114.4 143.0at PF=1.0 lag. 42.4 53.0 84.7 105.9 127.1 158.9Max. input power at inverter nominal load and max. battery recharge current kW 48.5 59.1 96.9 118.1 145.4 177.2 Standard battery charging current at the beginning of battery recharge atnominal load (programmable) A 12 12 24 24 36 36UPS OUTPUT POWER CAPABILITYOutput UPS power versus power factor for: Inductive loads Resistive loads Capacitive loadsBATTERYBattery type Valve regulated lead-acid (VRLA)-standard, Vented lead-acid, wet battery and NiCd Float voltage at 68°F / 20°C 545V (dependent on the number of cells)Number of cells VRLA at 2.27V/cell: 240 cellsVented lead acid at 2.23V/cellMin. discharge voltage (programmable) 396VRecharge time <5 hours up to 90% of battery capacity“Battery to earth” fault detection StandardAutomatic and manual battery test StandardCommon battery in parallel system Up to 4 unitsBattery power data kW 40 50 80 100 120 150 DC power at full load & PF=0.8 lag. / PF=1kW 33.6/42.0 42.0/52.5 67.3/84.1 84.1/105.1 100.9/126.1 126.1/157.6 Maximum discharge current (1.65V/cell) Amps 85/106 106/133 170/212 212/265 255/318 318/398 Matching battery cabinets See option features on page 5 and 7INVERTERNominal output apparent power from PF=0.6 lag. to 0.9 lead. 40 – 50 – 80 – 100 – 120 - 150 kWNominal output active power 40 – 50 – 80 – 100 – 120 - 150 kWNominal output voltage (on site programmable) 3 x 480V + NInverter bridge Advanced Neutral Point Clamped three level IGBT technology Output waveform Sine waveOutput voltage tolerance:- static ..................................................................................................... +/- 1%- dynamic (at load step 0 – 100 – 0%) ...................................... +/- 3%- dynamic (at load step 0 – 50 – 0%) ......................................... +/- 2%- recovery time to +/-1% ................................................................ <5 ms- output voltage THD for 100% linear load (3)- output voltage THD for 100% non-linear load (EN 62040) <5%Output voltage tolerance at 100% unbalanced load (Ph-N) +/- 3%Output frequency 60 HzOutput frequency tolerance:- free-running ...................................................................................... +/- 0.1%- with mains synchronization adjustable to ........................... +/- 4%Phase displacement:- at 100% balanced load ................................................................ 120°: +/- 1%- at 100% unbalanced load ........................................................... 120°: +/- 3%Overload capability (at 77°F / 25°C ambient temperature) 105% continuous, 110% - 10 minutes, 125% - 1 minute, 150% - 30 secondsShort-circuit characteristic Electronic short-circuit protection, current limit to:2.2 times In for 100ms between phase/phase and phase/N/PEMCCB clearance capability (selectivity) 20% In within 5-10ms (with MCCB class C or magn. trip at max. 10In) Crest factor >3:1BYPASSInput connection Separate for rectifier and bypass input or common to the rectifier inputPrimary components - Static switch (SCR) on bypass- Electro mechanic contactors (back feed protection) on bypass and inverterVoltage limits for inverter/bypass load transfers +/- 10% (adjustable)Overload on bypass 198A continuous - 270A for 1 minute – up to 3000A for 10ms, non repetitive INTERFACINGRS232 serial port StandardEPO - EMERGENCY POWER OFF StandardCustomer Interface board Standard6 programmable signalling voltage-free contacts .............. (available on block terminals) - Standard information for easy integration and signaling - 27 user settable signalsInput signals .......................................................................................... - GEN ON (emergency power supply ON, n/o contact, customer supplied)- 1 auxiliary signal, with settable functionality3-ph SNMP/MODBUS/WEB plug-in Adapter StandardBlack Box Standard Intelligent DiagnosticNote: all indicated values are typical. Variations may be found from one unit to another.FRONT PANEL CONTROLS, SIGNALS AND ALARMSas the UPS user interface and comprises of thefollowing elements:•Back lit Graphic Display (LCD) Touch Screen with thefollowing characteristics:Multilanguage communication interface:English, German, Italian, Spanish, French, Finnish,Polish, Portuguese, Czech, Slovakian, Chinese,Swedish, Russian and Dutch;Graphic diagram indicating UPS status.•Command keys and parameters setting.•UPS status control LED.OPTIONSUPS TECHNICAL DATAUPS BLOCK DIAGRAM, LINE PROTECTIONS AND CABLE SECTIONSCommon Input Utility Rectifier & BypassDual Input Utility Configuration Rectifier & BypassLine protections and cable sectionsSize of Branch Circuit Over Current Protection - All Models: - "CAUTION - To reduce the risk of fire, only connect UPS to a circuit provided with (see below) maximum amperes branch circuit over current protection in accordance with the NEC(National Electric Code), NSI / NFPA 70kWF31 AC Input Rectifier F32 AC Input Bypass F33 AC Input F34 / MCCBDC Input40 80 A 60 A 80 A 110 A 50 90 A 90 A 90 A 125 A 80 175 A 175 A 175 A 200 A 100 175 A 175 A 175 A 250 A 120 225 A 200 A 225 A 300 A 150 300 A 250 A 300 A 400 AMaximum recommended cable sizekW Rectifier Input (A & C)Bypass Input (B) DC Input (K) AC Output (D)GND40 1x AWG 2 1x AWG 4 1x AWG 1 1x AWG 4 AWG 6 50 1x AWG 1 1x AWG 1 1x AWG 1/0 1x AWG 1 AWG 6 80 1x AWG 4/0 1x AWG 4/0 1x AWG 4/0 1x AWG 3/0 AWG 4 100 1x AWG 4/0 1x AWG 4/0 2x AWG 2/0 1x AWG 4/0 AWG 4 120 2x AWG 2/0 2x AWG 1/0 2x AWG 3/0 2x AWG 1/0 AWG 41502x AWG 3/02x AWG 3/0 2x AWG 4/02x AWG 3/0AWG 3IMPORTANT NOTE !TLE Scalable Series 40 – 150 UL can be used as 3ph 3W, on grounded wye source.BATTERY CABINET TECHNICAL DATA。

AMDG-□/A00□ 系列电动机保护器使用说明 产品概述主要特点：单片机为核心，数字设定，数字显示，保护功能完备、保护性能可靠，参数设置准确， 小体积柜内导轨安装，DC 24V工作电源。

保护功能：缺相、短路、接地、堵转、过载、电流不平衡。

适用范围：额定电压不高于1140V，频率为50Hz或60Hz的三相交流电动机。

电动机保护器型号 AMDG-0.5 AMDG-1 AMDG-2AMDG-5AMDG-10AMDG-20AMDG-50 AMDG-100 AMDG-150AMDG-200最大设定电流（A） 0.55 1.1 2.3 5.5 11 23 55 110 165 220 最小设定电流（A） 0.1 0.2 0.4 1 2 4 10 20 30 40 电动机最大功率（KW） 0.22 0.4 1.1 2.2 4 11 22 45 75 110 电动机最小功率（KW） 0.055 0.11 0.22 0.55 1.1 2.2 5.5 11 18.5 22 电动机电源穿线孔Φ（mm）20 20 20 20 20 20 20 20 30 30 连接电缆：连接主单元与电流检测单元，6×0.3mm²×2.2 m双绞屏蔽电缆工作电源：DC 24V±10%功率消耗：小于 2W采集精度：1.0环境温度：- 20℃ — 50℃继电器触点：AMDG-□/A001：1常开、常闭触点，AC 250V/10A（阻性负载）、DC 30V/10AAMDG-□/A002：2常开、常闭触点，AC 220V/5A（阻性负载）、DC 30V/5A AMDG-□/A00□ 系列电动机保护器数据显示AMDG-□/A00□ 系列电动机保护器，在电动机正常运Array行时，显示电动机的A、B、C相电流；当电动机发生接地、短路、缺相、堵转、电流不平衡、过载故障时，通过断开保护器内的继电器触点停止电动机运行（故障指示灯亮），同时显示故障代码指示电动机的故障类型，并且还显示发生故障时的A、B、C相电流。

GE Industrial Systems’new CR420 series comprises a comprehensive general purpose plug-in relay family. Often called “ice cube relays,” these UL/CSA recognized and CE marked products add another dimension to GE’s control package. They will be particularly useful in OEM control applications.These general-purpose plug-in relays deliver low-cost switching in many industrial control circuits in such applications as industrial equipment, machine tool, HVAC, lighting, vending, commercial appliances, elevators and spa controls. Coupled with their sockets and options, they supply powerful ratings at a low cost. Consider the advantages:Cost-effectiveness •Competitive everyday prices for functional relays create an excellent solution forlow voltage industrial switching.Power •From 5 amp (4 pole) to 30 amp (single pole), these relays handle large loads in a compact package.Reliability•Every relay is thoroughly tested, so you get the performance you need the firsttime, every time. And a long electrical life ensures that performance will last. Easy installation•Simple plug-in terminations in robust DIN rail sockets save time and money. Quick identification•All AC and DC coils are color-coded for quick voltage identification on theshop floor.Acceptance•CR420s are UL and CSA recognized and CE marked for acceptance and use-around the world.Popular options•Available options allow you to reduce your inventory by standardizing on thoseyou need most. Choose from:• Flag indicators that show relay status in manual or powered condition.• Push-to-test buttons that allow manual operation without coil power —ideal for testing of control circuits by field service personnel.• LED indicating lamps clearly show coil status, even in low light conditions.• IP20 finger-safe sockets protect users from accidental contactduring termination.All versions are available with AC or DC coils, plug-in or direct flange mounting and multiple contact configurations. Robust specifications enable direct replacement from many major manufacturers.The CR420 line takes its place alongside the full range of components that GE offers to OEMs and panelbuilders. This includes contactors, starters, breakers, transformers, PLCs, packaged drives, push buttons, switches and status indicating lights.For more information or for samples, contact your GE Industrial Systems Control & Drives Sales Engineer.GE General Purpose Plug-in Relays•AC or DC coils•Push-to-test and LED indicator available •1-, 2- and 3-pole configurations•Screw/DIN rail socket or flange mount •Up to 30A rating, true 25A socket•AC or DC coils•Push-to-test and mechanical indicator standard•2- and 3-pole configurations •Easy-to-install pin socket •UL and CSA recognized, CE marked•4-pole configurations •Color coded coils •UL, CSA recognized, CE marked •Manual operator with LED indicator options available•Push-to-test and LED indicator available •1-, 2- and 4-pole configurations •Socket, PC board and flange mounting options•Color-coded coils for easy identification •Up to 15A contact ratingDimensions(Continued on next page)General Electric Company41 Woodford Avenue, Plainville, CT ©2001 General Electric CompanyDEP-115B 0414GE Industrial Systems。

Page 1/5JUMO GmbH & Co. KGDelivery address:Mackenrodtstraße 14,36039 Fulda, GermanyPostal address:36035 Fulda, Germany Phone:+49 661 6003-0Fax:+49 661 6003-607e-mail:Internet: JUMO Instrument Co. Ltd.JUMO HouseTemple Bank, RiverwayHarlow, Essex CM 20 2TT, UK Phone:+44 1279 635533Fax:+44 1279 635262e-mail:Internet: JUMO Process Control, Inc.8 Technology Boulevard Canastota, NY 13032, USA Phone:315-697-JUMO1-800-554-JUMOFax:315-697-5867e-mail:Internet:Pressure transmitterfor elevated media temperatures JUMO dTRANS p31Type 402050General applicationPressure transmitters are used for measuring the relative (gauge) and absolute pressures in liquids and gases. The pressure transmitter operates on the piezo-resistive measuring principle. The pressure is converted into an electrical signal.Technical dataReference conditionsto DIN 16086 and IEC 770/5.3Rangessee order details Overload limit all ranges3 x full scale Bursting pressure all ranges4 x full scaleParts in contact with medium standard: stainless steel,Mat. Ref. 1.4571 / 1.4435Output 0—20mA 3-wireburden ≤ (U B -12V) / 0.02A 4—20mA 2-wireburden ≤ (U B -10V) / 0.02A 4—20mA 3-wireburden ≤ (U B -12V) / 0.02A 0.5—4.5V burden ≥ 50k Ω1—6V burden ≥ 10k Ω0—10V burden ≥ 10k ΩBurden error <0.5% max.Zero offset≤0.3% of full scaleThermal hysteresis ≤ ± 0.5% of full scale(within compensated temperature range)Ambient temperature error within range 0to +100°C(compensated temperature range)zero:≤ 0.02%/°C typical,≤0.04%/°C max.span:≤ 0.02%/°C typical,≤0.04%/°C max.Deviation from characteristic ≤ 0.5% of full scale (limit point setting)for basic type extension 023:≤ 0.2% of full scale (limit point setting)Hysteresis≤0.1% of full scale Repeatability≤0.05% of full scale Response time with current output(output 402, 405 or 406):3msec max.with voltage output(output 412, 415, 418 or 420):10msec max.Stability over 1 year ≤ 0.5% of full scale Supply10—30V DC(output 4—20mA and 1—6V)5V DC (output 0.5—4.5V)11.5—30V DC (output 0—10V)11.5—30V DC (output 0(4)—20mA)Ripple: the voltage spikes must not go above or below the values specified for the supplymax. current drawn: approx. 25mA Supply voltage error ≤ 0.02% per V(nominal supply voltage 24V DC)ratiometric with supply voltage 5V DC (±0.5V)Permissible ambient temperature (max. housing temperature)-20to +125°C Storage temperature -40to +125°CPermissible temperature of medium -30to +200°CElectromagnetic compatibility EN 61 326interference emission: Class Bimmunity to interference: to industrial requirements Mechanical shock (to IEC 68-2-27)100g/1msecMechanical vibration (to IEC 68-2-6)max. 20g at 15—2000Hz Protectionwith terminal box IP65 to EN 60529(connecting cable diameter min. 5mm, max. 7mm).with circular connector M12 x 1 or connecting cable IP67 to EN 60529Housingstainless steel, Mat. Ref. 1.4301polycarbonate GFPressure connection see order details;other connections on requestElectrical connection see order detailsterminal box to EN 175301-803,conductor cross-section up to max. 1.5mm 2;orattached 4-core PVC cable, length 2 m other lengths on request orcircular connector M12 x 1, 4-pole Nominal position any Weight200 gDimensionsElectrical connectionCaution:Connector assignment (M12 x 1)Earth instrument!(pressure connection and / oror screenConnection Terminals Cable M12 x 1Supply(for output)10—30 V DC (1—(5) 6 V)11.5—30 V DC (0—10 V)(0(4)—20 mA, 3-wire)5 VDC (0.5—4.5 V)1L+2L-white gray1+3-Supply(for output)10—30 V DC (4—20 mA, 2-wire)1L+2L-white gray 1+3-Output 1—6V 0—10 V 0.5—4.5 V4—20 mA, 3-wire 2-3+gray yellow3-4+Output4—20 mA, 2-wire1+2-proportional current 4–20 mAin supplywhite gray 1+3-Screenblack 2Front-flush connectionsOrder detailsBasic type402050Pressure transmitter JUMO dTRANS p31I Basic type extensionsI/000noneI/023reduced deviation from characteristic1I/999special versionI I InputI I4540 1.0 bar gauge pressureI I4550 1.6 bar gauge pressureI I4560 2.5 bar gauge pressureI I4570 4 bar gauge pressureI I4580 6 bar gauge pressureI I4590 10 bar gauge pressureI I4600 16 bar gauge pressureI I4610 25 bar gauge pressureI I4620 40 bar gauge pressureI I4630 60 bar gauge pressureI I478-1 0 bar gauge pressureI I479-1 0.6 bar gauge pressureI I480-1 1.5 bar gauge pressureI I481-1 3 bar gauge pressureI I482-1 5 bar gauge pressureI I483-1 9 bar gauge pressureI I484-1 15 bar gauge pressureI I485-1 24 bar gauge pressureI I4880 1.0 bar absolute pressureI I4890 1.6 bar absolute pressureI I4900 2.5 bar absolute pressureI I4910 4 bar absolute pressureI I4920 6 bar absolute pressureI I4930 10 bar absolute pressureI I4940 16 bar absolute pressureI I4950 25 bar absolute pressureI I999special rangeI I I OutputI I I4020 to 20mA 3-wireI I I405 4 to 20mA 2-wireI I I406 4 to 20mA 3-wireI I I4120.5 to 4.5V 3-wireI I I4150 to10V 3-wireI I I418 1 to 5V 3-wireI I I420 1 to 6V 3-wireI I I I Process connection (front-flush)I I I I550aseptic to DIN 11 864-1A, DN20I I I I551aseptic to DIN 11 864-1A, DN25I I I I552aseptic to DIN 11 864-1A, DN32I I I I553aseptic to DIN 11 864-1A, DN40I I I I554aseptic to DIN 11 864-1A, DN50I I I I570G11/2I I I I571G3/4I I I I575G3/4 front sealI I I I576G1 front sealI I I I584SMS, DN1"I I I I585SMS, DN1 1/2"I I I I586SMS, DN2"I I I I603taper connection with slotted nut to DIN11851, DN20I I I I604taper connection with slotted nut to DIN11851, DN25I I I I605taper connection with slotted nut to DIN11851, DN32I I I I606taper connection with slotted nut to DIN11851, DN40I I I I607taper connection with slotted nut to DIN11851, DN50I I I I612clamp to DIN 32676, DN20I I I I613clamp to DIN 32676, DN25, DN32 and DN40I I I I616clamp to DIN 32676, DN50I I I I623small flange to DIN 28 403, DN25I I I I652tank connection with slotted union nutI I I I661clamping flange (DRD), 65 dia.I I I I684Varivent, DN15/10I I I I685Varivent, DN32/25I I I I686Varivent, DN50/40I I I I997JUMO-PEKA2I I I I Material of process connectionI I I I I20stainless steelI I I I I I Electrical connectionI I I I I I12with attached cable (cable length in plain text)I I I I I I36with circular connector M12 x 1I I I I I I61with terminal boxI I I I I I I402050/----20-Order code1only for output 4 to 20 mA 2-wire.not for +/- ranges.2suitable process connection adapter, see data sheet 40.9711。

COM-4050使用说明书一、COM-4050概述COM-4050提供7路数字量输入8路集电极开路数字量输出通道。

数字量输入端可用来检测行程开关、安全开关或远程数字量信号；输出端可接固态继电器，控制热电器，泵等设备。

COM-4050图：COM-4050技术说明：通道：7路数字量输入8路集电极开路数字量输出有效分辨率：16位数字量输入电平：逻辑电平0：＋1V（最大）逻辑电平1：＋3.5～＋30V数字量输出：集电极开路，最大负载30V 30mA电源：＋10～＋30V DC功耗：0.4W@24 V DC工作温度：-25℃~70℃I/O连接器类型：十针连接器外形尺寸：(长)120mm X（宽）75mm X (高)35mm内置看门狗定时器二、COM-4050硬件连线图1 COM-4050模块简单控制接线图图2 模块供电连接@PC机和COM4520模块的连接使用直通串口线@ 建议所有模块的+VS连接直流24V正(最好使用红色线),GND连接直流24V负(最好使用黑色线) @ COM4050模块的DATA+连接COM4520的DATA+(建议使用黄色线),DATA-连接COM4520的DATA-(建议使用绿色线)下图为数字量输入接线图：图3 COM4050数字量输入端接线当输入电压为0~1V时，对应DI通道为0；当输入电压为3.5~30V或者悬空时，对应DI通道为1；下图为开关量输出接线图：图4 COM4050数字量输出端接线DO都要外挂电源，电源的大小根据实际应用而定，电源的“—”端与模块的地相连，SSR的“—”端与DO相连，电流的上限为30mA .三、RTECH工具软件的使用.1.RTECH工具软件的安装双击RTECH工具软件安装包，然后按照提示一步步往下，完成工具软件的安装。

2.RTECH工具软件的快速使用1）打开工具软件，点击工具栏“查询”或查询快捷键，如下图界面所示：图52）弹出下图的“查询”窗口，选择串口以及波特率（可以多选），然后点击“搜索”。

产品目录号 440G-MZS20SNRJ、440G-MZS20SNRJE、440G-MZS20UNRJ、440G-MZS20UNRJE、440G-MZS20SNLJ、440G-MZS20SNLJE、440G-MZS20UNLJ、440G-MZS20UNLJE440G-MZ Guardmaster 保护锁开关2罗克⻙尔⾃动化出版物 440G-UM004E-ZH-P - 2021 年10 月440G-MZ Guardmaster 保护锁开关 ⽤⼾⼿册重要⽤⼾须知在安装、配置、操作或维护本产品之前，请阅读本文档以及“其他资源”章节所列的文档，了解关于安装、配置和操作该设备的信息。

除了所有适用的条例、法律和标准的要求之外，用⼾还必须熟悉安装和接线说明。

包括安装、调整、投⼊运⾏、使用、装配、拆卸和维护等在内操作必须由经过适当培训的人员根据适用的操作守则来执⾏。

如果未遵照制造商所指定的方式使用该设备，将可能导致该设备提供的保护失效。

在任何情况下，对于因使用或操作该设备造成的任何间接或连带损失，罗克⻙尔⾃动化公司概不负责。

本手册中包含的示例和图表仅用于说明。

由于任何具体安装都涉及众多变数和要求，罗克⻙尔⾃动化公司对于依据这些示例和图表所进⾏的实际应用不承担任何责任和义务。

对于因使用本手册中所述信息、电路、设备或软件而引起的专利问题，罗克⻙尔⾃动化公司不承担任何责任。

未经罗克⻙尔⾃动化公司的书⾯许可，不得复制本手册的全部或部分内容。

在整本手册中，我们在必要的地方使用了以下注释，来提醒您留意安全注意事项。

标签也可能位于设备表⾯或内部，提供具体的预防措施。

警告：标识在危险环境下可能导致爆炸，进而导致人员伤亡、物品损坏或经济损失的操作或情况。

注意：标识可能导致人员伤亡、物品损坏或经济损失的操作或情况。

注意符号可帮助您确定危险情况，避免发生危险，并了解可能的后果。

重要事项标识对成功应用和了解本产品有重要作用的信息。

电击危险：位于设备（例如，驱动器或电机）表面或内部的标签，提醒相关人员可能存在危险电压。

Technical DataMolded Case Circuit Breaker SpecificationsBulletin Number 140U-DTopic PageProduct Line Overview2Specifications3Trip Curves4Approximate Dimensions6Additional ResourcesThese documents contain additional information concerning related products from Rockwell Automation.Resource DescriptionIndustrial Automation Wiring and Grounding Guidelines, publication 1770-4.1Provides general guidelines for installing a Rockwell Automation industrial system. Product Certifications website, Provides declarations of conformity, certificates, and other certification details.Y ou can view or download publications at /literature/. T o order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative.Frame Reference D-Frame Max. Current I n 30 A Current Range 0.5…30 AThermal Magnetic Rotary Operators Internal Control Modules (Field installed) Standards Compliance (For information regarding specific breakers, please consult . Standards compliance varies by catalog number.)UL 489 UL File Nos.E334037,E33916CSA C22.2, No. 5 IEC 60947-2 CEProduct Overview Bulletin 140U-D Molded Case Circuit Breaker SpecificationsRockwell Automation Publication 140U-TD005B-EN-P2General Datai IEC / EN [V]690UL, CSA[V]600RatingsHACR Suitable for continuous operation at 100 percent of rating only if used in cubicle space for 0.5…10 A, cubicle space 250 x 175 x 150 mm (10 x 7 x 6 inches).Rated Impulse Withstand Voltage U imp Pollution degree3Main circuits U imp /Overvoltage Category 6 kV/III Auxiliary circuits U imp /Overvoltage Category 6 kV/III Safe separation between main and auxiliary circuits up to 400V Rated Frequency[Hz]50/60Utilization CategoryIEC 60947-2 (Circuit breaker)A Life Span Mechanical[operations]100 000Electrical (I e max.)[operations]10 000Switching Frequency [operations/h]max. 25Ambient Temperature Storage [°C]-40…+80Operation[°C]-25…+60 (70 with 15 % I n current reduction)Climatic resistanceMoisture change climate (600068-2-30)23 °C / 83 % relative humidity and 40 °C / 92 % relative humidity, 56 cyclesDry heat (60086-2-2)100 °C, relative humidity <50 %, 7 days Moisture heat (60068-2-3)40 °C, relative humidity 93 %, 56 daysSite Altitude [m]to 2000 N.N.Protection ClassIP2X, when wired Resistance to Shock, Transport (60068-2-27)30 g, 11 ms, all axesResistance to Vibration, Opertion (60068-2-6)18 gOverload Protection [°C]Yes acc. IEC/EN 60947-2, UL489, CSA 22.2, Ambient Temperature Compensation -25…+60Phase-loss ProtectionNo phase loss protection Short circuit protection (Magnetic)fixed setting 15…20 x I nTotal Power loss P v @ I n max.[W]7.5Main Disconnect Switch ApplicationYes, with accessoriesApplication ConditionsFor utilization outside North America, Assemblies (of products) shall comply to the IEC61439-1requirements140U circuit breakers are intended for use in closed areas without hazardous operatingconditions such as dust or explosive or corrosive gases. Enclosures of appropriate manner needto be in place to protect devices in such environments.Standards UL489; CSA C22.2 No. 5; IEC / EN 60947-1, -2CertifiactionsCE; cULus listed Circuit Breaker, File No. E334037 and E33916 (accessories)Terminal Specifications 140U-DBulletin 140U-D Molded Case Circuit Breaker SpecificationsSpecificationsRockwell Automation Publication 140U-TD005B-EN-P3Terminal specification 140U-DWeightsTime-Current CharacteristicI / I nT r i p p i n g t i m e [s ]Tripping characteristicacc. to UL 489 and IEC 60947-2 conventional non-tripping current I nt = 1.0 I nconventional tripping current I t = 1.35 I n : t = <1h 2.0 I n : t = 180s max.Instantaneous trippingacc. to UL 489 and IEC 60947-2Trip Curve : 15…20 I nSpecifications/Trip CurvesBulletin 140U-D Molded Case Circuit Breaker SpecificationsRockwell Automation Publication 140U-TD005B-EN-P4Bulletin 140U-D Molded Case Circuit Breakers (Maximum Cut-Off Current)0.11100.1110100140U-D6D…Max. Cut-Off Current, U e = 480V at 60 HzProspective current [kA r.m.s]P e a k c u r r e n t [k A ]Bulletin 140U-D Molded Case Circuit Breakers (Maximum Let-Through-Energy)0.1110100140U-D6D…Max. Let-Through-Energy, U e = 480VProspective current [kA r.m.s]L e t -t h r o u g h e n e r g y [A 2s ]Bulletin 140U-D Molded Case Circuit Breaker SpecificationsTrip CurvesRockwell Automation Publication 140U-TD005B-EN-P5Dimensions are shown in millimeters (inches). Dimensions are not intended to be used for manufacturing purposes.17.8(45/64)42.8(1-11/16)18(23/32)2.4(3/32)9(23/64)80(3-5/32)72(2-27/32)8(5/16)62(2-7/16)57(2-1/4)4.5(3/16)17.8(45/64)54.9(2-5/32)62(2-7/16)45(1-25/32)91(3-37/64)92(3-5/8)102(4-1/64)45(1-25/32)45(1-25/32)5(13/64)12(15/32)45(1-25/32)4.5(3/16)62(2-7/16)37.4(1-15/32)8 *(5/16)8 *(5/16)20 *(25/32)20 *(25/32)UL 489L 48UL 484Minimum distance to grounded parts or walls77(3-1/32)52(2-3/64)44(1-47/64)45(1-25/32)81(3-3/16)15(19/32)51(2)Cat. No. 140U-D with Busbar22.5(57/64)34(1-11/32)Ø4.8Ø(3/16)50(1-31/32)100(3-15/16)55(2-11/64)110(4-11/32)Screw Adapter 140M-C-N45 for 140U-DRockwell Automation Publication 140U-TD005B-EN-P67 Rockwell Automation Publication 140U-TD005B-EN-PAllen-Bradley, Rockwell Software, Rockwell Automation, and LISTEN. THINK. SOLVE are trademarks of Rockwell Automation, Inc.T rademarks not belonging to Rockwell Automation are property of their respective companies.Publication 140U-TD005B-EN-P - October 2015Supersedes Publication 140U-TD005A-EN-P - October 2014Copyright © 2015 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.Important User InformationRead this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required tofamiliarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.Activities including installation, adjustments, putting into service, use, assembly, disassembly, and maintenance are required to be carried out by suitably trained personnel in accordance with applicable code of practice.If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment.The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams.No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual.Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation, Inc., is prohibited.Documentation FeedbackY our comments will help us serve your documentation needs better. If you have any suggestions on how to improve this document, complete this form, publication RA-DU002, available at /literature/.Rockwell Otomasyon Ticaret A.Ş., Kar Plaza İş Merkezi E Blok Kat:6 34752 İçerenköy, İstanbul, T el: +90 (216) 5698400Rockwell Automation maintains current product environmental information on its website at/rockwellautomation/about-us/sustainability-ethics/product-environmental-compliance.page .。