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Digital Compass Solution HMR3000The Honeywell HMR3000 is a digital compass module that provides heading, pitch, and roll outputs for navigation. Three Honeywell’s magneto -resistive sensors are oriented in orthogonal directions to measure the vector components of earth’s magnetic field. A fluid tilt sensor is employed to determine a gravitational reference. These solid-state sensors create a strapdown compass that is both rugged and reliable. The data output is serial full-duplex RS-232 or half-duplex RS-485 with 1200 to 19,200 data rates.Applications include: Compassing & Navigation, Dead Reckoning Backup to GPS Systems, Marine Navigation, Antenna Positioning, and Land SurveyingA RS-232 development kit version is available that includes a windows compatible demo program (does not work with RS-485 devices), interface cable, AC adapter and carrying case.Honeywell continues to maintain product excellence and performance by introducing innovative solid-state magnetic sensor solutions. These are highly reliable, top performance products that are delivered when promised. Honeywell’s magnetic sensor solutions provide real solutions you can count on.FEATURES & BENEFITS BLOCK DIAGRAMHigh Accuracy, <0.5° with 0.1° ResolutionWide Tilt Range of ±40° Up to 20 Updates per Second NMEA Standard Sentence Outputs Hard Iron Calibration RoutineRS-232 or RS-485 Serial Data Interfaces PCB or Aluminum Enclosure Options6-15 volt DC Unregulated Power SupplyInterfaceHMR3000SPECIFICATIONSPower SupplyTemperature(2) Tested at 25°C except stated otherwise.(3) Characterized(4) Parts stationary for 24 hours before testing(5) The HMR3000 Demo Kit is not available with the RS-485 interface because the software does not support half-duplex protocol2 HMR3000 3PIN CONFIGURATION(1) Power input shall only be applied to either Pin 8 (+5VDC) or Pin 9 (Unregulated +6 to+15VDC).(2) Exceeding the voltage specifications for Pin 8 may damage the HMR3000.RS-232 UNBALANCED I/O INTERCONNECTSRS-485 BALANCED I/O INTERCONNECTSHMR3000HOST PCHOST PCHMR3000HMR3000DATA COMMUNICATIONSThe HMR3000 serial communications are governed by a simple asynchronous, ASCII protocol modeled after the NMEA0183 standard. Either an RS-232 or an RS-485 electrical interface can be ordered. ASCII characters are transmitted and received using 1 start bit, 8 data bits (LSB first), no parity (MSB always 0), and 1 stop bit; 10 bits total per character. Thebaud rate defaults to 19,200 and can be reconfigured to 1200, 2400, 4800, 9600, 19200, 38400 bits per second. TheHMR3000 supports both standard NMEA 0183 and proprietary messages. Unsolicited NMEA messages are sent by theHMR3000 in Continuous Mode at the rates programmed in the EEPROM. HMR3000 also responds to all input messagesfrom the host. An HMR3000 response to a command input may be delayed due to transmission of an unsolicited output.The host computer must wait for HMR3000 to respond to the last command input before sending another command message. All communication from and to HMR3000 contain a two-character Checksum Field at the end of the data fields,and are denoted in the sentences by ‘hh’. The checksum assures the accuracy of the message transmitted. This checksumis also calculated per NMEA 0183 Standard.The RS-232 signals are single-ended undirectional levels that are sent received simultaneously (full duplex). One signal isfrom the host personal computer (PC) transmit (TD) to the HMR3000 receive (RD) data line, and the other is from theHMR3000 TD to the PC RD data line. When a logic one is sent, either the TD or RD line will drive to about +6 Volts referenced to ground. For a logic zero, the TD or RD line will drive to about –6 Volts below ground. Since the signals are transmitted and dependent on an absolute voltage level, this limits the distance of transmission due to line noise and signalto about 60 feet.When using RS-485(1), the signals are balanced differential transmissions sharing the same lines (half-duplex). This meansthat logic one the transmitting end will drive the B line at least 1.5 Volts higher than the A line. For a logic zero, the transmitting end will drive the B line at least 1.5 Volts lower than the A line. Since the signals are transmitted as difference voltage level, these signals can withstand high noise environments or over very long distances where line loss may be a problem; up to 4000 feet. Note that long RS-485 lines should be terminated at both ends with 120-ohm resistors.Specific measurement descriptions and interface commands are not included in this datasheet but are included in the companion HMR3000 User’s Guide document.(1) Demonstration software for the HMR3000 does not support the RS-485(half-duplex) protocol. The software is onlyavailable with the RS-232 interface.CIRCUIT DESCRIPTIONThe HMR3000 Digital Compass Module contains all the basic sensors and electronics to provide digital indication of headingand tilt. The HMR3000 has all three axis of magnetic sensors on the far end of the printed circuit board, away from the connector interface. The HMR3000 uses the circuit board mounting holes or the enclosure surfaces as the reference mechanical directions. The complete HMR3000 PCB assembly consists of a mother board and the 9-pin D-connector.The HMR3000 circuit starts with the Honeywell HMC1001 1-Axis Magnetic Sensor and the HMC1002 2-Axis Magnetic Sensor elements to provide the X, Y, and Z axis magnetic sensing of the earth’s field. These sensor output voltages arethen amplfied and converted to a digital representation. A microcontroller integrated circuit receives the digitized magneticfield values (readings) by periodically querying the Analog to Digital Converter (ADC) and performs the necessary offsetvalue corrections provided by the EEPROM via the calibration routine. This microcontroller also performs the external serialdata interface and other housekeeping functions. The onboard EEPROM integrated circuit also is employed to retain necessary setup variables for best performance.A liquid filled two-axis (pitch, roll) tilt sensor is also used to create tilt compensated heading data. This tilt sensor performsan electronic gimballing function and is normally mounted flat (PCB horizontal) for maximum tilt range.4 HMR3000APPLICATIONS PRECAUTIONSSeveral precautions should be observed when using magnetic compasses in general:∙The presence of ferrous materials, such as nickel, iron, steel, and cobalt near the magnetometer will create disturbances in the earth’s magnetic field that will distort the X, Y, and Z field measurements.∙Perming effects on the HMR3000 circuit board need to be taken into account. If the HMR3000 is exposed to fields greater than 10 gauss, then it is recommended that the enclosure/circuit boards be degaussed for highestsensitivity and resolution. A possible result of perming is a high zero-field output indication that exceedsspecification limits. Degaussing wands are readily available from local electronics tool suppliers and areinexpensive. Severe field offset values could result if not degaussed.NON-FERROUS MATERIALSMaterials that do not affect surrounding magnetic fields are: copper, brass, gold, aluminum, some stainless steels, silver,tin, silicon, and most non-metals.HANDLING PRECAUTIONSThe HMR3000 Digital Compass Module measures fields within 1 gauss in magnitude. Computer floppy disks (diskettes)store data with field strengths of approximately 10 gauss. This means that the HMR3000 is many times more sensitive than common floppy disks. Please treat the compass with at least the same caution as your diskettes by avoiding motors, CRTvideo monitors, and magnets. Even though the loss of performance is recoverable, these magnetic sources will interferewith measurements.The fluidic tilt sensor works best when kept near level, and in calm to moderate vibration conditions. If turned upside downor violently jarred, not all the fluid will immediately return to the bottom of the tilt sensor’s glass ampoule. Accurate til t andtilt compensated headings may be unavailable for a minute or two to allow for the fluid to transit to the bottom of the ampoule.PCB DIMENSIONS AND PINOUT 5HMR30006 CASE DIMENSIONSDEMONSTRATION PCB MODULE KITThe HMR3000 Demonstration Kit includes additional hardware and Windows software to form a development kit for the digital compass module. This kit includes the HMR3000 PCB and enclosure, serial port cable with attached AC adapter power supply, and demo software plus documentation on a compact disk (CD). The figure below shows the schematic of the serial port cable with integral AC adapter. There will be three rotary switches on the AC adapter. These should be pointed towards the positive (+) polarity, +9 volts, and 120 or 240 VAC; depending your domestic supply of power.22D9-FD9-F359359HMR3000 7ORDERING INFORMATIONFIND OUT MOREFor more information on Honeywell’s Magnetic Sensors visit us online at .The application circuits herein constitute typical usage and interface of Honeywell product. Honeywell does not warranty or assume liability of customer-designed circuits derived from this description or depiction.Honeywell reserves the right to make changes to improve reliability, function or design. Honeywell does not assume any liability arising out of the application or use of any product or circuit described herein; neither does it convey any license under its patent rights nor the rights of others.U.S. Patents 4,441,072, 4,533,872, 4,569,742, 4,681,812, 4,847,584 and 6,529,114 apply to the technology describedPDS-42005September 2015©2015 Honeywell International Inc.Honeywell12001 Highway 55 Plymouth, MN 55441。

快速启动向导基于图像的条形码阅读器，紧凑的外壳,具有优越的解码能力本指南旨在帮助您设置和安装abr3000。

有关编程、性能、故障排除，尺寸，附件的完整信息，请参阅使用说明书。

搜索 p/n 207637查阅操作手册。

搜索 p/n 207635 查看条形码管理器软件说明书。

本文档的使用要求您熟悉相关的行业标准和操作。

表1: ABR 3000 系列11143558769102 图1. 串行和以太网型号31455876119图 2. 串口和USB 型号指示灯12 图3. 指示灯—设备顶部在读码器启动期间，所有的led 灯都亮一秒钟。

当读码器处于智能教学模式时，五个LED 的颜色和含义。

参阅第3页智能学习界面。

ABR 3000Original Document 207636 Rev. A2018-7-26警告:不得用于人身保护切勿将本装置用作保护人员的感应装置。

这样做可能会导致严重的伤害或死亡。

该装置不包括允许其在人员安全应用中使用所必需的自检冗余电路。

传感器故障或失灵可导致激发或断开传感器输出状态。

型号产品特性11.电源-串口- I/O 线接口镜头瞄准系统激光源焦距调节旋钮7.8.9.10.以太网线接口6.5.按键内部照明系统良好读取LED 指示灯(绿色)4.3.2.智能示教界面以太网连接LED 指示灯电源LED 指示灯1.网站的激光描述和安全信息设置焦距读码器有三个焦点位置经过出厂校准(WVGA 系列在45 mm, 70 mm, and 125 mm; 1.2MP 系列在45 mm, 80 mm, and 125 mm).焦点范围是连续的，您可以对焦距实现细微调整。

也就是说，您可以选择一个不同于这三个位置的焦点位置。

1.确定当前应用所需要的焦点位置.下表显示了在三个焦点位置时，Code 128 (1D) and Data Matrix (2D)千万像素分辨率的代码的阅读范围。

表 2: WVGA 系列表3: 1.2 MP系列2.连接线缆表4: MQDC2S-17xx 的电源及IO 针脚输出ABR 3000 - Tel: +1-763-544-3164P/N 207636 Rev. A所有abr3000包含一个用于定位阅读器的瞄准激光源。

Provides the ultimate solution for measuring and monitoring precise tension on web process or wire machinery in demanding industrial environments•For use with pillow block bearingsand rotating shaft installations.•Washdown-duty, withstanding impinging liquids and wet environments.•Designed to comply withNEMA 4x, IP65/67 standards.•Completely sealed. Corrosion-resisting and chemical-resisting (Stainless Steel 410 or Anodized Aluminum Alloy 6061).•Competitively priced againstcommon non-sealed,non-corrosive and chemical resistive designs.•Compact low-profile design fits easily into tight places.•With an end connector design(instead of on the side), no need for a left hand and right hand configuration.•Available in a variety of loadcapacities (25 to 30,000 lb.)and sizes (6.5 to 17 inches long),suiting a wide range of applications.•Provides 500% overload protection.•Easily mounted at any angle.•Convenient mounting plate for easy installation of pillow block bearing.Performance BenefitsThe UPB (Under-Pillow-Block)Washdown-Duty LC (load cell) is part of the Cleveland-Kidder ®Tension Transducer product family. It sets the standard for under-pillow-block tension transducers for the web process industry.The UPB Washdown-Duty LC has a completely sealed corrosion-resisting design, making it ideal for use in demanding industrial environments,including the production of paper, steel,textiles, roofing shingles, linoleum,rubber, foil, and food products.The UPB Washdown-Duty LC can be mounted at any angle. Its web force direction is not restricted to being either parallel or perpendicular to the UPB top surface (common with other load cell designs). Its compact low profile design makes it perfect for use in both retrofit and OEM applications.The UPB Washdown-Duty LC is a solid one-piece design, providing a high natural frequency response with a high level, linear output signal.Design FeaturesThe Cleveland-Kidder UPB Washdown-Duty LC is an under-pillow-block load cell that has been designed formeasuring and monitoring tension on web process and wire machinery in demanding environments.The UPB Washdown-Duty LC is made from a solid block that results in a completely sealed design with a very low profile. It is typically applied in pairs,one under each of the supporting guide roll’s pillow block bearings. Mounting the pillow block bearing to the UPB Washdown-Duty LC is simple and convenient:Rather than having to drill into the top of the load cell, the UPB Washdown-Duty LC uses a convenient mounting plate, making installation andreplacement easier. Held in place by four corner bolts, the mounting plate is easily removed, drilled and tapped to match the pillow block mounting dimensions. The plate is then remounted and the pillow block bearing is bolted into place.To assure maximum corrosion and chemical resistance, the UPBWashdown-Duty LC is made from either Stainless Steel or Aluminum Alloy depending on the size rating.Displacement from loads is negligible (typically 0.002 in.) and the output is temperature compensated.UNDER PILLOW BLOCK WASHDOWN-DUTY LOAD CELLUPB Washdown-DutyLCSIZE RATING (LB) * ULTIMATE OVERLOAD (%)UPB125 to 1000500UPB21000 to 1000050020000250UPB310000 to 30000500INDUSTRIAL PRODUCTSDIMENSION TABLESRATINGSSize Dimensions in Inches*Maximum No.Working Force (lb.)A B C D E F(Max.)G H J(Max.)KL M N WUPB1 1.50.55 5.8 1.55/16(4) 5.8 1.6 1.951/2 1.40 6.5 1.3 2.2 2.2 25, 50, 100, 250, 500, 1000UPB230.8010.0 3.01/2 (4)10.0 3.0 2.473/4 1.6811.0 3.3 3.95 4.01000, 2500, 5000, 10000, 20000UPB3 4.51.6315.04.51 (4)15.6 5.04.21-1/8 2.8017.04.85.26.510000, 20000, 30000Size Dimensions in Millimeters*MaximumNo.Working Force (N)**A B C DE F(Max.)G H J(Max.)KLM N WUPB13814147.538M814740.549.5M1235.5165335656 110, 225, 450, 1100, 2250, 4500UPB2762025476M122547663M2042.5279.584100101.54500, 11000, 22000, 45000, 90000UPB311441.5381114M24396127106.5M307143212213216545000, 90000, 135000Weight lb. (kg.) Each UPB1UPB2UPB33.7 (1.7)22 (10)102 (47)*Ultimate overload: Maximum force applied on the transducer without risking permanentdeformation. For the Washdown duty UPB the output is linear up to the point of the ultimate overload.*Allow 2.5 inches clearance (64mm) for connector.**Approximate rating in Newtons.INDUSTRIAL PRODUCTS SPECIFICATIONSMaterial: Body: Size 1- Anodized Aluminum Alloy 6061Size 2 & 3 Stainless Steel 410Mounting Plates: Stainless Steel 304Bolts for Mounting Plates: Stainless Steel Gage Resistance:Each transducer contains a half-bridge,having a nominal end-to-end resistance of440-480 Ohms.Gage Factor:100 nominalExcitation Voltage:10 VDC or VAC (rms) maximumOutput Signal@ Rated M.W.F.: 100 mV nominal / transducer200 mV nominal / pair(With 10 VDC or VAC rms excitationvoltage)OperatingTemperature Range:0˚F to 200˚FSensitivity Changewith Temp.Less than 0.02% of rated outputtypicalHumidity:95% R.H.CombinedNon-linearityAnd hysteresis:±0.5% maximum of rated output Repeatability:±0.2% maximum of rated output“MS” Connectors:MS-3102E-10SL-3P(Sealed 3 Pin Connector)Input Impedancerequired:5K Ohms per transducer(TransducerSignal Amplifierif not CMCsupplied)Output impedance:880 Ohms for UPB2 and UPB3120 Ohms for UPB1UNDERPILLOWBLOCKWASHDOWN-DUTYLOAD CELLUPBWashdown-DutyLCProcedure for Mounting the UPB Load Cellto the Machine Frame (see picture above)Remove the pillow block mounting plate (it is held in place by four stainless steel corner bolts) in order to gain access to the four load cell mounting holes. Drill and tap the machine frame to match the load cell mounting holes. Note: The UPB must be oriented so that the resultant tension force direction (bisector of the wrap angle) isin the same quadrant as the load direction arrow on the side of the UPB.Bolt the load cell in place. The UPB load cell is designed so that either imperial or metric mounting bolts can be used when mounting the load cell to the machine frame. Refer to E in the Dimensions Table for the proper bolt size. Before remounting the pillow block mounting plate refer to the procedure below.Procedure for Mounting the Pillow Block Bearing to the UPB Load Cell (see picture above)Mounting the pillow block bearing to the UPB is simple and convenient. The UPB is offered with a pillow block mounting plate. The mounting plate is held in place by four stainless steel corner bolts. Remove the mounting plate, then drill and tap it to match the pillow block mounting dimensions. A centerline mark is provided on the mounting plate. The plate is to be drilled and tapped by utilizing this centerline mark to insure that the pillow block bearing is centered on the plate. Remount the plate and bolt the pillow block bearing to it. The mounting plate is 304 Stainless Steel, which is amenable to drilling but offers corrosive and chemical resistance. Refer to Jin the Dimensions Table for the maximum bolt diameterrecommended for bolting the pillow blockbearing to the mounting plate.INDUSTRIAL PRODUCTSUNDER PILLOW BLOCK WASHDOWN-DUTY LOAD CELLUPB LCSIZING CALCULATIONSIZING CALCULATION:ORDERING PROCEDURE:SELECTION CHARTT =Max Tension A =Wrap Angle (Degrees)W =Roll Weight B =Angle of Tension Force (Degrees)K =Overload for Transients(Nominally 1.4 for most applications)MWF = Maximum Working Force(This is used to select the proper force rating of the transducer)C =Mounting Angle H =Bearing Height + DSIZE L (in.) D (in.)UPB1 2.50.98UPB2 4.5 1.25UPB36.52.10A[2KT sin —][HsinB + LcosB] ±W[L cosC – HsinC]**2*The MWF calculation defines the force on each individual load cell.**If Angle B is below horizontal use + in calculation. If Angle B is above horizontal use - in calculation Note: Consult CMC for assistance in sizing the load cell to your specific application.1. Calculate the Maximum Working Force (MWF)rating based upon your calculations from the sizing calculation equation.2. From the Selection Chart,determine the part number for the UPB Washdown-Duty LC. Select a MWF rating that equals or exceeds the MWF from your sizing calculation. Then, make sure that your pillow block bearing fits the UPB type that you selected (UPB 1, 2,or 3).Example: If you calculate a MWF of 2,204 lbs., select a UPB 2 rated at 2,500 lbs.MWF from the Selection Chart. Your part number is M846-12172-100. Then,from the Dimensions Table,make sure that your pillow bearing fits on the Size 2transducer. If it does not,please consult factory.3. Obtain pricing and delivery information by contacting a CMC sales representative,distributor, or the factory.ACCESSORIESACCESSORIES CHART*Load Cell Cable The load cell cable end is provided with a straight or right angle connector as specified. The controller end is provided with tinned leads. The controller end of the cable can be cut to length if the standard length provided is not the exact length required.MWF* =2LTransducer MWF (lbs.)UPB1Rating25501002505001000Part No. M846-12171-000100200300400500UPB2Rating1000250050001000020000Part No. M846-12172-000100200300400UPB3Rating100002000030000Part No. M846-12173-000100200Cable Length Part Number - Straight Connector Part Number - Right Angle Connector 20 Feet MO-01948-020MO-01957-02025 Feet MO-01948-025MO-01957-02550 Feet MO-01948-050MO-01957-05075 Feet MO-01948-075MO-01957-075100 Feet MO-01948-100MO-09157-100150 FeetMO-01948-150MO-01957-150*Cables are not washdown-duty. For washdown-duty cables consult CMC.。

How to set unit for operation1.switch on instrument by pressing on/off.2.when instrument is ready press SET to start the setting process.3.follow the on-screen instructions.1)hold probe in air and press set. wait for the beep2)place the probe on the probe on STD1(indicated by on-screen arrow).press SET and wait for the beep3) place the probe on the probe on STD2.press SET and wait for the beep4.the unit is now ready. if the unit does not set properly,repeat steps 2 and 3.如何设置单元操作1.按on/off打开仪器;2.当仪器准备好后，按SET设置过程。

3.按照屏幕上的指令。

1)探头置于空气中按SET键，等待嘀声；2)将探头探测上STD1(由屏幕上的箭头表示)。

按SET, 等待嘀声3)地方STD2探针的探针。

按SET, 等待嘀声4。

你单位现在准备好了。

如果单位不正确设置,重复步骤2和3。

Change probe details1.the autosigma3000 has 6 available memory slots for probe numbers (three 4-digit and three 2-digit).2.press MENU,and step to probe line item using cursor key.3.press SET to highlight probe number and change selected probe using cursor keys.4.press SET when finished.5.to modify the selected probe number use cursor keys to step through the menus to Probe code menu.6.to change D1 value…(1)highlight D1 line and press SET.(2)change the number using up and down arrows.(3)press SET to record.7.change values for D2，D3&D4(step 5/6).8.store settings in memory with a long press of SEND.wait for beep.9.Return to Measurement mode by pressing MENU.改变探针的细节1.autosigma3000有6可用内存插槽探针数量，三个4位和三个两位；2.按MENU，使用光标键设置步骤和探头线项目。

specifications and performance requirements for color retention, chalk resistance, gloss retention, erosion, corrosion and chemical resistance as well as dry film thickness and hardness. Our state-of-the-art powder coat system provides an environment friendly finishing solution with more uniform coverage and coating thickness. The result is an exceptional finish that better resists scratching, fading and general wear. Additional liquid coat facilitiesFluoropolymer Powder Coat AAMA 2605-Superior Finish (AKA: Powdura®5000, Coraflon®Powder,Interpon®D3000-Fluoromax)A vailable Finishes"Ultimate" − A next generation hyper durable powder coating, based onFEVE fluoropolymer resins and ceramic pigmentation that the industryhas acknowledged as the foundation for superior performance coatings.They provide a hard surface that is resistant to scratching and scuffing,with superior color and gloss retention, when applied to a variety ofexterior architectural applications. This technology represents the“ultimate” in environmentally friendly finishes, with Zero-VOC emissions.A new alternative to traditional 70% Kynar 500®/ Hylar 500®PVDFfluoropolymer liquid coatings.10 years(Consult Nailorfor availabilityof extendedwarranty)High Performance Powder CoatAAMA 2604 −High Performance Finish (AKA: Powdura®4000, Envirocron®Ultra Durable Powder, Dynadure™400, Interpon®D2000)"Better" − A high performance polyester powder coating, based on“super durable” resins that utilize infrared reflective pigments, whichprovides excellent resistance to outdoor weathering. A harder and more environmentally friendly coating than other liquid paint counterparts andwith Zero-VOC emissions.A good alternative to 50% Kynar 500®/ Hylar 5000®liquid coatings.5 yearsDurable Powder CoatAAMA 2603 −Pigmented Organic Coatings (AKA: Powdura®3000, Envirocron®Durable Powder, Dynadure™300, Interpon®D1000)"Good" − A durable powder coat based on thermosetting polyester resin technology.Provides a good economical combination of physical and chemical resistance properties. Environmentally superior to liquid spray paints andZero – VOC emissions.1 yearClear Anodize 215-R1 AA-M10C22A41(0.7 mil. min.)Architectural Class I. Clear, colorless and hard oxide aluminum coatingthat resists weathering and chemical attack. Recommended for severelycorrosive and abrasive atmospheric exposure.5 yearsColor Anodize AA-M10C22A44 (0.7 mil. min.)Architectural Class I. "Two-step" aluminum coating process. Following astandard anodizing procedure, a second electrolytic process depositscolored metallic pigments which penetrate the aluminum oxide pores,producing a corrosion resistant, colorfast finish. Available in light,medium, dark bronze and black.5 yearsPrime Coat Prime coat provides a stable base for painting of louvers in the field.Surface pretreatment includes degreasing and a chemical cleaningbefore an epoxy prime coat is applied. Finish coat should be field appliedas soon as possible for best adhesion, after a thorough cleaning for dust etc.that can contaminate the final finish and cause premature flaking or peeling.N/AClear Anodize 204-R1 AA-M10C22A31(0.4 − 0.7 mil.)Architectural Class II. Clear, colorless and hard oxide aluminum coatingthat resists weathering and chemical attack. Recommended for normalweather exposure.1 yearPaint finish warranties are not applicable to steel products.Powdura®is a registered trademark of The Sherwin-Williams Company. Coraflon®and Envirocron®are registered trademarks of PPG Industries Ohio, Inc. Interpon®is a registered trademark of Akzo Nobel Powder Coatings Ltd.Kynar 500®is a registered trademark of Arkema, Inc.C O A : 9090R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iC O A : 909007/13/2018R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iC O A : 909007/13/2018R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iC O A : 909007/13/2018R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iC O A : 909007/13/2018R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iC O A : 9090R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iC O A : 9090R I C EE N G I N E E R I N GF l o r i d a F i r m N o :F -010********C e r t i f i c a t e o f A u t h o r i z a t i o n :#9090W a y n e K .H e l m i l a R e g i s t r a t i o n N o :59092105S c h o o l C r e e k T r a i l L u x e m b u r g ,W I 54217P h o n e :(920)617-1042F a x :(920)617-1100w w w .r i c e -iRICEFlorida F-010********Certificate Authorization:HelmilaRegistration 105TrailLuxemburg,54217Phone:617-1042Fax:617-1100www.rice-iRICEFlorida Firm No: F-010********Certificate of Authorization: #9090Wayne K. Helmila Registration No: 59092105 School Creek Trail Luxemburg, WI 54217Phone: (920) 617-1042Fax: (920) RICEFlorida Firm No: F-010********Certificate of Authorization: #9090Wayne K. Helmila Registration No: 59092105 School Creek Trail Luxemburg, WI 54217Phone: (920) 617-1042Fax: (920) RICEFlorida Firm No: F-010********Certificate of Authorization: #9090Wayne K. Helmila Registration No: 59092105 School Creek Trail Luxemburg, WI 54217Phone: (920) 617-1042Fax: (920) RICEFlorida Firm No: F-010********Certificate of Authorization: #9090Wayne K. Helmila Registration No: 59092105 School Creek Trail Luxemburg, WI 54217Phone: (920) 617-1042Fax: (920) RICE Florida Firm No: F-010********Certificate of Authorization: #9090Wayne K. Helmila Registration No: 59092105 School Creek Trail Luxemburg, WI 54217Phone: (920) 617-1042Fax: (920) RICE Florida Firm No: F-010********Certificate of Authorization: #9090Wayne K. Helmila Registration No: 59092105 School Creek Trail Luxemburg, WI 54217Phone: (920) 617-1042Fax: (920) 。

Data Sheet and Processing Guidelines for RO3000® Series BondplyRogers RO3000® series bondply is an undensifi ed version of RO3000 laminates that can be used to process highlyreliable, homogeneous RO3000 multi-layer boards (MLB’s). The bondply is used in a manner analogous to prepreg in FR-4 constructions and, once bonded, becomes the equivalent of a normal RO3000 core layer.RO3000 series bondply offers electrical and thermal-mechanical advantages over most other adhesive systems that can be used to bond RO3000 material multi-layer constructions. In addition, improvements offered by bondply layers over core-to-core fusion bonding include improved layer-to-layer registration, tighter control over Z-axis spacing of copper layers, better encapsulation of buried metal features at lower applied pressures, and design fl exibility.During a MLB bonding process, the bondply will reduce in thickness to about fi ve mils and closely match predictable electrical properties. A Rogers’ Technical Support Engineer (TSE) should be contacted for design data.PROCESSING GUIDELINES:INNER-LAYER PREPARATION:Cores should be processed through inner-layer as standard. If copper roughening is required (ground or power planes), a microetch or a subtractive process oxide alternative such as Atotech’s Bondfi lm or MacDermid’s MultiBond LE should be used. Traditional additive process oxide treatments lack the thermal stability to survive the high temperature bond conditions.PTFE activation by sodium or plasma treatment should be avoided. All inner-layers should be baked at 125°C to 150°C (257°F - 302°F) for at least one hour prior to MLB bonding.PREPARATION OF MLB BOOK:RO3000 bondply layers require careful handling to avoid tearing. Pinning holes can be punched, drilled, or routed. Entry material should be used during drill or rout to shield the bondply layers from debris.Due to in-plane expansion characteristics, type 304 stainless steel separator plates are recommended. Five to ten mil thick sheets of aluminum should be placed between the multi-layers and the separator plates.Foil bonding of outer-layers is possible but a Rogers’ Technical Service Engineer should be consulted prior to processing foil-bonded constructions.BOND CYCLE:Temperature control is most critical between 600°F (315°C) and 700°F (371°C) during the ramp up, and between 700°F (371°C) 500°F (260°C) during the cool down. The ramp rate to 600°F (315°C) can be up to 10°F (5.5°C)/min, but the ramp from 600°F (315°C) to 700°F (371°C) should be 5°F (2.7°C)/Min. The dwell at 700°F (371°C) should be 30-60 minutes. The cooling rate to 500°F (260°C) should be at a rate of 2°F (1.1°C)/Min. An accelerated cool can be used, but materials should remain in the press until package temperatures are less than 250°F (121°C).Applied pressure will depend upon press (autoclave or fl at bed) equipment and fi ll requirements, but will probably fall into a range of 250 to 500 PSI.OUTER-LAYER PROCESSING:Standard processing guidelines for RO3000 cores would serve as the best starting point for processing homogeneous multi-layer constructions.Chart 2: RO3000 Bondply Speci fi c Gravity vs. Bond PressureThe data in Chart 1 demonstrates the excellent stability of speci fi c gravity over bond pressure of RO3003, RO3006, andRO3010 bondply.Chart 1: RO3000 Bondply Thickness vs. Bond PressureThe data in Chart 1 demonstrates the uniform thickness over bond pressure of RO3003™, RO3006™, and RO3010™ bondply.Dielectric Constant, εrProcess 3.00 ± 0.04(2) 6.15 ± 0.1510.2 ± 0.30Z-10GHz 23°CIPC-TM-6502.5.5.5Clample Stripline(2) Dielectric Constant, εr Design 3.00 6.5011.20Z-8 GHz - 40 GHzDifferentialPhase LengthMethodDissipation Factor0.00100.00200.0022Z-10GHz 23°C IPC-TM-650 2.5.5.5ThermalCoeffi cient of εr-3-262-395Z ppm/°C10GHz50 to 150°C IPC-TM-650 2.5.5.5Dimensional Stability-0.060.07-0.27-0.15-0.35-0.31XYmm/m COND AIPC TM-6502.2.4VolumeResistivity107105105MΩ•cm COND A IPC 2.5.17.1 SurfaceResistivity107105105MΩCOND A IPC 2.5.17.1 TensileModulus90020681500X,Y MPa23°C ASTM D638Moisture Absorption 0.040.020.05-%D48/50IPC-TM-6502.6.2.1Specifi c Heat0.90.860.8J/g/K Calculated ThermalConductivity0.500.790.95-W/m/K80°C ASTM C518Coeffi cient of Thermal Expansion 171625171724131116XYZppm/°C-55 to 288°CASTMD3386-94Td500500500°C TGA ASTM D3850 Density 2.1 2.6 2.8gm/cm3Flammability94V-094V-094V-0ULLead-Free ProcessCompatible Yes Yes YesCorporation.Shelf Life: Two years from date of shipment(1) References: Internal T.R.’s 1430, 2224, 2854. Tests at 23°C unless otherwise noted. Typical values should not be used for specifi cationlimits.(2) The nominal dielectric constant of an 0.060” thick RO3003 laminate as measured by the IPC-TM-650, 2.5.5.5 will be 3.02, due to theelimination of biasing caused by air gaps in the test fi xture. For further information refer to Rogers T.R. 5242.0.005” (0.13mm)RO3003: 25.5”X18”RO3006: 25.5”X18”RO3010: 25.5”X18”The information in this data sheet is intended to assist you in designing with Rogers’ circuit materials. It is not intended to and does not create any warranties express or implied, including any warranty of merchantability or fi tness for a particular purpose or that the results shown on this data sheet will be achieved by a user for a particular purpose. The user should determine the suitability of Rog-ers’ circuit materials for each application.These commodities, technology and software are exported from the United States in accordance with the Export Administration regulations. Diversion contrary to U.S. law prohibited.The Rogers’ logo, Helping power, protect, connect our world, RO3000, RO3003, RO3006, and R03010 are trademarks of Rogers Corporation or one of its subsidiaries. ©2016 Rogers Corporation, Printed in U.S.A., All rights reserved.Revised 1258 121216 Publication #92-147。

第一章简要介绍1.1 前言MICOLIFT 3000 全电脑控制串行通讯微机自推出以来，以其无可比拟的可靠性、友好的人机界面，低廉的价格，迅速赢得了广大客户的信赖，成为电梯更新、改造的首选产品，代表了当今电梯技术发展的主流方向。

目前已被国内几十家电梯厂所采用。

本说明书以目前使用最多的32层站为例说明，若层站数高达64层站，另有说明书作详细介绍。

1.2 功能简介MICOLIFT 3000 串行通讯微机，采用现场CAN 总线控制，多处理器结构，主控板采用多层制板工艺，表面贴装技术，极大地提高系统的抗干扰能力，通过友好的人机界面，调试人员无需编程，仅根据现场条件输入几个简单的参数即可，它具有如下几下特点：（1）、井道参数自学习（2）、采用高速计数技术及准确定位技术，平层精度更高。

（3）、四线制最少布线，由于采用串行通讯技术，所有呼梯信号只通过两根通讯线连接，并通过高可靠插拔插件直接连接，大大提高工程进度，并可减少现场接线的错误。

（4）、使电柜标准化生产成为可能。

（5）、能直接在微机上呼梯，所有的外呼和内选信号都能在微机上操作并能显示所有的呼梯信号。

（6）、能直接调节自动关门的时间和开、关门保护的时间。

（7）、可以直接在微机上选择不响应某一楼层的信号。

（8）、可以选择单关门和双开门以及某一楼层不开门。

（9）、楼层显示任意设置（如显示-9，-1及字母等等）；（10）、能任意设置基站以及消防返回的层站（11）、显示自学习后每层的脉冲数，以及即时轿厢所在位置；（12）、可设置单、多层运行曲线，减速点可越层；（13）、支持远程监控、远程调试；（14）、可群控多台电梯；（15）、可选择七段码、BCD码以及滚动点阵显示；（16）、50个故障历史记录，能记录下故障发生的时间以及电梯出了什么故障。

有了它，你就能在电梯出现故障时及时作出准确的处理，以及做一些事先防范的工作，让你感受到科技的以人为本的真谛。

1.3 附电梯专用控制功能01. 全集选控制02. 安全回路保护功能03. 门联锁安全保护功能04. 开门区间限定保护功能05. 开关门按钮操作功能06. 门安全保护功能07. 到站自动开门功能08. 自动延时关门功能09. 关门故障自动重开门功能10. 本层顺向外呼按钮开门功能11. 端站层自动校正功能12. 端站强制换速功能13. 消防运行功能14. 检修运行操纵功能15. 有无司机操作功能16. 满载自动直驶功能17. 超载报警与保护功能18. 内选自动应答与减速消号19. 内选外呼登记与记忆显示20. 最远端反向外呼应答载车21. 外呼顺向应答与减速消号22. 自动平层停车功能23. 自动定向与换向功能24. 运行方向显示与预报功能25. 高速运行超速保护功能26. 自学习井道数据功能27. 与上位计算机连网通信功能28. 本层反向外呼登记功能29. 外呼开门定向功能30. 独立运行功能31. 单多层运行自动分速度功能（1.5m/s以上）32. 司机运行状态下内选灯闪动指示对应层外呼信号第二章接口2.1 并行输入端子的连接MICOLIFT 3000 微机为CAN BUS 现场总线，串行通讯。

Resin systems are designed to protect and insulate printed circuit boards (PCBs) and electronic components from the 2ResinTypesThe extensive Electrolube product range consists of epoxy, polyurethane and silicone resin systems available forgeneral purpose and customer specific applications. Typically, polyurethanes are used for their flexibility, variable shore hardness and short pot life. In general, epoxy resins are much harder materials, offering superior chemical resistance and physical protection to the polyurethane type. Silicone resins are typically used for high temperature applications and offer excellent protection in extremely harsh conditions.• Very tough systems • Easy to apply• Low coefficient of thermal expansion • Excellent protection against humidity and harsh chemicals• Good flexibility, even at low temperatures • Ideal for delicate components• Exceptionally wide range of hardness options available • Excellent water resistance; formulated products designed specifically for marine applications• Very wide operating temperature range • Exceptional performance at high temperatures • Excellent flexibility• Optically clear options available, ideal for LED applicationsEpoxy ResinsPolyurethane ResinsSilicone ResinsThe majority of Electrolube resins are two part systems that when mixed together in the correct ratio, react to form polymeric materials. By careful formulation, the properties of the cured resin can be tailored to meet individual customer requirements. The Electrolube range therefore offers many resins of varying hardness, viscosity and gel time as well as differing electrical and thermal properties. Further products and bespoke materials are available upon request.3Comparison of Typical Operating Temperature RangesLower Temperature RangeUpper Temperature RangeT e m p e r a t u r e (°C )EpoxyPolyurethane Silicone200150100500-50-100Comparison of Shore Hardness vs. TemperatureTemperature (°C)Shore AShore DShore AA95 = D45General Purpose EpoxyGeneral Purpose Polyurethane General Purpose Silicone* Shore A and D run from 0-100Shore A10 is very soft and flexible Shore D90 is very hard and rigid Shore A95 = Shore D45-40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 100 110 120 1304The electronics industry is one of the most rapidly expanding industries to date, with new applications seemingly endless. Printed circuit boards (PCBs) are found in many domestic, industrial, automotive and military devices, to name but a few. In order to ensure reliability of these critical devices it is essential that the PCBs are protected to prevent reduced performance or in the worst case, complete failure.Electrolube offer a comprehensive range of resins to meet the increasing demands of the electronics industry.Examples of a few applications and suitable product choices are provided as a starting point for selection, however, due to application variances, it is vital that the entire unit is tested in an appropriate environment for its intended end use; this can be exact conditions or carefully planned accelerated testing.Many applications require the protection level of an encapsulation resin in a general use environment, for example, protection from vibration in standardatmospheric conditions. These applications are diverse however Electrolube offer general purpose resins to fit many such requirements. Example products include:• ER2188 – G eneral Purpose Epoxy • SC2001 – G eneral Purpose Silicone • UR5604 – G eneral Purpose PolyurethaneThere are a number of potential requirements forprotection compounds within LED applications. Typical examples are optically clear compounds for protecting the LED itself and thermally conductive materials to help dissipate heat away from the LED or unit. With the growth of LED applications there are also a number of other potential requirements for such products, these include UV resistance, colour stability of the resin and minimal colour temperature shift of the LED. Example products include:• ER2220 – T hermally Conductive Epoxy • SC3001 – O ptically Clear Silicone • UR5634 – O ptically Clear PolyurethaneIn addition to offering optically clear systems, Electrolubealso offer resins with excellent UV stability. Electrolube have carried out weathering resistance tests on anumber of available encapsulation resins. Tests were in accordance with ISO 4892 part 3 cycle 1 ‘Plastics Methods of Exposure to Laboratory Light Sources’ and carried out in a QUV SE Accelerated Weathering Tester. After 1000 hours exposure, the results indicated that Electrolube optically clear polyurethane and silicone resins,UR5634 and SC3001, have superior resistance to UV light, maintaining their clarity throughout the exposure testing. Exposure intensities will vary depending on geographical locations and therefore it is important to establish the correct accelerated exposure time for your region. As an example, this test is roughly equivalent to 4 years weathering resistance in a typical NorthernEuropean climate.General Purpose ProtectionLED ApplicationsProductChoice5Applications where RF signals are transmitted require encapsulation resins that will not interfere with the information transfer. Such applications are rapidly increasing and the automotive industry is just oneexample; an increase in intelligent systems has resulted in information being transferring from various sensors positioned on a car to the dashboard display. The key property to refer to in this case is the dielectric constant or permittivity. High frequency devices, for example, would require a low dielectric constant of 3-3.5. These systems may include specialist fillers to obtain the lowest possible value, such fillers can also make the resin harder to mix and dispense due to the resultanthigh viscosity, however. Thus, using a specialist formulation and eliminating the fillers to achieve aslightly higher dielectric constant of 4, may result in the best compromise. In any case, it is important to test suggested resins in order to determine the optimum dielectric constant requirement for the application.• ER1448 – U nfilled Epoxy Resin • UR5118 – U nfilled Polyurethane Resin • SC2001 – S ilicone ResinRF ApplicationsComparison of Dielectric ConstantElectrolube ProductsD i e l e c t r i c C o n s t a n t54.543.532.521.510.50ER1451 ER2188 SC2001 UR5048 UR5118UR56046Applications in marine environments require excellent resistance to immersion in salt water; there are often other application requirements that must also beconsidered, however. Typical applications may include under-water cable jointing, protection of LED lighting on ship decks and protection of various sensor devices. In such cases, clear or coloured resins may be needed and must offer high adhesion and low dielectricconstant throughout the lifetime of the device operating in harsh conditions.• UR5041 – Highly Water Resistant Polyurethane Resin • UR5118 – Sea Water Resistant Polyurethane • UR5528 – Tough Polyurethane Resin with Excellent AdhesionThere are many applications where a high level ofadhesion is required, either in terms of bond strength due to potential mechanical forces being applied to the unit or in applications such as cable jointing. Such resins may be directly applied or used in conjunction with a primer. In addition, the surface of the substrate will also affect the adhesion properties of an encapsulation resin; surfaces must be clean and dry and very smooth surfaces will be harder to adhere to. Difficult substrates are those with a very low surface tension, such as PTFE.• ER1122 – H ighly Adhesive Epoxy Resin • ER2195 – F lame Retardant Epoxy Resin • UR5545 – Fast Set Polyurethane ResinMarine EnvironmentsJointing and Adhesive Applications7Specific PropertiesThere are also a number of specialist properties that may be required for certain applications. Electrolube offer a range of products to cover a wide variety of requirements, some of which are listed below:Flame RetardantA product may be UL94 approved, with V-0 being the highest level of flame retardancy. In addition, Electrolube offer in-house testing to this standard in order to grade non-approved products.• U L Approved Epoxies – ER2165, ER2188, ER2195• U L Approved Polyurethanes – UR5044,UR5097, UR5604• O ther UL approved products are also available Thermally ConductiveSome techniques only measure the sum of the materials’ thermal resistance and the material/ instrument contact resistance. Electrolube use a version of the heat-flow method that measures both of these values separately, giving a much more accurate bulk thermal conductivity measurement.• E R2220 – Thermally Conductive Epoxy• S C4003 – Thermally Conductive Silicone• U R5633 – Thermally Conductive Polyurethane Highly Chemically ResistantMost encapsulation resins in the Electrolube Rangewill offer protection against short-term exposure to chemicals such as solvents, oils and fuels. In some cases, this exposure may be frequent or for longer periods of time and in this case, specialist materials are needed.• E R2223 – Chemically Resistant Epoxy• U R5528 – Tough Polyurethane Resin• SC2001 – Chemically Resistant SiliconeVery Soft/Re-workableAn encapsulation resin may need to have an extremely low hardness to maintain flexibility at low temperatures, for example. This is particularly critical where devices have sensitive components and may frequently be exposed to rapid changes in temperature. In addition, some devices may need to be reworked; in general encapsulation resins can be difficult to remove however specialist formulations may offer the opportunity to rework by cutting the bulk of resin out of the unit.• U R5044 – UL Approved, Re-workable Polyurethane• U R5048 – Ultra Soft Polyurethane Resin• SC2001 – Soft Silicone ResinSingle-Component SystemsIn some cases, it may be more effective to use a single-part system and cure using heat. Applications include ‘glob-top’, where a select component or area of a PCB is protected with a resin as opposed to encapsulating the entire unit.• E R2136 – Single-Part Epoxy Resin• E R2219 – Single-Part Flame Retardant Epoxy Resin• G LR– Glob-Top Resin8ConsiderationsPrior to the application of encapsulation resins it is important to consider what contaminants may be present on the PCB or device. In a ‘no-clean’ process for example, the residues left on the PCB will be non-corrosive however there may be other possible sources of contamination. Any potentially harmful contaminants left on the PCB before encapsulating with a resin material can result in failure of the device. In addition, some residues may cause issues with adhesion of the encapsulation resin to the PCB or outer casing, in turn, reducing the protection level offered.Electrolube also offer a range of water and solvent-based cleaning products to ensure all corrosive residues are removed from the printed circuit board prior to any other process. Electrolube therefore offers superior technical support in ensuring the correct application parameters are identified. Please contact us for further information where required.The majority of encapsulation resins are two part systems, therefore both the mixing and dispensing process needs to be considered in order to ensure successful application. Both manual and automaticprocesses are possible for all resin types and cure times may be reduced by using elevated temperatures.Electrolube encapsulation resins are available in resin packs;1. A pre-weighed pack containing the correct amount of eachcomponent, separated by a clip.2. T he resin and hardener are mixed by removing the clip and mixing the contents. To remove the clip, remove both end caps, grip each end of the pack and pull apart gently.3. M ix the contents by moving them around inside the pack until thoroughly mixed.4. U sing the removed clip, take special care to push unmixed material from the corners of the pack. Mixing normallytakes from two to four minutes depending on the skill of the operator and the size of the pack. Both the resin andhardener are evacuated prior to packing so the system is ready for use immediately after mixing.5. T he corner may be cut from the pack so that it may be used as a simple dispenser.NOTE:It is important not to remove the aluminium outer wrapping on polyurethane and silicone resins until immediately before use;leaving out of the aluminium outer will lead to moisture ingress and insufficient cure when mixed. To open, cut the aluminium outer being very careful not to damage the inner pack; discard the molecular sieve sachets.When mixing the pack, ensure all surfaces are clean and the pack is mixed thoroughly but gently; pack defects from mixing include split and pin hole formation which again lead to moisture ingress, resulting in air bubbles and insufficient cure.Manual Processes9ConsiderationsDo not heat cure large volumes immediately, they should be allowed to gel at room temperature first. Depending on the product, elevated temperatures can be used to reduce cure times; product data sheets should be consulted for specific information. Encapsulation resins generate a small amount of heatduring the curing process; this is often below 35˚C however some materials may exhibit higher exotherm values. The exotherm therefore must be considered to ensure compatibility with all components and to avoid excessive heat generation when considering heat curing.CuringIt is essential that the inclusion of air during mixing and potting of encapsulation resins is kept to an absolute minimum. In the case of epoxy resins, the introduction of air can lead to voids in the potting compound, thus affecting the protection level offered and creating potential problems with differences in coefficients of thermal expansion.Polyurethane resins are susceptible to moisture due to the hardener. Typically, polyurethane resins are cured using isocyanates, which will prefer a reaction with moisture over a reaction with the resin. In this case, if moisture ingress has occurred then bubbles will form in the resin following the release of carbon dioxide, possibly resulting in insufficient cure, leaving a soft or tacky resin. It is therefore important to ensure that containers are kept closed at all times when not in use, that molecular sieve towers are fitted to automatedequipment and regularly monitored and finally, that the relative humidity of the mixing, dispensing and curing environments is monitored and ideally kept below 70%.Silicone resins can be affected by certain materials, chemicals, curing agents or plasticizers for example. These can inhibit the cure of silicone encapsulants and therefore all preparation surfaces and equipment must be kept clean and contact with the following avoided:• Organotin and other organometallic compounds • Silicone rubber containing organotin catalyst • Sulphur, polysulphides, polysulphones or other sulphur containing materials • Amines, urethanes or amine-containing materials • Unsaturated hydrocarbon plasticisers • Some solder flux residuesImportant ConsiderationsWhen mixing, care must be taken to avoid theintroduction of excessive amounts of air. Automatic mixing equipment is available which will not only mix both the resin and hardener accurately in the correct ratio but do this without introducing air. Containers of Part A (Resin) and Part B (Hardener) should be kept sealed at all times when not in use to prevent the ingress of moisture. Bulk material must be thoroughlymixed before use. Incomplete mixing will result in erratic or partial curing. Electrolube work closely with equipment suppliers to ensure the correct selection of equipment and accessories is obtained; it is possible to heat tanks to reduce viscosity, add molecular sieve towers to ensure moisture ingress is kept to a minimum and stirrers to eliminate the problems associated with sedimentation of filled systems.Bulk Mixing1011121314For exact calculated ratios please see the technical data sheet.15UK Headquarters / Manufacturing Ashby Park Coalfield WayAshby de la Zouch Leicestershire LE65 1JRUnited Kingdom T +44 (0)1530 419600 F +44 (0)1530 416640 E info @ A division of H K Wentworth Limited Registered office as aboveRegistered in England No. 368850China Headquarters / Manufacturing Building No2, Mauhwa Industrial Park, Caida 3rd Street, Caiyuan Industrial Zone, Nancai Township, Shunyi District Beijing, 101300Peoples Republic of China T +86 (10) 89475123 F +86 (10) 89475123 E info @ All information is given in good faith but without warranty. Properties are given as a guide only and should not be taken as a specification.ELCAT_RESIN_GB4India Headquarters / Manufacturing No: 73, 6th Main, 3rd Phase Peenya Industrial Area Peenya Bangalore 560058 IndiaT +91 80 2972 3099E *******************.uk。

RO3000® Series Circuit MaterialsRO3003™, RO3006™, RO3010™ and RO3035™High Frequency LaminatesFeatures and Benefits:Low dielectric loss (RO3003™ laminates)• Laminates can be used in applications up to 77 GHz.Excellent mechanical properties versus temperature• Reliable stripline and multi-layer board constructions.Uniform mechanical properties for a range of dielectric constants• Ideal for multi-layer board designs with a range of dielectric constants• Suitable for use with epoxy glass multi-layer board hybrid designs Stable dielectric constant versus temperature and frequency (RO3003 laminates)• Ideal for band pass filters, microstrip patch antennas, and voltage controlled oscillators.Low in-plane expansion coefficient (match to copper)• Allows for more reliable surface mounted assemblies• Ideal for applications sensitive to temperature change• Excellent dimensional stability Volume manufacturing process • Economical laminate pricingSome Typical Applications:• Automotive radar applications• Global positioning satellite antennas • Cellular telecommunications systems - power amplifiers and antennas • Patch antenna for wireless communications• Direct broadcast satellites • Datalink on cable systems • Remote meter readers • Power backplanesRO3000®high frequency circuit materials are ceramic-filled PTFE composites intended for use in commercial microwave and RF applications. This family of products was designed to offer exceptional electrical and mechanical stability at competitive prices. RO3000 series laminates are ceramic-filled PTFE based circuit materials with mechanical properties that are consistent regardless of the dielectric constant selected. This allows the designer to develop multi-layer board designs that use different dielectric constant materials for individual layers, without encountering warpage or reliability problems.RO3000 materials exhibit a coefficient of thermal expansion (CTE) in the X and Y axis of 17 ppm/o C. This expansion coefficient is matched to that of copper, which allows the material to exhibit excellent dimensional stability, with typical etch shrinkage (after etch and bake) of less than 0.5 mils per inch. The Z-axis CTE is 24 ppm/ °C, which provides exceptional plated through-hole reliability, even in severe thermal environments. The dielectric constant versus temperature for RO3003™ and RO3035™ materials is very stable (Chart 1).RO3000 series laminates can be fabricated into printed circuit boards using standard PTFE circuit board processing techniques, with minor modifications as described in the application note “Fabrication Guidelines for RO3000 Series High Frequency Circuit Materials.”Chart 3 demonstrates thestability of dielectric constant for RO3000 series products over frequency. This stabilitysimplifies the design ofbroadband components as well asallowing the materials to be used in a wide range of applications over a very broad range of frequencies.Chart 3: Normalized Dk vs. Frequency using microstrip differential phase length method 50 ohm mi-crostrip circuits based on ~20mil thick laminatesNOTES:(1) Typical values are a representation of an average value for the population of the property. For specification values contact Rogers Corporation.(2) The design Dk is an average number from several different tested lots of material and on the most common thickness/s. If more detailed information is re-quired, please contact Rogers Corporation or refer to Rogers’ technical papers in the Roger Technology Support Hub available at /techubThe information in this data sheet is intended to assist you in designing with Rogers’ circuit materials. It is not intended to and does not create any war-ranties express or implied, including any warranty of merchantability or fitness for a particular purpose or that the results shown on this data sheet will be achieved by a user for a particular purpose. The user should determine the suitability of Rogers’ circuit materials for each application.These commodities, technology and software are exported from the United States in accordance with the Export Administration regulations. Diversion contrary to U.S. law prohibited.The Rogers’ logo, Helping power, protect, connect our world, RO3000, RO3003, RO3006, R03010 and RO3035 are trademarks of Rogers Corporation or one of its subsidiaries.©2022 Rogers Corporation, Printed in U.S.A., All rights reserved.Revised 1589 080122 Publication #92-130*Contact Customer Service or Sales Engineering to inquire about additional available product configurations。