Oxibendazole_20559-55-1_DataSheet_MedChemExpress

化 学 品 安 全 技 术 说 明 书根据欧盟(E C ) N o . 1907/2006的法规____________________________________________________________________________________________________________________9-20558生效日期 2013-09-12填表时间 2013-09-12版本 2SDS # :9-20558X i - 有刺激性第 1 部分： 产品和公司标识分类化学品俗名或商品名鉴定了的多种用途Xi;R36/37/38 - R43 - R52-53企业应急电话北美:C h e m t r e c @ 1-800-424-9300 (24h r s )国际:C h e m t r e c @ 001-703-527-3887 (24h r s )胶粘剂最主要的危险性9-20558第 2 部分： 危害标识R - 类标志接触皮肤可引起过敏。

刺激眼睛、呼吸系统及皮肤。

对水生生物有害，对水域环境可能造成长期的不良影响。

进一步的信息,请联系: 该物质该物质／／制剂依照指令67/548/E E C 及其修订版和及其修订版和／／或1999/45/E C 及其修订版被划分为危险物质.其他不影响分类的危害性接触点环境危害不要释放到环境中去。

.洪志明分类电子邮件地址图形符号企业名称戴马斯紫外线胶水设备（上海）有限公司上海市金山区秋实路688号A 5 407/409/411生产者Dymax Corporation 318 Industrial Lane Torrington, CT 06790Tel: 860-482-1010Fax: 860-496-0608____________________________________________________________________________________________________________________79-10-7 1 - 5R10Xn;R20/21/22C;R35N;R50Acute Tox. 4 (H302)Acute Tox. 4 (H312)Acute Tox. 4 (H332)Skin Corr. 1A (H314)Aquatic Acute 1 (H400)Flam. Liq. 3 (H226)重量百分含量分类 (67/548)Amorphous Silica Listed Proprietary 1 - 5Xi;R36/37STOT SE 3 (H335) Eye Irrit. 2 (H319)G H S 分类PhotoinitiatorListed Proprietary 1 - 5Xn;22Acute Tox. 4 (H302)Isobornyl Acrylatetert-Butyl Perbenzoate 210-382-2614-45-9< 1E;R2O;R7Xn;R20Xi;R38R43N;R50Skin Irrit. 2 (H315)Org. Perox. C (H242)Acute Tox. 4 (H332)Skin Sens. 1 (H317)Aquatic Acute 1 (H400)227-561-65888-33-5Visible Photoinitator Listed Proprietary < 1R43R53Skin Sens. 1 (H317)Aquatic Chronic 4 (H413)20 - 30Xi;R36/37/38N;R51-53PhotoinitiatorListed Proprietary < 1N;R50-53STOT RE 2 (oral)Aquatic Chronic 2 (H411)STOT SE 3 (H335) Skin Irrit. 2 (H315) Eye Irrit. 2 (H319) Aquatic Chronic 2 (H411)第 3 部分： 组成/成分信息Fluoroaliphatic Polymeric EstersListed Proprietary< 1N;R51-53Aquatic Chronic 2 (H411)以下部份内容物据有危险性或超过安全标准.Acrylate Monomer 无危险的组分Listed Proprietary 化学品名称E C -编号化学文摘编号(CAS No.)重量百分含量分类 (67/548)G H S 分类10 - 20Xn;R22R43R52-53Aliphatic Urethane AcrylateNot ListedProprietary 20 - 30--Skin Sens. 1 (H317) Acute Tox. 4 (H302) Aquatic Chronic 3 (H412)有害物成分Acrylate Oligomer 在这部分中提及的R 句子的全文请看第16部分。

ADSP-BF609 EZ-KIT Lite®Evaluation System ManualRevision 1.0, March 2012Part Number82-000269-01 Analog Devices, Inc.One T echnology WayaNorwood, Mass. 02062-9106Copyright Information© 2012 Analog Devices, Inc., ALL RIGHTS RESERVED. This docu-ment may not be reproduced in any form without prior, express writtenconsent from Analog Devices, Inc.Printed in the USA.DisclaimerAnalog Devices, Inc. reserves the right to change this product withoutprior notice. Information furnished by Analog Devices is believed to beaccurate and reliable. However, no responsibility is assumed by AnalogDevices for its use; nor for any infringement of patents or other rights ofthird parties which may result from its use. No license is granted by impli-cation or otherwise under the patent rights of Analog Devices, Inc. Trademark and Service Mark NoticeThe Analog Devices logo, Blackfin, CrossCore, EZ-Board, EZ-Extender, and EZ-KIT Lite are registered trademarks of Analog Devices, Inc.All other brand and product names are trademarks or service marks oftheir respective owners.Regulatory ComplianceThe ADSP-BF609 EZ-KIT Lite is designed to be used solely in a labora-tory environment. The board is not intended for use as a consumer end product or as a portion of a consumer end product. The board is an open system design which does not include a shielded enclosure and therefore may cause interference to other electrical devices in close proximity. This board should not be used in or near any medical equipment or RF devices.The ADSP-BF609 EZ-KIT Lite is currently being processed for certifica-tion that it complies with the essential requirements of the EuropeanEMC directive 2004/108/EC and therefore carries the “CE” mark.The EZ-KIT Lite evaluation system contains ESD (electrostatic discharge)sensitive devices. Electrostatic charges readily accumulate on the humanbody and equipment and can discharge without detection. Permanent dam-age may occur on devices subjected to high-energy discharges. Proper ESDprecautions are recommended to avoid performance degradation or loss offunctionality. Store unused EZ-KIT Lite boards in the protective shippingpackage.PREFACEProduct Overview (xii)Purpose of This Manual (xv)Intended Audience (xv)Manual Contents (xvi)What’s New in This Manual (xvi)Technical or Customer Support (xvii)Supported Processors (xvii)Product Information (xviii)Analog Devices Web Site (xviii)EngineerZone (xviii)Related Documents (xix)Notation Conventions (xx)USING ADSP-BF609 EZ-KIT LITEPackage Contents .......................................................................... 1-2 ADSP-BF609 EZ-Board ................................................................ 1-3 Default Configuration ................................................................... 1-3 Supported Operating Systems ....................................................... 1-5ADSP-BF609 EZ-KIT Lite Evaluation System Manual vSystem Requirements .................................................................... 1-5 EZ-KIT Lite Installation ............................................................... 1-6 EZ-KIT Lite Session Startup ......................................................... 1-7 Evaluation License Restrictions ................................................... 1-10 Memory Map ............................................................................. 1-10 DDR2 SDRAM .......................................................................... 1-12 SPI Interface .............................................................................. 1-13 SMC Interface ............................................................................ 1-13 Ethernet Interface ....................................................................... 1-13 USB OTG HS Interface .............................................................. 1-14 CAN Interface ............................................................................ 1-14 UART Interface .......................................................................... 1-15 SD Interface ............................................................................... 1-16 Rotary Encoder Interface ............................................................ 1-16 Temperature Sensor Interface ...................................................... 1-17 Link Ports Interface .................................................................... 1-17 General-Purpose I/O (GPIO) ...................................................... 1-18 JTAG Interface ........................................................................... 1-18 Power-On-Self Test ..................................................................... 1-20 Expansion Interface III ............................................................... 1-20 Power Architecture ..................................................................... 1-21 Power Measurements .................................................................. 1-21 Example Programs ...................................................................... 1-22 Reference Design Information ..................................................... 1-22vi ADSP-BF609 EZ-KIT Lite Evaluation System ManualADSP-BF609 EZ-KIT LITE HARDWARE REFERENCE System Architecture ...................................................................... 2-2 Software-Controlled Switches (SoftConfig) .................................... 2-3 Overview of SoftConfig ........................................................... 2-3SoftConfig on the ADSP-BF609 EZ-KIT LITE ...................... 2-7Programming SoftConfig Switches ........................................... 2-8 Push Buttons and Switches .......................................................... 2-17 JTAG Interface Switches (SW1, SW3–5) ................................ 2-18Boot Mode Select Switch (SW2) ............................................ 2-19IRQ/Flag Enable Switches (SW6–7) ....................................... 2-20Reset Switch (SW8) ............................................................... 2-20Rotary Encoder With Momentary Switch (SW9) .................... 2-20Wake Push Switch (SW10) .................................................... 2-21 Power Jumpers ............................................................................ 2-21 LEDs .......................................................................................... 2-22 GPIO LEDs (LED1–4) ......................................................... 2-23Thermal Limit LED (LED5) ................................................. 2-23Power LED (LED6) ............................................................... 2-23Reset LED (LED7) ................................................................ 2-24SPD LED (LED6) ................................................................. 2-24 Connectors ................................................................................. 2-24 DCE UART Connector (J2) .................................................. 2-25Link Port /JTAG Connectors (J3 and P8) ............................... 2-25JTAG Connector (P1) ........................................................... 2-25 ADSP-BF609 EZ-KIT Lite Evaluation System Manual viiJTAG Connector (ZP1) ......................................................... 2-26Expansion Interface III Connectors (P1A–C, P2A, P3A) ........ 2-26USB Connector (P7) ............................................................. 2-26Power Connector (P18) ......................................................... 2-26CAN Connector (J4) ............................................................ 2-27SD Connector (J5) ................................................................ 2-27Ethernet Connector (J1) ....................................................... 2-27Ethernet Connectors (P16-17) ............................................... 2-27 ADSP-BF609 EZ-KIT LITE BILL OF MATERIALSADSP-BF609 EZ-KIT LITE SCHEMATICTitle Page ..................................................................................... B-1 Processor DDR2 Interface ............................................................ B-2 Processor Signals ........................................................................... B-3 Processor Power and Ground ......................................................... B-4 Temp Sensor, Boot Switch, DSP CLK, USB Conn ......................... B-5 Memory ....................................................................................... B-6 UART0 ........................................................................................ B-7 CAN and Rotary Encoder ............................................................. B-8 Ethernet ....................................................................................... B-9JTAG, Link Port 0 and 1 ........................................................... B-10 Push Buttons, Reset, LEDs ......................................................... B-11 SoftConfig Switches, IO Extender ICs ......................................... B-12 Expansion Interface, Page 1 ........................................................ B-13viii ADSP-BF609 EZ-KIT Lite Evaluation System ManualExpansion Interface, Page 2 ........................................................ B-14 Expansion Interface, Page 3 ........................................................ B-15 Power ........................................................................................ B-16 INDEXADSP-BF609 EZ-KIT Lite Evaluation System Manual ixx ADSP-BF609 EZ-KIT Lite Evaluation System Manual分销商库存信息: ANALOG-DEVICESADZS-BF609-EZLITE ADZS-BF609-EZBRD。

黄嘌呤氧化酶（XOD）活性检测试剂盒说明书微量法注意：正式测定之前选择2-3个预期差异大的样本做预测定。

货号：BC1095规格：100T/96S产品内容：提取液：液体100mL×1瓶，4℃保存；试剂一：液体30mL×1瓶，4℃保存；试剂二：粉剂×2瓶，4℃保存。

产品说明：XOD（EC 1.17.3.2）催化黄嘌呤氧化生成尿酸和超氧阴离子，是活性氧主要来源之一；同时也是核苷酸代谢的关键酶之一。

XOD主要分布于哺乳动物的心，肺，肝脏等组织中，当肝功能受损时，XOD大量释放到血清中，对肝损害的诊断具有特异性的意义。

XOD催化黄嘌呤产生尿酸，尿酸在290nm下有特征吸收峰。

需自备的仪器和用品：紫外分光光度计/酶标仪、台式离心机、可调式移液器、微量石英比色皿/96孔UV板、研钵、冰和蒸馏水。

操作步骤：一、粗酶液提取：1、细菌、细胞或组织样品的制备收集细菌或细胞到离心管内，离心后弃上清；按照每500万细菌或细胞加入1mL提取液，超声波破碎细菌或细胞（功率20％，超声3s，间隔10s，重复30次）；8000g4℃离心10min，取上清，置冰上待测。

称取约0.1g组织，加入1mL提取液进行冰浴匀浆；8000g4℃离心10min，取上清，置冰上待测。

或者直接用0.5mg/mL的酶液直接测定，为保证实验准确性建议用提取液梯度稀释后测定。

2、血清（浆）样品：直接检测。

二、测定步骤：1、分光光度计或酶标仪预热30min以上，调节波长至290nm，蒸馏水调零。

2、XOD检测工作液的配制：用时在每瓶试剂二中加入15mL试剂一，充分混匀，待用；用不完的试剂4℃可保存一周。

3、测定前按需取出一定量的XOD检测工作液在37℃（哺乳动物）或25℃（其它物种）水浴30min以上。

4、空白管：在EP管中加入10μL水和250μL工作液，立即混匀并取200µL转移至微量石英比色皿或96孔板中，记录290nm下初始吸光值A1和1min后的吸光值A2。

Three-Part Specifications - Copyright 2014 - Nixalite of America Inc Premium Nixalite All Stainless Steel Bird Barrier Spikes Includes specifications for: Premium Nixalite Models S, H and W and Mounting Hardware.Nixalite of America Inc designs and manufactures the Premium Nixalite All Stainless Steel Bird Barrier Spikes in the USA with materials processed in the USA. These flexible spike strips repel all bird species, in all levels of infestation, on all types of architectural surfaces. They eliminate costly cleaning and structural maintenance caused by pest birds and their filthy habits. They protect people from the health hazards associated with pest bird waste.There are three (3) separate Premium Nixalite Bird Spike Models; the Model S, Model H and Model W. Each model is designed to fulfill a specific bird control need or application. Nixalite has manufactured these unrivaled bird spike strips since 1950 - there are no approved equals and there are no substitutions allowed. The following specification outline is presented in a modular format making it simple to include or exclude any combination of the Nixalite Premium Bird Control system as needed for each project.List Nixalite Premium Bird Barrier specifications in the following locations;Master Format 1995 – 10290 – Bird & Pest ControlMaster Format 2004 – 10 81 00 - Pest Control DevicesMaster Format 2004 – 10 81 13 – Bird Control DevicesPART 1 - GENERAL1.1 - SYSTEM DESCRIPTION:A.Nixalite Premium All Stainless Steel Bird Barrier Spike Models: Physical surfacebarriers designed to prevent all types of pest birds and climbing animals fromlanding, roosting, nesting or climbing on architectural surfaces, in all infestationlevels. There are three (3) Premium Nixalite Bird Spike models available; Model S,Model H and Model W. There is no equal to Nixalite’s Premium All Stainless SteelBird Barrier Spikes. No substitutions are allowed.B.Nixalite Bird Spike Mounting Hardware: Nixalite designed, stainless steel mountingclips combined with mechanical fasteners to hold the Nixalite Premium Bird Spikesto all types of architectural surfaces. All Premium Nixalite mounting hardware ismade of stainless steel or non-corrosive materials.C.Surface Cleaning System: Surface disinfectants, deodorizers and personal protectionequipment (PPE) that help keep installers safe when neutralizing the potentiallyhazardous bird or animal wastes that may be present. The cleaning system thensanitizes and deodorizes the surface in preparation of the Premium Nixalite BirdSpike installation.1.2 - QUALITY ASSURANCEA.Installer to obtain, review and understand Nixalite of America Inc.’s planning guides,estimating worksheets and installation instructions.B.Installer must be completely familiar with the proper installation procedures for theNixalite Premium All Stainless Steel Bird Spike model or models specified forinstallation.C.Installer must be completely familiar with the specified mounting hardware andmounting hardware installation procedures.D. Installer must obtain and record accurate and complete dimensions for each surfacespecified for Premium Nixalite Bird Spike installation. Surface dimensions are whatdrive Premium Nixalite Bird Spike quantities. Accurate dimensions ensure accuratequotations and material orders.E.All specified bird spikes must be MADE IN THE USA from materials PRODUCEDIN THE USA.F.Installed bird spikes must be Nixalite’s Premium All Stainless Steel Bird BarrierSpikes. There are no equals - no substitutions are allowed.1.3 - SUBMITTALSA.Manufacturers literature including: Nixalite Planning Guide, completed Nixalite EstimateWorksheet(s) and installation instructions for the specified Premium Nixalite Bird Spike Model and specified mounting hardware.B.Sample of specified Premium Nixalite Bird Spike Model - not less than 2” (5.1cm) in length.C.(If ColorCoat finish) Sample of Premium Nixalite Bird Spike Model in the specified color.D.Sample of specified Nixalite Bird Spike Mounting Hardware.E.Premium Nixalite Model S installation instructions and drawings from manufacturer (if specified).F.Premium Nixalite Model H installation instructions and drawings from manufacturer (if specified).G.Premium Nixalite Model W installation instructions and drawings from manufacturer (if specified)1.4 – STORAGE & HANDLINGA.Provide storage and/or protection to keep Premium Nixalite Bird Barrier Spikeshipping boxes dry, clean and undamaged. Do not stack or place other packaging orobjects on the Premium Nixalite Bird Barrier Spike shipping boxes.B.Keep Premium Nixalite All Stainless Steel Bird Barrier Spikes and MountingHardware in original packaging until needed for installation.PART 2 - PRODUCTS2.1 – ACCEPTABLE MANUFACTURERA.Nixalite of America Inc1025 16th Avenue, PO Box 727, Dept. NI, East Moline, Illinois 61244; U.S.A.P: 800.624.1189 or 309.755.8771 - F: 800.624.1196 or 309.755.0077E: ************************ or *********************B.ABC Advanced Bird Control – A division of Nixalite of America Inc.PO Box 727, Dept. NI, East Moline, Illinois 61244, U.S.A.P: 888.212.8682 or 309.755.4708 - F: 309.755.1865E: ***********************2.2 – NIXALITE PREMIUM BIRD BARRIER STRIPSA.ALL Premium Nixalite Models are all stainless steel wire and base strip spikes thatare made in the USA from materials produced in the USA.Wires: Stainless steel, 0.041” (1 mm) diameter, full-hard spring temper.Base Strip: Stainless steel, 0.25” wide x 0.02” thick (6.3 mm x 0.5 mm), full annealfor flexibility, easy strip cutting and surface shape memory.B.Premium Nixalite Spike Strip Lengths: All Premium Nixalite spike strip models areavailable in 24” (61.0 cm) and 48” (122.0 cm) strip lengths.C.Premium Nixalite Model S: Full row spike, 4” high (10.2 cm), 4” wide (10.2 cm) NOLESS THAN 120 wire points per foot. Full 180-degree wire coverage. For all birdspecies on all types of surfaces. Use in conjunction with Premium Nixalite ModelW for climbing animal barrier and mud-nest building bird control applications.D.Premium Nixalite Model H: Half row spike. 4” high (10.2 cm), 2” wide (5.1 cm), NOLESS THAN 60 wire points per foot, 90 degree wire coverage. For flat surfaces lessthan 2” in depth (5.1 cm) or in conjunction with Premium Nixalite Model S onspecific surface widths to achieve proper surface protection.E.Premium Nixalite Model W: Wall mount spike. 5-1/2” high (14.0 cm), 3” wide (7.6cm), NO LESS THAN 120 wires per foot, 180-degree wire coverage. Designed forvertical surfaces only. Use above surfaces less than 2” in depth (5.1 cm) or overother Nixalite Models when specified. Use in conjunction with Premium NixaliteModel S for climbing animal barrier and mud-nest building bird control applications.F.Nixalite Soft Tip Option: Available for Premium Nixalite Models S and H (notavailable on Model W). This replaces the pointed wire tips with flattened wire tips.Otherwise the spike is the same as the regular pointed wire spikes. Use only wherefrequent human contact is possible (or expected) and bird pressure is low.G. Finish: Natural stainless steel finish or manufacturers ColorCoat finish.H.ColorCoat: standard colors are black, white, gray, tan, brown and bronze. Choosestandard color that best suits application. Custom colors available. For custom color: installer must contact manufacturer for color matching procedures.2.3 – NIXALITE BIRD SPIKE MOUNTING HARDWAREA.To be made of stainless steel or non-corrosive materials. Standard mounting hardwareis supplied with Premium Nixalite Bird Barrier Spike Models in set quantities.Mounting Hardware must allow for bird spike strip installation, removal andreinstallation without damaging the installation surface, the spike strips or themounting system.e the Nixalite Bird Spike Mounting Hardware that best suits the installation surface.All hardware is made of either stainless steel or non-corrosive materials.Installation Surface Nixalite Bird Spike Mounting HardwareMasonry, stone, concrete; Mounting clip, sheet metal screw, masonry anchor Wood, plywood, shingles; Mounting clip, sheet metal screw, washerSheet metal, plastic, PVC; Mounting clip, sheet metal screw, washerSteel, cast iron, brass, bronze; Mounting clip, drive screw, washerPipes, cables, conduit, grates; Wire tie, wire tying tool, adhesiveC.Apply adhesive or sealant in all holes that penetrate the installation surface. Aftermounting hardware is installed, apply additional adhesive or sealant over the headsof the sheet metal screws and/or the drive screws. Do not get adhesive or sealant inthe hook end of the mounting clips.D.Optional Fastening:Glue Clips & Adhesive:If surface conditions do not allow for the use of the supplied Bird Spike MountingHardware, use the Glue Clip and Adhesive installation method. Follow the Glue Clip installation instructions available from the manufacturer.Custom Forms:Nixalite offers custom made stainless steel mounting brackets, straps or clamps tohold the Premium Nixalite Bird Spikes to installation surfaces with limited or zerosurface penetration requirements. Contact manufacturer for details on custom formdesign and/or manufacture.2.4 – SURFACE CLEANING SYSTEMA.Steri-Fab: Surface disinfectant and bactericide designed to neutralize bird waste,making it safe for removal. Steri-Fab quickly kills disease causing bacteria, parasites, fungi, insects, etc. This is a non-residual product. It becomes completely inert after it dries. Do not use with Microcide-SQ on the same surface at the same time.B.Microcide-SQ: A broad spectrum disinfectant, cleaner and deodorizer used to sanitizehard surfaces as well as fabrics and clothing. Use to kill a wide spectrum oforganisms and disease causing bacteria. Do not use with Steri-Fab on the samesurface at the same time.C.Microsan: Anti-microbial personal protection products to help prevent diseasetransmittal before, during and after working on and around surfaces contaminatedwith bird and animal wastes. Use to compliment personal protection equipmentstandards (PPE).D.Safety Equipment: Nixalite offers personal protection equipment (PPE) to protectpersonnel from the hazards related to pest bird and animal waste materials.PART 3 - EXECUTION3.1 - INSPECTIONA.Visually inspect all installation surfaces. Make sure all surfaces are clean, dry and freefrom debris or other conditions that could impede the workflow of this section. Allsurfaces must be sanitized and deodorized before Premium Nixalite Bird Spikeinstallation.B.Notify architect of detrimental conditions. Do not proceed until these conditions havebeen corrected.3.2 - PREPARATIONA.Field Measurements: Verify the dimensions for each surface specified for PremiumNixalite Bird Spike installation. Use manufacturers Planning Guides and EstimateWorksheets to verify that sufficient quantities of bird spike strips will be installed on EACH surface specified for bird control.B.Make sure all installation surface finishing requirements have been accomplishedbefore installing Premium Nixalite Bird Spike Models. They are to be the last itemsinstalled on each specified surface. DO NOT apply any surface coating or treatment(paint, sealer, etc.) over the installed Premium Nixalite Bird Spike Models or themounting hardware.C.Remove or relocate all plants, foliage or foreign objects that overhang the installationsurfaces. Note all conditions that could adversely affect the installation andperformance of the Premium Nixalite Bird Spike installation.3.3 – SURFACE CLEANINGA.All surfaces to be clean, dry and free of obstructions before the Premium Nixalite BirdSpikes are installed.B.If Bird Waste Is Present:Treat, neutralize and safely remove all bird waste from installation surfaces. Installer must follow all municipal, state and federal regulations regarding the proper removal and disposal of bird droppings and waste materials such as nests and dead birds.e Nixalite’s surface cleaning products to neutralize any bird droppings, nests andrelated waste materials that may be present. Allow all surfaces to air dry completely, and then reapply to sanitize and deodorize the surface before proceeding. Strictlyfollow treatment instructions provided with Nixalite’s surface cleaning products.e Nixalite anti-microbial and anti-bacterial personal protection products to helpprevent disease transmittal when working around surfaces contaminated with birddroppings.3.4 - INSTALLATIONA.Make sure the installation surfaces are clean, dry and free of any debris orobstructions.B.Install specified Premium Nixalite Bird Spike Models in strict accordance withmanufacturer’s spike strip spacing and installation guidelines. Protect all surfaceswhere pest birds can land, roost and nest.C.Install Nixalite’s bird spike strips so they will protect the entire surface, not just theoutside edges. No gaps are allowed in the bird spike strip coverage. Cut the birdspike strips where necessary to fit the surface properly.D.Wires of Premium Nixalite Bird Spike Models must extend over outside edges of eachsurface by at least 1/4” (0.6cm). The bird spike base strip must extend over the endsof each surface by at least 1/2” (1.2cm).E.Fasten Premium Nixalite Bird Spike Models to the surface with the mountinghardware recommended by the manufacturer. Follow the hardware spacingguidelines and installation procedures supplied by manufacturer.F.Premium Nixalite Model S; A full row spike strip model that repels all bird specieson all types of surfaces. Use in conjunction with Premium Nixalite Model W forclimbing animal barrier and mud-nest building bird control applications.G.Premium Nixalite Model H; A half row spike strip used on flat horizontal surfacesless than 2” in depth (5.1 cm). Use in conjunction with Premium Nixalite Model Son specific surface widths to achieve proper coverage and protection.H.Premium Nixalite Model W; A wall-mount spike strip used on vertical surfaces only.Do not install horizontally (down flat). Install above surfaces less than 2” in depth(5.1 cm) or over other Nixalite Models when specified by manufacturer. Use inconjunction with Premium Nixalite Model S for climbing animal barrier and mud-nest building bird control applications.I.Climbing Animal Barrier Installations;All climbing animal barrier installations use the standard pointed wire PremiumNixalite Model S and Model W bird spike strips. DO NOT use Soft Tip option forspikes installed as a climbing barrier. Installed in multiple rows, the PremiumNixalite spikes can repel the most determined climbing animals. Contact themanufacturer for installation guidelines for climbing animal barrier applications.J.Physical Security System Enhancements;Premium Nixalite All Stainless Steel Barrier Spikes can be used to enhance existingphysical perimeter security systems. Install barrier spikes on key surfaces to denyentry or egress by unauthorized personnel. For best results, install Premium barrierspikes with other physical security barriers. Use the mounting systems recommended by the manufacturer.3.5 – ADJUSTMENTS / CLEANINGA.Remove debris and waste materials from project site. Inspect finished installation.Make any adjustments needed to conform to Nixalite’s spacing and installationguidelines.B.Premium Nixalite All Stainless Steel Bird Barrier Spikes are a physical and passivebarrier. They rely on the system of pointed stainless steel wires to deny pest birdsand nuisance animals access to the surfaces on which they are installed. Periodicinspections are recommended to keep the bird spike strips in good condition.C.Occasionally, debris may fall onto the wires or birds may drop materials into the wiresin an attempt to build a nest. If this happens, begin a monthly inspection of thesystem to remove any debris and to check the condition of the installed bird spikestrips.Nixalite® of America Inc – 1025 16th Avenue – East Moline, IL. 61244 Ph:800.624.1189Fax:800.624.1196Email:************************Website: Copyright 2014 – Nixalite of America Inc Nixalite is a registered trademark of Nixalite of America IncPrinted with pride in the USA。

External—Free ReleaseOxford Semiconductor, Inc.1900 McCarthy Boulevard, Suite 210 © Oxford Semiconductor, Inc. 2007F EATURES• Four 16C950 High performance UART channels • 8-bit Pass-through Local Bus (PCI Bridge )• IEEE1284 Compliant SPP/EPP/ECP parallel port (with external transceiver)• Efficient 32-bit, 33 MHz, multi-function target-only PCIcontroller, fully compliant to PCI Local Bus Specification 3.0 and PCI Power Management Specification 1.1 • Software compatible with OXmPCI954• UARTs fully software compatible with 16C550-type devices • UART operation up to 60 MHz via external clock source. Up to 20 MHz with the crystal oscillator• Baud rates up to 60 Mbps in external 1x clock mode and 15 Mbps in asynchronous mode• 128-byte deep FIFO per transmitter and receiver • Flexible clock prescaler, from 1 to 31.875• Automated in-band flow control using programmable Xon/Xoff in both directions•Automated out-of-band flow control using CTS#/RTS# and/or DSR#/DTR#• Programmable RS485 turnaround delay• Arbitrary trigger levels for receiver and transmitter FIFO interrupts and automatic in-band and out-of-band flow control• Infra-red (IrDA) receiver and transmitter operation • 9-bit data framing, as well as 5, 6, 7, and 8 bits • Detection of bad data in the receiver FIFO• Global Interrupt Status and readable FIFO levels to facilitate implementation of efficient device drivers.• Local registers to provide status/control of device functions • 11 multi-purpose I/O pins, which can be configured as input interrupt pins or ‘wake-up’• Auto-detection of a wide range of optional MICROWIRE TM compatible EEPROMs, to re-configure device parameters • Function access , to pre-configure each function prior to handover to generic device drivers • Operation via I/O or memory mapping• 3.3 V or 5 V operation (PCI Universal Voltage)• Extended operating temperature range: -40° C to 85° C •176-pin LQFP packageD ESCRIPTIONThe OXuPCI954 is a single chip solution for PCI-based serial and parallel expansion add-in cards. It is a dual function PCI device, where function 0 offers four ultra-high performance OX16C950 UARTs, and function 1 is configurable either as an 8-bit local bus or a bi-directional parallel port.Each UART channel in the OXuPCI954 is the fastest available PC-compatible UART, offering data rates up to 15 Mbps and 128-byte deep transmitter and receiver FIFOs. The deep FIFOs reduce CPU overhead and allow utilization of higher data rates. Each UART channel is software compatible with the widely used industry-standard 16C550 devices (and compatibles), as well as the OX16C95x family of high performance UARTs. In addition to increased performance and FIFO size, the UARTs also provide the full set of OX16C95x enhanced features including automated in-band flow control, readable FIFO levels, etc.To enhance device driver efficiency and reduce interrupt latency, internal UARTs have multi-port features such as shadowed FIFO fill levels, a global interrupt source register and Good-Data Status, readable in four adjacent DWORD registers visible to logical functions in I/O space and memory space.Expansion of serial ports beyond four channels is possible using the 8-bit pass-through Local Bus function. This provides a general address/data bus and interrupt capability to a discrete UART part, such as the Oxford SemiconductorOX16C954. Other controllers could be used to provide capabilities beyond additional UART ports. The addressable space provided by the Local Bus can be increased up to 256 bytes, and divided into four chip-select regions. This flexible expansion scheme caters for cards with up to 20 serial ports using external 16C950, 16C954 or compatible devices, or composite applications such as combined serial and parallel port expansion cards. Serial port cards with up to 20 ports (or with 4 serial ports and a parallel port) can be designed without redefining any device or timing parameters.The parallel port is an IEEE 1284 compliant SPP/EPP/ECP parallel port that fully supports the existing Centronics interface. The parallel port can be enabled in place of the local bus. A n external bus transceiver is required for 5V parallel port operation if device is 3.3V sourced.For full flexibility, all the default configuration register values can be overwritten using an optional M ICROWIRE compatibleserial EEPROM. This EEPROM can also be used to provide function access to pre-configure devices on the local bus/parallel port, prior to any PCI configuration accesses and before control is handed to (generic) device drivers.The OXuPCI954 can be used to replace the OXmPCI954 in a PCI application where quad UARTs and a local bus/parallel port functionality are required.OXuPCI954 DATA SHEETIntegrated High Performance Quad UARTs,8-bit Local Bus/Parallel Port,3.3 V and 5 V (Universal Voltage) PCI Interface .Improvements of the OXuPCI954 over Discrete SolutionsHigher degree of integrationThe OXuPCI954 device offers four internal 16C950 high-performance UARTs and an 8-bit local bus or abi-directional parallel port.Multi-function deviceThe OXuPCI954 is a multi-function device to enable users to load individual device drivers for the internal serial ports, drivers for the peripheral devices connected to the local bus or drivers for the internal parallel port.Quad Internal OX16C950 UARTsThe OXuPCI954 device contains four ultra-high performance UARTs, which can increase driver efficiency by using features such as the 128-byte deep transmitter and receiver FIFOs, flexible clock options, automatic flow control, programmable interrupt and flow control trigger levels and readable FIFO levels. Data rates are up to 60 Mbps.Improved access timingAccess to the internal UARTs require zero or one PCI wait state. A PCI read transaction from an internal UART can complete within five PCI clock cycles and a write transaction to an internal UART can complete within four PCI clock cycles. Reduces interrupt latencyThe OXuPCI954 device offers shadowed FIFO levels and Interrupt status registers on the internal UARTs and the MIO pins. This reduces the device driver interrupt latency. Power managementThe OXuPCI954 device complies with the PCI Power Management Specification 1.1 and the Microsoft Communications Device-class Power Management Specification 2.0 (2000). Both functions offer the extended capabilities for Power Management. This achieves significant power savings by enabling device drivers to power down the PCI functions. For function 0, this is through switching off the channel clock, in power state D3. Wake-up (PME# generation) can be requested by either functions. For function 0, this is via the RI# inputs of the UARTs in the power-state D3 or any modem line and SIN inputs of the UARTs in power-state D2. For function 1, this is via the MIO[2] input.Optional EEPROMThe OXuPCI954 device can be reconfigured from an external EEPROM to the end-user’s requirements. However, this is not required in many applications as the default values are sufficient for typical applications. An overrun detection mechanism built into the EEPROM controller prevents the PCI system from ‘hanging’ due to an incorrectly programmed EEPROM.R EVISION H ISTORYRevision Modification May 2007 First publication.Sep 2007 Feature revision, including removal of D3coldT ABLE OF C ONTENTS1OXuPCI954 Device Modes (6)2Block Diagram (7)3Pin Information—176-Pin LQFP (8)3.1Mode ‘0’ Quad UARTs + 8-bit Local Bus (8)3.1.1Mode ‘1’ : Quad UARTs + Parallel Port (9)3.2Pin Descriptions (10)4Configuration and Operation (16)5PCI Target Controller (17)5.1Operation (17)5.2Configuration Space (17)5.2.1PCI Configuration Space Register Map (18)5.3Accessing Logical Functions (20)5.3.1PCI Access to Internal UARTs (21)5.3.2PCI Access to 8-bit Local Bus (22)5.3.3PCI Access to Parallel Port (22)5.4Accessing Local Configuration Registers (23)5.4.1Local Configuration and Control Register ‘LCC’ (Offset 0x00) (23)5.4.2Multi-purpose I/O Configuration Register ‘MIC’ (Offset 0x04) (24)5.4.3Local Bus Timing Parameter Register 1 ‘LT1’ (Offset 0x08) (26)5.4.4Local Bus Timing Parameter Register 2 ‘LT2’ (Offset 0x0C) (27)5.4.5UART Receiver FIFO Levels ‘URL’ (Offset 0x10) (28)5.4.6UART Transmitter FIFO Levels ‘UTL’ (Offset 0x14) (29)5.4.7UART Interrupt Source Register ‘UIS’ (Offset 0x18) (29)5.4.8Global Interrupt Status and Control Register ‘GIS’ (Offset 0x1C) (30)5.5PCI Interrupts (31)5.6Power Management (32)5.6.1Power Management of Function 0 (32)5.6.2Power Management of Function 1 (33)5.6.3Universal Voltage (34)5.7Unique Bar Option – for Function 0 (35)6Internal OX16C950 UARTs (36)6.1Operation – Mode Selection (36)6.1.1450 Mode (36)6.1.2550 Mode (36)6.1.3Extended 550 Mode (36)6.1.4750 Mode (36)6.1.5650 Mode (36)6.1.6950 Mode (37)6.2Register Description Tables (38)6.3UART Reset Configuration (41)6.3.1Hardware Reset (41)6.3.2Software Reset (41)6.4Transmitter and Receiver FIFOs (42)6.4.1FIFO Control Register ‘FCR’ (42)6.5Line Control and Status (43)6.5.1False Start Bit Detection (43)6.5.2Line Control Register ‘LCR’ (43)6.5.3Line Status Register ‘LSR’ (44)6.6Interrupts and Sleep Mode (45)6.6.1Interrupt Enable Register ‘IER’ (45)6.6.2Interrupt Status Register ‘ISR’ (46)6.6.3Interrupt Description (46)6.6.4Sleep Mode (47)6.7Modem Interface (47)6.7.1Modem Control Register ‘MCR’ (47)6.7.2Modem Status Register ‘MSR’ (48)6.8Other Standard Registers (48)6.8.1Divisor Latch Registers ‘DLL and DLM’ (48)6.8.2Scratch Pad Register ‘SPR’ (48)6.9Automatic Flow Control (49)6.9.1Enhanced Features Register ‘EFR’ (49)6.9.2Special Character Detection (50)6.9.3Automatic In-band Flow Control (50)6.9.4Automatic Out-of-band Flow Control (50)6.10Baud Rate Generation (51)6.10.1General Operation (51)6.10.2Clock Prescaler Register ‘CPR’ (51)6.10.3Times Clock Register ‘TCR’ (51)6.10.4External 1x Clock Mode (53)6.10.5Crystal Oscillator Circuit (53)6.11Additional Features (54)6.11.1Additional Status Register ‘ASR’ (54)6.11.2FIFO Fill Levels ‘TFL and RFL’ (54)6.11.3Additional Control Register ‘ACR’ (54)6.11.4Transmitter Trigger Level ‘TTL’ (55)6.11.5Receiver Interrupt. Trigger Level ‘RTL’ (55)6.11.6Flow Control Levels ‘FCL’ and ‘FCH’ (56)6.11.7Device Identification Registers (56)6.11.8Clock Select Register ‘CKS’ (56)6.11.9Nine-bit Mode Register ‘NMR’ (57)6.11.10Modem Disable Mask ‘MDM’ (57)6.11.11Readable FCR ‘RFC’ (58)6.11.12Good-data Status Register ‘GDS’ (58)6.11.13Port Index Register ‘PIX’ (58)6.11.14Clock Alteration Register ‘CKA’ (58)6.11.15RS485 Delay Enable ‘RS485_DLYEN’ (58)6.11.16RS485 Delay Count ‘RS485_DLYCNT’ (59)7Local bus (60)7.1Overview (60)7.2Operation (60)7.3Configuration and Programming (61)8Bidirectional Parallel Port (62)8.1Operation and Mode Selection (62)8.1.1SPP Mode (62)8.1.2PS2 Mode (62)8.1.3EPP Mode (62)8.1.4ECP Mode (62)8.2Parallel Port Interrupt (63)8.3Register Description (63)8.3.1Parallel Port Data Register ‘PDR’ (64)8.3.2ECP FIFO Address / RLE (64)8.3.3Device Status Register ‘DSR’ (64)8.3.4Device Control Register ‘DCR’ (64)8.3.5EPP Address register ‘EPPA’ (65)8.3.6EPP Data Registers ‘EPPD1-4’ (65)8.3.7ECP Data FIFO (65)8.3.8Test FIFO (65)8.3.9Configuration A Register (65)8.3.10Configuration B Register (65)8.3.11Extended Control Register ‘ECR’ (65)9Serial EEPROM (66)9.1Specification (66)9.1.1Zone 0: Header (67)9.1.2Zone 1: Local Configuration Registers (68)9.1.3Zone 2: Identification Registers (69)9.1.4Zone 3: PCI Configuration Registers (69)9.1.5Zone 4: Power Management DATA (and DATA_SCALE Zone) (70)9.1.6Zone 5: Function Access (70)10Operating Conditions (72)10.1DC Electrical Characteristics (72)11AC Electrical Characteristics (76)11.1PCI Bus Timings (76)11.2Local Bus (77)11.3Serial Ports (79)12Timing Waveforms (80)13Package Information (95)13.1176-Pin LQFP (95)14Ordering Information (96)1OX U PCI954D EVICE M ODESThe OXuPCI954 supports two modes of operation. These modes are summarized in the following table.Device Mode Mode Pin Selection Functionality0 MODE = 0 Function 0 : Quad UARTs Function 1 : 8-bit local bus1 MODE = 1 Function 0 : Quad UARTs Function 1 : Parallel Port* The OXuPCI954 is not pin-compatible with the OX16PCI954 or the OXmPCI954, but is the same in all other aspects.2B LOCK D IAGRAMFIFOSELMODEAD[31:0]C/BE[3:0]#PCI_CLKFRAME#DEVSEL#IRDY#TRDY#STOP#PARPERR#IDSELRST#INTA#PME#XTLIXTLOUART_Clk_Out Local_Bus ClkEE_DIEE_CSEE_CKEE_DOSOUT[3:0]SIN[3:0]RTS[3:0]DTR[3:0]CTS[3:0]DSR[3:0]DCD[3:0]RI[3:0]MIO[10:0]PD[7:0]ACK#PEBUSYSLCTERR#SLIN#INIT#AFD#STB#LBA[7:0]LBD[7:0]LBCS[3:0]LBWR#LBRD#LBRSTDATA_DIR OXuPCI954 Block DiagramOSCDIS XTLSEL3P IN I NFORMATION—176-P IN LQFP 3.1Mode ‘0’ Quad UARTs + 8-bit Local Bus7 NC. Do not connect these pins:23, 40, 41, 136, 137, 138, 1393.1.1Mode ‘1’ : Quad UARTs + Parallel Port15 NC. Do not connect these pins:23, 40, 41, 74, 112, 113, 114, 115, 116, 117, 124, 136, 137, 138, 1393.2Pin DescriptionsFor the actual pinouts of the OXuPCI954 device (for the various modes), refer to the Section 3, Pin Information. The I/O direction key table is on page 15.PCI Interface – All ModesPin Dir1Name Description149, 150, 151, 154, 155,157, 158, 160, 164, 165,167, 168, 169, 170, 171,174, 13, 14, 15, 17, 18, 20,24, 25, 27, 28, 31, 32, 33,34, 35, 39P_I/O AD[31:0] Multiplexed PCI Address/Data bus161, 175, 12, 26 P_I C/BE[3:0]# PCI Command/Byte enable146 P_I CLK PCI system clock (33MHz)176 P_IFRAME#CycleFrame5 P_ODEVSEL#DeviceSelect1 P_IIRDY#Initiatorready2 P_OTRDY#Targetready6 P_O STOP# Target Stop request10 P_I/OPAR Parity8 P_OSERR#Systemerror7 P_I/OPERR#Parityerror163 P_I IDSEL Initialization device select144 P_I RST# PCI system reset142 P_ODINTA# PCIinterrupt147 P_OD PME# Power management eventSerial Port Pins – All ModesPin Dir1Name Description50 I FIFOSEL FIFO select. For backward compatibility with 16C550,16C650 and 16C750 devices the UARTs’ FIFO depth is 16when FIFOSEL is low. The FIFO size is increased to 128when FIFOSEL is high. The unlatched state of this pin isreadable by software. The FIFO size may also be set to 128by setting FCR[5] when LCR[7] is set, or by putting thedevice into Enhanced mode.82, 81, 63, 62 O(h)SOUT[3:0]IrDA_Out[3:0] These four pins are present in all modes but they can serve one of two functions, as follows:UART serial data outputs.UART IrDA data output when MCR[6] of the corresponding channel is set in Enhanced mode.91, 73, 72, 55I(h) I(h) SIN[3:0]IrDA_In[3:0]These four pins are present in all modes but they can serveone of two functions, as follows:UART serial data inputs.UART IrDA data input when IrDA mode is enabled (seeabove).Serial Port Pins – All ModesPin Dir1Name Description89, 76, 71, 57 I(h) DCD[3:0]# Active-low modem data-carrier-detect input 84, 79, 65, 60O(h) O(h) O(h) DTR[3:0]#485_En[3:0]Tx_Clk_Out[3:0]These four pins are present in all modes but they can serveone of three functions, as follows:Active-low modem data-terminal-ready output. If automatedDTR# flow control is enabled, the DTR# pin is asserted anddeasserted if the receiver FIFO reaches or falls below theprogrammed thresholds, respectively.In RS485 half-duplex mode, the DTR# pin may beprogrammed to reflect the state of the transmitter empty bitto automatically control the direction of the RS485transceiver buffer (see register ACR[4:3]).Transmitter 1x clock (baud rate generator output). Forisochronous applications, the 1x (or Nx) transmitter clockmay be asserted on the DTR# pins (see register CKS[5:4]).83, 80, 64, 61 O(h) RTS[3:0]# Active-low modem request-to-send output. If automatedRTS# flow control is enabled, the RTS# pin is deassertedand reasserted whenever the receiver FIFO reaches or fallsbelow the programmed thresholds, respectively.85, 78, 67, 59 I(h) CTS[3:0]# Active-low modem clear-to-send input. If automated CTS#flow control is enabled, upon deassertion of the CTS# pin,the transmitter will complete the current character and enterthe idle mode until the CTS# pin is reasserted. Note: any in-band flow control characters are transmitted regardless ofthe state of the CTS# pin.86, 77, 66, 58I(h) I(h) DSR[3:0]#Rx_Clk_In[3:0]These four pins are present in all modes but they can serveone of two functions, as follows:Active-low modem data-set-ready input. If automated DSR#flow control is enabled, upon deassertion of the DSR# pin,the transmitter will complete the current character and enterthe idle mode until the DSR# pin is reasserted. Note: any in-band flow control characters are transmitted regardless ofthe state of the DSR# pin.External receiver clock for isochronous applications. TheRx_Clk_In is selected when CKS[1:0] = ‘01’.90, 75, 70, 56 I(h)I(h) RI[3:0]#Tx_Clk_In[3:0]Active-low modem Ring-Indicator inputExternal transmitter clock. This clock can be used by thetransmitter (and indirectly by the receiver) when CKS[6]=’1’.Clock Interface Pins – All ModesPin Dir 1 Name Description49 I/OXTLOCrystal oscillator output when OSCDIS = ‘0’.External clock source input when OSCDIS = ‘1’48 I XTLI Crystal oscillator input when OSCDIS = ‘0’, up to 20MHz.N/C when OSCDIS = ‘1’45 I OSCDIS Oscillator disable.When 0, the internal crystal oscillator is enabled and a crystal needs to be attached to XTLI/XTLO.XTLSEL must be set according to the crystal frequency that is used (up to 20Mhz).When 1, the internal crystal oscillator is disabled and an external oscillator source (up to 60MHz) can be input to XTLO. XTLI is N/C and XTLSEL must be 0130 I XTLSEL Defines the frequency of the crystal attached to XTLI/XTLO(when OSCDIS = ‘0’)0 = 1 MHz – 12 MHz 1 = 12 MHz – 20 MHz8-bit Local Bus – Mode 0Pin Dir 1 Name Description 111O UART_CLK_Out Buffered crystal output. This clock can drive external UARTsconnected to the local bus. Can be enabled / disabled by software.123 O(h) LBRST Local bus active-high reset. 124 O LBRST# Local bus active-low reset. 104 O LBDOUT Local bus data out enable. This pin can be used by externaltransceivers; it is high when LBD[7:0] are in output mode and low when they are in input mode.74 O LBCLK Buffered PCI clock. Can be enabled / disabled by software. 114, 115, 116, 117 O(h) O(h) LBCS[3:0]# LBDS[3:0]# Local bus active-low Chip-Select (Intel mode).Local bus active-low Data-Strobe (Motorola mode).112 O O LBWR# LBRDWR# Local bus active-low write-strobe (Intel mode).Local bus Read-not-Write control (Motorola mode).113 O Z LBRD# Hi-Z Local bus active-low read-strobe (Intel mode).Permanent high impedance (Motorola mode).105, 106, 108, 109 118, 119, 120, 122 O(h) LBA[7:0] Local bus address signals. 96, 97, 98, 99 100, 101, 102, 103I/O(h) LBD[7:0] Local bus data signals.Parallel Port – Mode 1Pin Dir 1 NameDescription123 I(h) I(h) ACK#INTR#Acknowledge (SPP mode). ACK# is asserted (low) by the peripheral to indicate that a successful data transfer has taken place.Identical function to ACK# (EPP mode).122 I(h) PEPaper Empty. Activated by printer when it runs out of paper. 120 I(h) I(h) BUSYWAIT#Busy (SPP mode). BUSY is asserted (high) by the peripheral when it is not ready to accept data.Wait (EPP mode). Handshake signal for interlocked IEEE 1284 compliant EPP cycles.109 OD(h) O(h) SLIN#ADDRSTB#Select (SPP mode). Asserted by host to select the peripheral.Address strobe (EPP mode) provides address read and write strobe.119 I(h) SLCT Peripheral selected. Asserted by peripheral when selected. 118 I(h) ERR#Error. Held low by the peripheral during an error condition. 108 OD(h) O(h) INIT#INIT#Initialize (SPP mode). Commands the peripheral to initialize.Initialize (EPP mode). Identical function to SPP mode. 106 OD(h) O(h) AFD#DATASTB# Auto Feed (SPP mode, open-drain).Data strobe (EPP mode) provides data read and write strobe.105 OD(h) O(h) STB#WRITE#Strobe (SPP mode). Used by peripheral to latch data currently available on PD[7:0].Write (EPP mode). Indicates a write cycle when low and a read cycle when high . 96, 97, 98, 99, 100, 101, 102, 103I/O(h) PD[7:0] Parallel data bus.104OPDOUTParallel port data out enable. This pin should be used by external transceivers for 5 V signaling; it is high when PD[7:0] are in output mode and low when they are in input mode.Multi-purpose and External Interrupt Pins – All ModesPin Dir1Name DescriptionMODE0 1135 --135I/O(h)OMIO0NCMulti-purpose I/O 0. Can drive high or low, or assert a PCIinterrupt.Output Driving ‘0’. Can be left as a No-connect.134 134 134134I/O(h)MIO1NCMulti-purpose I/O 1. Can drive high or low, or assert a PCIinterrupt (as long as LCC[6:5] = “00”).Output Driving ‘0’ (when LCC[6:5] ≠ ‘00’)Can be left as a No-Connect.133 133 133133I/O(h)IMIO2PME_InMulti-purpose I/O 2. When LCC[7] = 0, this pin can drive highor low, or assert a PCI interrupt.Input power management event. When LCC[7] is set thisinput pin can assert a function 1 PME#.93, 94, 95, 125, 126, 127, 128, 132 I/O(h) MIO[10:3] Multi-purpose I/O pins. Can drive high or low, or assert a PCIinterrupt.EEPROM Pins – All ModesPin Dir1Name Description53 OEE_CKEEPROMclock.52 O EE_CS EEPROM active-high Chip Select.54 IU(h) EE_DI EEPROM data in, with internal pull-up.When the serial EEPROM is connected, this pin should bepulled up using a 1-10k resistor. When the EEPROM is notused the internal pull-up is sufficient.Pin to be connected to the external EEPROM’s EE_DO pin(if used).51 O EE_DO EEPROM data out.Pin to be connected to the external EEPROM’s EE_DI pin(if used).Table 1: Pin DescriptionsI/O Direction Key P_I PCI input 3.3 V Only P_O PCI output / PCITristates 3.3 V Only P_I/O PCI bi-directional 3.3 V Only P_OD PCI open drain 3.3 V OnlyI Input LVTTL level I(h) Input LVTTL level, 5 V tolerant IU(h) Input with internal pull-up LVTTL level, 5 V tolerant I/O(h) Bi-Directional LVTTL level, 5 V tolerantO Output Standard Output O(h) Output 5 V tolerant (High Voltage BI-Direct in output mode) OD Open drain Standard Open-drain Output OD(h) Open drain 5 V tolerant (High Voltage BI-Direct in open-drain mode) NC No connectG Ground V VoltageMiscellaneous PinsPin Dir 1 NameDescription44 IMODEMode selector Pin0 : Function 0 : Quad UART. Function 1 : 8-bit local bus.1 : Function 0 : Quad UART. Function 1 : Parallel port.Power and GroundPinType Name Description19, 42, 47, 69, 88, 107, 131, 148VVDDPower Supply (3.3 V)11, 22, 36, 140, 156, 162, 173 V VIOPCI I/O Universal VoltageDefines the (clamping) voltage of the PCI I/O Buffers.To be connected to the VIO pin of the PCI connector. 3, 4, 9, 16, 21, 29, 30, 37, 38, 43, 46, 68, 87, 92, 110, 121, 129, 141, 143, 145, 152, 153, 159, 166, 172G GNDPower Supply Ground (0 V)4C ONFIGURATION AND O PERATIONThe OXuPCI954 is a multi-function, target-only PCI device, compliant with the PCI Local Bus Specification, Revision 3.0 and the PCI Power Management Specification, Revision 1.1.The OXuPCI954 affords maximum configuration flexibility by treating the internal UARTs, the local bus and the parallel port as separate logical functions. Each function has its own configuration space and is therefore recognized and configured by the PCI BIOS separately. The functions used are configured by the Mode Selection Pin as shown in Section 1 OXuPCI954 Device Modes.The OXuPCI954 is configured by system start-up software during the bootstrap process that follows bus reset. The system scans the bus and reads the vendor and device identification codes from any devices it finds. It then loads device-driver software according to this information and configures the I/O, memory and interrupt resources. Device drivers can then access the functions at the assigned addresses in the usual fashion, with the improved data throughput provided by PCI.Each function operates as though it was a separate device. However there are a set of Local Configuration Registers that can be used to enable signals and interrupts, configure timings, and improve the efficiency of multi-port drivers. This architecture enables separate drivers to be installed for each function. Generic port drivers can be hooked to use the functions individually, or more efficient multi-port drivers can hook both functions, accessing the Local Configuration Registers from either.All registers default after reset to suitable values for typical applications such a 4/8 port serial, or combo 4-port serial/1-port parallel add-in cards. However, all identification, control and timing registers can be redefined using an optional serial EEPROM.5PCI T ARGET C ONTROLLER5.1OperationThe OXuPCI954 responds to the following PCI transactions:-•Configuration access: The OXuPCI954 responds to type 0 configuration reads and writes if the IDSELsignal is asserted and the bus address is selecting theconfiguration registers for function 0 or 1. The devicewill respond to the configuration transaction by asserting DEVSEL#. Data transfer then follows. Anyother configuration transaction will be ignored by theOXuPCI954.•I/O reads/writes: The address is compared with the addresses reserved in the I/O Base Address Registers(BARs). If the address falls within one of the assignedranges, the device will respond to the I/O transactionby asserting DEVSEL#. Data transfer follows thisaddress phase. For the UARTs and 8-bit local buscontroller, only byte accesses are possible. For I/Oaccesses to these regions, the controller comparesAD[1:0] with the byte-enable signals as defined in thePCI specification. The access is always completed;however if the correct BE signal is not present thetransaction will have no effect.•Memory reads/writes: These are treated in the same way as I/O transactions, except that the memoryranges are used. Memory access to single-byte regions is always expanded to DWORDs in theOXuPCI954. In other words, OXuPCI954 reserves aDWORD per byte in single-byte regions. The deviceallows the user to define the active byte lane usingLCC[4:3] so that in Big-Endian systems the hardwarecan swap the byte lane automatically. For Memorymapped access in single-byte regions, the OXuPCI954 compares the asserted byte-enable withthe selected byte-lane in LCC[4:3] and completes theoperation if a match occurs, otherwise the access willcomplete normally on the PCI bus, but it will have noeffect on either the internal UARTs or the local buscontroller.•All other cycles (64-bit, special cycles, reserved encoding etc.) are ignored.The OXuPCI954 will complete all transactions as disconnect-with-data, i.e. the device will assert the STOP# signal alongside TRDY#, to ensure that the Bus Master does not continue with a burst access. The exception to this is Retry, which will be signaled in response to any access while the OXuPCI954 is reading from the serial EEPROM.The OXuPCI954 performs medium-speed address decoding as defined by the PCI specification. It asserts the DEVSEL# bus signal two clocks after FRAME# is first sampled low on all bus transaction frames which address the chip. The internal UARTs are accessed with zero wait states inserted. Fast back-to-back transactions are supported by the OXuPCI954 as a target, so a bus master can perform faster sequences of write transactions to the UARTs or local bus when an inter-frame turn-around cycle is not required.The device supports any combination of byte-enables to the PCI Configuration Registers and the Local Configuration Registers. If a byte-enable is not asserted, that byte is unaffected by a write operation and undefined data is returned upon a read.The OXuPCI954 performs parity generation and checking on all PCI bus transactions as defined by the standard. Note this is entirely unrelated to serial data parity which is handled within the UART functional modules themselves. If a parity error occurs during the PCI bus address phase, the device will report the error in the standard way by asserting the SERR# bus signal. However if that address/command combination is decoded as a valid access, it will still complete the transaction as though the parity check was correct.The OXuPCI954 does not support any kind of caching or data buffering in addition to that already provided within the UARTs by the transmit and receive data FIFOs. In general, registers in the UARTs and on the local bus can not be pre-fetched because there may be side-effects on read.5.2Configuration SpaceThe OXuPCI954 is a dual-function device, where each logical function has its own configuration space. All required fields in the standard header are implemented, plus the Power Management Extended Capability register set. The format of the configuration space is shown in the following tables.In general, writes to any registers that are not implemented are ignored, and all reads from unimplemented registers return 0.。

MAX4130–MAX4134________________________________________________________________Maxim Integrated Products1For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .General DescriptionThe MAX4130–MAX4134 family of operational amplifiers combines 10MHz gain-bandwidth product and excellent DC accuracy with Rail-to-Rail ®operation at the inputs and outputs. These devices require only 900µA per amplifier, and operate from either a single supply (+2.7V to +6.5V) or dual supplies (±1.35V to ±3.25V) with a common-mode voltage range that extends 250mV beyond V EE and V CC . They are capable of driving 250Ωloads and are unity-gain stable. In addition, the MAX4131/ MAX4133 feature a shutdown mode in which the outputs are placed in a high-impedance state and the supply current is reduced to only 25µA per amplifier.With their rail-to-rail input common-mode range and output swing, the MAX4130–MAX4134 are ideal for low-voltage, single-supply operation. Although the minimum operating voltage is specified at 2.7V, the devices typically operate down to 1.8V. In addition, low offset voltage and high speed make them the ideal signal-conditioning stages for precision, low-voltage data-acquisition systems. The MAX4130 is offered in the space-saving 5-pin SOT23 package. The MAX4131 is offered in the ultra-small 6-bump, 1mm x 1.5mm chip-scale package (UCSP™).________________________ApplicationsBattery-Powered Instruments Portable Equipment Data-Acquisition Systems Signal ConditioningLow-Power, Low-Voltage ApplicationsFeatureso 6-Bump UCSP (MAX4131)o +2.7V to +6.5V Single-Supply Operationo Rail-to-Rail Input Common-Mode Voltage Rangeo Rail-to-Rail Output Voltage Swing o 10MHz Gain-Bandwidth Product o 900µA Quiescent Current per Amplifier o 25µA Shutdown Function (MAX4131/MAX4133)o 200µV Offset Voltageo No Phase Reversal for Overdriven Inputs o Drive 250ΩLoadso Stable with 160pF Capacitive Loads o Unity-Gain StableSingle/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps19-1089; Rev 3; 3/03*Dice are specified at T A = +25°C. DC parameters only.Ordering Information continued at end of data sheet.Pin Configurations appear at end of data sheet.Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.UCSP is a trademark of Maxim Integrated Products, Inc.M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op Amps 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSDC ELECTRICAL CHARACTERISTICS(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = +25°C , unless otherwise noted.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.Supply Voltage (V CC - V EE )...................................................7.5V IN+, IN-, SHDN Voltage...................(V CC + 0.3V) to (V EE - 0.3V)Output Short-Circuit Duration (Note 1).......................Continuous(short to either supply)Continuous Power Dissipation (T A = +70°C)5-Pin SOT23 (derate 7.1mW/°C above +70°C)............571mW 6-Bump UCSP (derate 2.9mW/°C above +70°C).........308mW 8-Pin SO (derate 5.88mW/°C above +70°C)................471mW8-Pin µMAX (derate 4.10mW/°C above +70°C)...........330mW 14-Pin SO (derate 8.00mW/°C above +70°C)..............640mW Operating Temperature RangeMAX413_E__...................................................-40°C to +85°C Maximum Junction Temperature.....................................+150°C Storage Temperature Range.............................-65°C to +160°C Lead Temperature (soldering, 10s).................................+300°C Bump Reflow Temperature .........................................+235°CNote 1:Provided that the maximum package power-dissipation rating is not exceeded.MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op AmpsDC ELECTRICAL CHARACTERISTICS (continued)(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = +25°C , unless otherwise noted.)DC ELECTRICAL CHARACTERISTICS(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = -40°C to +85°C , unlessM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op Amps 4_______________________________________________________________________________________DC ELECTRICAL CHARACTERISTICS(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = -40°C to +85°C , unlessMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op Amps_______________________________________________________________________________________5DC ELECTRICAL CHARACTERISTICS (continued)(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = -40°C to +85°C , unless otherwise noted.) (Note 2)AC ELECTRICAL CHARACTERISTICSM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 6_______________________________________________________________________________________60-401001k 10k 1M 10M100k 100M GAIN AND PHASE vs. FREQUENCY-20FREQUENCY (Hz)G A I N (d B )02040P H A S E (D E G R E E S )180144720-72-144-180-108-363610860-401001k 10k 1M 10M100k 100MGAIN AND PHASEvs. FREQUENCY (WITH C)-20FREQUENCY (Hz)G A I N (d B )2040P H A S E (D E G R E E S )180144720-72-144-180-108-36361080-100101001k100k1M10M10k 100MPOWER-SUPPLY REJECTIONvs. FREQUENCY-80FREQUENCY (Hz)P S R (d B )-60-40-2001051520253530454050-40-25-105203550658095SHUTDOWN SUPPLY CURRENTvs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (µA )1000.100.011001k100k1M10M10k100MOUTPUT IMPEDANCE vs. FREQUENCYFREQUENCY (Hz)O U T P U T I M P E D A N C E (Ω)1101150800850900950105010001100-40-25-105203550658095SUPPLY CURRENT PER AMPLIFIERvs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (µA )-10-505101520-40-25-105203550658095OUTPUT LEAKAGE CURRENTvs. TEMPERATURETEMPERATURE (°C)L E A K A G E C U R R E N T (µA )Typical Operating Characteristics(V CC = +5V, V EE = 0V, VCM = V CC / 2, T A = +25°C, unless otherwise noted.)-600123456INPUT BIAS CURRENT vs. COMMON-MODE VOLTAGECOMMON-MODE VOLTAGE (V)I N P U T B I A S C U R R E N T (n A )-50-40-30-20-10010203040-60-40-40-25-105203550658095INPUT BIAS CURRENTvs. TEMPERATURETEMPERATURE (°C)I N P U T B I A S C U R R E N T (n A )-200204060MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps_______________________________________________________________________________________712070750600110115OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (d B )30095859080100200500105100400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE130-40-25-105203550658095LARGE-SIGNAL GAIN vs. TEMPERATURE90120TEMPERATURE (°C)G A I N (d B )11010085951251151051.21.31.51.41.61.71.81.9-40-25-105203550658095MINIMUM OPERATING VOLTAGEvs. TEMPERATUREM A X 4130/34-21TEMPERATURE (°C)M I N I M U M O P E R A T I N G V O L T A G E (V )Typical Operating Characteristics (continued)(V CC = +5V, V EE = 0V, V CM = V CC / 2, T A = +25°C, unless otherwise noted.)12080859095100105110115-40-25-105203550658095COMMON-MODE REJECTIONvs. TEMPERATURETEMPERATURE (°C)C O M M O N -M ODE R E J E C T I O N (d B )130700600120OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (dB )3001009080100200500110400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE12060600110OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (d B )300908070100200500100400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE12080-40-25-105203550658095LARGE-SIGNAL GAIN vs. TEMPERATURE90TEMPERATURE (°C)G A I N (d B )105859511511010012070750600110115OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (d B )30095859080100200500105100400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE-3.00-2.25-0.75-1.5001.500.752.253.00-40-25-105203550658095INPUT OFFSET VOLTAGE vs. TEMPERATURETEMPERATURE (°C)V O L T A G E (m V )M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 8_______________________________________________________________________________________1408010k 1k 100k 10M 1M CHANNEL SEPARATION vs. FREQUENCYFREQUENCY (Hz)C H A N N E L S E P A R A T I O N (d B )1009013011012010100k10kFREQUENCY (Hz)1001k 0.03000.0050.0100.0150.0200.025 TOTAL HARMONIC DISTORTION AND NOISE vs. FREQUENCYT H D A N D N O I S E (%)0.10.0014.04.44.25.04.84.6TOTAL HARMONIC DISTORTION AND NOISE vs. PEAK-TO-PEAK SIGNAL AMPLITUDEPEAK-TO-PEAK SIGNAL AMPLITUDE (V)T H D + N O I S E (%)0.01INTIME (200ns/div)V O L T A G E (50m V /d i v )OUTMAX4131SMALL-SIGNAL TRANSIENT RESPONSE (NONINVERTING)IN TIME (200ns/div)V O L T A G E (50m V /d i v )OUT MAX4131SMALL-SIGNAL TRANSIENT RESPONSE (INVERTING)A V = -1IN TIME (2µs/div)V O L T A G E (2V/d i v )OUT MAX4131LARGE-SIGNAL TRANSIENT RESPONSE (NONINVERTING)A V = +1INTIME (2µs/div)V O L T A G E (2V /d i v )OUTMAX4131LARGE-SIGNAL TRANSIENT RESPONSE (INVERTING)Typical Operating Characteristics (continued)(V CC = +5V, V EE = 0V, V CM = V CC / 2, T A = +25°C, unless otherwise noted.)1600-40-25-105203550658095MINIMUM OUTPUT VOLTAGEvs. TEMPERATURE20140120TEMPERATURE (°C)V O U T - V E E (m V )100806040050100150200250300-40-25-105203550658095MAXIMUM OUTPUT VOLTAGEvs. TEMPERATURETEMPERATURE (°C)V C C - V O U T (m V )MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps_______________________________________________________________________________________9Figure 1a. Reducing Offset Error Due to Bias Current (Noninverting)Figure 1b. Reducing Offset Error Due to Bias Current (Inverting)M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 10______________________________________________________________________________________Applications InformationRail-to-Rail Input StageDevices in the MAX4130–MAX4134 family of high-speed amplifiers have rail-to-rail input and output stages designed for low-voltage, single-supply opera-tion. The input stage consists of separate NPN and PNP differential stages that combine to provide an input common-mode range that extends 0.2V beyond the supply rails. The PNP stage is active for input volt-ages close to the negative rail, and the NPN stage is active for input voltages near the positive rail. The input offset voltage is typically below 200µV. The switchover transition region, which occurs near V CC / 2, has been extended to minimize the slight degradation in com-mon-mode rejection ratio caused by the mismatch of the input pairs. Their low offset voltage, high band-width, and rail-to-rail common-mode range make these op amps excellent choices for precision, low-voltage data-acquisition systems.Since the input stage switches between the NPN and PNP pairs, the input bias current changes polarity as the input voltage passes through the transition region.Reduce the offset error caused by input bias currents flowing through external source impedances by match-ing the effective impedance seen by each input (Figures 1a, 1b). High source impedances, together with input capacitance, can create a parasitic pole that produces an underdamped signal response. Reducing the input impedance or placing a small (2pF to 10pF)capacitor across the feedback resistor improves response.The MAX4130–MAX4134s ’ inputs are protected from large differential input voltages by 1k Ωseries resistors and back-to-back triple diodes across the inputs (Figure 2). For differential input voltages less than 1.8V,input resistance is typically 500k Ω. For differential input voltages greater than 1.8V, input resistance is approxi-mately 2k Ω. The input bias current is given by the fol-lowing equation:Figure 2. Input Protection CircuitMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________11Rail-to-Rail Output StageThe minimum output voltage is within millivolts of ground for single-supply operation where the load is referenced to ground (V EE ). Figure 3 shows the input voltage range and output voltage swing of a MAX4131connected as a voltage follower. With a +3V supply and the load tied to ground, the output swings from 0.00V to 2.90V. The maximum output voltage swing depends on the load, but will be within 150mV of a +3V supply, even with the maximum load (500Ωto ground).Driving a capacitive load can cause instability in most high-speed op amps, especially those with low quies-cent current. The MAX4130–MAX4134 have a high tol-erance for capacitive loads. They are stable with capacitive loads up to 160pF. Figure 4 gives the stable operating region for capacitive loads. Figures 5 and 6show the response with capacitive loads and the results of adding an isolation resistor in series with the output (Figure 7). The resistor improves the circuit ’s phase margin by isolating the load capacitor from the op amp ’s output.INTIME (1µs/div)V O L T A G E (1V /d i v )OUTV CC = 3V, R L = 10k Ω to V EEFigure 3. Rail-to-Rail Input/Output Voltage RangeFigure 4. Capacitive-Load StabilityINTIME (200ns/div)V O L T A G E (50m V /d i v )OUTV CC = 5V R L = 10k Ω C L = 130pFFigure 5. MAX4131 Small-Signal Transient Response with Capacitive Load Figure 6. MAX4131 Transient Response to Capacitive Load with Isolation ResistorINTIME (500ns/div)V O L T A G E (50m V /d i v )OUTV CC = 5V C L = 1000pF R S = 39ΩM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 12______________________________________________________________________________________Power-Up and Shutdown ModeThe MAX4130–MAX4134 amplifiers typically settle with-in 1µs after power-up. Figures 9 and 10 show the out-put voltage and supply current on power-up, using the test circuit of Figure 8.The MAX4131 and MAX4133 have a shutdown option.When the shutdown pin (SHDN ) is pulled low, the sup-ply current drops below 25µA per amplifier and theamplifiers are disabled with the outputs in a high-impedance state. Pulling SHDN high or leaving it float-ing enables the amplifier. In the dual-amplifier MAX4133, the shutdown functions operate indepen-dently. Figures 11 and 12 show the output voltage and supply current responses of the MAX4131 to a shut-down pulse, using the test circuit of Figure 8.Figure 7. Capacitive-Load Driving CircuitFigure 8. Power-Up/Shutdown Test CircuitV CC TIME (5µs/div)V O L T A G E (1V /d i v )OUTFigure 9. Power-Up Output Voltage V CC (1V/div)TIME (5µs/div)I EE(500µA/div)Figure 10. Power-Up Supply CurrentMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________13Power Supplies and LayoutThe MAX4130–MAX4134 operate from a single +2.7V to +6.5V power supply, or from dual supplies of ±1.35V to ±3.25V. For single-supply operation, bypass the power supply with a 0.1µF ceramic capacitor in parallel with at least 1µF. For dual supplies, bypass each sup-ply to ground.Good layout improves performance by decreasing the amount of stray capacitance at the op amp ’s inputs and outputs. Decrease stray capacitance by placing external components close to the op amp ’s pins, mini-mizing trace lengths and resistor leads.UCSP Applications InformationFor the latest application details on UCSP construction,dimensions, tape carrier information, PC board tech-niques, bump-pad layout, and the recommended reflow temperature profile, as well as the latest informa-tion on reliability testing results, go to Maxim ’s website at /ucsp and search for the Application Note: UCSP –A Wafer-Level Chip-Scale Package .TIME (1µs/div)OUTFigure 11. Shutdown Output Voltage TIME (1µs/div)Figure 12. Shutdown Enable/Disable Supply CurrentM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 14________________________________________________________________________________________________________________________________________________Pin ConfigurationsMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________15Chip InformationOrdering Information (continued)MAX4130 TRANSISTOR COUNT: 170MAX4131 TRANSISTOR COUNT: 170MAX4132 TRANSISTOR COUNT: 340MAX4134 TRANSISTOR COUNT: 680*Dice are specified at T A = +25°C, DC parameters only.Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 16______________________________________________________________________________________Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________17Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.18__________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600©2003 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)。

Product IdentificationRockwell Automation has assigned catalog number 1756-BA1 to a Lithium Battery Assembly which is supplied by Inventus Power Inc., Inventus Power Inc. part number 94194801. The Battery Assembly contains one (1) FDK lithium battery cell, part number CR17335SE. FDK’s Safety Data Sheet (SDS) for this Lithium Battery Cell follows.Product ClassificationThe Rockwell Automation Lithium Battery Assembly, catalog no.1756-BA1, is exempted from dangerous goods regulations as the following requirements are met:•US DOT 49CFR, 173.185•Dangerous Goods Regulation, per IATA, Packing Instructions 968, Section II•Special Provisions ADR 188, IMDG 188Additional InformationRockwell Automation is committed to demonstrating the highest standard of global environmental management. We embrace this as a core value and an integral part of all operations and seek continual improvement of our environmental management system and performance.You can find additional information regarding Rockwell Automation Product Environmental Compliance programs at:https:///en-us/company/about-us/sustainability/product-environmental-compliance.htmlPlease send any additional inquiries regarding Product Environmental Compliance to:******************************.comProduct Safety Data Sheet (SDS) followsManganese Dioxide Primary Lithium Battery 1/4Document Number: SDS-21-102E-02Issued date: March 1, 2021SAFETY DATA SHEET (SDS)1. Product and Company identificationProduct Category : Manganese Dioxide Primary Lithium Battery Nominal Voltage : 3 V Product name Type Lithium (g) Type Lithium (g)CR1/2 6･L 0.31 CR8･LHC 0.90 CR2/3 6･L0.41 CR8LHT 0.90 CR6･L0.71 CR12600SE 0.52 CR2/3 6L 0.43 CR17335SE 0.52 CR1/2 6LHT 0.31 CR17335SE-R 0.52 CR2/3 6LHT 0.43 CR17450SE 0.75CR2/3 8･L0.57 CR17450SE-R 0.75 CR8･L0.87 Supplier’s Name : FDK CORPORATIONSupplier’s Address : 1-6-41, Konan, Minato-ku, Tokyo 108-8212 JapanTelephone +81-3-5715-7420 Emergency Contact : CHEMTREC at (800)424-9300 Note : SDS is not applicable to the product hermetically sealed as dry battery. The battery has no risk to life andhealth under normal use or transportation because ingredients of battery are not leaked out by virtue of hermetical sealing with metal case.This SDS notify possible risk of our battery under abnormal use but mainly aim to provide information about ingredients, notification of handling and transportation regulations as a useful reference.2. Hazards identificationThe important hazards andadverse effects of the chemical productNo information available Chemical product - specifichazardsNo information availableOutline of an anticipatedemergencyChemical contents are sealed in metal can. Therefore, risk of exposure never occurs unless battery is mechanically or electrically abused.Risk of explosion by fire is anticipated if batteries are disposed of in fire orheated above 100 degree Celsius. If the batteries are extremal short circuited or charged, the batteries may generate heat and explosion or fire.Note) Our battery is not classified in accordance with the GHS classification.3. Principal Composition/ information on IngredientsPartMaterialCAS No. Contents Positive electrode Manganese Dioxide 1313-13-9 30 ～ 50 wt% Negative electrodeLithium metal 7439-93-2 2 ～ 4 wt% Electrolyte Lithium perchlorate7791-03-9 0.5 ～ 1.5 wt% 1,2-Dimethoxyethane 110-71-4 3 ～ 4.5 wt% Mixture of organic solventN/A5 ～ 15 wt%Manganese Dioxide Primary Lithium Battery 2/4Document Number: SDS-21-102E-02 4. First-aid measuresInhalation If ingredient leaked out from inside of a battery and if inhaled it, move to a place where fresh air is provided. Refer for medical attention.Skin contact If ingredient leaked out from inside of a battery and stuck on skin, wash the contact areas off immediately with plenty of water and soap. If appropriate procedures are not taken, this may cause sores on the skin. Refer for medical attention.Eyes contact If ingredient leaked out from inside of a battery and came into eyes, flush the eyes with plenty of water for at least 15 minutes immediately without rubbing. Take a medical treatment. If appropriate procedures are not taken, this may cause an eye irritation.Swallowing In case of swallowing of battery, immediately refer for medical attention.5. Fire-fighting measuresFire extinguishing agent:Dry chemical, alcohol-resistant foam, powder, atomized water, carbon dioxide and dry sand are effective.Extinguishing method:Escape batteries to safe place prevent from ignition by spreading fire.Because packaging material of battery is paper, use water extinguisher, CO2 extinguisher or powderextinguisher as normal extinguisher.Since vapor, generated from burning batteries may make eyes, nose and throat irritate, be sure to extinguish the fire on the windward side. Wear the respiratory protection equipment in some cases.6. Accidental release measuresChemical contents are sealed in metal can. But if the battery is mechanically or electrically abused, contents may leak out. In such case, take action as showing below.Personal precautions: Temporary inhalation of odor and attaching of electrolyte to skin does not cause serious health hazard. Be sure the ventilation and washing out of electrolyte quickly.Environmental precautions: Clean up it quickly. Specific environmental precaution is not necessary.Method and materials for containment and methods and materials for cleaning up:Contain and collect spillage and place in container for disposal according to local regulations.7. Handling and storingHandling Do not short-circuit, disassemble, deform, heat or incinerate.Do not place battery on metal case, metal plate or antistatic material.In case of multi cell application, replace all batteries to new at once when replacing used batteries.Do not mix the different type of batteries, the new and old batteries of the same type, or the different manufacture of the same type batteries.Do not use batteries for unspecified purposes.Storage Be sure to store batteries in well-ventilated, dry and cool conditions.Keep away from water, rain, snow, frost or dew condensation.Do not store batteries near source of heat or nozzle of hot air.Do not store batteries in direct sunshine.Take care not to get wet packing by dew condensation when packing is removed from cold to warm and humid condition.Enough number of fire fighting apparatuses should be installed in warehouse.Keep batteries out of reach of children.8. Exposure controls and personal protectionThere is no need of personal protective equipment on regular handling and storage. In the event, however, a large amount of electrolyte should be released by mechanical or electrical abuse, use the protections as shown below.Respiratory protection : Mask (with a filter preferably)Hand protection : Synthetic rubber glovesEye protection : Goggles or glassesManganese Dioxide Primary Lithium Battery 3/4Document Number: SDS-21-102E-02 9. Physical and chemical propertiesState : SolidShape : Cylindrical10. Stability and reactivityStability: Stable on regular handlingConditions to avoid: External short circuit of battery, deformation by crush, exposure at high temperature of more than 100 degree C (may cause heat generation and ignition), direct sunlight, highhumidityMaterials to avoid: Substances that cause short circuit.11. Toxicological informationSince chemicals are contained in a sealed can, there are no hazards.12. Ecological informationPersistence and degradability No information availableMobility in soil No information available13. Disposal considerationsDispose of batteries in accordance with applicable federal, state and local regulations.For safety precaution, battery should be insulated in proper manner; covering both terminals by tape, wrapping of battery in insulation bag or packing battery in original package is recommended in order to prevent ignition or explosion due to short-circuit.14. Transportation InformationLithium metal cells and batteries are classified as Class 9 Dangerous Goods in the United Nations Recommendation, and given UN numbers as shown in the below table. In case of transport of lithium metal cells and batteries, compliance with all the relevant UN regulations in addition to the requirements of United Nations Recommendation is required.Our battery (listed on section 1) and its shipping package complies with the requirement of UN Manual of Test and Criteria, Part III, subsection 38.3 as well as the requirements described below, so it is permitted to transport.＜Air Transport＞Our battery is applicable to IATA Dangerous Goods Regulations (IATA-DGR) Packing Instruction 968 section IB because it corresponds to either case that the cell – lithium content is more than 0.3g and less than 1g or the battery – lithium content is more than 0.3g and less than 2g. Our battery and its shipping package is permitted to transport as Class 9 Dangerous Goods but without using packing group II package when it complies with all requirements of the transport conditions for Section IB.Our products can be transported by cargo aircraft only since our products are classified into lithium metal batteries. However, in the case of transporting our cells or batteries packed with or contained in equipment, such cells or batteries are permitted for carriage on passenger aircraft.＜Sea Transport＞Our battery is applicable to the International Maritime Dangerous Goods Code (IMDG-Code) Special provision 188 because it corresponds to either case that the cell – lithium content is less than 1g or the battery – lithium content is less than 2g, so it is permitted to transport as Exempted Dangerous Goods when it complies with all requirements of the transport conditions.Sipping names / Packing requirementsProper Shipping Name UN ID No. Air transport Maritime transportLithium metal batteries 3090 Packing Instruction968Special Provision188Lithium metal batteries packed with equipment 3091 Packing Instruction969Special Provision188Lithium metal batteries contained in equipment 3091 Packing Instruction970 Special Provision188Manganese Dioxide Primary Lithium Battery 4/4Document Number: SDS-21-102E-02 Related regulations: Following regulations shall be cited and considered.Organization / Issue documentsUN UN / Recommendations on the Transport of Dangerous Goods・Model Regulations ; 21st revised edition・Manual of Tests and Criteria: Subsection 38.3; 7th revised editionAir transport IATA（International Air Transport Association）/IATA Dangerous Goods Regulations ; 62nd Edition Maritime transport IMO（International Maritime Organization）/IMDG Code ; 2018 EditionLand transport (Intra-European) RID（International Carriage of Dangerous Goods by Rail）, ADR（International Carriage of Dangerous Goods by Road）USA USDOT（US Department of Transportation）/ DOT 49 CFR（US law）15. Applicable legislationEU Directive 2006/66/ECCA Lithium Perchlorate RegulationThis sheet refers to normal use of the product in question. FDK Corp. makes no warranty expressed or implied.。

SDS No.- T-36-04 (Revision–M)Lithium Battery Information Sheet1.Section 1: IdentificationProducts Name: Primary (non-rechargeable) Lithium metal Thionyl Chloride (Li/SOCl2) cells and batteries. Cells include the models of TL, TLH, and TLL, 3.6V series. This Battery Information Sheet covers the the above models: 2100, 2134, 2135, 2137, 2150, 2155, 2186, 2200, 2300, 2450, 4902, 4903, 4920, 4930, 4934, 4935, 4937, 4940, 4951, 4955, 4986, 5101, 5104, 5113, 5114, 5134, 5135, 5137, 5151, 5155, 5186, 5233, 5242, 5276, 5293, 5315, 5902, 5903, 5920, 5930, 5934, 5935, 5937, 5940, 5955, 5323, 7902, 7955, 7903, 7920, 7930, 7937, 8902, 8955, 8903, 8920, 8930, and 8937 with all their finishing versions and batteries assembled from them, denoted by “/” followed by letters or digits.Manufacturer Name: Tadiran Batteries Ltd., P. O. Box 1, Kiryat Ekron, Israel 70500.US office address: 2001 Marcus Avenue, Suite 125E, Lake Success, NY 11040 Emergency Telephone No: CHEMTREC: 1-800-424-9300Tel. for information: 1-516-621-4980Tel. for information 972-8-944-45032.The Lithium Thionyl chloride batteries described in this Battery Information Sheet are hermetically sealed units, which are not hazardous when used according to the recommendations of the manufacturer.Under normal condition of use of the batteries, the electrode materials and the liquid electrolyte they contained are non-reactive provided the battery integrity is maintained. Risk of exposure exists only in case of mechanical, electrical or thermal abuse. Thus the batteries should not short circuit, recharge, puncture, incinerate, crush, immerse in water, force discharge, or expose to temperatures above the temperature range of the cell or battery. In these cases there is risk of fire or explosion.Protection from charging:Whenever lithium batteries are not the single power source in a circuit, Whenever lithium batteries are not the single power source in a circuit, the measures recommended by Underwriters Laboratories are relevant. The relevant protection means should be recommended/approved by TADIRAN.* TLV- Threshold Limit Value is personal exposure limits determined by ACGIH (American Council of Governmental Industrial Hygienists).IMPORTANT NOTE: The above levels are not anticipated under normal use conditions.4.Section 4: First aid measuresIn case of battery rupture, explosion, or major leakage, evacuate personnel from contaminated area and provide good ventilation to clear out corrosive fumes, gases or the pungent odor. Seek immediate medical attention.Eyes - First rinse with plenty of water for 15 minutes (remove contact lenses if easily possible), and then seek medical attention.Skin - Remove contaminated clothes and rinse skin with plenty of water or shower for 15 min. Refer to medical attention.Inhalation - Remove to fresh air, rest, and half-upright position, use artificial respiration if needed, and refer to medical attention.Ingestion - rinse mouth, DO NOT induce vomiting, give plenty of water to drink, and refer to medical attention.5.Section 5: Fire - fighting measuresFLASH POINT: NA LOWER (LEL): NA FLAMMABLE LIMIT IN AIR: NA UPPER (LEL): NA EXTINGUISHING MEDIA:1. Lith- X (Class D extinguishing media) is the only effective on fires involving a few lithium batteries. If the cells are directly involved in a fire DO NOT USE: WATER, SAND, CO2, HALON, and DRY POWDER OR SODA ASH EXTINGUISHERS.2. If the fire is in adjacent area and the cells that are either packed in their original containers or unpacked, the fire can be fought based on fueling material, e.g., paper and plastic products. In these cases the use of copious amounts of cold water is effective extinguishing media. Storage area may also employ sprinkler system with cold water.AUTO-IGNITION: NASPECIAL FIRE FIGHTING PROCEDURES: Wear self-contained breathing apparatus to avoid breathing of irritant fumes (NIOSH approved SCBA & full protective equipment). Wear protective clothing and equipment to prevent body contact with electrolyte solution.Fire may be fought, but only from safe fire-fighting distance. Evacuate all persons from immediate area of fire.UNUSUAL EXPLOSION AND FIRE EXPLOSION: Battery may explode when subject to: excessive heat (above 150⁰C), recharged, over-discharged (discharge below 0V), punctured and crushed. During thermal decomposition generation of chlorine (Cl2), hydrogen chloride (HCl), and sulfur dioxide (SO2) can be formed.6.PROCEDURES TO CONTAIN AND CLEAN UP LEAKS OR SPILLS: The material contained within the battery would only be released under abusive conditions.In the event of battery rapture and leakage: contain the spill while wearing proper protective clothing and ventilate the area. Then, cover with sodium carbonate (Na2CO3) or 1:1 mixture of soda ash and slaked lime. Keep away from water, rain, and snow. Placed in approved container (after cooling if necessary) and disposed according to the local regulations. NEUTRALIZING AGENTS: Sodium carbonate (Na2CO3) or 1:1 mixture of soda ash and slaked lime. WASTE DISPOSAL METHOD: Product decomposed by water must be neutralized. if sufficiently diluted, it may be added to waste water if it is sufficiently diluted.PRECAUTIONS IN HANDLING AND STORAGE: avoid short-circuiting, over-charging and heating to high temperatures. Store the batteries in dry and cool area and keep container dry and tightly closed in well-ventilated area. Store cells away from food and drink.OTHER PRECAUTIONS; Never attempt to disassemble, machine, or otherwise modify batteries or injury may result.7.The batteries should not be opened, destroyed or incinerate, since they may leak or rupture and release to the environment the ingredients that they normally contained in the hermetically sealed container.HANDLING- Do not short circuit terminals, or expose to temperatures above the temperature rating of the battery, over charge the battery, forced over-discharge (voltage below 0.0V), throw to fire.Do not crush or puncture the battery, or immerse in liquids.STORAGE- is preferably done in cool (below 30⁰C), dry and ventilated area, which is subject to little temperature change.Do not place the battery near heating equipment, nor expose to direct sunlight for long periods. Elevated temperatures can result in shortened battery life and degrade performance.Keep batteries in original packaging until use and do not jumble them.Do not store batteries in high humidity environment for long periods.OTHER- cells and batteries are not rechargeable batteries and should not be charged. Applying pressure and deforming the battery may lead to disassembly followed by eye skin and throat irritation.Follow manufacturer recommendations regarding maximum recommended current and operating temperature range.GENERAL- The following safety measures are not necessary in normal use. They need only be applied if there is a risk that, in use or handling, the recommendations, as outlined in Section 3, have not been followed.RESPIRATORY PROTECTION: In case of abuse or leak of liquid or fumes, use NIOSH approved Acid Gas Filter Mask or Self-Contained Breathing Apparatus.VENTILATION: In case of abuse, use adequate mechanical ventilation (local exhaust) for battery that vents gas or fumes.PROTECTIVE GLOVES: In case of spill use PVC or Nitrile gloves of 15 mils (0.015 inch) or thicker. EYE PROTECTION: Use ANSI approved chemical worker safety goggles or face shield.OTHER PROTECTIVE EQUIPMENT: In case needed, chemical resistance clothing is recommended along with eye wash station and safety shower should be available meeting ANSI design criteria. WORK HYGIENIC PRACTICES: Use good hygiene practice. Wash hands after use and before drinking, eating or smoking. Launder contaminated cloth before reuse. SUPPLEMENTARY SAFETY AND HEALTH DATA: If the battery is broken or leaked the main hazard is the electrolyte. The electrolyte is mainly solution of Lithium chloride (LiCl), and aluminum chloride (AlCl3) in Thionyl chloride (SOCl2).Fires may be fought but only from safe fire fighting distance, evacuate all persons from immediate area of fire. Prevent heating of the battery, charging the battery, discharge to predetermined limit, do not crush, disassemble, incinerate or short circuit.9.Section 9: Physical and chemical propertiesBoiling point (760 mm Hg) NA, unless individual components exposed Vapor Pressure (mm Hg, 25ºC) NA, unless individual components exposed Vapor Density (air=1) NA, unless individual components exposed Density (gr/cc) > 1 gr/ccVolatile by Volume (%) NAEvaporation Rate (butyl acetate=1) NA, unless individual components exposed Physical State SolidSolubility in Water (% by weight) NA, unless individual components exposed PH NA, unless individual components exposed Appearance Geometric Solid ObjectOdor If leaking, gives off pungent corrosive odor10.Section 10: Stability and reactivitySTABLE OR NOT STABLE StableINCOMPATIBILITY (MATERIAL TO AVOID) Strong mineral acids, water and alkali solutions.HAZARDOUS DECOMPOSITION PRODUCTS 1. Reaction of lithium with water: Hydrogen (H2), Lithium hydroxide (LiOH).2. Thermal decomposition over 150⁰C: Sulfur oxides, (SO2, SO3), Sulfur chlorides (SCl2, S2Cl2), Chlorine (Cl2), Lithium oxide, Li2O3. Electrolyte with water: Hydrogen Chloride (HCl) and SO2DECOMPOSITION TEMPERATURE (⁰F) NAHAZARDOUS POLYMERIZATION: May Occur____ Will Not Occur __X__ CONDITIONS TO AVOID Avoid mechanical abuse and electrical abuse such as short-circuiting, overcharge, over-discharge, (voltage reversal)and heating.THRESHOLD LIMIT VALUE (TLV) AND SOURCE: NAHEALTH HAZARD ACUTE AND CHRONIC: Inhalation, skin contact, eye contact and ingestion are not likely by exposure to sealed battery.Inhalation, skin contact and eye contact are possible when the battery is opened. Exposure to internal contents, the corrosive fumes will be very irritating to skin, eyes and mucous membranes. Overexposure can cause symptoms of non-fibrotic lung injury and membrane irritation.Carcinogenicity- NTP: NoCarcinogenicity- IARC: NoCarcinogenicity- OSHA: NoExplanation of Carcinogenicity- No ingredient of a concentration of 0.1% or greater is listed as a carcinogen or suspected carcinogen.SIGNS AND SYMPTOMS OF OVEREXPOSURE: Exposure to leaking electrolyte from ruptured or leaking battery can cause:For further information refer to section 4.12.Section 12: Ecological information1.When properly used or disposed the battery does not present environmental hazard.2.Cells do not contain mercury, cadmium, lead or other heavy metals.3.Do not let internal components enter marine environment. Avoid release to waterways,wastewater or ground water.13.Section 13: Disposal Considerations4.Dispose in accordance with the applicable regulations in country and state.5.Disposal should be performed by permitted, professional disposal firms knowledgeable inFederal, State or Local requirements of hazardous waste treatment and hazardous waste transportation.6.Incineration should never be performed by battery users, but eventually by trainedprofessional in authorized facility with proper gas and fume treatment.7.Battery recycling should be done in authorized facility.14.Section 14: Transport informationShipping name:UN 3090: Lithium Metal Cells and BatteriesUN 3091: Lithium Metal Cells and Batteries contained in equipment, orLithium Metal Cells and Batteries packed with equipmentShipping information: the cells and batteries have passed successfully the tests defined in “UN Manual of Tests and Criteria”, Section 38.3 (the UN tests). The cells and batteries must be packed in accordance with Packing Instructions / Special Provisions (SP) of the applicable code, e.g., IATA (57th revised edition)/ICAO (Packing Instructions: PI968, PI969 and PI970), IMDG Code (SP188) and ADR (SP188). When required, reference shall be made to UN number 3090 (lithium ion batteries) or UN 3091 when packed with or contained in equipment.Transportation within, to and from the US: are governed by the US DOT CFR 49, Parts 171, 172, 173 and 175. They details the required packaging and labels and transportation mode of cells transported separately or in equipment. The battery cannot be shipped, within, to, and from the US by passenger aircraft. Air shipments of cells can be done only by cargo aircraft.Hazard Classification: Class 9Packing Group: N/ABattery label: Identification and labeling should be in compliance with the applicable regulations. In addition, it should also include cell/battery title, nominal voltage, lot number and warning.15.1.All the cells and batteries are defined as “articles” and thus are exempt from therequirements of the Hazard Communication Standard”.2.The internal component (Thionyl chloride) is hazardous under the criteria of the FederalOHSA Hazard Communication Standard 29 CFR 1920.1200.3.NFPA rating- Lithium batteries are not included in the NFPA material list. Below is the NFPArating for lithium metal. Lithium metal is an internal component, enclosed by hermetically sealed metallic can. Under normal application is not exposed.16.Section 16: Other informationThe information and the recommendations set forth are made in good faith and believed to be accurate at the date of preparation. The present file refers to normal use of the product in question. Tadiran Batteries makes no warranty expressed or implied.Assembly of battery packs:The design and assembly of battery packs require special skills, expertise and experience. Therefore it is not recommended that the end user will attempt to self-assemble battey packs. It is preferable that any battery using lithium cells will be assembled by TADIRAN to ensure proper battery design and construction. A full assembly service is available from TADIRAN who can be contact for further information. If for any reason, this is not possible, TADIRAN can review the pack design in confidential to ensure that the design is safe and capable of meeting the stated performance requirements.。

氧化低密度脂蛋白，OxLDLELISA试剂盒说明书氧化低密度脂蛋白，OxLDLELISA试剂盒说明书产品规格：96T/48T。

保存条件：2-8℃低温保存保质期：6个月，所有试剂盒均提供最新批次。

试剂盒成分：酶标板，试剂，标准品等。

上海乔羽生物有限公司专业的提供elisa试剂盒，人elisa试剂盒，猪elisa试剂盒，大鼠elisa试剂盒，小鼠elisa试剂盒，羊elisa试剂盒，植物elisa试剂盒等等，更多优惠，来电咨询！谢谢！氧化低密度脂蛋白，OxLDLELISA试剂盒说明书氧化低密度脂蛋白，OxLDLELISA试剂盒说明书操作步骤标准品的稀释与加样：在酶标包被板上设标准品孔10孔，在第一、第二孔中分别加标准品100μl?，然后在第一、第二孔中加标准品稀释液50μl，混匀；然后从第一孔、第二孔中各取100μl分别加到?第三孔和第四孔，再在第三、第四孔分别加标准品稀释液50μl，混匀；然后在第三孔和第四孔中先各?取50μl弃掉，再各取50μl分别加到第五、第六孔中，再在第五、第六孔中分别加标准品稀释液50ul?，混匀；混匀后从第五、第六孔中各取50μl分别加到第七、第八孔中，再在第七、第八孔中分别加标?准品稀释液50μl，混匀后从第七、第八孔中分别取50μl加到第九、第十孔中，再在第九第十孔分别?加标准品稀释液50μl，混匀后从第九第十孔中各取50μl弃掉。

（稀释后各孔加样量都为50μl，浓度?分别为1800ng/L，1200ng/L?，600ng/L，300ng/L，?150ng/L）。

加样：分别设空白孔（空白对照孔不加样品及酶标试剂，其余各步操作相同）、待测样品孔。

在?酶标包被板上待测样品孔中先加样品稀释液40μl，然后再加待测样品10μl（样品最终稀释度为5倍）?。

加样将样品加于酶标板孔底部，尽量不触及孔壁，轻轻晃动混匀。

温育：用封板膜封板后置37℃温育30分钟。

配液：将30（48T的20倍）倍浓缩洗涤液用蒸馏水30（48T的20倍）倍稀释后备用。

Eveready Battery Manufacturing, Inc.25225 Detroit RoadWestlake, Ohio 44145+1 (440) 835-7500 Phone+1 (440) 899-6028 FaxCODE OF PRACTICEForPrimary Battery Packaging, Shipping, Storage, Use, and Disposal(Reference: IEC 60086-1 2000 Annex B)It is Energizer’s policy to be recognized as a fully responsible supplier in the eyes of our customers. Part of the process of ensuring that the end consumer achieves their greatest satisfaction from Energizer’s primary batteries, lies in using good practices during distribution, storage, and use. This Code of Practice describes the expectations and areas of concern for Shipping and Transport companies, Distributors, and Retailers.1) PackagingEnergizer endeavours to design packaging to electrically insulate each battery, and that is sufficient to protect the batteries from mechanical or environmental damage during transport, handling, and stacking, subject to the conditions of the following guidelines.2) Transport and ShippingThe batteries and their packaging must be protected at all times from direct sun and any sources of moisture, such as rain or wet flooring. Shock and vibration shall be avoided by ensuring that boxes are placed and stacked gently, and properly secured from movement during transport.To lessen the exposure of the batteries to heat, metal shipping containers should be ventilated and kept away from heat sources such as ship’s engines or direct sunlight. Stowage on ships must be below deck, while during other transport (road, rail, etc) and on/off loading, exposure to direct sunlight should be kept to a minimum.3) Bulk StorageThe storage area must be clean, cool, dry, ventilated, and weatherproof.For normal storage, the temperature should be between +10 °C and +25 °C and never exceed +30 °C. Extremes of humidity (over 95% and below 40% relative humidity) for sustained periods should be avoided since they are detrimental to both batteries and packaging.Batteries must be kept away from any sources of heat (furnaces, space heaters, metal roofing, skylights, etc) or moisture (damp floors, drains, etc).The height to which batteries may be stacked is clearly dependent on the strength of the pack. As a general guide, this height should not exceed 1.5 metres for cardboard packs. Stacking should be such that it allows adequate air circulation around the packs and for ease of identification to ensure proper stock rotation (first in first out).Storage time shall be kept to a minimum, with batteries dispatched promptly to distribution centres, retailers, and on to consumers.4) Retail OutletsWhen batteries are unpacked, they should be handled carefully to avoid physical damage or electrical contact among themselves or with shelving.Batteries used for display should not then be used for sale if they have been exposed to sunlight directly or through a window. Display batteries should be replaced regularly.The temperature, humidity, and stock rotation conditions noted above for storage, shall be followed.5) Selection, Use, and DisposalEnergizer endeavours to provide guidance to the consumer on the most suitable battery for intended use at the point of sale. Nevertheless, additional information may be obtained from our website .Consumers are advised of the following:•Ensure that they purchase the correct battery type and that they follow the device instructions for battery insertion, especially checking for correct polarity and thecleanliness of the contacts.•Do not expose the batteries or equipment to high temperatures, such as in cars parked in the sun.•Always replace a full set of batteries at the same time. Do not mix new batteries with partially used ones and do not mix batteries of different grades, brands, or electrochemical systems.•Do not attempt to recharge batteries that are not labeled “rechargeable”.•Remove batteries from the device if it stops functioning properly, or if it is not intended to be used for a long period.•Store batteries in a cool, dry place. And, keep them away from any metal objects to avoid accidentally discharging the batteries.•Primary batteries may be disposed of via the communal refuse arrangements, provided no contrary local legal requirements exist.•Do not dispose of batteries in a fire.© Energizer 2004。

User Manual V F D-LVARIABLE SPEED AC MOTOR DRIVE115V/230V 25W – 100WHIGH PERFORMANCE / EASY CONTROL AC DRIVEASIADELTA ELECTRONICS, INC. TAOYUAN Plant/31-1, SHIEN PAN ROAD,KUEI SAN INDUSTRIAL ZONE TAOYUAN 333, TAIWAN TEL: 886-3-362-6301FAX: 886-3-362-7267/acdrives NORTH/SOUTH AMERICADELTA PRODUCTSCORPORATIONSales Office/P.O. BOX 121735101 DAVIS DRIVERTP, NC 27709 U. S. A.TEL: 1-919-767-3813FAX: 1-919-767-3969/acdrivesEUROPEDELTRONICS (Netherlands) B.V.Sales Office/Industriegebied Venlo Nr. 9031Columbusweg 20NL-5928 LC VenloThe NetherlandsTEL: 31-77-324-1930FAX: 31-77-324-1931PrefaceThank you for choosing Delta’s high-performance VFD-L Series. VFD-L Series are manufactured by adopting high-quality components, material and incorporating the latest microprocessor technology available.This manual will be helpful in the installation, parameter setting, troubleshooting, and daily maintenance of the AC motor drives. To guarantee safe operation of the equipment, read the following safety guidelines before connecting power to the AC motor drives. Keep this operating manual handy and distribute to all users for reference.Receiving and InspectionThis VFD-L AC drive has gone through rigorous quality control tests at the factory before shipment. After receiving the AC motor drive, please check for the following:ReceivingCheck to make sure that the package includes an AC drive and the User Manual.Inspect the unit to insure it was not damaged during shipment.Make sure that the part number indicated on the nameplate corresponds with the part number of your order.Nameplate Information:VFD 001 L 21 AVersion TypeVFD-L SeriesApplicable motor capacity001:60/100(W)40W:25/40(W)Series NameInput VoltageT 2 01 007Production numberProduction weekProduction year 2002Production factory (Taoyuan)o C (158o F), during the operation. Do notStorage and InstallationsStorage:The AC drive should be kept in the shipping carton before installation. In order to retain the warranty coverage, the AC drive should be stored properly when it is not to be used for an extended period of time. Ambient Conditions:OperationAir Temperature:Atmosphere pressure:Installation Site Altitude:Vibration:-10o C to +40o C (14o F to 122o F)86 to 106 kPabelow 1000mMaximum 9.86 m/s2 (1G) at less than 20HzMaximum 5.88 m/s2 (1G) at 20Hz to 50HzStorageTemperature:Relative Humidity:Atmosphere pressure:-20o C to + 60o C (-4o F to 140o F)Less than 90%, no condensation allowed86 to 106 kPaTransportationTemperature:Relative Humidity:Atmosphere pressure:Vibration:-20o C to +60o C (-4o F to 140o F)Less than 90%, no condensation allowed86 to 106 kPaMaximum 9.86 m/s2 (1G) at less than 20HzMaximum 5.88 m/s2 (1G) at 20Hz to 50HzInstallations and Connection:Any Electrical or mechanical modification to this equipment without prior written consent of Delta Electronics, Inc. will void all warranties and may result in a safety hazard in addition to voiding the UL listing.Short Circuit Withstand:Suitable for use on a circuit capable of delivering not more than 5,000 rms symmetrical amperes, for 230V Models, the maximum is 240 Volts.Improper installation of the AC drive will greatly reduce its life. Be sure to observe the following precautions when selecting a mounting location. Failure to observe these precautions may void the warranty!Do not mount the AC drive near heat-radiating elements or in direct sunlight.Do not install the AC drive in a place subjected to high temperature, high humidity, excessive vibration, corrosive gases or liquids, or airborne dust or metallic particles.Mount the AC drive vertically and do not restrict the airflow to the heat sink fins.The AC drive generates heat. Allow sufficient space around the unit for heat dissipation as shown in the figure shown next page:310cm10cm5cm 5cm5cmConnections:Installations intended to meet UL and CUL requirements must follow the instructions provided in “Wiring Notes” section below as a minimum standard. Where local codes exceed these requirements, they must also be followed. Refer to the technical data label affixed to the AC drive and the motor nameplate for electrical data.Basic Wiring DiagramUsers must connect wiring according to the following circuit diagram shown below.L/L1N/L2U/T1V/T2W/T3IMRS-485 Serial Interface1EV 2GND 3SG 4SG+PIN 1 & 2 are the power source for the digital keypad and should not be used while using RS-485communication.：＋：：－：FWD/REV RUN/STOPDigital SignalCommon TerminalFault Output(Open Collector)Wire Gauge: 22-14 AWG Torque: 10kgf-cm(8.7 in-lbf)*NOTE*: Do not plug a Modem or telephone line to the RS-485 communication port,permanent damage may result. Terminals 2 & 5 are the power sources for the optional copy keypad and should not be used while using RS-485 communication.Control Circuit Wiring: wire gauge 22-14AWG, torque 10kgf-cm (8.7 in-lbf)Terminal symbolsTerminal namesRemarks M0 RUN/STOPNormally Open contact, AC drive startsoperation when closes.M1 FWD/REVNormally Open contact, AC drive startsreverse motion when closes.MO1 Fault Indication When error is detected, MO1 will close.RS-485Serial Communication Port When DIP Switch 7 is ON, the drive is controlled by RS-485.DCM Digital Signal Common Ground for M0, M1 and M01Front Panel Control DiagramGREEN POWER LED RED ERROR LED (Please refer totroubleshooting & Fault Information)0.05510305Accel/Decel Time(Sec)UnitAccel/Decel Time Knob (sec.)0110100Output frequency (%)9Unit Output Frequency Knob (Hz)Switch Setting Descriptions:The DIP Switches can only be changed when AC drive is in a stopped mode. Indicates the position of the switch (ON/OFF).CommunicationThere is three control modes: RS-485 communication, AC drive front panel, and external terminals. Only one mode can be used at a time and is selected by DIP Switch 6 and 7. Programming can only be done when the AC drive is in stopped mode.DIP switch settings for controlDIP Switch 6 determines if control is via the AC drives front panel or external terminals. Set DIP switch6 to OFF for AC drive front panel control and ON for external terminal controlDIP Switch 7 determines if control is local or via RS-485 communication. When DIP Switch 7 is OFF, the AC drive front panel or external terminals control the drive.Note: The parameters set via RS-485 communication will remain in memory. Users can still read the status of the AC drive via RS-485 communication, but cannot send any control commands.When DIP Switch 7 is ON, the drive is controlled by RS-485 communication. Please verify the AC drive is fully stopped prior to turn DIP Switch 7 ON. If DIP Switch 7 is turned ON during operation, the error LED will illuminate.Computer ControlsEach VFD-L AC Drive has a pre-assigned communication address specified by DIP Switch pins 1 to 6 (Refer to the description of setting up address). VFD-L type Communication agreement: Modbus ASCII mode, protocol <7, N, 2>, Baud rate 9600. The computer then controls each AC Drive according to its communication address.ASCII Modes:Each 8-bit data is the combination of two ASCII characters. For example, a 1-byte data: 64 Hex, shown as ‘64’ in ASCII, consists of ‘6’ (36Hex) and ‘4’ (34Hex).Character ‘0’ ‘1’ ‘2’ ‘3’ ‘4’ ‘5’ ‘6’ ‘7’ASCII code 30H 31H 32H 33H 34H 35H 36H 37HCharacter ‘8’ ‘9’ ‘A’ ‘B’ ‘C’ ‘D’ ‘E’ ‘F’ASCII code 38H 39H 41H 42H 43H 44H 45H 46HData Format10-bit character frame (For 7-bit character): (7, N, 2)Startbit0123456Stop bit7-data bits10-bits character frame Stop bitAC Drive Addresses for RS-485 CommunicationVFD-L series communication addresses are 1 to 63, since 0 means broadcast to all AC drives. A DIP Switch sets to ON for equal to 1 and OFF for equal to 0.If DIP Switch 7 is OFF during power up, the communication address for the drive is 0008H, this is address 1 (factory default).If DIP Switch 7 is ON during power up, the address settings are determined by the ON/OFF positions of DIP Switches 1 to 6. Address 1 is when all switches are set to the OFF position. Switch “1” is the upper bit and switch 6 is the lower bit.(A) The addresses will remain in memory when the control mode changes to AC drive panel or externalterminals.(B) The addresses will remain in memory when parameters are reset.To save new addresses, remove power from the drive, set DIP switch 7 to ON and reapply power to the drive, at this time the new addresses will be read.Communication ProtocolCommunication Data Frame:STX Start character ‘:’ (3AH) ADR 1ADR 0 Communication address: 8-bit address consists of 2 ASCII codesCMD 1CMD 0Command code: 8-bit command consists of 2 ASCII codesDATA (n-1) ToDATA 0Contents of data:n ×8-bit data consist of 2n ASCII codes. n<=25, maximum of 50 ASCII codes LRC CHK 1LRC CHK 0 LRC check sum: 8-bit check sum consists of 2 ASCII codesEND 1 End characters: END1 = CR (0DH), END0 = LF (0AH) END 0ADR (Communication Address)Valid communication addresses are in the range of 1 to 63. Communication address equal to 0, means broadcast to all AC drives. In this case, the AMD will not reply any message to the master device. CMD (Command code) and DATA (data characters)The format of data characters depends on the command code. The available command codes are described as followed:Command code: 03H, read N words. The maximum value of N is 12. For example, reading continuous 2 words from starting address 2102H of AMD with address 01HCommand code: 06H, write 1 word For example, writing 6000 (1770H) to address 2001H of AMD with address 01H. Command message: Response message: Command message: Response message:STX ‘:’ STX ‘:’ STX ‘:’ STX ‘:’ ‘0’ ‘0’ ‘0’ ‘0’ ADR 1 ADR 0 ‘1’ ADR 1 ADR 0 ‘1’ ADR 1 ADR 0 ‘1’ ADR 1 ADR 0 ‘1’ ‘0’ ‘0’ ‘0’ ‘0’ CMD 1 CMD 0‘3’CMD 1 CMD 0‘3’CMD 1 CMD 0 ‘6’ CMD 1 CMD 0 ‘6’‘2’‘0’‘2’‘2’ ‘1’ Number of data (byte)‘4’ ‘0’‘0’‘1’ ‘0’ ‘7’‘0’ ‘0’ ‘7’ Starting data address ‘2’ Content of starting data address 2102H ‘0’Data address ‘1’ Data address ‘1’ ‘0’ ‘0’ ‘1’ ‘1’ ‘0’ ‘0’ ‘7’‘7’ ‘0’‘0’ ‘7’ ‘7’ Number of data (Count by word) ‘2’ Content of data address 2103H ‘0’ Data content ‘0’ Data content‘0’ ‘D’ ‘7’ “5’‘5’ LRC CHK 1 LRC CHK 0 ‘7’LRC CHK 1 LRC CHK 0 ‘1’ LRC CHK 1 LRC CHK 0 ‘1’LRC CHK 1 LRC CHK 0 ‘1’ CR CR CRCR END 1 END 0 LF END 1 END 0 LF END 1 END 0 LFEND 1 END 0 LFCHK (check sum)LRC (Longitudinal Redundancy Check) is calculated by summing up the values of the bytes from ADR1 to last data character then calculating the hexadecimal representation of the 2’s-complement negation of the sum. For example, using the command message of above:STX ‘:’ ‘0’ ADR 1 ADR 2 ‘1’ ‘0’ CMD 1 CMD 2 ‘3’‘2’‘1’ ‘0’STARTING DATA ADDRESS ‘2’‘0’‘0’‘0’NUMBER OF DATA ‘2’‘D’ LRC CHK 1 LRC CHK 0 ‘7’ CR END 1 END 0 LF01H+03H+21H+02H+00H+02H=29H, the2’s-complement negation of 29H is D7H.Parameters (saved in the EEPROM) : the parameter can be set during the operation.ParameterParameter Function Parameter SettingFactory SettingCustomer Setting 0 Identity code of Drive Depend on drive Read only1 Rating current Depend on drive 1 Read/Write2 Parameter Reset 10: Reset 0 Read/Write3 Max. Operation Freq. 0: 50 Hz 1: 60 Hz2: 100 Hz 3: 120 Hz1Read Only 4 Accel/Decel Time 0.05 to 30.00 sec 5.00 Read/Write 5 Reverse Inhibit 0: Reverse disable1: Reverse enable1Read/Write 6 Torque Increase 0: High Torque1: Low Torque 1Read/Write 7 Electronic Thermal 0: 25/60 w1: 40/100 w 1Read/Write 8 Communication Addresses 01 to 63 1 Read/Write 9Software VersionRead only #.#Read OnlyAddress List:The contents of available addresses are shown as below:Content: Address: Function:AC driveParametersnnnnH nnnn means parameter number, for example, the address of 0004 is 0004H. When reading parameter by command code 03H, only oneparameter can be read at one time.Bit 0 to 100B: No function 01B: Stop10B: Run11B: No functionBit 2 to 3 ReservedBit 4 to 500B: No function 01B: FWD 10B: REV11B: Change direction2000HBit 6 to 15 Reversed2001H Frequency commandBit 0 1: ReversedBit 1 1: ResetCommand Write only 2002H Bit 2-15 ReservedContent:Address:Function:2100HError Codes00: No error occurred 01: Over-current (oc) 02: Over-voltage (ov) 03: Overheat (oH) 04: Overload (oL) 05, 06: Reserved 07: CPU failure (cF3) 08 to 13: Reserved 14: Low voltage (Lv) 15: CPU failure 1 (cF1) 16: CPU failure 2 (cF2) 17 to 19: Reserved 20: Software protection 21: Operation error22: OH Hardware failure cF3.1 23: OV Hardware failure cF3.2 24: LV Hardware failure cF3.326: Hardware failure cF3.5 (current detection) 30: Hardware failure hpf.2 31: Hardware failure hpf.3Bit 0 to 100: STOP01: Ramp stop10: Zero speed 11: OperationBit 2 ReservedBit 3 to 400: Forward motion01: from Reverse to Forward motion10: from Forward to Reverse motion 11: Reverse motionBit 5 to 9 ReservedBit 101: Operation commands are controlledby communication interface.2101HBit 11 to 15 Reserved2102H Frequency Command F (XXX.XX) 2103H Output Frequency H (XXX.XX) 2104H Output Current A (X.XX) 2105H DC-BUS Voltage (XXX) Status monitor (Read only)2106HOutput Voltage E (XXX.X)Exception Responses:Except for broadcast messages, the AC drive is been expected to return a normal response after receiving command messages from the master device. The following depicts the conditions that no normal response is replied to the master device.The AC drive does not receive the messages due to a communication error; thus, the AC drive has no response. The master device will eventually process a timeout condition.The AC drive receives the messages without a communication error, but cannot handle it, an exception response will return to the master device. In the exception response, the most significant bit of the original command code is set to 1, and an exception code explains the condition that caused the exception is returned. An example of exception response of command code 06H and exception code 02H:STX ‘:’ 3AH‘0’ 30HADDRESS 1ADDRESS 0 ‘1’ 31HFUNCTION(CMD) 1 ‘8’ 38HFUNCTION(CMD) 0 ‘6’ 36H‘0’ 30HEXCEPTIONCODE ‘2’ 32H‘7’ 43HLRC CHK 1LRC CHK 0 ‘7’ 46HCR 0DHEND 1END 0 LF 0AHThe explanation of exception codes:Exception codes: Explanation01 Illegal command code:The command code received in the command message is not available for the AC drive.02 Illegal data address:The data address received in the command message is not available for the AC drive.03 Illegal data value:The data value received in the command message is over range for the AC drive.04 Slave device failure:The AC drive is unable to perform the requested action.09 Check Sum Error: Check if the Check Sum is correct.20 Watchdog Timer: The timer will reset to 0 after each valid MODBUScommunication message is received.12Maintenance and InspectionsModern AC drives are based on solid state electronics technology, preventive maintenance is required to operate this AC drive in its optimal condition, and to ensure a long life. It is recommended to perform a monthly check up of the AC drive by a qualified technician. Before the check up, always turn off the AC Input Power to the unit. Wait at least 2 minutes after all display lamps have gone out, and then confirm that the capacitors have fully discharged.Periodic Inspection:Basic check up items to detect if there were any abnormality during the operation.1. Whether the motors are operating as expected.2. Whether the installation environment is abnormal.3. Whether the cooling system is operating as expected.4. Whether any irregular vibration or sound occurred during the operation.5. Whether the motors are overheated during the operation.6. Always check the input voltage of the AC drive with Voltmeter.Periodic Maintenance:It is necessary to stop the motor operation during the check up.1. Tighten and reinforce the screws of the AC drive if necessary, cause it may loose due tothe vibration or changing of temperatures.2. Whether the conductors or insulators were corroded and damaged.3. Check the resistance of the insulation with Megaohmeter.4. Often check and change the capacitors and relays.5. If use of the AC drive is discontinued for a long period of time, turn the power on at leastonce every two years and confirm that it still functions properly. To confirm functionality, disconnect the motor and energize the AC drive for 5 hours or more before attempting to run a motor with it.6. Clean off any dust and dirt with a vacuum cleaner. Place special emphasis on cleaningthe ventilation ports and PCBs. Always keep these areas clean, as adherence of dust and dirt can cause unforeseen failures.Fuse and Fuse Breaker (NFB) Specifications:Model Ampere Rating (A)Manufacturer (Reference)40W 115V 6.0A Busmann - JJN-6 300V40W 230V 3.0A Busmann - JJN-3 300V100W 115V 10.0A Bssmann - JJN-10 300V100W 230V 6.0A Bssmann - JJN-6 300VTroubleshooting and Fault InformationThe AC drive has a comprehensive fault diagnostic system that includes several different alarms and fault message. Once a fault is detected, the corresponding protective functions will be activated to shut down the AC drive output. Below are the fault descriptions, for a fault shown on the AC drive digital keypad. After fault has been cleared, switch theRun/Stop key to stop mode to reset the drive.Fault Display Fault Descriptions Corrective ActionsAlarm LED lighten afterpower on Hardware failure Return to the factoryAlarm LED flashes once in every two seconds The AC drivedetects anabnormal increasein current(Over-current)1. Increase the acceleration time2. Check whether the motor output powercorresponds to the AC drive outputpower3. Check the wiring connection between theAC drive and motor for possible shortcircuit4. Check for possible over loadingconditions at the motorAlarm LED flashes twice in every two seconds (Over-voltage) The AC drivedetects that theDC-BUS voltagehas exceeded itsmaximumallowable value1. Check whether the input voltage fallswithin the rated AC Drive input voltage.2. Check for possible voltage transients.3. Bus over-voltage may be caused bymotor regeneration, increase theaccel/decel time.Alarm LED flash thrice in every two seconds (Overload) Motor overload1. Check for possible motor overload.2. Adjust torque detection setting of the DIPSW4 to an appropriate setting.3. Increase the AC Drive’s output capacity.Alarm LED flashes four times in every two seconds(Over-heating) The AC drivetemperaturesensor detectsexcessive heat.1. Ensure that the ambient temperaturefalls within the specified temperaturerange.2. Make sure that the ventilation holes arenot obstructed.3. Provide enough spacing for adequateventilation.Alarm LED flashes five times in every two seconds(Low voltage) The AC drivedetects that theDC Bus Voltagehas fallen belowits minimum value.Check whether the input voltage falls withinthe rated AC Drive input voltage.Alarm LED flashes Change DIP SWwhile drive isrunningSwitch the Run/Stop key to Stop mode toreset the AC drive.Standard Specifications。

USP 55BIOLOGICAL INDICATORS—RESISTANCE PERFORMANCE TESTS生物指示剂－抗性测试TOTAL VIABLE SPORE COUNT活孢子数总数计数Remove three specimens of the relevant biological indicator from their original individual containers. Disperse the paper into component fibers by placing the test specimens in a sterile 250-mL cup of a suitable blender containing 100 mL of chilled, sterilized Purified Water and blending for 3 to 5 minutes to achieve a homogeneous suspension. Transfer a 10-mL aliquot of the suspension to a sterile, screw-capped 16- × 125-mm tube.从生物指示剂的原包装袋中取出3支作为样本。

把待测样品放入一个已灭菌的250mL有搅拌器的杯子里，杯子内装100 mL放冷的灭菌纯化水。

把杯子里的纸片磨碎成纤维状，并混合3～5min使之成为均一的悬浮液。

转移10ml的整数倍的悬浮液至一个已灭菌的16 × 125mm的螺盖管中。

For Biological Indicator for Steam Sterilization, Paper Carrier, heat the tube containing the suspension in a water bath at 95to 100for 15 minutes (heat shock), starting the timing when the temperature reaches 95.如果是纸载的蒸汽灭菌生物指示剂，则把装有悬浮液的管放入95℃～100℃水浴15min （热休克），在悬浮液温度达到95℃时开始计时。

氧化低密度脂蛋白定量测定试剂盒（酶联免疫法）说明书【产品名称】通用名称：氧化低密度脂蛋白定量测定试剂盒（酶联免疫法）商品名称：氧化低密度脂蛋白定量测定试剂盒（酶联免疫法）英文名称：Requirement for Oxidized Low Density Lipoprotein Detection Kit （ELISA）【包装规格】96人份/盒；48人份/盒。

【预期用途】本品为体外定量检测血液中氧化低密度脂蛋白（Oxidized Low Density Lipoprotein，OxLDL）含量的试剂。

【检验原理】本试验采用双抗体夹心直接酶联免疫法。

用抗人OxLDL抗体预包被微孔板，使样品中的OxLDL与固相化在微孔板上的抗人OxLDL抗体结合后，将未反应的组分洗脱，再加入酶标记抗体进行酶底物显色，在450nm波长下测定光吸收值，并根据在同一微孔板内反应的校准品制作的剂量-反应曲线，求得样品中OxLDL的含量。

【主要组成成份】见表1。

表1 本试剂盒主要组成成份编号组成规格数量1 固相抗体微孔板96孔/ 48孔1块2 OxLDL校准品0，1，2，4，8，16U/ml 各1瓶3 质控物高、低各1瓶4 酶标记抗体100μl1支5 浓缩洗涤液（21×）30ml 1瓶6 浓缩稀释液（5×）10ml 1瓶7 样品反应液12ml 1瓶8 底物液A 6ml 1瓶9 底物液B 6ml 1瓶10 终止液6ml 1瓶【储存条件及有效期】1、储存条件：2~8℃避光保存。

2、有效期：12个月。

3、试剂复溶及开瓶/开袋后储存条件及有效期见表2。

表2 试剂盒组份复溶、配制及开瓶/开袋后储存条件及有效期组份效期及储存条件固相抗体微孔板（开袋后未使用板条）1个月，2~8℃，于封口的铝箔袋中OxLDL校准品（复溶后）1周，2~8℃质控物（复溶后）1周，2~8℃酶标记抗体（稀释后）1天，2~8℃，避光洗涤液（1×）1个月，2~8℃稀释液（1×）1个月，2~8℃底物液（配制后）新鲜配制后使用酶标记抗体（未稀释）12个月，2~8℃，避光洗涤液、稀释液（未稀释）12个月，2~8℃底物液A、B 12个月，2~8℃样品反应液、终止液12个月，2~8℃【适用仪器】1、带有单波长检测能力的酶标仪，有450nm滤光片，增益应小于20。