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i7 7300hq参数i7 7300HQ是英特尔公司生产的一款笔记本电脑处理器。

它是Skylake架构家族中的一员，采用了14纳米的制程工艺，适用于高性能笔记本电脑和移动工作站。

1. 处理器核心数量和线程数量i7 7300HQ拥有4个处理器核心和8个线程。

多核心和多线程的设计使得处理器能够同时处理更多的任务，提高计算性能和效率。

2. 主频和睿频i7 7300HQ的主频为2.5 GHz，睿频可达到3.5 GHz。

主频表示处理器的基本运行速度，而睿频则是在负载较高时提供额外性能的功能。

睿频可以根据计算需求动态调整处理器的频率，以平衡性能和功耗。

3. 缓存i7 7300HQ拥有6 MB的智能高速缓存。

缓存是处理器内部的一块高速存储区域，用于暂时存储频繁访问的数据和指令，以提高内存访问速度和整体性能。

4. 图形处理单元i7 7300HQ集成了Intel HD Graphics 630图形处理单元。

这个GPU 具有快速图形处理能力，能够处理高分辨率的影音娱乐、图形设计和轻度游戏等应用需求。

5. 性能和功耗i7 7300HQ的性能非常强大，适合处理复杂的多媒体任务、3D图形和游戏。

然而，由于功耗较高，它更适合用于供电充足和散热条件良好的台式机或笔记本电脑。

6. 扩展性和兼容性i7 7300HQ支持的内存类型为DDR4-2400，最大支持64 GB的内存容量，并且支持PCI Express 3.0接口。

这为用户提供了更大的灵活性和扩展性，使得处理器可以适应各种不同的应用需求。

总结：i7 7300HQ是英特尔公司推出的一款高性能笔记本电脑处理器。

它拥有4个处理器核心和8个线程，主频为2.5 GHz，睿频可达到3.5 GHz。

配备6 MB的智能高速缓存和Intel HD Graphics 630图形处理单元，具备强大的计算性能和图形处理能力。

然而，由于功耗较高，它适用于供电充足和散热良好的电脑设备。

i7 7300HQ的扩展性和兼容性也很好，支持DDR4-2400内存和PCI Express 3.0接口。

i7 7300hq参数i7 7300hq是英特尔第7代酷睿系列处理器中的一款。

它是一款使用14纳米工艺制造的四核处理器，适用于笔记本电脑。

i7 7300hq处理器的主频为2.5GHz，最高可加速至3.5GHz。

这使得它在处理多任务、运行复杂应用程序和进行高性能计算时能够提供出色的性能表现。

其多核心结构和超线程技术使得它能够同时处理多个线程，提高处理效率。

该处理器的缓存容量为6MB，缓存是CPU和内存之间的临时存储区域，它可以快速存取数据，提高系统的响应速度。

大容量的缓存使得处理器能够更好地处理复杂的计算任务。

i7 7300hq还内置了英特尔高级速度技术，可根据系统的需求动态调整处理器的频率和电压，以提供更好的平衡性能和能效。

这意味着处理器在高性能模式和低能耗模式之间切换，确保在不损害性能的情况下最大程度地节省能源。

该处理器还支持英特尔虚拟化技术，可以将单个物理处理器划分为多个独立的虚拟处理器，从而实现更高效的多任务处理和资源共享。

虚拟化技术对于服务器和高性能计算环境尤为重要。

另外，i7 7300hq还配备了英特尔高清显卡图形处理器，支持4K超高清视频播放和游戏。

这意味着用户可以享受更高质量的视觉体验，无论是观看电影还是玩游戏，都能够获得更加精彩的效果。

该处理器支持DDR4内存，相比以前的DDR3内存，DDR4内存可以提供更高的带宽和更低的能耗，从而提升系统的性能和能效。

总结来说，i7 7300hq是一款适用于笔记本电脑的高性能处理器。

它拥有强大的处理能力、多任务处理能力和图形处理能力，适合于运行复杂应用程序、进行高性能计算和享受高质量视觉体验的用户。

同时，它还具备能耗低、能效高等优点，能够在不损害性能的情况下节省能源。

无论是商务办公、创作设计还是娱乐游戏，i7 7300hq都能够满足用户的需求。

i7 7300hq参数（实用版）目录1.Intel Core i7-7300HQ 简介2.i7 7300HQ 的主要参数3.参数详解4.性能表现5.适用场景正文【Intel Core i7-7300HQ 简介】Intel Core i7-7300HQ 是一款基于 Skylake 微架构的四核心八线程笔记本电脑处理器，发布于 2016 年。

作为高端处理器，i7 7300HQ 在性能和功能上表现出色，广泛应用于高性能笔记本电脑中。

【i7 7300HQ 的主要参数】以下是 i7 7300HQ 的主要参数：- 处理器编号：i7-7300HQ- 制程工艺：14 纳米- 核心数量：四核心- 线程数量：八线程- 时钟频率：2.5GHz 基础时钟频率，3.1GHz 最大睿频- 缓存：8MB 智能缓存- 内存支持：双通道 DDR4-2133/2400MHz 内存- 显卡：Intel HD Graphics 630- TDP（热设计功耗）：45W【参数详解】i7 7300HQ 采用了 14 纳米制程工艺，这意味着处理器在性能提升的同时，功耗和发热量得到了有效控制。

作为一款四核心八线程的处理器，i7 7300HQ 在多线程任务处理上具有明显优势，能够同时处理更多的任务，提高工作效率。

i7 7300HQ 的基础时钟频率为 2.5GHz，最大睿频可达 3.1GHz。

这意味着在运行高负载任务时，处理器可自动提高时钟频率，以提供更强大的性能。

此外，8MB 智能缓存能够有效地减少处理器与内存之间的延迟，提高数据读写速度。

在内存支持方面，i7 7300HQ支持双通道DDR4-2133/2400MHz内存，相较于DDR3内存，DDR4内存在速度和功耗方面都有显著优势。

双通道设计使得处理器可以同时从两个内存通道读取数据，进一步提高系统性能。

i7 7300HQ 集成了 Intel HD Graphics 630 显卡，虽然性能相对独立显卡较低，但对于日常办公、学习和娱乐需求来说，已经足够。

ic-7300 高级全译中文说明一、产品概述ICOM IC-7300是一款多功能的通信设备，具有先进的技术和强大的性能。

该设备采用了基于SMD技术的设计，拥有更小的尺寸和更轻的重量，同时保证了其稳定的性能和可靠性。

IC-7300具有直销电池充电器、内置DSP、及高效率的PA发射器等多项创新性能，可以满足各类通信需求。

二、主要功能1. 内置天线调谐器IC-7300内置了自动天线调谐器，能够自动匹配天线和50Ω的阻抗，以确保设备在不同频率下的最佳性能。

2. 大屏幕彩色显示IC-7300采用了4.3英寸的大屏幕彩色显示，显示效果清晰，操作简单方便。

3. 数字信号处理IC-7300内置了数字信号处理器，可以实现自动噪声消除、自动增益控制、以及内置全数字语音压缩器等功能，极大地提高了通信质量。

4. 多种模式的支持IC-7300支持SSB、CW、RTTY、AM、以及FM等多种模式，满足了不同操作者的需求。

5. USB接口IC-7300支持USB接口，可以直接与电脑进行连接，实现便捷的数据传输和控制。

6. 前置面板调频IC-7300采用前置面板调频设计，便于操作者进行频率的快速调节和切换。

7. 高性能PA发射器IC-7300的PA发射器采用了新型F6001 7601的MOSFET，具有高效率、低噪声、高稳定性的特点。

三、技术规格频率范围：0.030-74.800 MHz工作模式：LSB, USB, CW, RTTY, AM, FM天线接口：SO-239×2耗电量：13.8V DC尺寸：240×238×95mm重量：4.2kg四、常见问题解答1. 如何设置IC-7300的天线调谐器？答：在设置菜单中选择天线调谐器，然后进行天线匹配的操作即可。

2. 如何连接IC-7300与电脑？答：通过USB线将IC-7300与电脑连接，在电脑中安装相应的驱动程序即可实现数据传输和控制。

五、使用注意事项1. 请在通风良好的环境下使用IC-7300，避免因散热不良而导致设备性能下降。

Oil-free centrifugalcompressorsZH+ & ZH 355-900 (355-900 kW/500-1200 hp) ZH+ & ZH 630-1600 (630-1600 kW/900-2250 hp) ZH1000-3150 (1000-3150 kW/1400-4350 hp)ZH+ & ZH range: high efficiency& reliabilityEngineered using innovative in-house technology, the ZH+ and ZH range captures years of experience in advanced compressed air solutions to save energy and guarantee reliability of oil-free air supply in multiple environments.Driving down energy costsSuperior oil-free turbo air ends provide the optimum combination of a high flow with low energy consumption. Ample sized cooling, low pressure drops and an efficientdrive train result in high compressor package efficiency. Further energy savings are possible with Atlas Copco’sheat of compression MD, ND and XD dryers.Assuring your peace of mindFrom the factory to the field, Atlas Copco has the expertise and products, service and support to meet customer demands. Through interaction and dedicated service during all stages of the process, Atlas Copco has accomplished a broad customer base around the world. Hundreds of thousands of unfailing running hours give proof of our long-term local and global service and support commitment to engineering companies and contractors as well as end customers.Keeping your production upand runningZH+ & ZH compressors are built using strict codes of Quality Control, and are designed, manufactured and tested in ISO 9001 accredited production facilities. T hey use Atlas Copco’s proven, superior turbo technology and over-sized cooling for the highest efficiency and reliability, AGMA class A4/ISO 1328 class 4 gears for low noise and vibrations, high-grade stainless steel coolers for very long lifetime, and an integrated lubrication system.The result is the highest reliability you need.Proven turbo powerYour application deserves a reliable supply of oil-free compressed air at the lowest energy cost. Atlas Copco has been building oil-free centrifugal compressors for process and plant air applications for decades.Electronics• Clean, dry, high-quality air (Class 0) is essential, producedwith optimal energy efficiency.• Applications include the removal of microscopic debris fromthe surfaces of computer chips and computer boards.T extiles• Class 0 certified air quality for the highly sensitiveproduction processes in the textile industry.• Applications include spinning, weaving, dyeing,texturizing, winding and coning.Metal manufacturing• Reliable compressors are essential for your demandingmetal manufacturing applications.• Atlas Copco provides a complete, ready-to-use solutionincluding all components and options with low service cost.Food & beverage• Your reputation is at stake so you can’t afford to compromiseon product quality.• Applications: Instrument air, cleaning air, food storage,cooling and spraying, filling and capping.Current ISO 8573-1 (2010) classes (the five main classes and the associated maximum concentration in total oil content).Class 0: the industry standardOil-free air is used in all kinds of industries where air quality is paramount for the end product and production process. T hese applications include food and beverage processing, pharmaceutical manufacturing and packaging, chemical and petrochemical processing, semiconductor and electronics manufacturing, the medical sector, automotive paint spraying,textile manufacturing and many more. In these critical environments, contamination by even the smallest quantities of oil can result in costly production downtime and product spoilage.First in oil-free air technologyOver the past sixty years Atlas Copco has pioneered thedevelopment of oil-free air technology, resulting in a range of air compressors and blowers that provide 100% pure, clean air. Through continuous research and development, Atlas Copcoachieved a new milestone, setting the standard for air purity as the first manufacturer to be awarded ISO 8573-1 CLASS 0 certification.Eliminating any riskAs the industry leader committed to meeting the needs of the most demanding customers, Atlas Copco requested the renowned TÜV institute to type-test its range of oil-free compressors andblowers. Using the most rigorous testing methodologies available, all possible oil forms were measured across a range oftemperatures and pressures. T he T ÜV found no traces of oil at all in the output air stream. T hus Atlas Copco is not only the first compressor and blower manufacturer to receive CLASS 0certification, but also exceeds ISO 8573-1 CLASS 0 specifications.ZH+11593Mounted cooling water manifold• Cooling water distribution to intercoolers, aftercooler and oil cooler.• Individual adjustment of flow through intercoolers and aftercooler.4Small footprint• Lowest footprint on the market in their range.• Saves valuable and often expensive floor space in a facility.5Sound attenuating enclosureEnsures optimal working conditions for everyone in the immediate environment6Completely packaged solution• All-in-one standard package incorporating the latest technology in a built-to-last design.• Includes internal piping, coolers, motor, lubrication, inlet guide vanes and control system.• Installation is fault-free, and commissioning is quick. • Optional features for customization to a specific production environment.1Efficient inlet silencer and filter• Inlet filter is combined with a silencer to reduce noise level and protect the compression stage.• Handy pressure drop indication on the control panel.2Integrated blow-off valve and silencer• No external air, no additional piping and no additional mounting required.• Auto-dual and Constant Pressure Control modes for cost-efficient response to variable air demands.3ZH8 4710261198710 1Energy saving inlet guide vanes• Smart and efficient capacity control.• Adjustable inlet guide vanes save up to9% energy at reduced air demand.• Reliable servo-motor based actuator for accuratealignment with the variable air demand.7Easily accessible gearbox• Horizontally-split, easing access to gearsand high/low speed bearings.• Short inspection and maintenance times.8High efficiency intercoolersand aftercoolers• Low air approach temperature and pressure drop.• For higher reliability and easier maintenance, the coolersare separated from the compressor core unit.• Stainless steel tubes and full epoxy coating insidecooler shells increase corrosion resistance.9Complete oil system with oilreservoir, breathing system andauxiliary oil pump• Fully equipped oil reservoir with temperature sensorand level sight glass.• Main shaft driven oil pump, supported by auxiliaryoil pump during start-up and coast-down.• Flexible connections to maximize leak tightness.10Motor• High-efficiency main motor.• Available in IP23 & IP55 versions.1111510Plug-and-play packaged solution• All-in-one solution: fault-free installation, easy commissioning and quick start-up.• Includes core compressor and integrated air inlet system, coolers, blow-off valve and silencer, drive motor, complete lub oil system and control system.1Efficient inlet filter and silencer• Protects the compression stages and reduces the noise level.• Pressure drop indication on the control panel to monitor best performance.2On skid blow-off valve and silencer• No additional piping or mounting, no external air required.• Auto-dual and Constant Pressure Control modes for cost-efficient variable compressed air demands.3Easy to connect cooling water manifold• One connection serves intercoolers, aftercooler, oil cooler and main motor.• Individual flow adjustment for intercoolers and aftercooler.4Small footprint• Highest ratio flow/footprint on the market.• Saves valuable space in a facility.• Easy upgrade of existing installations.598763124Sound attenuating enclosureReduces noise related stress on anyone working in the immediate environment6Intelligent InletGuide Vanes controls• Accurate servo-motor-driven positioning ensures stable behavior even under agile compressed air demands and large turndowns.• Reliable, smart and efficient capacity control saving up to 9% energy at reduced compressed air demand.7Easy preventive maintenance access• Horizontally-split gearbox, with quick access to major rotating components.• Short inspection and maintenance times.8Compact state-of-the-art coolers• Separately mounted for increased reliability and easier maintenance.• Epoxy coated air path for increased corrosion resistance.• Stainless steel tubing for straightforward cleaning.• Compact and efficient design with low approach temperature and pressure drop.9On board full oil lubrication system• Includes oil reservoir with heater, temperature monitoring and level sight glass.• Main shaft driven oil pump, supported by auxiliary oil pump during start-up and coast-down.• Breather system preventing oil fumes.• Flexible leak free connections.10Silent care-free high efficiency main motor• Air and water-cooled (IP55) variant.• Simplifies on-site installation (no need for cooling air ducts).• Low noise emission.1192Standardized solution• All-in-one solution: fault-free installation, easy commissioning, and quick start-up.• Includes internal piping, core, coolers, inlet guide vanes, complete lubrication oil system and control system.1Blow-off valve• Reliable servo-motor or pneumatic actuator.• Auto-dual and Constant Pressure Control modes for cost-efficient variable compressed air demands.Easy to connect cooling water manifold (optional)• One connection distributes water to intercoolers, aftercooler, oil cooler.• Individual adjustment of flow through intercoolers and aftercooler.3Small footprint• Lowest footprint on the market in this range.• Saves valuable space in a facility.427563Energy saving inlet guide vaneswith intelligent controls• Reliable, smart and efficient capacity control saving upto 9% energy at reduced compressed air demand.• Reliable servo-motor actuator for accurate alignmentwith the variable air demand and large turndowns.5Easily accessible gearbox• For easier removable and maintenance, the compressorcore is separated from cooler and subframe.• Horizontally-split gearbox with quick access to gears,bearings, air/oil seals.• Short inspection and maintenance times.6Compact state-of-the-art coolers• Compact and efficient design with low approachtemperature and pressure drop.• Stainless steel tubes and full epoxy coating insidecooler shells increase corrosion resistance.• For higher reliability and easier maintenance, the coolersare separated from the compressor core unit.7On-board full oil lubrication system• Includes oil reservoir with heater, temperaturemonitoring and level sight glass.• Main shaft driven oil pump, supported by auxiliaryoil pump during start-up and coast-down.• Breather system preventing oil fumes.• Flexible connection to maximize leak tightness.8Broad selection of motors• Variety of motor choices (IP55, IP23, air or water-cooled).• Highest level efficiency.9Proven turbo technologyEasily accessible gearboxIndividually designed impellers• Dedicated impeller design for each power and pressure variant.• Backward leaning impeller design for greater operating flexibility and maximized turndown ratio.Oil and air seals• Reliable long service life.• Minimized compressed air leakage to atmosphere.• No external instrument air required for "Class 0" certification.Reliable horizontally split bearings• Flexible pad bearings and combined radial bearing/thrust bearing for extended lifetime, high reliability and stability, easy inspection.Bull gear & high speed pinions• AGMA Q-13/ISO 1328-2 grade 4 quality gears for longerlifetime, minimized mechanical losses and lower noise levels. • Full interchangeability of individual components.The magic formula: turbo + screwObtain the most efficient compressor solution for your high capacity application in the market by combining the advanced turbo technology of the ZH + with the regulating capabilities of the ZR screw compressor with Variable Speed Drive (VSD). Eliminating costly blow-off in all operating conditions, this combination is ideal to achieve the highest return on investment while enjoying the benefits of the ZH + turbo and ZR screw technology.Reduced blow-offWhile turbo compressors are very efficient in turndown, a lot of energy is wasted during blow-off by expanding part of thecompressed air into the blow-off valve and silencer. By combining two turbo compressors in an erratically varying air demand, the expensive blow-off is reduced but not completely eliminated.Eliminated blow-offAtlas Copco's unique Variable Speed Drive (VSD) technology closely follows the air demand by automatically adjusting the motor speed. When combining the ZH + turbo compressor and the ZR screw compressor with VSD, the highest efficiency is achieved by completely eliminating blow-off.Find out how much you can saveAtlas Copco can help you map the load/air demand profile of your current compressor and blower installation and indicate potential energy savings with VSD compressors and blowers. For more information, please contact your local Atlas Copco representative.Operation without blow-offOperation with blow-offHours of operationHours of operationMonitoring and control:how to get the most from the leastThe Elektronikon ® unit controller is specially designed to maximize the performance of your compressors and air treatment equipment under a variety of conditions. Our solutions provide you with key benefits such as increased energy efficiency, lower energy consumption, reduced maintenance times and less stress… less stress for both you and your entire air system.• High resolution color display gives you an easy to understand readout of the equipment’s running conditions.• Clear icons and intuitive navigation provides you fast access to all of the important settings and data.• Monitoring of the equipment running conditions and maintenance status; bringing this information to your attention when needed.• Operation of the equipment to deliver specifically and reliably to your compressed air needs.• Built in remote control and notifications functionsprovided as standard, including simple to use Ethernet based communication.• Support for 31 different languages, including character based languages.Intelligence is part of the packageOnline & mobile monitoringMonitor your compressors over the Ethernet with the Elektronikon ® unit controller. Monitoring features include warning indications, compressor shut-down andmaintenance scheduling. An Atlas Copco App is available for iPhone/Android phones as well as iPad and Android tablets. It allows fingertip monitoring of your compressed air system through your own secured network.Full optimization - ES system controllerImprove product quality every minute that your facility is in operation.Atlas Copco's ES system controllers offer a convenient way to achieveoptimized performance from your low pressure equipment through a single centralized point of monitoring and control. With the ES system controller watching over your compressors and compressed air network, you will have a highly dependable and energy efficient solution working with your facility to manage operating costs.Dual pressure set-point and Delayed Second StopWithout DSSWith DSS• A remote monitoring system that helps you optimize your compressed air system and saves you energy and cost.• It offers you a complete insight in your compressed air network and anticipates on potential problems by warning you up-front.*Please contact your local sales representative for more information.SMART LINK *: Data Monitoring ProgramSaved energyMost production processes create fluctuating levels of demand which, in turn, can create energy waste in low use periods. Using the graphic Elektronikon ® unit controller, you can manually or automatically create two different system pressure bands to optimize energy use and reduce costs at low use times. In addition, the sophisticated Delayed Second Stop (DSS) runs the drive motor only when needed. As the desired system pressure is maintained while the drive motor’s run time is minimized, energy consumption is kept to a minimum.CommunicatesStoresProtectsMeasuresControlsA dryer solution for every needUntreated compressed air contains moisture and possibly dirt particles that can damage your air system and contaminate your end product. T he resulting maintenance costs far exceed air treatment costs. Atlas Copco believes in effective prevention and provides a complete range of air treatment solutions to protect investments, equipment, production processes and end products.BD-70°C/-40°C/-20°C -94°F/-40°F/-4°FFD/FD +(VSD)+3°C/+20°C +37°F/+68°FMD-20°C/+3°C -4°F/+37°FXD-S -20°C/+3°C -4°F/+37°FHeat reactivated adsorption dryerRefrigerant dryer• Use of electrical heaters for regenerating the desiccant.• Limited pressure drop.• Variants without loss of compressed air.• Use of cooling circuit for cooling down compressed air.• Guaranteed pressure dew points.• Lowest energy consumption in all operating conditions.• Air and water cooled variants.Rotary drum heat of compression dryersHeat of compression reactivated adsorption dryers• Use of freely available heat of compression.• Negligible power consumption.• Variants with extra heat augmentation for lower dew points.• Use of freely available heat of compression.• Limited pressure drop.• Variants for dew point suppression and guaranteed dew point.• Variants without loss of compressed air.ND -40°C/-20°C -40°F/-4°FXD-G -70°C/-40°C/-20°C -94°F/-40°F/-4°FEngineered solutionsAtlas Copco recognizes the need to combine our serially produced compressors and dryers with the specifications and standards applied by major companies for equipment purchases. Strategically located departments within the Atlas Copco Group take care of the design and manufacturing of customized equipment to operate at extreme temperatures, often in remote locations.Innovative technologyAs original manufacturer of the equipment, Atlas Copco understands all performance capabilities and ensures that the equipment operates within them. All equipment is covered by our manufacturer warranty. T he reliability, longevity and performance of our equipment will not be compromised.A global aftermarket operation employing 360 field service engineers in 160 countries ensures reliable maintenanceby Atlas Copco as part of a local service operation. Innovative systemsWe are fully aware that project management can be complex. We have developed an Internet based application called IC³ which is shared by all Atlas Copco sites worldwide, to give a transparent view of data and drawings and to easily contribute to the project if required.Innovative engineeringEach project is unique and by entering into partnership with our customers, we can appreciate the challenge at hand, ask the relevant questions and design the best engineered solutionfor all your needs.Optimize your systemWith the ZH + & ZH, we provide an all-in-one solution incorporating the latest technology in a built-to-last design. T o further optimize your ZH + or ZH’s performance or to simply tailor it to your specific production environment, optional features are available.Additional features & optionsStandard scope of supply• : Optional- : Not available: Standard(1) Included on ZH 1000-3150 range.(2) Optional on ZH 1000-3150 range.Weight & dimensionsT echnical specifications 50 Hz2 stage variantFree Air Delivery according to ASME PTC10 and ISO 5389.Reference conditions: - Inlet pressure 1 bar(a)- Inlet temperature 35°C (95°F) - Humidity 60%- Cooling water temperature 26.7°C (80°F)3 stage variantFree Air Delivery according to ASME PTC10 and ISO 5389. Reference conditions:- Inlet pressure 1 bar(a)- Inlet temperature 35°C (95°F)- Humidity 60%- Cooling water temperature 26.7°C (80°F)2 stage variantFree Air Delivery according to ASME PTC10 and ISO 5389. Reference conditions:- Inlet pressure 1 bar(a)- Inlet temperature 35°C (95°F)- Humidity 60%- Cooling water temperature 26.7°C (80°F)3 stage variantFree Air Delivery according to ASME PTC10 and ISO 5389. Reference conditions:- Inlet pressure 1 bar(a)- Inlet temperature 35°C (95°F)- Humidity 60%- Cooling water temperature 26.7°C (80°F)COMMITTED TO SUSTAINABLE PRODUCTIVITY2935 0634 13 © 2017, A t l a s C o p c o , B e l g i u m . A l l r i g h t s r e s e r v e d . D e s i g n s a n d s p e c i fi c a t We stand by our responsibilities towards our customers, towards the environment and the people around us. We make performance stand the test of time. T his is what we call – Sustainable Productivity.。

轴承类型代号：
0 双列角接触球轴承
1 调心球轴承
2 调心滚子轴承和推力调心滚子轴承
3 圆锥滚子轴承
4 双列深沟球轴承
5 推力球轴承
6 深沟球轴承
7 角接触球轴承
8 推力圆柱滚子轴承
N 圆柱滚子轴承（双列或多列用字母NN表示）
U 外球面球轴承
QJ 四点接触球轴承
尺寸系列代号：
尺寸系列代号由轴承的宽（高）度系列代号和直径系列代号组合而成。

通用轴承类型、尺寸系列代号、轴承代号表示方法
向心轴承、推力轴承尺寸系列表示方法
通用轴承类型代号表示法
注：代号前、后加字母或数字表示该类轴承结构不同。

滚动轴承代号采用国际通用字母! 数字混合编制。

通常由基本代号、前置代号、后置代号三部分组成。

基本代号表示轴承的基本类型、结构和尺寸；前后置代号是轴承在结构形状、尺寸、公差、技术要求有所改变时，在基本代号左右添加的补充代号。

轴承代号表示法见下表:
滚动轴承代号表示法
通用轴承内径代号表示法
轴承前置代号说明
一、内部结构代号说明
内部结构代号说明如下表所示。

内部结构代号说明
二、密封防尘及内外形状变化代号说明
密封防尘及内外形状变化代号说明见下表。

密封防尘及内外形状变化代号说明
有后置代号保持架说明见下表
有后置代号保持架说明
四、不编后置代号保持架说明
不编后置代号保持架说明见下表
不编后置代号保持架说明。

支持服务产品系列适用范围无论您的业务目标是什么，罗克韦尔自动化支持服务均能帮助您挖掘运营潜能。

借助每一份支持协议带来的高价值工具以及我们训练有素的专家团队，您能够减少维护时间及成本，并提高整体设备效率。

了解更多信息生命周期服务咨询我们的工程师在罗克韦尔自动化软件门户网站购买的软件包括一份独立的支持合同，其终止日期与 TechConnect 协议的签署周年日期保持一致。

在罗克韦尔自动化商业网站上续订所购软件时，将提供单独的协议。

标准产品产品系列 (例如自动化控制系统) 中列出的全部产品均可得到支持。

自动化控制系统可编程控制器 — Compact GuardLogix®、CompactLogix™、ControlLogix® (1756 系列), GuardLogix®, SmartGuard™ 600 SoftLogix™ 5800操作员界面— DTAM™ 2707、工业计算机、InView™、PanelView 5500、PanelView Plus、MobileView™ (仅包括 2711T)分布式 I/O — Block I/O™、Expansion I/O、Flex™ I/O、POINT I/O™ 以及远程 I/O网络 — ControlNet、DeviceNet、DH+™、DH-485、EtherNet/IP、9300 (电缆和 9300-ENA)、1784 板卡 (不包括 ISA 或 PCMCIA 板卡)网络安全与基础设施 — Stratix® 交换机传感器与开关 — 无线射频识别 (RFID)相关软件 — FactoryTalk Echo、FactoryTalk® View ME、RSLinx® Lite、RSNetWorx™、RSLogix™ 5000、Studio 5000® 状态监测 — 集成式机器状态监测模块 (包括 1444)、ESAFE 状态监测软件、便携式数据采集器、保护模块 (包括 XM 模块) 以及状态监测传感器电力监测仪 — PowerMonitor™ 500、PowerMonitor 1000 以及 PowerMonitor 5000电能 —RSPower™低压变频器和启动器ArmorConnect® 电源介质 (280-PWRM)、ArmorStart® 控制器 (280、281、284、290、291、294)、PowerFlex® 4M、4、40、40P、400、523、525、527、753、755、755TL/ TR/TM 以及 755 On-Machine、755TS、753TS 变频器、20S SCR 母线电源、电源调节产品 1321、变频器通信卡 (20 comm、20-750-comm) DriveExecutive™、DriveExplorer™、Connected Components Workbench™ 软件、MegaDySC® 1608M、MiniDySC ® 1608N 和ProDySC® 1608P Armor PowerFlex 35S、35P、PFDC 20P 中压变频器和启动器857、865、1500-1599、1900-1999、7000A-RPDTD、7000L-RPDTD 7000L-R18TX、7000A-RPTX、7000L-RPTX、7000A-RPTXI、7000-RPTX、7000-R18TX、7000-RPTXI、7760、7761、7762、7703电机控制中心 (MCC) IntelliCENTER®、CENTERLINE® 2100 和 CENTERLINE® 2500独立推车技术 (ICT) MagneMotion® iTRAK® 5730/5750、MagneMover®、QuickStick® 100、QuickStick® HT™工业运动控制基于机架的运动控制产品 —ControlLogix 运动控制模块 (1756-M02AE、M08SE、M16SE、M03SE、M02AE、M02AS、HYD02 和 1758M04SE)伺服驱动器和电机 — Kinetix® 驱动器 (3、300、350、2000、5100、5300、5500、5700、5800、6000、6200、6500 和 7000)、Ultra™ 3000 (2098DSD) 和 Kinetix VP、TLP、MP-Series™ 电机 (旋转电机和直线电机系列)编程软件 — MotionView、RSLogix Motion Commands、UltraWARE组件级产品北美以外地区：• 一个工作日内免费回电支持，24x7 全天候响应• 电话或实时聊天支持：上午 8:00 至下午 5:00，可升级至 24x7 全天候响应北美地区：• 上午 8：00 至下午 5：00 免费支持• 24x7 全天候服务 (需签署支持协议)计算机与操作员界面 — PanelView Component 和 PanelView 800工控产品1可编程控制器 — Micro800® 控制系统安全、传感器、连接系统商业产品软件 — Connected Component Workbench 软件过程安全需要签署过程安全支持合同。

Intel® Core™ i7 Processor 2.93SLBCJ 3.20GHz I7-9654 6.4 GT/sIntel® Core™2 Duo Desktop Processor3.3313333.201600SL9ULIntel® Core™2 Quad Processor13333.731066SL94NIntel® Pentium® 4 Processors 3.80SL8UPIntel® Core™2 Duo Mobile Processor 2.931066SLA2VIntel® Core™2 Quad Mobile Processor1066Intel® Core™2 Extreme Mobile Processor3.061066SLB5JIntel® Core™ Duo Processor 2.331.401.83SL8W7Mobile Intel® Celeron® Processors 2.201.86SLB2HIntel® Xeon® ProcessorTop of Form3.7310661.86SLAEQ Intel® Itanium® Processors 1.6045 nm C08 MB LGA13668 45 nm C08 MB LGA1366845 nm C08 MB LGA1366845 nm E0 6 MB LGA7756 45 nm C0 6 MB LGA7756 45 nm E0 6 MB LGA7756 65 nm G0 4 MB LGA7756 45 nm C0 6 MB LGA7756 45 nm E0 6 MB LGA7756 45 nm C0 6 MB LGA7756 65 nm B2 4 MB LGA7756 65 nm B2 4 MB LGA7756 65 nm G0 4 MB LGA7756 45 nm C0 6 MB LGA7756 65 nm B2 4 MB LGA7756 65 nm B2 4 MB LGA7756 65 nm G0 4 MB LGA7756 65 nm G0 4 MB LGA7756 65 nm L2 2 MB LGA7756 65 nm B2 2 MB LGA7756 65 nm B2 4 MB LGA7756 65 nm M0 2 MB LGA7756 65 nm L2 2 MB LGA7756 65 nm B2 4 MB LGA7756 65 nm B2 2 MB LGA775645 nm C112 MB LGA77505B 45 nm C012 MB LGA771N/A 65 nm G08 MB LGA77505B 45 nm C012 MB LGA77505B 45 nm C112 MB LGA77505B 65 nm B38 MB LGA775N/A 65 nm B2 4 MB LGA77505B 65 nm G08 MB LGA77505B 65 nm B38 MB LGA77505B 45 nm E012 MB LGA77505A 45 nm E012 MB LGA77505A 45 nm C112 MB LGA77505A 45 nm E012 MB LGA7756 65 nm G08 MB LGA77505A 45 nm C112 MB LGA77505A 45 nm R0 6 MB LGA7756 45 nm R0 6 MB LGA77505A 45 nm M1 6 MB LGA77505A 65 nm B38 MB LGA77505B65 nm D0 4 MB (2x2)LGA77505A 65 nm C1 4 MB (2x2)LGA77505B 65 nm C1 4 MB (2x2)LGA77505A 65 nm B1 4 MB (2x2)LGA77505B 65 nm D0 4 MB LGA77505A 65 nm B1 4 MB (2x2)LGA77505B 65 nm C1 4 MB (2x2)LGA77505A 65 nm B1 4 MB (2x2)LGA77505A 65 nm C1 4 MB (2x2)LGA77505A 65 nm B1 4 MB LGA77505A 65 nm B1 4 MB (2x2)LGA77505A 65 nm B1 4 MB LGA77505A65 nm C1 4 MB LGA77505B 65 nm B1 4 MB LGA77505B 65 nm B1 4 MB (2x2)LGA77505B90 nm R0 2 MB LGA77504B 90 nm R0 2 MB LGA77504B 90 nm R0 2 MB LGA77504A 45 nm E0 6 MB Micro-FCPGA N/A 45 nm E0 6 MB Micro-FCPGA N/A 45 nm E0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 65 nm G0 4 MB Micro-FCPGA N/A 65 nm G0 4 MB Micro-FCBGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm E0 6 MB Micro-FCBGA N/A 45 nm R0 3 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 65 nm E1 4 MB Micro-FCPGA N/A 65 nm G0 4 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 65 nm E1 4 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm C0 3 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 65 nm G0 4 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCBGA N/A65 nm B2 4 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 65 nm E1 4 MB Micro-FCBGA N/A 65 nm G0 4 MB Micro-FCPGA N/A 65 nm E1 4 MB Micro-FCPGA N/A 65 nm G0 4 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCPGA N/A 45 nm E0 6 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm C0 3 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 65 nm M0 2 MB Micro-FCBGA N/A 65 nm E1 4 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCPGA N/A 65 nm E1 4 MB Micro-FCPGA N/A 65 nm M0 2 MB Micro-FCPGA N/A 45 nm M0 3 MB Micro-FCPGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 65 nm B2 2 MB Micro-FCBGA N/A 65 nm L2 2 MB Micro-FCBGA N/A 65 nm B2 2 MB Micro-FCPGA N/A 65 nm L2 2 MB Micro-FCPGA N/A 65 nm M0 2 MB Micro-FCBGA N/A 65 nm M0 2 MB Micro-FCPGA N/A 65 nm L2 2 MB Micro-FCBGA N/A 45 nm R0 3 MB Micro-FCBGA N/A 45 nm C0 6 MB Micro-FCBGA N/A 65 nm L2 4 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCBGA N/A 65 nm G0 4 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 65 nm E1 4 MB Micro-FCBGA N/A 65 nm M0 2 MB Micro-FCBGA N/A 65 nm B2 4 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 65 nm M0 2 MB Micro-FCBGA N/A 65 nm L2 2 MB Micro-FCBGA N/A 65 nm L2 2 MB Micro-FCBGA N/A45 nm C0 6 MB Micro-FCPGA N/A 45 nm M0 6 MB Micro-FCPGA N/A 65 nm G0 4 MB Micro-FCPGA N/A 65 nm E1 4 MB Micro-FCPGA N/A 45 nm M0 6 MB Micro-FCPGA N/A 65 nm E1 4 MB Micro-FCPGA N/A 45 nm E012 MB Micro-FCPGA N/A65 nm D0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm D0 2 MB Micro-FCBGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A45 nm R0 3 MB Micro-FCBGA N/A 65 nm A1 1 MB Micro-FCBGA N/A 45 nm M0 3 MB Micro-FCBGA N/A 65 nm A1 1 MB Micro-FCBGA N/A65 nm C0 2 MB Micro-FCBGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCPGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCPGA N/A 65 nm D0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A 65 nm C0 2 MB Micro-FCBGA N/A45 nm C0512 KB Micro-FCBGA N/A 45 nm C0512 KB Micro-FCBGA N/A 45 nm C0512 KB Micro-FCBGA N/A 65 nm C1 4 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 65 nm C1 4 MB LGA771N/A 45 nm E012 MB771 pin N/A 65 nm B016 MB Micro-FCPGA N/A 45 nm E0 6 MB LGA771N/A 45 nm C0 6 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 65 nm B016 MB Micro-FCPGA N/A 45 nm E012 MB771 pin N/A 45 nm C0 6 MB LGA771N/A 45 nm C012 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm D08 MB LGA1366N/A 65 nm C1 4 MB LGA771N/A 65 nm B08 MB Micro-FCPGA N/A 65 nm C1 4 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm E0 6 MB LGA775N/A 65 nm B08 MB Micro-FCPGA N/A 45 nm C012 MB LGA771N/A 65 nm G0 4 MB FC-LGA6N/A 65 nm G08 MB LGA771N/A 45 nm C012 MB LGA771N/A 65 nm B0 4 MB Micro-FCPGA N/A 45 nm C012 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm E0 6 MB LGA775N/A 65 nm C1 4 MB LGA771N/A 90 nm A0 4 MB Micro-FCPGA N/A 65 nm B2 4 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 45 nm E012 MB LGA775N/A 45 nm C012 MB LGA771N/A 45 nm C012 MB LGA771N/A 45 nm E0 6 MB LGA775N/A 90 nm A0 4 MB Micro-FCPGA N/A 65 nm B0 4 MB Micro-FCPGA N/A 65 nm B2 4 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm E012 MB771 pin N/A 45 nm C0 6 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm C0 6 MB LGA771N/A45 nm C0 6 MB LGA775N/A 65 nm G08 MB Micro-FCPGA N/A 65 nm G08 MB Micro-FCPGA N/A 45 nm D08 MB LGA1366N/A 45 nm C112 MB LGA775N/A 45 nm E012 MB LGA775N/A 45 nm C012 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm E012 MB LGA775N/A 65 nm C1 4 MB LGA771N/A 45 nm D08 MB LGA1366N/A 45 nm E012 MB771 pin N/A 45 nm C012 MB LGA771N/A 90 nm A0 2 MB Micro-FCPGA N/A 65 nm B38 MB LGA771N/A 90 nm A0 2 MB Micro-FCPGA N/A 65 nm B2 4 MB LGA775N/A 65 nm B2 4 MB LGA771N/A 45 nm C0 6 MB LGA771N/A 65 nm G08 MB LGA771N/A 65 nm C1 4 MB LGA771N/A 65 nm G0 4 MB FC-LGA6N/A 65 nm G08 MB LGA775N/A 65 nm B2 4 MB LGA775N/A 65 nm G0 4 MB LGA771N/A 65 nm B2 4 MB LGA775N/A 65 nm B38 MB LGA771N/A 65 nm B2 4 MB LGA771N/A 45 nm E012 MB LGA775N/A 45 nm R0 6 MB LGA775N/A 45 nm D08 MB LGA1366N/A 45 nm C112 MB LGA775N/A 45 nm E012 MB771 pin N/A 45 nm E012 MB771 pin N/A 45 nm E0 6 MB LGA771N/A 45 nm A116 MB FC-PGA6N/A 45 nm C012 MB LGA771N/A 65 nm B0 4 MB Micro-FCPGA N/A 45 nm D08 MB LGA1366N/A 65 nm C1 4 MB LGA771N/A 45 nm E012 MB771 pin N/A 45 nm R0 6 MB LGA775N/A 45 nm C012 MB LGA771N/A 45 nm M1 6 MB LGA775N/A 45 nm C012 MB LGA771N/A 65 nm B0 4 MB Micro-FCPGA N/A 45 nm E012 MB771 pin N/A 65 nm G08 MB Micro-FCPGA N/A 65 nm B2 4 MB LGA775N/A 65 nm G0 6 MB Micro-FCPGA N/A65 nm G08 MB Micro-FCPGA N/A 45 nm A112 MB FC-PGA6N/A 45 nm D08 MB LGA1366N/A 45 nm A116 MB FC-PGA6N/A 65 nm B2 4 MB LGA775N/A 65 nm B2 4 MB LGA775N/A 65 nm B38 MB LGA775N/A 65 nm B2 4 MB LGA771N/A 65 nm G0 4 MB FC-LGA6N/A 65 nm B2 4 MB LGA771N/A 45 nm E012 MB771 pin N/A 65 nm G0 4 MB LGA771N/A 65 nm B2 4 MB LGA771N/A 45 nm E012 MB771 pin N/A 65 nm B38 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 65 nm B38 MB LGA771N/A 65 nm G0 4 MB LGA771N/A 45 nm C012 MB LGA771N/A 45 nm C0 6 MB LGA775N/A 65 nm G08 MB LGA771N/A 45 nm C012 MB LGA771N/A 45 nm D08 MB LGA1366N/A 45 nm D08 MB LGA1366N/A 65 nm L2 2 MB LGA775N/A 65 nm B38 MB LGA775N/A 65 nm B2 4 MB LGA771N/A 65 nm G0 4 MB LGA771N/A 65 nm B2 2 MB LGA775N/A 45 nm C012 MB LGA771N/A 45 nm A112 MB FC-PGA6N/A 45 nm A112 MB FC-PGA6N/A 45 nm A112 MB FC-PGA6N/A 45 nm D0 4 MB LGA1366N/A 45 nm D08 MB LGA1366N/A 45 nm A18 MB FC-PGA6N/A 65 nm G0 4 MB Micro-FCPGA N/A 65 nm L2 2 MB LGA775N/A 65 nm G08 MB LGA775N/A 45 nm E012 MB771 pin N/A 65 nm B38 MB LGA771N/A 65 nm G08 MB LGA771N/A 65 nm G0 4 MB LGA771N/A 45 nm D0 4 MB LGA1366N/A 65 nm B2 4 MB LGA771N/A 65 nm G08 MB LGA771N/A 65 nm B38 MB LGA771N/A 45 nm C012 MB LGA771N/A 65 nm B2 4 MB LGA771N/A 65 nm G0 4 MB LGA771N/A45 nm D0 4 MB LGA1366N/A 45 nm C0 6 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 65 nm L2 2 MB LGA775N/A 65 nm B38 MB LGA771N/A 65 nm B2 4 MB LGA771N/A 45 nm E0 6 MB LGA771N/A 65 nm B38 MB LGA771N/A 65 nm L2 2 MB LGA775N/A 65 nm B2 4 MB LGA771N/A 65 nm B38 MB LGA771N/A 65 nm B2 2 MB LGA775N/A 65 nm B2 4 MB LGA771N/A 65 nm G08 MB Micro-FCPGA N/A 65 nm G08 MB LGA771N/A 65 nm G08 MB LGA771N/A 65 nm G0 4 MB LGA771N/A 65 nm B2 4 MB LGA771N/A 65 nm B38 MB LGA771N/A 65 nm G08 MB LGA771N/A 65 nm G0 4 MB Micro-FCPGA N/A 65 nm B38 MB LGA771N/A 65 nm B38 MB LGA771N/A 65 nm B38 MB LGA771N/A 65 nm B2 4 MB LGA771N/A 65 nm G0 4 MB LGA771N/A 65 nm G08 MB LGA771N/A 90 nm C18 MB FC-PGA4N/A 90 nm C1 6 MB FC-PGA4N/A 90 nm C224 MB FC-PGA4N/A 90 nm C124 MB FC-PGA4N/A 90 nm C124 MB FC-PGA4N/A 90 nm C118 MB FC-PGA4N/A 90 nm C2 6 MB FC-PGA4N/A 90 nm C224 MB FC-PGA4N/A 90 nm C218 MB FC-PGA4N/A 90 nm C28 MB FC-PGA4N/A 90 nm C112 MB FC-PGA4N/A 65 nm C212 MB FC-PGA4N/A 90 nm C212 MB FC-PGA4N/A 90 nm C112 MB FC-PGA4N/A。

KS7300系列（UA49KS7300JXXZ、UA55KS7300JXXZ）电视智能遥控器（Samsung Smart Remote）介绍Last Update date : 2016.05.31三星电视KS7300系列（UA49KS7300JXXZ、UA55KS7300JXXZ型号，以下简称KS7300系列）智能遥控器（Samsung Smart Remote）样式，如下图：三星电视KS7300系列智能遥控器（Samsung Smart Remote）各按键名称，如下图：注：三星电视KS7300系列智能遥控器（Samsung Smart Remote）已没有单独的静音键。

1.下图中注明的按键为【电源】键，用于打开或关闭电视。

2.下图中注明的按键为【语音识别】键，用于运行语音交互。

按下该按键，说出语音命令，然后松开该按钮以运行语音交互。

再次按下此按键，即可显示语音交互指南。

3.下图中注明的【123】按键为数字键盘。

按下该按键，屏幕底部将显示一个数字条。

选择数字，然后选择完成以输入数值。

用于更改频道、输入PIN、输入邮政编码等。

4.下图中注明的按键为【彩色按钮】键。

使用彩色按钮可以访问正在使用的功能所特有的其他选项。

5.下图中注明的按键区域为【方向板】（上/下/左/右）。

移动焦点，并更改电视菜单上所显示的值。

6.下图中注明的按键为【选择】键。

选择或运行聚集的项目。

在观看内容时按下该按键可显示详细的节目信息。

7.下图中注明的按键为【返回】键。

按此按键可返回上一级菜单。

按住1秒以上可停止当前运行的功能。

8.下图中注明的按键为【播放/暂停】键。

按下该按键将显示播放控制指南，可以控制正在播放的多媒体的内容。

9.下图中注明的按键为【smart hub】键。

按此按键可以返回第一个屏幕。

10.下图中注明的按键为【音量】键。

向上/向下移动按键可以调节音量。

按下该按键可让伴音静音。

按住1秒以上可显示铺助功能快捷方式菜单。

（此文档为Word格式，下载后可以任意编辑修改!）（文件备案编号：）挖泥船吹填施工作业指导书工程名称：编制单位：编制人：_________________审核人：_________________批准人：_________________编制日期：年月日挖泥船吹填施工作业指导书一、适用范围本作业指导书适合于公司河北曹妃甸港区吹填工程项目。

二、编制依据《海洋环境保护法》《港口工程质量检验评定标准》JTJ221-98《水运工程测量规范》JTJ203-2001《疏浚与吹填工程质量检验标准》JTJ324-2006《浙江省水电建设公司三个体系相关文件》B/0版三、职责分工1、项目经理部项目总工（技术负责人）或项目副经理负责监督挖泥吹填施工作业的质量、环保、职业健康、安全工作和工程进度。

2、挖泥船队长负责挖泥吹填施工作业的质量、环保、职业健康、安全工作和工程进度。

3、项目经理部各部室负责施工质量、安全、环保、职业健康的监视和检测工作。

4、挖泥船：负责挖泥吹填施工。

四、主要船机设备1、挖泥船：根据施工区域的地质、水文、吹距等情况及业主、设计、施工进度要求配置。

其中施工进度可主要从以下方面进行考虑：1.1、影响挖泥船台班产量的主要因素（1）工况影响挖泥船施工中由于风浪、潮汐、水流速度、避让船舶，及芦苇、树根、水下障碍物等客观原因影响挖泥船的正常施工，以工况系数表示其影响台班产量的程度，见表4-7-37。

表4-1 挖泥船工况影响系数（2）土质影响各式挖泥船的土质影响系数见表4-7-38，表中的土质分级参见表4-7-1疏浚工程土质分级表。

表4-2 土质影响系数绞吸式挖泥船挖啥时，砂的密度影响系数见表4-7-39；砂的紧度划分见表4-7-40。

表4-3 绞吸式挖泥船砂土质影响系数表4-4砂的紧密度绞吸式挖泥船施工，不同排泥距离对挖泥船台班产量的影响可用表4-7-41中排距影响系数相除。

表4-5 绞吸式挖泥船排距影响系数4-7-42中排高影响系数相除。

4H358D0120006 遞減轉矩負載泛用變頻器7300PA使用說明書220V級㆔相 25~125HP440V級㆔相 25~500HP本使用說明書，煩請您確實交給本變頻器之最後使用者，以使發揮最大功能。

謝謝！■ 注意及警告事項:■ 安全注意事項:在安裝、運轉、保養、點檢前，請詳閱本說明書。

另外，唯有具備專業資格的㆟員才可進行裝配線工作。

說明書㆗安全注意事項區分為「警告」與「注意」兩項。

：表示可能的危險情況，如忽略會造成㆟員死亡或重大損傷。

：表示可能的危險情況，如未排除會造成㆟員較小的或輕微的損傷及機器設備的損壞。

所以應詳閱本說明書再使用此變頻器。

註：請將此說明書交給最終之使用者，以使變頻器發揮最大效用。

■ ㆒般注意事項:本變頻器在出廠前均做過完整之功能測試，拆封後請依序檢查㆘列事項：1. 變頻器之機種型號是否為您所訂購之機型。

2. 運送㆗造成損傷時，請勿接線送電。

3. 每台變頻器皆有檢驗QC 章，如未有此章，請勿接線送電。

首先，感謝您採用省能源、PID功能標準內藏型之遞減轉矩負載專用多機能全數位化汎用變頻器Speecon 7300PA系列（以㆘簡稱7300PA）。

7300PA由數位操作器之設定，可提供多樣化的機能，使產品更能符合客戶各種不同的應用需求。

本說明書共分兩部分。

第㆒部分為7300PA，本體的安裝、配線、試運轉、維修、檢驗、異常處理對策及規格。

第㆓部分為數位操作器的機能、參數說明及操作方法。

在使用7300PA前，請先閱讀本說明書：為了方便作日常的檢查、維護及了解異常發生原因之處理對策，請妥善保管本說明書。

目錄1. 7300PA使用說明 (4)1.1收貨後檢查項目 (4)1.2 安裝 (5)1.3 變頻器周邊設備配線及注意事項 (6)1.3.1 7300PA周邊設備標準接線例 (7)1.3.2 相互配線 (8)1.4 端子機能說明 (9)1.4.1 主回路端子 (9)1.4.2 控制回路端子 (9)1.4.3 主回路內部配線圖 (10)1.5 主回路配線用器具及配線注意事項 (11)1.5.1 主回路配線用器具 (11)1.5.2 配線注意事項 (13)1.6 試運轉 (14)1.6.1 電源投入前檢查 (14)1.6.2 電源電壓選擇基板之設定 (15)1.7 變頻器規格 (16)1.8 外型尺寸 (17)1.9 周邊界面設備 (20)1.9.1 交流電抗器 (20)1.9.2 雜訊濾波器 (21)1.9.3 煞車電阻及煞車檢出模組 (23)1.9.4 其它 (24)2. 變頻器操作說明 (27)2.1 數位操作器之顯示及操作 (27)2.2 DRIVE模式和PRGM模式㆘之顯示內容 (29)2.3 參數群說明 (30)2.4 數位操作器操作例 (31)3. 變頻器參數設定及說明 (33)3.1 頻率指令參數An-□□ (33)3.2 運轉㆗可變更之參數Bn-□□ (34)3.3 控制參數Cn-□□ (42)3.4 系統參數Sn-□□ (58)3.5 監控參數Un-□□ (95)3.6 監控參數Hn-□□ (97)3.7 專用參數On-□□ (99)4. 故障顯示及排除 (101)4.1 概述 (101)4.2 異常原因及處理對策 (101)5. 附錄 (106)A. 省能源運轉模式之設定 (106)B. PID控制之設定 (109)C. RS-485通訊界面配線例 (114)D. SINK/SOURCE端子界面接線例 (116)E. RS-232串列通訊界面接線例 (118)1. 7300PA使用說明1.1收貨後檢查項目每部7300PA變頻器，在出廠前均經過功能測試及調整，客戶在變頻器拆箱後，請執行㆘列檢查。

i57300HQ和i58300H区别是什么i57300HQ和i58300H对⽐
介绍
i5 7300HQ和i5 8300H哪个好?肯定是i5 8300H，英特尔在⼋代酷睿上可不像以往的例⾏升级，这次挤了⼀个⼤“⽛膏”，I5 8300H的规格是4核8线程，默认主频为2.3Ghz，睿频加速达4Ghz，三级缓存8mb;⽽I5 7300HQ作为上⼀代的标压处理器，只有4核4线程的规格，2.5—3.5Ghz的频率，三级缓存6mb，两颗CPU仅参数上的差距就⾮常明显。

尽管7代酷睿和8代酷睿架构和⼯艺上没有明显差别，但是8代酷睿带来的核⼼和频率上的增强是实打实的，其实I5 8300H的综合性能已经超越了I7 7700HQ，性能更是领先7300HQ多达40%左右，这在英特尔以往的笔记本CPU更新换代时是很少出现过的。

难能可贵的是，性能跨越式增长的8300H的价格并没有⽐7300HQ⾼多少，相关笔记本产品已经在2018年春季发布，这些笔记本电脑的价格和之前的7300HQ电脑基本⼀致，整体仍然在⼀个5000-7000左右的价位区间。

所以不管是性能还是价格，I5 8300H都是更值得购买的CPU，从⽇常的应⽤来说，两个CPU可能看不出明显差距，但是在追求多核性能的3D渲染、视频编辑和⼤型游戏中，8300H会展现出⾮常明显的优势。

如果说8300H有什么缺点，那就是相⽐7300HQ的功耗要⼤⼀点，发热也会⼤⼀些，尽量购买散热更好的笔记本产品。

以上就是i5 7300HQ和i5 8300H区别是什么 i5 7300HQ和i5 8300H对⽐介绍的详细内容，更多关于i5 7300HQ和i5 8300H不同点的资料请关注其它相关⽂章！。

TERRAGATORTG7300C / TG8300C TERRAGATOR CHASSIS (2019)Parts and Service GuideENGINE TG7300C TG8300CMake AGCO Power AGCO PowerType AP84-4 AP84-4Number of Cylinders 6 6Displacement 8.4 L (513 CID) 8.4 L (513 CID)Horsepower 332 HP (247 kW) @ 2,100 rpm 365 HP (272 kW) @ 2,100 rpmPeak Horsepower 363 HP (270 kW) @ 1,900 rpm 393 HP (293 kW) @ 1,900 rpmTorque 1,180 ft-lbs (1,600 N-m) @ 1,500 rpm 1,180 ft-lbs (1,600 N-m) @ 1,500 rpm TRANSMISSIONType AGCO ML-260 Continuously Variable Transmission AGCO ML-260 Continuously Variable Transmission Forward Speed (high/low) 41 mph / 23 mph (67 kmh / 37 kmh) 41 mph / 23 mph (67 kmh / 37 kmh)DRY SYSTEMAirMax Precision** Single bin, 355 cu.ft. (10.1 m3) Single bin, 355 cu.ft. (10.1 m3)AirMax Precision 2** Adjustable, split bin, 345 cu.ft. (9.8 m3) Soilection Twin Bin*** Two bins, 320 cu.ft. (9.1 m3)New Leader NL4500 Single bin, MultApplier insert, MultiBin, Single bin, MultApplier insert, MultiBin,up to 331 cu.ft. (9.3 m3) up to 331 cu.ft. (9.3 m3)New Leader NL5000 Single bin, MultApplier insert, MultiBin, Single bin, MultApplier insert, MultiBin,up to 331 cu.ft. (9.3 m3) up to 331 cu.ft. (9.3 m3)LIQUID SYSTEM TG7300C/TG8300CCapacity 1,800 gal. (6,814 L)Pump 260 GPM (984 LPM)Booms 60/80 ft. (18/24 m) fold-over boom 80 ft. (24 m)Breakaway, Full Boom Hydraulic, resettableBreakaway, Boom Tip Mechanical, spring returnHeight / Tilt Adjustment HydraulicNozzle Spacing 30 in. (0.76 m) or 60 in. (1.52 m)Total Spray Width 82.5 ft. (25.1 m) on 30 in. centers; 85 ft. (25.9 m) on 60 in. centersAIR SYSTEMCompressor Engine-mountedGovernor 120 psi (8.2 bar)CFM 14.1 cfm (6.7 L/s)Reservoir DualAXLESFront 3.75-in.-diameter (9.5 cm) freewheeling, cold-rolled solid steelRear Wide track 42,000-lb. rating with flotation tiresTIRESStandard Goodyear® Radial 1000/50R25Optional Michelin® Radial 1000/50R25SUSPENSIONType Rigid rear axle to frame mountSTEERING TG7300C/TG8300CType Dynamic load senseWEIGHTSRated Capacity Front 14,000 lbs. (6,350 kg)Rated Capacity Rear 42,000 lbs. (19,050 kg)APPLICATION CABGlass Area / Floor Area 58 sq.ft. (5.4 m2) / 14 sq.ft. (1.39 m2)Cab Suspension Air-ride cabRadio AM/FM / stereo, USB MP3-compatible, Weather band, Bluetooth® with mic., Opt. SiriusXM®HVAC / Filtration Automatic temperature control / 3-level activated carbonStandard Seat Cloth with air-ride suspensionOptional Seat Leather heated-vented with air-ride suspensionFLUID CAPACITIESFuel 165 gal. (625 L)DEF (Diesel Exhaust Fluid) 15 gal. (56.8 L)Engine Coolant 8 gal. (30.3 L)Engine Oil 6 gal. (22.7 L)Transmission Oil 14 gal. (53 L)Hydraulic Reservoir 12 gal. (46 L)CONTROLLERSControllers Available Raven Viper 4+* S pecifications are manufacturer’s estimates at time of publication and are subject to change without prior notification. Actual weight will vary depending on optional equipment. ** Single 40 cu.ft. (1.13 m³) granular bin available*** Dual 25 cu.ft. (0.7 m³) granular bins availableParts ListTO ORDER:Call or visit your nearest Ziegler location. Visit /contactfor a directory.Machine Diagram1713410281451139612Service Guide。