上海杉杉FSN-1技术规格书(JJNY)

低压差线性稳压器AAAAAA电源管理单元白光LED驱动DC/DC恒流模式AAAAAA电压检测AAAAAAXT2051 4.25-6.5 1000 40 Linear Y ESOP-8 详情LN2054 4.25-6.5 500 25 Linear Y SOT-23-5,SOT-89-5 详情LN2053 4.25-6.5 1000 25 Linear Y ESOP-8 详情模拟开关产品名称通道工作电压(V) -3dB带宽(MHz) 导通内阻(mΩ)最大电流(mA) 封装形式操作XT9701 1 2.2-6.0 ---- 150 1100 SOT-23-5L 详情LN9703 1 2.0-5.5 ----- 70 3500 SOT-23-5,SOP-8 详情LN9701 1 2.2-6.0 ----- 100 1100 SOT-23-5 详情LN3699 4 1.8-4.2 70 500 200 QFNWB3*3-16 详情LN3005 2 1.8-5.5 30 500 300 MSOP-10 详情霍尔开关产品名称工作电压(V)平均电流(uA)极性及输出方式磁场特性封装形式操作LN4915 1.65-6.0 3 无极性触发，NMOS开漏输出Bops=1.5mT，Bopn=1.5mT，Brps=1.1mT，Brpn=1.1mT，Bhys=0.4mTSOT-23-3,TSOT-23-3,TO-92,TO-92S详情LN4913 1.65-6.0 3 无极性触发，NMOS开漏输出Bops=3.5mT，Bopn=3.5mT，Brps=2.7mT，Brpn=2.6mT，Bhys=0.8mTSOT-23-3,TSOT-23-3,TO-92S详情LN4912 2.4-5.5 4 无极性触发,CMOS输出Bops=3.0mT，Bopn=3.0mT，Brps=2.0mT，Brpn=2.0mT，Bhys=1.0mTSOT-553,SOT-23-3L详情南麟正规授权代理证书沁园春·雪AAAAAA北国风光，千里冰封，万里雪飘。

安徽富信半导体科技有限公司ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.ES1A-ES1MSMA Super Fast Recovery Diode超快恢复二极管■Features 特点Built-in Strain Relief 内应力释放Fast Switching Speed 快的开关速度Super Fast Recovery time 超快恢复时间Surface Mount Device 表面贴装器件Case 封装:SMA■Maximum Rating 最大额定值(T A =25℃unless otherwise noted 如无特殊说明，温度为25℃)Characteristic 特性参数Symbol 符号ES 1A ES 1B ES 1C ES 1D ES 1E ES 1G ES 1J ES 1M Unit 单位Repetitive Peak Reverse Voltage 重复峰值反向电压V RRM 501001502003004006001000V DC Reverse Voltage 直流反向电压V R 501001502003004006001000V RMS Reverse Voltage 反向电压均方根值V R(RMS)3570105140210280420700V Forward Rectified Current 正向整流电流I F 1A Peak Surge Current 峰值浪涌电流I FSM 30AThermal Resistance J-A 结到环境热阻R θJA 80℃/WJunction/Storage Temperature 结温/储藏温度T J,T stg-50to+150℃℃■Electrical Characteristics 电特性(T A =25℃unless otherwise noted 如无特殊说明，温度为25℃)Characteristic 特性参数Symbol 符号ES1A-ES1DES1E-ES1GES1J-ES1MUnit 单位Condition 条件Forward Voltage 正向电压V F 0.951.25 1.7V I F =1A Reverse Current 反向电流I R 5(T A =25℃)500(T A =100℃)µA V R =V RRM Reverse Recovery Time 反向恢复时间Trr 35nS I F =0.5A,I R =1A Irr=0.25A Junction Capacitance 结电容C J10pFV R =4V,f=1MHzANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.ES1A-ES1M ■Typical Characteristic Curve典型特性曲线ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.ES1A-ES1M ■Dimension外形封装尺寸。

光纤熔接机设备技术规格书项目名称：批准文号：设备名称: 单芯光纤熔接机规格型号：藤仓FSM- 80S数量：2台使用单位:喀什油气运行中心联系人:孙杰联系电话:7523628设备编号：安装地点：技术规格及参数名称：单芯光纤熔接机型号：FSM- 80S 品牌：日本藤仓技术参数：光纤对准方式纤芯对准适用光纤类型 SMF(G.652), MMF(G.651), DSF(G.653), NZDSF(G.655), BIF(G.657)包层直径 80~150um 光纤切割长度 5~16mm熔接/加热模式 100个熔接模式和30个加热模式熔接损耗 0.02dB (SM), 0.01dB(MM), 0.04dB(DSF) and 0.04dB(NZDS)熔接/加热时间熔接标准SM光纤7秒，加热标准FP-03(60mm)热缩管14秒熔接结果存储 2000个最新记录光纤观察方式两轴观测的4.73英寸液晶显示器放大倍数 X/Y单独显示320倍，X/Y同时显示200倍拉力试验 1.96~2.25N对应热缩管 60mm, 40mm和藤仓的微型热缩管满电状态下熔接加热次数使用BTR-09电池可以维持200次的熔接加热循环（4000mAH大容量锂电池）电极棒寿命熔接3000芯工作电源：交流适配器：输入100～240V 50/60Hz 输出（直流）12V 5A 尺寸/重量：150（W）*160（D）*150（H）/2.5KG其他要求：尺寸 / 重量 146W x 159D x 150H (mm) / 2.7kg (包括电池)操作条件海拔: 0 到 5,000m 高于海平面，风速 : 15m/s 温度 : -10~50摄氏度；湿度 : 0~95%RH三防性能抗摔 : 76cm高度六方向的自由坠落防雨 : 降水量在10mm/hr的情况下10分钟防尘：暴露于灰尘中（0.1~500um大小的硅酸铝颗粒）说明型号数量熔接机主机 80S 1台高精度光纤切割刀 CT-30A 1把电池 BTR-09 1块电池充电线 DCC-18 1根交流适配器 ADC-18 1个交流电源线 ACC-17 1根十字螺丝刀 SC-01 1把酒精泵 AP-01 1个携带箱/工作台 CC-30 1个备用电极棒 ELCT2-20A 1对使用手册和软件CD M-80 1张USB数据线 USB-1 1根热缩管装载器 SL-01 1个警示和注意手册 W-80-E 1份快速指导手册 Q-80S 1份所选选配件: 说明型号电极棒 ELCT2-20A 护套压板 Clamp-S70B直流电源线 DCC-12；DCC-13 高精度光纤切割刀 CT-05A注：招标时需求增加光缆接续抢修工具一套编制：审核：审批：（盖章）日期: 2014年4月5日说明：1、“设备技术规格书”要求由设备所属车间（队、站）技术人员或装备科工程师编制，技术规格书必须符合现场实际。

Contents1.Overview (3)2.Product Specification (4)2.1Nomenclature (4)2.2Product Line (4)2.3Compressor specification table (4)2.4Operating range graph (6)3.Construction & Functions (8)3.1Design Features (8)3.2Capacity modulation system (8)3.2.1Step type capacity modulation system (10)3.2.2Stepless type capacity modulation system (14)3.2.3The Location of the Solenoid Valves (19)4.Lubricant (21)4.1Lubricant Specification (21)4.2The Replacement of Lubricant (22)4.3.1Oil Change Schedule (22)4.3.2Pre-cautions for changing oil (22)5.System Application (24)5.1Piping Design (24)5.1.1Suction and Discharge Piping Layout (24)5.1.2Economizer Piping Layout (26)5.1.3Minimum pressure valve (26)5.1.4Liquid Line Filter Dryer (27)5.1.5Sight Glass with Moisture Indicator (27)5.2Oil Line (28)5.2.1Oil Supply (28)5.2.2Lubrication and Capacity Control Modulation (28)5.2.3Compressor chamber injection system (28)5.2.4Protection in Oil Circuit (29)1）Oil temperature (29)2）Oil filter (30)3）Oil pressure differential (31)4）Oil level protection (31)5.2.5Oil cooling system (31)1）Air cooling type (33)2）Water cooling type (33)3）Refrigerant oil cooling (34)5.3Motor Liquid Injection Cooling (34)5.4Economizer System (35)5.4.1Economizer System with Sub Cooler (35)5.4.2Economizer System with Flash Type Subcooler (36)5.5Recommended System Layout (38)Figure 5-14. High Temperature Heat Pump Recommend System Layout (38)6.Electrical Design (39)6.1Electrical parameters and design (39)6.1.1Y-Δ Start (39)6.1.2Power requirements (40)6.1.3MCC&LRA (41)pressor Installation (45)7.1Open compressor wooden crate (45)7.2Compressor Lifting (45)7.3Compressor installation (46)8.Operation and Maintenance (48)8.1Compressor commissioning check (48)1.1.1Check list before Start (48)8.1.2Check list during operation (49)8.2rouble shooting table (50)9.Dimensions (53)10.Accessories (60)10.1Accessory List (60)10.2Accessory for gas refrigerant line (61)10.2.1Shut-off valve (61)10.2.2Tube (62)10.2.3Check valve (64)10.2.4Minimum pressure valve (66)10.3Oil line accessory (68)10.3.1Oil flow switch (68)10.3.2Oil Line Solenoid Valve (70)10.3.3Oil Pressure Differential Switch (70)10.4Electrical Accessory (71)10.4.1INT69 HBY Diagnose Protection module (71)10.4.2300Woil heater (74)10.5Other accessories (77)10.5.1Cushion (77)1.OverviewFor conventional single-stage screw compressors, Its evaporation temperature can only reach -40~-50°C during freezing application. If you want to break this application limitation, it is required to use two-stage compressor or cascade system. Meanwhile, the working condition of high pressure ratio brings problems to the traditional single-stage compressors during compression process, such as excessive gas leakage and high exhaust temperature etc., which leads to low efficiency and poor reliability when it is working is such harsh conditions.The compound two-stage compressor well solves above problems. Compared with the two-stage compressors or cascade system, the compund two-stage compressors occupy less space and the system is easy to control, so it's more efficiency and reliable.LT Series compound two-stage compressor’s evaporation temperature can be as low as -60~-65°C , Its full load evaporating temperature can be -25°C, LT-S-L Series compound two-stage low temperature compressor is based on the LT-S series which modified the internal structure and optimized the motor matching to increase the compressor full-load evaporation temperature to -10 °C, So that LT-S-L series can meet the requirements of industrial refrigeration、quick freezing tunnel and freezing library without pre-coolingFor above reasons, Therefore The Shanghai Hanbell Precise Machinery Co., Ltd. developed the LT series high temperature compressors. High efficiency and reliability under big pressure differential and compression ratio working condition is the main demand in designing. It is a elitist product which accumulates Shanghai Hanbell's rich technology and extensive application experience. It can be widely used in many industries such as high temperature hot water, central heating and so on.2. Product Specification2.1 NomenclatureTable 2-1.LT series low temperature compressor nomenclature 2.2 Product LineTable 2-2.LT low temperature series product specification★2.3 Compressor specification tableTable 2-3.LT series compressor specification2.4Operating range graph图2-1. R22运行范围图图2-2.R404A运行范围图3.Construction & Functions3.1Design Features1）Starting loadStarting with light load; its starting load is similar to ordinary single stage compressor, so as to avoid greater impact on power grid.2）Motor cooling channelExcellent motor cooling channel design which ensures the high efficiency of the compressor, while realizing the reliable cooling of the motor, so that the compressor can operate in a very wide range, and a more extensive scope of application.3）integrated design of system partsPre-installed medium pressure check valves, shut off valves and economizer filters that ensure reliable protection of compressors and simplify customer system configuration.4）Motor temperature visualizationThe embedded temperature sensor of motor, PT100, PT1000 and NTC, are optional, which can directly read the motor temperature to control the motor temperature.3.2Capacity modulation systemLT series screw compressor is equipped with 3/4 step capacity modulation system or continuous (stepless) capacity modulation system.Both of the two capacity modulation systems are composed of slide valve, piston rod, piston cylinder and piston. As shown in Figure 3-1 below.When the spool is fully in contact with the suction side, the screw rotor is in full-load suction state, at which time the working volume of the compressor is maximized. As the spool is separated from the suction side, it moves toward the exhaust side. A bypass cavity is formed between the slider and the suction side.Its presence causes the compressed gas in this range to be bypassed directly to the low pressure, and the actual suction volume of the screw rotor is reduced.The more the slide valve moves toward the exhaust side, the smaller the actual suction volume of the compressor will be.And the system cooling capacity will also reduce The slide valve is driven by the pressure differential among the internal capacity modulation system.The lubricant comes from the external oil separator and passes through the oil filter then enters into the oil inlet port of the compressor, and at last divided to bothsides of the piston. As a result, the piston can be controlled by discharging the high pressure lubricant at one side to low pressure, letting it flow to the low pressure side so that the slide valve will move with the piston to realize the loading and unloading of the compressor.The purpose of the piston spring is to push the piston to its initial position (min. load position), so as to realize the automatic unloading start. It not only reduces the mechanical impact on the compressor's moving parts, but also reduces the electrical current during compressor start up.Stepless capacity control, solenoid valve(SV1:unloading, SV3:50%, SV5:100%) is controlled by a micro controller or a thermal switch to adjust the piston smoothly to stably control cold output. If the oil filter capillary or solenoid valve of the capacity modulation system don't work properly, it will cause the capacity modulation system to be abnormal and fail.Figure 3-1.Capacity Modulation System3.2.1 Step type capacity modulation system1） Step type control logicY: Energize the solenoid valve N: Do not energize the solenoid valveTable 3-1. Step Type Capacity Modulation Control Logic2） Step type capacity modulation graphFigure 3-2. Step Type Capacity Modulation3）Step type control logic description10% loadFigure 3-3. 10% LoadWhen starting up thecompressor, SV1(unload) &SV2 (10%) need to beenergized to make the pistonkeep at the 10% position(leftside)In this state, the highpressure oil passes throughSV1(unload) then goes to theright side of the piston. At thesame time, the oil from left side of the piston passes through SV2 (10%) then discharge to the low pressure side. By doing so, the piston can be held at the 10% load position.★ Note: 10% load is for start up only. Running the compressor at 10% load for a long time is not recommended.50% loadAt this time, the capacity adjustment solenoid valves SV1 (unload) and SV3 (50%) are active.Under 50% load, SV1(unload) &SV3 (50%) are energized.In this state, the high pressure oil passes to the left side of the piston continuously. At the same time, the oil passes through SV1 (unload) then goes to the right side of the piston.If the piston is at the left side of the 50% hole (the loading is less than 50%), the oil at the right side of the piston will pass through SV3 (50%) and discharge to the low pressure side then the piston will move to right side until the position blocks the 50% hole. Thus the compressor is loaded to 50% smoothly.Vice versa, if the piston is at the right side of the 50% hole (the loading is more than 50%), the oil in the left side of the piston will pass through SV3 (50%) and go out to the low pressure side then the piston will move to left until the position blocks the 50% hole. Thus the compressor is loaded to 50% smoothly.75% LoadUnder 75% load, SV1（unload）&SV4 (75%)are energized.The logic of 75% load issimilar to that of 50%. Thepiston can be held around75% position by 75% holeto make the compressorrun under 75% load.Figure 3-5.75% Load100%LoadUnder 100% load, SV5(100%) is energized. In this state,the high pressure oil passes to theleft side of the piston continuously.At the same time, the oil in theright side of the piston passesthrough SV5 (100%) then goes tothe low pressure side to make thepiston be held at 100% position.fig3-6.100% Load4） Step type capacity modulation and water temperature controlFigure 3-7.Step type capacity modulation and water temperature control★Note: T & T' should be adjusted by system designer’s experience and practical application.Time启动Set point + 2TSet point + TSet pointSet point – T'Storage temperaturet1 t21~3min 60~90 sec3.2.2Stepless type capacity modulation systemStepless type is suitable when the refrigeration system needs to achieve precise control of cooling capacity.1）Stepless type control logicTable 3-2. Stepless Type Capacity Modulation Control Logic 50%~100%2）Stepless type capacity modulation graphFigure 3-8.Stepless Type Capacity Modulation3）Stepless type control logic descriptionIn stepless type capacity modulation system, the oil keeps going to the left side of the piston. The oil bypass in the left side of the piston is controlled by SV3 (50%). The oil inlet in the right side of the piston is controlled by SV1 (unload) and oil bypass in the right side of the piston is controlled by SV5 (100%). These three solenoid valves are controlled by temperature controller or PLC.Through the three solenoid valves, the cooling capacity can be controlled at any position from 50%~100%, so through periodical adjustment of SV1、SV3、SV5, the energy output can controlled stably.★Note: SV2(10%) can only be used for machine start and stop. Don't run the machine at 10% load for long time once the machine is started. It shall be switched to load model directly.The stepless type capacity modulation system shall be connected to the micro controller(optional), eg. PLC etc. in order to control the system at the target working condition.LoadDuring load process, the SV5 (100%) adopts pulse activating, and the rest solenoid valve are not energized.In this kind ofsituation, the highpressure oil goes into theleft side of the pistoncontinuously and the oilin the right side of thepiston bypasses throughSV5 (100%) to the lowpressure side.The piston willcontinue to move to theright side and thecompressor completeload process.Figure 3-9. LoadUnloadDuring unload process,the SV2(50%) stays active,and SV1 (unload) adopts pulseactivating, and the restsolenoid valve are notenergized.The high pressure oilcontinues to go to the left sideof the piston and goes into theright side of the piston passingthrough SV1(unload).Through SV3(50%), it Figure 3-10. Unload bypasses to the low pressure side, so that the piston continues to move to the left side, and the compressor will load to 50% piston.Keep load stateFigure 3-11. Keep Load StateDuring this process, all S/V are not energized. The high pressure oil coming continues to go to the left side of the piston. The left side oil inlet of the piston SV1(unload) and SV5(100%) are closed to keep the oil amount in the right side of the piston. The piston will not be able to move and stay at its original position, so that the compressor capacity will not change as well.Stepless type capacity modulation and water temperature controlBelow picture shows the load control of single compressor in the application of stepless type capacity modulation.Figure 3-12. Stepless Type Capacity Modulation★Note ：X ′Upper Limit ；X 〞Lower Limit ；X Set Point ；H Control Range ；Y Actual valve❆ Description:● The actual water temperature exceeds the upper limit between A & B. Itmeans the compressor ought to unload until the actual value is within the control range.● The real value is smaller than the bottom line between C & D. It means therequired cooling capacity is decreasing and the compressor needs to be unloaded until the real value returns to the control range.Figure 3-13. Solenoid Valve Action Intervals-Stepless Type★Note ：For detail stepless type capacity modulation control logic, please refer toTable 3-2Load/Unload functions between A and B, C and D.Energized ：Solenoid valve is powered and energized Close ： Solenoid valve is not energized T1，T3：Pulse time 0.5~1.5 seconds T2，T4：Pause time 10~20 secondsTime3.2.3The Location of the Solenoid Valves1）LT-83/41&LT-65/32Figure 3-14.LT-83/41&LT-65/32 solenoid valve location2）LT-20/10&LT-30/12&LT-45/20&LT-55/25Figure 3-15.LT-20/10&LT-30/12&LT-45/20&LT-55/25 Solenoid Valve Location3）Compressor unloading for startup, and stopTo decrease the mechanical loading to compressor’s parts and decrease the starting current during start up. Hanbell designs for LT compressor the function of unloading startup. To ensure compressor loads steadily, please follow Figure 3-16 to load step by step during the whole loading process.When compressor is about to shut down, it is also required to unload to ensure that the slide valve is at lowest loading position during next startup and compressor could have an unloading startup. Thus Hanbell requires no matter what load condition of the compressor is, it should be unloaded step by step till minimum load before stop according to below Figure 3-16.Figure 3-16. Compressor Startup and Stop ProcessCaution：1）A fter startup, keep the minimum load for 10 seconds. Before shut down, keep the minimum load for 30 seconds(Time can be set to 10~60seconds).2）A fter startup, when the pressure difference between high pressure and middle pressure is less than 3.5bar, the compressor shall be run at 10% load at low pressure stage. Don't load and open ECO.3）t=30 seconds(Time can be set to 30~60seconds).4）A fter the compressor shut down, the SV1 (unload) & SV2(10%) need to be still energized for 3 minutes, so as to ensure the compressor can still at min load position at next startup.5）H anbell strongly recommends that the compressor start-up and shutdown control logic shall refer to above graph. For detail informationplease refer to the regulations written in LT-S Control Requirements.4.LubricantTable 4-1. Lubricant SpecificationCaution:1）P lease refer to the table above to select the suitable lubricant and refrigerant and its operation range need to be taken into consideration as well.2）H anbell strongly recommends do not use the lubricant which isn’t certified by Hanbell since it may damage the compressor seriously.3）T his specification table is for LT series compressors only.4）T he oil temperature at the point when the compressor starts is suggested to be 5K higher than the corresponding saturation temperature of the oil separator in order to avoid too much oil containing in the refrigerant which may affect the lubricant. 5）A fter compressor stops, please turn on the oil heater of the external oil separator.If the compressor shuts down for a long time, please turn off the oil heater. Please heat the lubricant for more than 2 hours before next start up.1）B e sure to make the system clean and no welding spatter and other impurities before lubricant filling2）I n order to ensure that the system is dry enough, it should be dehumidified before filling. It is advisable to fill the system with dry nitrogen first and then vacuum the system. The vacuum time should be as long as possible. It is strongly recommended to repeat the above steps several times to minimize the water contained in the system.Caution1）D o not use the lubricant which is not approved by Hanbell, otherwise it may causeserious damage to the compressor2）D o not mix different brands of lubricants, otherwise they may cause serious damage to the compressor. Pay attention to it when replacing lubricating oil for the system.4.2The Replacement of Lubricant4.3.1Oil Change Schedule1）C heck lubricant every 10,000 hours after continuous running. For the first operation of the compressor, it is recommended to change the oil and clean the external oil filter after running 2,000 hours. Check the system whether clean or not and then change oil every 20,000 hours or after 4 years continuous running if the system operates in good condition.2）T he oil will deteriorate if the compressor runs at high discharging temperature (above 95℃) in the long term. Please avoid this situation, but if it’s necessary to run in this condition, please shorten the intervals of oil changing.4.3.2Pre-cautions for changing oil1）I t is recommended to check the quality of oil periodically in order to maintain the lubrication performance.2）T he lubricant absorbs moisture in the air. Avoid to expose it to the air for a long timeIf the compressor motor is burned, the acid and harmful substances and burned debris will be brought into the system. Therefore, the oil filters and lubricants must be replaced repeatedly. It is suggested to replace the lubricating oil again after 72 hours of operation until the quality of the lubricating oil in the system returns to standard valve.3）T he foreign body in the oil will block the oil line, so it is necessary to install an oil filter in the external oil line. Also, the pressure differential sensor need to be installed before and after the oil filter. If the pressure differential valve between these two sensors reaches 1.5 bar, the oil filter need to be changed.4）T he acidity of oil will directly affect the life of the motor, and it is recommended to change the oil when PH≤6. (Please also change the filter drier at the same time to make sure the system is dry.）5）I t is important to replace the oil, especially when the motor is burnt because the acidity remains in the system. By replacing the oil can help check the status of thesystem. Check the acidity of the lubricant, and re-change the oil after the system runs for 72 hours until the acidity of the lubricant reaches the standard valve.6）I n case of motor burned out, please not only change the compressor, but also change the oil and check the condition of the oil periodically. If the acidity excesses the standard, please change it immediately and always be aware of the cleanliness and moisture contained in the system.5. System Application★Note ：Please consult Hanbell for parallel application and heat pump application.5.1 Piping Design5.1.1 Suction and Discharge Piping Layout1）Material and structure of suction and discharge pipeThe vibration of the compressor is small in normal operation, so it is not necessary to use flexible joints for suction and discharge tubes, but the pipes need to have enough flexible length to ensure the suction and discharge pipes won't cause any stress to the compressor. It is recommended to use copper tube for the suction and discharge piping in order to decrease the piping vibration when the compressor is in operation.2）The dimensions of suction and discharge piping:It is suggested to design the dimension of suction and discharge piping according to Hanbell recommendation (refer to 10.2.2).3）Piping for parallel systemTo improve the system operation efficiency, it’s necessary to reduce the gas -flow resistance and consider the oil return of suction piping. The recommended piping of suction and discharge side for parallel system is shown below:Be aware of the area of the main pipe should not be less than the area of the other pipes to make sure the pressure drops could be controlled in reasonable range. ❆ Piping at discharge side❆ x x xFigure 5-2 Suction Piping for Parallel SystemDetail Drawing 2 4) Suction filterThis model of compressor has a built-in suction filter, but it is only used as a final protection. It should not be used as an suction filter that needs to be cleaned regularly.So It is necessary to install a suction filter (25μm) which is easy to remove and clean it regularly.When the system is first used, it may need to be cleaned up frequently. If the pressure drop is bigger than 0.5 bar, the filter element should be replaced or cleaned until the system is clean. When the filter is disassembled, if the filter is found to be damaged, it needs to be replaced in time, and the impurities in the pipeline should be cleaned up. Ensure that the filter is oriented correctly during installation and it is recommended to add a shut-off valve at the inlet and outlet for easy maintenance.Hanbell The recommended suction filter design is shown in Figure 5-3 below.Figure 5-3.suction filterx xx Detail Drawing 2★Note：External suction filter should be used for cryogenic refrigeration systems。

Shanghai Shanshan Tech Co.,Ltd.文件页次1 / 12技术规格书-锂离子电池负极材料产品名称：FSN-11 产品概述及应用方向1.1该产品以两种不同种类的人造石墨前驱体，经混配、表面改性及高温处理而成。

1.2特点：高温性能好、循环性能优，安全性能好、是国内圆柱电池的首选材料。

1.3适用范围：圆柱型电池、方型电池、聚合物电池、动力电池。

2 性能参数及特性2.1 外观应呈黑色，为粉末状，应无砂粒、金属粒等杂物。

2.2性能FSN-1性能应符合下表规定。

表1 FSN-1产品性能指标检测项目单位 控制指标 检测周期粒径D 10µm ≥6.0 每批一次D 50 µm 15.0±2.0 D 90µm ≤36.0 真密度 g/cm 3≥2.20 灰份 % ≤0.10 振实密度 g/cm 3 1.10±0.10 比表面积 m 2/g 1.3±0.3 电化学性能放电容量 mAh/g ≥340.0 每批一次放电效率%≥92.02.3环保供方保证提供给需方的产品(或物料)完全符合ROHS 、无卤及REACH 法规要求, （附件五MSDS ）3试验方法Shanghai Shanshan Tech Co.,Ltd. 文件页次 2 / 123.1、外观检查：目测。

3.2、粒度：Mastersize 2000 Hydro 2000MU(A)；样品超声：3min；折射率：2.42，吸收率：1；分散剂：water；折射率：1.330。

3.3、真密度：正丁醇，重量置换。

3.4、灰份：灼烧失重法：样本量：2g ；马弗炉800℃，5-6小时至恒重。

3.5、振实密度：参考GB/T5162-85用振实密度仪测试。

3.6、比表面积：用NOVA-2000e比表面测试仪测定。

3.7、电化学性能：扣式电池测试为制作成2430型电池， 0.1C/0.1C 0-2V充放电。

D 2SSubminiature Switch with Superb Flux Resistance●One-piece terminal construction to keep out flux. ●High operating-position accuracy (±0.25 mm) enables easy peripheral design and e of pin plunger also allows horizontal operation.RoHS CompliantModel Number LegendD2S -@@@@1. Ratings10 : 250 VAC 10.1 A 5 : 125 VAC 5 A 01 : 30 VDC 0.1 A 2. ActuatorNone : Pin plunger L : Hinge leverL13 : Simulated roller lever L2 : Hinge roller lever1234 3. Maximum Operating Force (OF) None : 1.47 N {150 gf}-F : 0.49 N {50 gf} (For 0.1 A, 5 A)Note: The given values are for pin plunger models only.4. TerminalsNone : S older terminalsD : Self-clinching PCB terminalsSeparator (Sold Separately), Terminal Connector (Sold Separately)Refer to "Basic Switch Common Accessories"D2S Subminiature Basic SwitchD 2 S Contact FormContact Specifications*Please refer to "Using Micro Loads" of "●Precautions" for more information on the minimum applicableload.Item Model D2S-10 models D2S-5 models D2S-01 modelsContactSpecification Rivet CrossbarMaterial Silveralloy GoldalloyGap (standardvalue)0.5 mmInrushcurrentNC 20A max. 1 A max.NO 15 A max. 10 A max. 1 A max.Minimum applicable load(reference value) *5 VDC 160 mA 5 VDC 1 mA●SPDTCharacteristicsNote.The data given above are initial values.*1.The values for dielectric strength shown are for models with a Separator (refer to "Micro SwitchCommon Accessories").*2.The values are at Free Position and Total Travel Position values for pin plunger, and Total TravelPosition value for lever.Close or open circuit of the contact is 1ms max.*3.For testing conditions, consult your OMRON sales representative.Item Model D2S-10 models D2S-5 models D2S-01 modelsPermissible operating speed 0.1 mm to 1 m/s (for pin plunger models)PermissibleoperatingfrequencyMechanical 400operations/minElectrical 60operations/minInsulation resistance 100 MΩ min. (at 500 VDC with insulation tester)Contact resistance(initial value)OF 1.47 N models30mΩ max.50 mΩ max.OF 0.49 N models- 50 mΩ max.100 mΩ max.Dielectricstrength * 1Between terminals of the samepolarity1,000 VAC 50/60 Hz 1 minBetween current-carrying metalparts and ground1,500 VAC 50/60 Hz 1 minBetween each terminals andnon-current-carrying metal parts1,500 VAC 50/60 Hz 1 minVibrationresistance * 2Malfunction 10 to 55 Hz, 1.5 mm double amplitudeShockresistanceDurabilityOF 1.47 N models 1,000 m/s2 {approx. 100G} max.OF 0.49 N models500 m/s2 {approx. 50G} max.Malfunction * 2OF 1.47 N models300 m/s2 {approx. 30G} max.OF 0.49 models200 m/s2 {approx. 20G} max.Durability * 3Mechanical10,000,000 operations min.(60 operations/min)30,000,000 operations min.(60 operations/min)Electrical50,000 operations min.(30 operations/min)200,000 operations min.(30 operations/min)Degree of protection IEC IP40Ambient operating temperature-25°C to +85°C (at ambient humidity of 60% max.)(with no icing or condensation)Ambient operating humidity 85% max. (for +5°C to +35°C)Weight Approx. 1.6 g (pin plunger models)RatingsNote.The above rating values apply under thefollowing test conditions.(1) Ambient temperature: 20±2°C(2) Ambient humidity: 65±5%(3) Operating frequency: 30 operations/minApproved SafetyStandardsThe items shown in the "List of Models"are not standard approved models.Consult your OMRON salesrepresentative for specific models withstandard approvals.UL (UL1054)/CSA(CSA C22.2 No.55)ModelItemRated voltageResistive loadD2S-10models250 VAC 10.1 AD2S-5models125 VAC250 VAC5 A3 AD2S-01models125 VAC 0.1 A30 VDC 0.1 ARatedvoltage ModelD2S-10 D2S-5 D2S-01125 VAC250 V-10.1 A5 A3 A0.1 A-30 VDC-- 0.1 AD2SSubminiature Basic SwitchD 2SDimensions (Unit: mm) and Operating CharacteristicsThe following figures show models with self-clinching PCB terminals. For the solder terminals, refer to "Terminals/Appearances ". The @ is replaced with the code for the terminal that you need. See the "List of Models " for available combinations of models.Note 1.Unless otherwise specified, a tolerance of ±0.4 mm applies to all dimensions. Note 2.The operating characteristics are for operation in the A direction ().Terminals/Appearances (Unit: mm)●Solder terminals●Self-clinching PCB terminals<PCB Mounting Dimensions (Reference)>PCB's thickness t 㸻1.6mmMounting Holes (Unit: mm)2-2.4 dia. mounting holes or 2.35●Pin plunger D2S-10@D2S-5@D2S-5-F @D2S-01@D2S-01-F @Operating characteristicsModelD2S-10@D2S-5@D2S-01@D2S-5-F @ D2S-01-F @Operating Force OF Max.Releasing Force RF Min. 1.47 N {150 gf}0.25 N {25 gf}0.49 N {50 gf}0.04 N {4 gf}Pretravel PT Max.Overtravel OT Min.Movement Differential MD Max.0.7 mm 0.4 mm 0.1 mm Operating PositionOP8.4±0.25 mm●Hinge lever D2S-10L @D2S-5L @D2S-5L-F @D2S-01L @D2S-01L-F @Operating characteristics ModelD2S-10L @D2S-5L @D2S-01L @D2S-5L-F @D2S-01L-F @Operating Force OF Max. Releasing ForceRF Min. 0.49 N {50 gf}0.06 N {6 gf}0.18 N {18 gf}0.02 N {2 gf}Overtravel OT Min. Movement Differential MD Max. 1.0 mm 0.8 mmFree Position FP Max. Operating Position OP 13.6 mm 9.4±0.8mm2.35±●Simulated roller lever D2S-10L13@D2S-5L13@D2S-5L13-F @D2S-01L13@D2S-01L13-F @Operating characteristics Model D2S-10L13@D2S-5L13@D2S-01L13@D2S-5L13-F @D2S-01L13-F @Operating Force OF Max.Releasing ForceRF Min.0.49 N {50 gf}0.06 N {6 gf}0.18 N {18 gf}0.02 N {2 gf}Overtravel OT Min.Movement Differential MD Max. 1.0 mm 0.8 mm Free Position FP Max.Operating PositionOP15.5 mm 11.4±0.8 mm2.35±D2SSubminiature Basic SwitchD 2SNote 1.Unless otherwise specified, a tolerance of ±0.4 mm applies to all dimensions. Note 2.The operating characteristics are for operation in the A direction ().Precautions★ Please refer to "Basic Switches Common Precautions" for correct use.●SolderingWhen using automatic soldering baths, we recommend soldering at 260±5°C within 5 seconds. Make sure that the liquid surface of the solder does not flow over the edge of the board.When soldering terminals manually, complete the soldering at the iron tip temperature between 350 to 400°C within 3 seconds, and do not apply any external force for 1 minute after soldering. When applying solder, keep the solder away from the case of the Switch and do not allow solder or flux to flow into the case.●MountingUse M2.3 mounting screw with plane washers or spring washers to securely mount the Switch. Tighten the screws to a torque of 0.23 to 0.26 N·m {2.3 to 2.7 kgf·cm}.●Using Micro LoadsUsing a model for ordinary loads to open or close the contact of a micro load circuit may result in faulty contact. Use models that operate in the following range. However, even when using micro load models within the following operating range, if inrush current occurs when the contact is opened or closed, it may increase the contact wear and so decrease durability. Therefore, insert a contact protection circuit where necessary. The N-level reference value applies for the minimum applicable load. This value indicates the malfunction reference level for the reliability level of 60% (λ60).(JIS C5003)The equation, λ60=0.5×10-6/operations indicates that theestimated malfunction rate is less than operations with a reliability level of 60%.●Hinge roller lever D2S-10L2@D2S-5L2@D2S-5L2-F @D2S-01L2@D2S-01L2-F @Operating characteristics ModelD2S-10L2@D2S-5L2@D2S-01L2@D2S-5L2-F @ D2S-01L2-F @Operating Force OF Max.Releasing ForceRF Min.0.49 N {50 gf}0.06 N {6 gf}0.18 N {18 gf}0.02 N {2 gf}Overtravel OT Min. Movement Differential MD Max. 1.0 mm 0.8 mm Free Position FP Max.Operating PositionOP19.3 mm 15.1±0.8 mm2.35±*2. Polyacetal resin rollerCautionsCorrect Use12,000,000Current (mA)V o l t a g e (V )D2S Subminiature Basic SwitchD2S•Application examples provided in this document are for reference only. In actual applications, confirm equipment functions and safety before using the product.• Consult your OMRON representative before using the product under conditions which are not described in the manual or applying the product to nuclear control systems, railroad systems, aviation systems, vehicles, combustion systems, medical equipment, amusement machines, safety equipment, and other systems or equipment that may have a serious influence on lives and property if used improperly. Make sure that the ratings and performance characteristics of the product provide a margin of safety for the system or equipment, and be sure to provide the system or equipment with double safety mechanisms.Note: Do not use this document to operate the Unit. OMRON CorporationELECTRONIC AND MECHANICAL COMPONENTS COMPANY Contact: /ecb Cat. No. B092-E1-050812(0207)(O)。