SI-3018LUS中文资料

非开挖紫外线光固化设备技术参数
非开挖紫外线光固化设备是一种用于固化涂料、油墨和粘合剂的设备。

它利用紫外线光束对涂层进行快速固化，从而实现高效生产。

一般的技术参数包括以下几个方面：
1. 光源类型，非开挖紫外线光固化设备通常采用汞灯、氘灯或LED作为光源。

不同的光源类型会影响设备的固化效率和能耗。

2. 光波长，紫外线光固化设备通常会在特定波长范围内工作，常见的波长包括365纳米和395纳米。

不同的波长适用于固化不同类型的涂料和油墨。

3. 固化速度，固化速度是衡量设备性能的重要指标，它取决于光源功率、工作距离和固化物料的特性。

4. 治疗宽度，非开挖紫外线光固化设备通常具有一定的治疗宽度，这决定了设备在生产线上的适用范围和效率。

5. 控制系统，设备通常配备了智能化的控制系统，用于调节光源功率、光斑形状和固化时间，以实现对固化过程的精确控制。

6. 安全性能，紫外线具有一定的辐射性，因此设备通常配备了辐射防护装置，以确保操作人员的安全。

以上是非开挖紫外线光固化设备的一般技术参数，不同厂家生产的设备可能会有所不同，具体的技术参数还需要根据实际设备来确认。

希望这些信息能够帮助你对非开挖紫外线光固化设备有更全面的了解。

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SI-8201L中⽂资料RatingsParameter Symbol 8200L Series8300L SeriesUnit SI-8201L SL-8202L SI-8203L SI-8204L SI-8221L SI-8211L SI-8213L SI-8301L SI-8303L DC Input Voltage Range V IN 10 to 4011 to 4016 to 4010 to 408 to 3515 to 5522 to 558 to 408.5 to 40V Output Current Range I O 0 to 0.40 to 0.350 to 0.40 to 0.30 to 0.280 to 1A Operating Temperature RangeT op–10 to +65–20 to +85°CSI-8200L/8300L Featuresq Integrated switching IC and coil construction q Requires 2 external components only q Low switching noise qHeatsink not requiredApplicationsq For power supplies in telephone sets q For power supplies in office equipments Absolute Maximum Ratingss Lineup8200L Series8200L Series (high-VIN type)8300L SeriesType No.V O I O Type No.V O I O Type No.V O I O SI-8201L 5V 0.4A SI-8211L 5V0.3ASI-8301L 5V 1A SI-8202L 6V 0.35A SI-8213L12V 0.28ASI-8303L5.4V1ASI-8203L 12V 0.35ASI-8204L 5.2V 0.4A SI-8221LRatingsParameter Symbol 8200L Series8300L SeriesUnit SI-8201L SL-8202L SI-8203L SI-8204L SI-8221L SI-8211L SI-8213L SI-8301L SI-8303L DC Input Voltage V IN 45406045V Storage TemperatureT stg–25 to +85°Cs Recommended Operating ConditionsSwitching TypeSelf Oscillation Type with CoilParameterSymbolUnitParameterSymbolUnitOutput Voltage V Efficiency%Line Regulation mV Load RegulationmVV O /T ±1.5±1.5±1.5±1.5±0.5±1.5mV/°C mV p-ps Electrical Characteristics (Ta=25°C)Output Voltage V Efficiency%Line Regulation mV Load RegulationmV ?V O /?T ±1.5±1.5±1.5±1.5mV/°C mV p-pRatingsSI-8200L SeriesSI-8201L SI-8202L SI-8203L SI-8204L SI-8221L mintyp max mintyp max mintyp max mintyp maxV O4.95.0 5.15.96.0 6.111.812.012.2 5.15.2 5.34.855.00 5.15 Condition V IN =15V, I O =0.2A V IN =20V, I O =0.2A V IN =25V, I O =0.2AV IN =15V, I O =0.2AV IN =15V, I O =0.2A η737479737680 Condition V IN =15V, I O =0.2AV IN =20V, I O =0.2AV IN =25V, I O =0.2AV IN =15V, I O =0.2AV IN =15V, I O =0.2ASwitching Frequency f 2525252525kHzV OLINE 1560156015601560515 Condition V IN =10 to 20V, I O =0.2A V IN =11 to 29V, I O =0.2A V IN =16 to 34V, I O =0.2A V IN =10 to 20V, I O =0.2A V IN =10 to 20V, I O =0.2A ?V OLOAD15601560601001560Condition V IN =15V, I O =0.02 to 0.25A V IN =20V, I O =0.02 to 0.3A V IN =25V, I O =0.02 to 0.35A V IN =15V, I O =0.02 to 0.25A V IN =15V, I O =0.02 to 0.25ATemperature Coefficient of Output Voltage Switching Ripple Voltage ?V r30603060100303060(C 2=470µF)Condition V IN =25V, I O =0.3A V IN =25V, I O =0.3AV IN =40V, I O =0.35A V IN =25V, I O =0.3AV IN =25V, I O =0.3ARatingsSI-8200L Series (high-V IN type)SI-8300L SeriesSI-8211L SI-8213L SI-8301LSI-8303L mintyp max min typ max min typ max min typ max V O 4.95.0 5.111.812.012.25.05.1 5.25.35.4 5.5ConditionV IN =35V, I O =0.2A V IN =38V, I O =0.2A V IN =15V, I O =0.5A V IN =15V, I O =0.5Aη63787373 ConditionV IN =35V, I O =0.2A V IN =38V, I O =0.2AV IN =15V, I O =0.5AV IN =15V, I O =0.5ASwitching Frequency f 2525kHz ?V OLINE 60605050Condition V IN =20 to 50V, I O =0.2AV IN =22 to 50V, I O =0.2AV IN =10 to 20V, I O =0.5AV IN =10 to 20V, I O =0.5AV OLOAD60608080Condition V IN =35V, I O =0.02 to 0.3A V IN =38V, I O =0.02 to 0.28A V IN =15V, I O =0.3 to 0.7AV IN =15V, I O =0.3 to 0.7ATemperature Coefficient of Output Voltage Switching Ripple Voltage ?V r 3060501004545(C 2=470µF)ConditionV IN =48V, I O =0.3A V IN =48V, I O =0.28AV IN =15V, I O =0.5AV IN =15V, I O =0.5ASwitching Type Self Oscillation Type with Coils Caution1. A low-impedance capacitor suitable for switching applications must be used for the external capacitor and must be connected as close to the IC as possible in order to assure low ripple voltage and stable switching operation.2.The SI-8200L and 8300L series do not have a built-in overcurrent protection circuit. Thus, avoid short-circuitconditions that may cause a flow of overcurrent.3.The SI-8300L series may not start up if the input voltage rises too rapidly.Do not use the SI-8300L series in applications where the input terminal, pin6, is opened and closed directly in a state where the input voltage is already applied.6.Since the SI-8200L and 8300L series have an open-package construction, they can only be operated in specific environments. Verify the operating environment and use the IC within the conditions indicated in the reliability data. SI-8200L/8300L Series Typical Operating Characteristics (Ta=25°C)SI-8200L/8300L Series Typical Operating Characteristics (Ta=25°C)。

冷轧硅钢片常用牌号表示冷轧硅钢片是一种特殊的冷轧钢材，主要用于制造电力设备和电机的铁芯部分。

在冷轧硅钢片的牌号表示中，有一些常用的牌号被广泛采用。

下面将介绍一些常见的冷轧硅钢片牌号。

1. 50AW80050AW800是一种低能耗冷轧硅钢片，主要用于高效低耗变压器和电机的制造。

其特点是磁性能好、低损耗、低矫顽力。

该牌号的硅含量为0.5%，AW表示采用带准确宽度控制的冷轧工艺。

2. 50AW130050AW1300是一种高能耗冷轧硅钢片，主要用于制造大功率变压器和电机。

其特点是磁导率高、低损耗、强磁导饱和性能好。

该牌号的硅含量为0.5%，AW表示采用带准确宽度控制的冷轧工艺。

3. 35WW27035WW270是一种普通冷轧硅钢片，适用于一般型号的变压器和电机。

其特点是磁导率中等、低损耗、适用于中小型电力设备。

该牌号的硅含量为0.35%，WW表示采用较宽宽度控制的冷轧工艺。

4. B23G110B23G110是一种普通冷轧硅钢片，适用于一般型号的变压器和电机。

其特点是磁导率中等、低损耗、适用于中小型电力设备。

该牌号的硅含量为2.3%，G表示采用普通冷轧工艺。

5. M400-50AM400-50A是一种中等硅含量的冷轧硅钢片，适用于大型电力设备和电机。

其特点是高饱和磁感应强度、低矫顽力、低铁损耗。

该牌号的硅含量为4%，M表示采用双面磁控工艺。

6. M250-35AM250-35A是一种低硅含量的冷轧硅钢片，适用于小型电力设备和电机。

其特点是低矫顽力、高饱和磁感应强度、低铁损耗。

该牌号的硅含量为2.5%，M表示采用双面磁控工艺。

以上是一些常见的冷轧硅钢片牌号表示，不同的牌号适用于不同的电力设备和电机。

在实际应用中，根据设备的具体要求和技术指标，选择合适的冷轧硅钢片牌号可以提高设备的效率和性能。

安徽富信半导体科技有限公司ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.2SK3018 SOT-2330V N Channel ESD Protection沟道带静电保护MOS Field Effect Transistor场效应管▉Absolute Maximum Ratings最大额定值Characteristic特性参数Symbol符号Rat额定值Unit单位Drain-Source V oltage漏极-源极电压BV DSS30V Gate-Source Voltage栅极-源极电压V GS+20V Drain Current(continuous)漏极电流-连续I D（at T A=25°C）100mA Drain Current(pulsed)漏极电流-脉冲I DM0.5A Total Device Dissipation总耗散功率P D(at T A=25°C)350mW ESD Protected Up to人体模式静电保护范围ESD(HBM) 2.0kV Thermal Resistance Junction-Ambient热阻RΘJA357℃/W Junction/Storage Temperature结温/储存温度T J,T stg-55~150℃▉Device Marking产品字标2SK3018=KNANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.2SK3018▉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Min最小值Typ典型值Max最大值Unit单位Drain-Source Breakdown Voltage漏极-源极击穿电压(I D=10uA,V GS=0V)BV DSS30——VGate Threshold Voltage栅极开启电压(I D=100uA,V GS=V DS)V GS(th)0.8 1.3 1.5VZero Gate Voltage Drain Current零栅压漏极电流(V GS=0V,V DS=30V)I DSS——0.2u AGate Body Leakage栅极漏电流(V GS=+20V,V DS=0V)I GSS——+2uAStatic Drain-Source On-State Resistance 静态漏源导通电阻(I D=10mA,V GS=4V) (I D=1mA,V GS=2.5V)R DS(ON)—3458ΩDiode Forward Voltage Drop内附二极管正向压降(I SD=100mA,V GS=0V)V SD—— 1.2V Input Capacitance输入电容(V GS=0V,V DS=30V,f=1MHz)C ISS—21—pF Common Source Output Capacitance共源输出电容(V GS=0V,V DS=30V,f=1MHz)C OSS—3—pF Reverse Transfer Capacitance反馈电容(V GS=0V,V DS=30V,f=1MHz)C RSS—2—pF Total Gate Charge栅极电荷密度(V DS=30V,I D=100mA,V GS=10V)Q g— 1.6—nC Gate Source Charge栅源电荷密度(V DS=30V,I D=100mA,V GS=10V)Q gs—0.5—nC Gate Drain Charge栅漏电荷密度(V DS=30V,I D=100mA,V GS=10V)Q gd—0.3—nC Turn-ON Delay Time开启延迟时间(V DS=30V I D=100mA,R GEN=6Ω,V GS=10V)t d(on)—4—ns Turn-ON Rise Time开启上升时间(V DS=30V I D=100mA,R GEN=6Ω,V GS=10V)t r—16—ns Turn-OFF Delay Time关断延迟时间(V DS=30V I D=100mA,R GEN=6Ω,V GS=10V)t d(off)—20—ns Turn-OFF Fall Time关断下降时间(V DS=30V I D=100mA,R GEN=6Ω,V GS=10V)t f—80—nsANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.2SK3018■Typical Characteristic Curve典型特性曲线Figure1:Output Characteristics Figure2:Transfer CharacteristicsFigure3:On-Resistance vs.Drain Current Figure4:Capacitance CharacteristicsFigure5:Gate-Charge Characteristics安徽富信半导体科技有限公司ANHUI FOSAN SEMICONDUCTOR TECHNOLOGY CO.,LTD.2SK3018▉Dimension外形封裝尺寸Symbol Dimensions In Millimeters Dimensions In Inches Min Max Min Max A 0.900 1.1500.0350.045A10.0000.1000.0000.004A20.900 1.0500.0350.041b 0.3000.5000.0120.020c 0.0800.1500.0030.006D 2.800 3.0000.1100.118E 1.200 1.4000.0500.055E1 2.2502.5500.0890.100e 0.950TYP0.037TYPe1 1.8002.0000.0710.079L 0.550REF0.022REFL10.3000.5000.0120.020θ0o8o 0o8o。

伊斯卡刀具材料表代号涂层/材料 ISO系列加工件材料应用推荐IC07 无涂层 M20-M30 耐高温合金底-中等转速IC08 无涂层 M20-M31 耐高温合金底-中等转速IC10 无涂层 K20-K30 灰铸铁HBN>220.可锻铸铁.硅铝.铜合金,玻璃钢,胶合板,石头,木头,耐高温合金半粗加工,低转速,中进给不规则切削IC20 无涂层 K10-K20 灰铸铁HBN>221.可锻铸铁.硅铝.铜合金,玻璃钢,胶合板,石头,木头,耐高温合金,不锈钢精&半精加工,中等转速&进给IC28 无涂层 P30-P50 耐高温合金,奥氏体不锈钢,合金钢,高速钢粗加工,低转速,高进给,不规则切削M30-M40K30-K40IC50M 无涂层 P20-P30 钢,铸钢,可锻铸钢,不锈钢,铸造不锈钢. 粗加工,低转速,高进给,不规则切削IC54 无涂层 P30-P45 钢,铸钢,奥氏不锻铸钢,铸造不锈钢. 粗加工,低转速,高进给,不规则切削IC418 CVD涂层 K10-K25 铸铁,灰铁,合金铸铁,球铁,可锻铸铁粗&粗加工,中转速,高进给,不规则切削IC428 CVD涂层 K05-K20 铸铁,灰铁,合金铸铁,球铁,可锻铸铁精,高转速,中进给,低塑性变形IC450 CVD涂层 P20-P40 灰铁,球铁,不锈钢不规则切削M20-M30K20-K40IC4028 CVD涂层 K05-K20 铸铁,灰铁,合金铸铁,球铁,可锻铸铁精,高转速,中进给,低塑性变形IC4050 CVD涂层 P20-P50 灰铁,球铁,不锈钢不规则切削M20-M35K20-K45IC520M CVD涂层 P15-P35 钢,铸钢,可锻铸铁,高速钢,马氏体不锈钢精&半精加工,中等转速&中等进给M10-M20K10-K30IC635 CVD涂层 P30-P50 碳钢,合金钢,不锈钢低转速,高进给用于难加工情况M20-M40IC656 CVD涂层 P20-P40 碳钢,合金钢,不锈钢,工具钢,可锻铸铁半粗&中加工,中转速,高到中进给,不规则切削M20-M40IC8048 CVD涂层 P05-P30 钢,合金钢,不锈钢,铸钢? 半粗&中加工,中进中转速K05-K20IC9007 CVD涂层 K10-K20 合金钢,铸铁:灰铁,可锻铸铁,球铁,合金铸铁精,高转速,中进给,低塑性变形IC9015 CVD涂层 P10-P30 碳钢,合金钢,灰铁精&半精加工,高到中转速M15-M30IC9025 CVD涂层 P20-P30 各种钢,不锈钢,特别用于粗加工低碳低合金钢粗&半粗加工,中转速,不稳定的加工场合,韧性很高的M15-M30IC9054 CVD涂层 P15-P40 钢,铸钢,奥氏体不锈钢,铸造不锈钢. 半粗加工,中转速,高进给,不规则切削IC220 PVD涂层 K10-K20 钢,不锈钢,铸钢,铸铁精,低进给,低塑性变形P10-P25IC228 PVD涂层 P30-P50 合金钢,铝合金,铸钢,奥氏体不锈钢,碳钢,铜合金,稀有合金粗&半粗,低转速,高进给,不规则切削K25-K40代号涂层/材料 ISO系列加工件材料应用推荐IC250 PVD涂层 P15-P35 钢,铸钢,不锈钢粗,中转速,高进给,不规则切削IC300 PVD涂层 P25-P50 不锈钢,高温合金,低碳钢,非铁金属用于中等转速切削M20-M30K10-K30IC308 PVD涂层 P15-P30 耐高温合金,硬合金,碳钢用于合金的割断与切槽,不锈钢,硬和高温合金M20-M30K20-K30IC328 PVD涂层 K20-K40 合金钢,,铝合金,奥氏体不锈钢,碳钢,铸钢,铜合金,稀有合金粗,低转速,高进给,不规则切削P25-P50M30-M40IC350 PVD涂层 P20-P40 钢,铸钢,可锻铸铁,不锈钢粗,中转速,高进给,不规则切削IC354 PVD涂层 P20-P40 钢,铸钢,奥氏体不锈钢,铸造不锈钢. 半粗,中转速,高进给,不规则切削IC3028 PVD涂层 P25-P45 钢,铸钢,奥氏体不锈钢,高温合金,铸造不锈钢. 粗,低转速,高进给,不规则切削M15-M35K20-K40IC507 PVD涂层 P10-P25 高温合金,奥氏体不锈钢,难加工钢高转速用于精到粗加工,包括不规则切削M05-M20IC508 PVD涂层 P20-P40 高温合金,硬合金.铸铁低到中转速,很高韧性下的不规则切削M20-M30K20-K30IC520 PVD涂层 M10 不锈钢精,低进给,低塑性变形IC528 PVD涂层 P25-P45 合金钢,铝合金,奥氏体不锈钢,碳钢,铸钢,铜合金,稀有合金粗,低转速,高进给,不规则切削M20-M40IC520N PVD涂层 P05-P25 钢,铸钢,可锻铸铁,高速钢,马氏体不锈钢精到中加工,高转速,中进给M05-M15IC530N PVD涂层 P10-P30 碳钢,工具钢,合金钢,铸钢,可锻铸铁,奥氏体不锈钢,马氏体不锈钢中转速,中进给,不规则切削M10-M20IC570 PVD涂层高温合金,奥氏体不锈钢,硬合金,碳钢精到粗加工,不规则切削,高转速IC900 PVD涂层 P15-P40 难加工钢,高温合金,合金钢用于高转速加工K05-K25IC907 PVD涂层 M05-M20 高温合金,奥氏体不锈钢,硬合金,碳钢高转速用于精到粗加工,包括不规则切削K05-K20IC908 PVD涂层 P15-P30 高温合金,奥氏体不锈钢,硬合金,碳钢低到中转速,很高韧性下的不规则切削M20-M30K20-K30IC910 PVD涂层 K05-K25 灰铸铁HBN>220.可锻铸铁.硅铝.铜合金,玻璃钢,胶合板,石头,木头,耐高温合金半粗,低转速,中进给,不规则切削IC928 PVD涂层 P20-P50 高温合金,奥氏体不锈钢,硬合金,碳钢粗,低转速,高进给,不规则切削M20-M40K15-K30IC950 PVD涂层 P10-P35 碳钢,合金钢,可以用于灰铁高转速铣加工,中进给,干切削K10-K30代号涂层/材料 ISO系列加工件材料应用推荐IC20N 金属陶瓷 P05-P25 碳钢,合金钢,稀有合金,铸钢,不锈钢,灰铁精加工M05-M15IC30N 金属陶瓷 P05-P25 碳钢,工具钢,合金钢,铸钢,可锻铸铁,奥氏体不锈钢,马氏体不锈钢中转速,中进给,不规则切削IB50 CBN P01-P10 HRC>50的硬化钢精,高转速IB65 CBN 合金铸铁,灰铁HBN>220,球铁,HRC>50的硬化钢半精加工IB80 CBN K01-K15 合金铸铁,灰铁HBN>220,球铁,HRC>51的硬化钢中到粗,高转速,硬钢的不规则切削IB90 CBN K01-K10 合金铸铁,灰铁HBN>220,球铁,HRC>52的硬化钢,高速钢,硬化钢,冷硬铸铁中到粗,高转速,硬钢的不规则切削IB90A 整体CBN K01-K10 冷硬铸铁,硬化钢,高速钢中到粗,硬钢的不规则切削,高转速加工铸铁ID4 PCD 纯铝合金(SI<12%),木头,玻璃钢普通加工,高转速ID5 PCD K01-K10 铝合金(SI<12%),黏结硬质合金,非铁金属高转速,精到中加工ID6 PCD K01-K10 铝合金(SI<13%),黏结硬质合金高转速,精到中加工IN11 白陶瓷 P01-P10 铸铁,镍基合金,钛基合金精加工,高转速,中进给,不规则切削K01-K10IN22 黑陶瓷 P01-P10 硬化钢精,高转速,干切削K01-K10IN23 黑陶瓷 P01-P15 铸铁,硬化钢精,高转速,干切削K01-K15IS8 氮化硅 M30 铸铁,镍基合金高转速切削,中进给,不规则切削K01-K20IS80 氮化硅涂层 M30 铸铁,镍基合金半粗,高转速,中进给,不规则切削。

HT-69020NP-0, HT-69030NP-0 Duct Probe RHTransmitter Installation GuideIntroductionThe HT-69 Series Duct Probe Relative Humidity (RH)Transmitters use a highly accurate and reliable thermosetpolymer-based capacitance humidity sensor and state-of-the-art digital linearization and temperature-compensated circuitry to monitor humidity levels in a duct. The humidity sensor is encapsulated in a 60 micron HDPE filter at the end of a 9 in. (230 mm) stainless steel (S/S) probe and a compact enclosure.Figure 1: HT-69 Duct Probe RH Transmitter DimensionsFigure 2: Dimensions of the HT-69 Duct Probe RH Transmitter*241102556A*Part No. 24-11025-56 Rev. A2022-11-11MountingThe transmitter installs directly into any air duct with a minimum width or diameter of 10 in. (25.5 cm).-Select a suitable installation area in the middle of the duct wall.-To achieve the best reading, do not place in an area where air stratification may be present.-Mount the sensor at least 5 ft. (1.5 m) in either direction from elbows, dampers, filters, or other duct restrictions.-Avoid areas that expose the transmitter to vibrations or rapid temperature changes.To install the transmitter, complete the following steps:1.When you select a suitable spot, drill a 0.6 in. (15mm) to 0.75 in. (20 mm) hole for the probe.2.Slide the probe into the drilled hole until the enclosure is flush against the duct. The airflow direction is not important.3.Secure the enclosure to the duct with two No. 10 x 1 in. (25 mm) self-tapping screws (not provided).4.Tighten the screws until the enclosure is tight against the duct so that there is no movement of the enclosure. A foam gasket on the back of the enclosure provides a tight seal against any air leaks. See Step 1 in Figure 3.5.The enclosure includes a hinged cover with a latch.To open the cover, pull slightly on the latch on the right side of the enclosure. At the same time, pull on the cover as shown in Step 2 of Figure 3.6.A 0.5 in. NPT threaded connection hole is in the bottom of the enclosure. Screw the EMT or cable gland connector into the threaded connection holeuntil tight. See Step 3 in Figure 3.Note: Preferably use weatherproof EMT or cable gland fittings. The E-style enclosure includes 0.5 in. NPT to M16 thread adaptor and cable gland fitting.7.Make wire connections as shown in the wire diagram in Wiring .8.Swing the door closed until it securely latches. For added security, install the two provided screws in the integrated screw tabs. See Step 4 of Figure 3.Wiring•Deactivate the 24 VAC/DC power supply before you make all connections to the device to prevent electrical shock or equipment damage.•Use 14 AWG to 22 AWG shielded wiring for allconnections and do not locate the device wires in the same conduit with wiring that supplies inductive loads such as motors. Make all connections in accordance with national and local codes.•Pull at least 6 in. (15 cm) of wire into the enclosure,then complete the wiring connection according to the wire diagram for the applicable power supply and output signal type. See Figure 4.•Place the output switch in the required position to select the required signal output type (mA or VDC), as shown in Step 2 of Figure 4. The factory default setting is 4 mA to 20 mA.•If you select mA, no further output set up is required.If you select VOLT output as shown in Figure 5, place the voltage output switch to the required span position,that is 10 VDC = 0 VDC to 10 VDC. The factory default setting is 0 VDC to 10 VDC. See Step 1 of Figure 4.•Connect the DC positive or the AC voltage hot side to the PWR terminal. For voltage output or AC power,connect the supply common to the COM terminal.The device is reverse voltage-protected and does not operate if you connect it backwards. The device contains a half-wave power supply so the supplycommon is the same as the signal common. See Step 3of Figure 4.•The analog output is available on the OUT terminal.Check the controller Analog Input to determine the correct connection before you apply power as shown in Step 3 of Figure 4.Figure 3: Mounting the HT-69 Duct Probe RH TransmitterFigure 4: Wiring of the HT-60 Duct Probe TransmitterTechnical specificationsTable 1: HT-69020NP-0, HT-69030NP-0 Duct Probe RH Transmitter technical specificationsThe performance specifications are nominal and conform to acceptable industry standards. For application at conditions beyond these specifications, consult the local Johnson Controls office. Johnson Controls shall not be liable for damages resulting from misapplication or misuse of its products.Product warrantyThis product is covered by a limited warranty, details of which can be found at / buildingswarranty.Software termsUse of the software that is in (or constitutes) this product, or access to the cloud, or hosted services applicable to this product, if any, is subject to applicable end-user license, open-source software information, and other terms set forth at /techterms. Your use of this product constitutes an agreement to such terms. PatentsPatents: https://Single point of contactContact informationContact your local branch office: /locationsContact Johnson Controls: /contact-us© 2022 Johnson Controls. All rights reserved. All specifications and other information shown were current as of document revision and。

User Instruction & Installation ManualLSP380 PortableLightweight Suez 575wProduct Reference Number:A2273 – LSP380 115v Portable Light Weight Suez 575w A2274 – LSP380 240v Portable Light Weight Suez 575w Manufacturers details: Distributor details:Francis Searchlights LtdUnion Road, BoltonLancashire, BL2 2HJ, UKTel: +44 (0) 1204 558960Fax: +44 (0) 1204 558979E-mail:****************.ukManual Part Number: C22276Issue: 3CONTENTS1 - Introduction2 - Safety Precautions3 - Technical Information4 - Unpacking and Installation Instructions5 - Electrical Installation6 - Operating Instructions7 - Fault Finding8 - Maintenance and Servicing9 - Wiring Diagram & General Assembly10 - Spare Parts List1 - IntroductionIt is imperative that this manual is read carefully and understood before installing your equipment. For your future reference please keep this manual in a safe place.Thank you for specifying a product from the Francis Searchlights range. All Francis products are designed to give complete customer satisfaction and are manufactured to the highest engineering standards in order to ensure optimum performance and service life.The Francis LSP range combines features proven over many years service in the most hazardous conditions in both marine and land installations.In order to prolong the life and performance of your product, we recommend that you only specify Francis Searchlights spare parts. This will also ensure that any warranties on your equipment will not be invalidated. Information on spares ordering and parts is provided in this manual.Should you ever need to contact Francis Searchlights Ltd. regarding your equipment, please quote the Product Serial Number at all times.Back To Top2 - Safety PrecautionsThe following instructions must be adhered to, in order to ensure a safe working environment and the safety of the user.⏹Prevent rain, snow, condensation and water droplets from contacting the lamp as this maycause bulb failure and possible shattering;⏹Because of the high internal pressure in excess of atmospheric. Whilst the construction isinherently strong, there is a slight risk of the bulb shattering;⏹Never look directly into an illuminated searchlight as this may cause severe damage toeyesight. If it is necessary to inspect a lamp whilst in operation, always wear suitable protective goggles;⏹Should it be necessary to examine the lamp with the front bezel removed, always use aprotective shield and wear goggles to ensure a safe working environment;⏹Never attempt to clean a lamp whilst in use;⏹Searchlights get hot. Never touch the unit when lit and always allow 15 to 20 minutes forcooling down after turning the searchlight off;⏹Never place anything on or cover the searchlight when in use;⏹Ensure the lamp has cooled sufficiently before removal;⏹If undue force appears necessary to remove the lamp, the equipment should be inspected by acompetent person or contact the manufacturer;⏹When breaking a lamp for disposal, care must be taken to ensure the glass fragments aresafely contained. This operation must be performed out of doors in free air. In allcircumstances refer to the lamp manufacturers instructions packed with the lamp;⏹Due to the vast range of lamps available it may appear possible that more powerful lamps canbe used in the equipment than for which it was designed. Even when the unit will physically accept a higher wattage or voltage lamp, this substitution is not recommended and isdangerous. This action will also void any warranties on the equipment.Always refer to the lamp manufacturers technical data when dealing with lamps.Back To Top3 - Technical InformationThis product has been designed to operate in accordance with the product specification. The LSP380 searchlight has the following features:⏹Constructed from marine grade aluminium and stainless steel fixings;⏹Parabolic split glass reflector;⏹Stove enamel paint finish;⏹Vertical movement +5° to -35°;⏹Toughened front glass;⏹Integral on/off switch;⏹Enclosure protection to IP65;⏹Weight 15.8Kg which includes Searchlight and power supply;⏹Fitted with G22 lamp changeover system, in event of lamp failure;⏹Instant lamp re-strike. No cooling down time required.⏹Split beam of two 20° sections giving a credible 40° split arc;⏹Shoulder carry strap for ease of transportation;The searchlight also performs to the following optical data:Volts Watts Range P.B.C.P. Div* Lamp Life Lamp Despatch @ 1 Lux (Hours) Cap Number 110v 575w 3767M 14,190,201 2.1° 750 G22 D15764 240v 575w 3767M 14,190,201 2.1° 750 G22 D15764In order that the searchlight operates correctly it is imperative that competent personnel are responsible for the installation, operation and servicing of this equipment. Failure to adhere to this advice may cause premature failure or incorrect operation of the searchlight, which may damage the equipment or cause personal injury.Back To Top4 - Unpacking and Installation InstructionsThe following instructions should be read and fully understood prior to installing the equipment to ensure that the correct procedures are followed, and all safety precautions are observed.Note: If the equipment has been in storage for a considerable amount of time, it is advisable to conduct a routine maintenance check on all parts before installation.Safety PrecautionsThis equipment should not be connected to an electrical supply before being installed. Installation procedures should be adhered to in order to ensure a safe working environment and reduce the risk of damage or personal injury.Preparing the Mounting PositionMark out and drill the fixing holes through the deck, it may be necessary to use a suitable sealant such as silicone on any uneven surfaces, in order to ensure a weatherproofed joint.Back To TopFor safety purposes, only competent personnel should perform the electrical installation. All equipment should be installed to current Electrical Regulations and Standards.In order to obtain the maximum light output from the searchlight, it is essential that the full operating voltage of the lamp fitted be applied to the lampholder contacts.Method of Electrical Connection1) Disconnect the supply before working on the electrical system;2) The searchlight must be connected to a fused electrical supply, using suitably sized cable;3) If the searchlight is located a considerable distance from the supply, provision must be made inthe cable size in order to overcome the voltage drop. The following table should be used for indication purposes only:4) Whenever possible cable terminations should be made below deck and with approved terminaldevices;5) If a spare auxiliary fuse or circuit breaker is not available, one of the correct type and ratingshould be fitted and connected to a positive supply. It is advisable to locate a bus bar or main connection and avoid any direct connection to the supply:6) For 110/220v AC products, the following colour coding system should be used for the customersupply cable:Brown - LiveBlue - NegativeGreen/Yellow - EarthNote: This equipment must be earthed.Back To TopThis equipment is designed for use out of doors, in free air. Never place anything on, or cover, the searchlight when in use as this may present a hazard.The beam of the searchlight can be adjusted to give a 40° split, simply release the external lock wheel and adjust the lever to achieve the desired beam split required.In event of lamp failure, the changeover mechanism can be activated by rotating the lever 180°, which then switches power to the second lamp. The second lamp may take a few seconds to achieve full brightness.This product should not be used for any purpose other than for which it was designed. Any modifications to the product should not be undertaken without consulting the manufacturer. Setting to WorkSafe service in use necessitates the strict observance of the following precautions.⏹Any article fabricated from quartz or glass is inherently fragile and care shouldtherefore be taken, at all times, when handling lamps;⏹Eye protection must be worn when handling lamps that have been removed from theirpackaging materials. The protective jacket should not be removed from the lamp forsafety reasons, as there is a remote possibility of the lamp shattering violently,especially if it is subjected to mechanical shock or vibration;⏹Always isolate the equipment from the supply before inserting a lamp;⏹Before inserting the lamp ensure that all contacts are clean. Contacts must berenewed at the slightest sign of corrosion. Sanding or filing down corroded areas is notrecommended as this will only make the conducting surface between the pin andlampholder smaller, thus causing the lamp to overheat;⏹Do not twist or bend the fused quartz bulb when fitting the lamp as mechanicalstresses MUST be avoided;⏹The lamp must be capable of unimpeded expansion when it warms up to operatingtemperature. Mechanical forces must not be applied to the fused quartz bulb;⏹Before the protective jacket is removed, suitable protection must be worn i.e face maskand gloves with wrist protection;⏹Never touch the quartz bulb with bare hands, as fingerprints will make the glass cloudyand cause a severe loss of light. This may also cause recrystallisation and thusweaken the bulb material. Should the bulb be inadvertently touched, removefingerprints with methylated spirit and a clean, soft paper towel. The bulb should thenbe wiped with distilled water. NOTE: ALWAYS WEAR MASK AND GLOVES DURINGCLEANING);In all circumstances the lamp manufacturers data should be referred to when dealing with lamps.When fitting the lamp:-Always isolate the equipment from the supply when inserting a lamp;-Ensure the circuit is suitably fused;-Ensure the lamp is of the correct power rating and type;-Check lampholder is in good condition. If the contacts show any sign of corrosion, replace the lampholder;-Check the lampholder is in a good dry condition. Never allow water to collect in the lamp fitting or come into contact with the lamp.To fit the lamp:-Loosen all the latches from the front of the searchlight by pressing down the safety catch and releasing the clip, remove the bezel and glass and store in a safe place;-Cut open one end of the protective sleeve surrounding the lamp;-Using the sleeve to prevent the fingers coming into contact with the lamp, position the two pins above the holes in the lampholder;-Gently push the lamp into the lampholder and remove the protective sleeve;TestingUpon correct installation and connection to an electrical supply, the equipment can be tested in order to ensure its’ correct performance. A competent person with some knowledge of electri cal equipment must carry out this work.Equipment required: Multimeter with leadsAmmeterUsing the equation P=VI, the approximate power output of the equipment can be calculated in the following way:-Using the multimeter, take a voltage reading;-Using the ammeter, take an amp reading from the live cable to the lamp;-Multiply these figures together to give an approximate wattage (Power output).For example:Using a 240v 1000w Tungsten halogen lamp:Voltage reading = 240v; Amps reading = 4 ampsTherefore, Wattage = 240 x 4 = 960 wattsBack To Top7- Fault FindingAll fault finding must be conducted by a competent person or qualified Electrical Engineer. Failure of Lamp to lightCauses:1)Power not supplied;2)Fuse blown;3)Failed lampRemedy:1)Check voltage at supply. If supply is not present the fault is at the customer supply. If power ispresent, see remedy 2;2)Check fuse for visual failure. If none noticeable check fuse for continuity using a multimeter. Iffuse found to be faulty, replace with new part and test equipment again for correct working order. If found to be working correctly see remedy 3;3)Firstly, check supply at rear bulkhead terminal rail (within searchlight barrel). If supply ispresent, disconnect unit from power supply before removing the lamp. If the lamp envelope is discoloured, replace the lamp. Replace lamp ensuring all precautions and instructionspreviously outlined in this manual are adhered to.4)Check that the fans in the power supply box are working correctly, if not check that the supplyis present if so, replace fan.5)Check input supply to the power supply unit is correct.6)Check that the switch on the searchlight barrel is working correctly, if not check that the supplyis present if so, replace switch.Back To Top8 - Maintenance and ServicingIn order to prolong the service life and performance of your searchlight, the following maintenance guidelines are recommended:⏹Maintenance checks should be conducted before every voyage or at least every three months;⏹Before checking, disconnect the equipment from the supply;⏹Visually inspect the condition of the equipment;⏹Any major or minor structural damage should be rectified immediately in order to reducesympathetic wear;⏹After inspection it may be necessary to clean the inside of the searchlight. The followingprocedure should be adhered to:⏹Remove the front bezel;⏹Clean the front glass inside and out using a proprietary glass cleaner;⏹Clean the reflector if required;⏹Check the reflector mounting gaskets. If signs of corrosion or damage areevident, replace as necessary;⏹Ensure that the lampholder is free from corrosion or other damage;⏹Check earth point for conductivity;⏹It is advisable to check all seals and gaskets for signs of degradation. Renew if necessary;⏹Upon completing all maintenance requirements, the searchlight should be tested for fullworking order (approximately 20 minutes).If in any doubt as to the correct servicing procedures to adopt please contact your distributor/agent or the manufacturer who will be able to advise the best course of action for your product.Back To Top9 – Wiring diagram & General AssemblyDrawing Number DescriptionC22018 Wiring DiagramA2273 General Assembly10 - Spare Parts ListThe following spare parts can be ordered directly from the manufacturer:Part Number Description Part Number DescriptionC22106 PSU Assy. C11025 Lockwheel Assy.C20595 Elevation bush C20596 Elevation washerC22170 Elevation link C22103 Shoulder strapC16893 Grommet C22268 Ventilation plug assy.C22198 Lampholder Assy. C22151 Rear gasketC22041 Proximity switch C14239 Handle (Top)C09880 Switch C22051 Sealing bootC20550 Latch C22056 IgnitorC22044 Relay base C22045 Relay 115vC22046 Relay 240v C22042 Varistor 115vC22043 Varistor 240v C22061 Front glassC22011 Front glass gasket C10870 LampholderC22040 Magnet C13980 ReflectorC20827 Reflector pads C02196 Shutter springC05125 Tension spring C22104 PSU FanC22055 PSU D15764 575w LampIn order to prolong the life and performance of your product, we recommend that you only specify Francis Searchlights spare parts. This will ensure that any warranties on your equipment will not be invalidated.When ordering spare parts please contact the Sales Department at Francis Searchlights Limited. Please quote searchlight model and serial number at all times. This will enable a fast response to your spares’ requirements.Back To Top。

盖，电脑版控制，煮饭好吃又方便。

具有预约功
能，也可以煲粥煲汤，采用的保温棉技术，长效保电脑饭煲
•独创上下空气对流散热技术，外壳不烫手。

（专利技术）
•人性化设计防刮手圈不刮手（其它厂家没有）。

•采用皱纹油印技术和进口马口铁材料，外观高档美观，防蚀耐磨。

•多功能选择，可煮饭、煲粥、煲汤，煲煮方便。

•采用密封式发热结构，聚热、加热、锁热，采用保温棉技术，使煮食时间缩短，节能省电。

•9.9小时超长预约时间，8小时有效保温60度左右。

•采用热敏电阻温控：一是防干烧，二是起到功率转换的作用。

专利名称：一种环氧基硅氧烷的用途
专利类型：发明专利
发明人：梁梅,南博华,李照谦,张雷达,汪远,邹华维,陈洋申请号：CN202111482348.5
申请日：20211206
公开号：CN114058017A
公开日：
20220218
专利内容由知识产权出版社提供
摘要：本发明属于有机硅材料技术领域，具体涉及一种环氧基硅氧烷的用途。

本发明的环氧基硅氧烷可通过含氢硅油与烯丙基缩水甘油醚进行加成反应得到。

利用所述环氧基硅氧烷对硅橡胶进行改性，得到的复合物的力学性能和粘接性能得到显著的提升。

此外，本发明的环氧基硅氧烷的制备过程可控性好，具有很好的应用前景。

申请人：四川大学,上海航天设备制造总厂有限公司
地址：610000 四川省成都市武侯区一环路南一段24号
国籍：CN
代理机构：成都高远知识产权代理事务所(普通合伙)
更多信息请下载全文后查看。

刻章机激光灯
gl刻章机激光灯光斑清晰，发散度低，准直性好，体积小，工业适用性强零贰玖陆捌伍捌壹柒零捌1智能反馈控制电路；2高效透过率光学系统；3低功耗，高效能光功率输出；
4性能稳定，一致性好，使用寿命长。

产品参数
输出波长：635nm 650nm 660nm
输出功率：635nm 0.5～30mw
650nm 0.5～200mw
660nm 0.5～300mw
工作电压： 2.7~24V DC
工作电流：≤450mA
光束发散度：0.1～1.5mrad
光线直径：Φ1mm
光学透镜：光学镀膜玻璃或塑胶透镜
尺寸：Φ6.5×15mm；Φ8×22mm；Φ10×25mm；Φ10×35mm；Φ12×36mm；Φ14×45mm；Φ16×55mm；Φ22×65mm；Φ22×80mm；Φ26×100mm（可定制）
工作温度：－10～75℃
储存温度：－40～85℃
使用寿命：连续使用大于8000小时
选配附件：
1、专用电源（配套专用电源，具有很强的抗干扰性、高稳定性、抑制浪涌电流及缓启动等特点，特别适于恶劣的工作环境，能有效保证产品的稳定性和使用寿命本文章由西安日成科技提供）
2、工业支架（配套专用支架：具有良好的导热性和灵活性，使日成的镭射激光产品可安装在任何垂直或水平面，并使之在三维空间任意360度调整，以达到最佳使用效果。

s Features•Compact surface-mount package (SOP-8)•Output current: 1.0 A•Low-ESR capacitor can be used.•Low current consumption Iq ≤ 350 µA (I O = 0 A, V C = 2 V)•Low current consumption Iq (OFF) ≤ 1 µA (V C = 0 V)•Low dropout voltage V DIF ≤ 0.6 V (I O = 1 A)• 4 types of output voltages (1.8 V , 2.5 V, 3.3 V , and variable type) available •Output ON/OFF control pin compatible with LS-TTL•Built-in dropping type overcurrent, thermal protection circuitss Applications•Local power supplies•Battery-driven electronic equipmentsAbsolute Maximum Ratings(T a =25°C)*1:V IN (max) and I O (max) are restricted by the relationship PD = (V IN - V O ) x I O . Calculate these values referring to thepower dissipation vs. copper area data shown in this document.*2:When mounted on a glass epoxy board measuring 1600 mm 2 (with 2% copper area).s Electrical Characteristics*1:Refer to the description on the dropout voltage.*2:The I s1 is specified as the 5% drop point of output voltage V O on the condition that V IN = V O + 1 V, and I O = 10 mA.*3:Output is OFF when the output control pin (V C pin) is open. Each input level is equivalent to that for LS-TTL. Therefore, the device can be driven directly by an LS-TTL circuit.s External Dimensions(Unit : mm)s Block Diagrams Example of Solder Pattern DesignsTaping Specificationss Typical Characteristics Examples of SI-3012KS and SI-3025KS(T a =25°C) *V out =2.5 V for SI-3012KS (RS=24 k Ω)Dropout voltageRise characteristicsLine regulationLoad regulationOvercurrent protection characteristicsInput voltage vs. Quiescent currentCircuit currentControl terminal voltage vs. Output voltageControl terminal voltage vs. Control terminal current10.80.60.40.200.20.4Output current A0.60.81D r o p o u t v o l t a g eVInput voltage VO u t p u t v o l t a g e VInput voltage VO u t p u t v o l t a g e VOutput current AO u t p u t v o l t a g e VOutput current AO u t p u t v o l t a g e VInput voltage VQ u i e s c e n t C u r r e n t AµInput voltage VG N D c u r r e n t mAControl ternimal voltage VO u t p u t v o l t a g e V3020251551001234Control terminal voltage VC o n t r o l t e r m i n a l c u r r e n t Aµs Typical Characteristics Examples of SI-3033KS(T a =25°C)Dropout voltageRise characteristicsLine regulationLoad regulationOvercurrent protection characteristicsInput voltage vs. Quiescent currentCircuit currentControl terminal voltage vs. Output voltageControl terminal voltage vs. Control terminal current10.80.60.40.200.20.4Output current A0.60.81D r o p o u t v o l t a g e VInput voltage VO u t p u t v o l t a g e VInput voltage VO u t p u t v o l t a g e VOutput current AO u t p u t v o l t a g e VOutput current AO u t p u t v o l t a g e VQ u i e s c e n t C u r r e n tAInput voltage VµInput voltage VG N D c u r r e n t mAControl terminal voltage VO u t p u t v o l t a g e V3020251551001234Control terminal voltage VC o n t r o l t e r m i n a l c u r r e n t Aµ。

Transistor Rev.B 1/32.5V Drive Nch MOS FET2SK3018z StructureSilicon N-channel MOSFETz ApplicationsInterfacing, switching (30V , 100mA)z Features1) Low on-resistance. 2) Fast switching speed.3) Low voltage drive (2.5V) makes this device ideal for portable equipment.4) Drive circuits can be simple. 5) Parallel use is easy . z External dimensions (Unit : mm)z Packaging specificationsz Absolute maximum ratings (T a=25°C)ParameterDrain-source voltage Gate-source voltage Drain currentTotal power dissipation Channel temperature Storage temperatureV DSS V GSS P D ∗2Tch 30VV mA mW °C ±20±100I D I DP ∗1Continuous PulsedmA ±400200150Tstg°C−55 to +150Symbol Limits Unit ∗1 Pw ≤10µs, Duty cycle ≤1%∗2 With each pin mounted on the recommended lands.z Equivalent circuitA protection diode is included between the gateand the source terminals to protect the diodeagainst static electricity when the product is in use. Use a protection circuit when the fixed voltages are exceeded.z Thermal resistanceParameter°C / WRth(ch-a)Symbol Limits Unit Channel to ambient∗ With each pin mounted on the recommended lands.625∗Transistor Rev.B 2/3z Electrical characteristics (T a=25°C)z Electrical characteristic curvesD R A I N C U R RE N T : I D (A )DRAIN-SOURCE VOLTAGE : V DS (V)Fig.1 Typical output characteristicsD R A I N C U R RE N T : I D(A )GATE-SOURCE VOLTAGE : V GS (V)Fig.2 Typical transfer characteristicsG A T E T H R E S H O L D V O L T A G E : V G S (t h ) (V )CHANNEL TEMPERATURE : Tch (°C )Fig.3 Gate threshold voltage vs.channel temperatureS T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (o n ) (Ω)DRAIN CURRENT : I D (A)Fig.4 Static drain-source on-stateresistance vs. drain current ( Ι )S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (o n ) (Ω)DRAIN CURRENT : I D (A)Fig.5 Static drain-source on-stateresistance vs. drain current (ΙΙ)GATE-SOURCE VOLTAGE : V GS (V)S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (o n ) (Ω)Fig.6 Static drain-sourceon-state resistance vs. gate-source voltageTransistor Rev.B 3/3CHANNEL TEMPERATURE : Tch (°C)S T A T I C D R A I N -S O U R C E O N -S T A T E R E S I S T A N C E : R D S (o n ) (Ω)Fig.7 Static drain-source on-stateresistance vs. channel temperatureF O R W A R D T R A N S F E R A D M I T T A N C E : |Y f s | (S )DRAIN CURRENT : I D (A)Fig.8 Forward transferadmittance vs. drain currentR E V E R S E D R A I N C U R R E N T : I D R (A )SOURCE-DRAIN VOLTAGE : V SD (V)Fig.9 Reverse drain current vs.source-drain voltage ( Ι )R E V E R S E D R A I N C U R R E N T : I D R (A )SOURCE-DRAIN VOLTAGE : V SD (V)Fig.10 Reverse drain current vs.source-drain voltage ( ΙΙ )C A P A C I T A N C E : C (p F )DRAIN-SOURCE VOLTAGE : V DS (V)Fig.11 Typical capacitance vs.drain-source voltageS W I T C H I N G T I M E : t (n s )DRAIN CURRENT : I D (mA)Fig.12 Switching characteristics(See Figures 13 and 14 for the measurement circuit and resultant waveforms)z Switching characteristics measurement circuitFig.13 Switching time measurement circuit DSFig.14 Switching time waveformsAppendixAbout Export Control Order in JapanProducts described herein are the objects of controlled goods in Annex 1 (Item 16) of Export T rade ControlOrder in Japan.In case of export from Japan, please confirm if it applies to "objective" criteria or an "informed" (by MITI clause)on the basis of "catch all controls for Non-Proliferation of Weapons of Mass Destruction.Appendix1-Rev1.1。