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Uvisor SF810i智能一体化火焰检测器

Uvisor SF810i智能一体化火焰检测器

连接器 / 端子 24VDC/+ 24VDC/J4/AO+ J4/AOJ2/DI1 J2/DI2 J2/C COMM1/D1+ COMM1/D1COMM1/GND1 COMM2/D2+ COMM2/D2COMM2/GND2 J1/SAFE J1/FLAME J1/C SHIELD
信号名称 +24VDC GND AO+ AODI1 DI2 DI_common D1+ D1GND1 D2+ D2GND2 安全 火焰 公共端 屏蔽
✓ ✓
工作环境 ✓ ATEX II 2GD T6 IP66(气体和防尘)防爆 壳体, 窗口式外壳盖 安装 ✓ 外窥式火检配置瞄准火焰的辅助装置 ✓ 光纤型火检安装于风箱内
通 过 基 于 PC 机 Windows 界 面 的 Flame Explorer ™软件包,可以对多达 254 个检测器探头进行联网 作进一步的设置。可以进行参数文件存档、功能组 浏览、实时和历史趋势监视,以及高级诊断(包括 火焰原始信号)功能。
机械规格

尺寸

最大直径 95 mm 总长:180mm 1.3 Kg IP66(CEI EN 60529)


重量 保护等级
-3-
Uvisor™ SF810i 多燃料一体化安全火焰检测器
产品数据表
UvisorTM SF810i 的 LOS(外窥式)安装
SF810i– 检测器
火焰检测器位置 调节法兰
Uvisor™ SF810i 多燃料一体化安全火焰检测器
Uvisor™ SF810i 多燃料一体化安全火焰检测器
产品数据表(版本 E) ❒ 应用:
发电厂锅炉和各式工业锅炉 ✓ 适用于前后墙对冲式燃烧、四角切圆燃烧、 WHRB、 “W”火焰燃烧 多燃料 ✓ 天然气、焦炉煤气、高炉煤气 ✓ 轻油、重油和奥里油 ✓ 煤粉 ABB 集成全球两个最成功的火焰探测器系列产品 Uvisor ™ 和 Safe Flame DFS 的最关键技术,研制 出当今世界最先进的火焰检测器 - Uvisor™ SF810i Uvisor™ SF810i 是一个多燃料火焰检测器,应用 于对发电厂和工业锅炉燃烧器火焰连续检测,并提 供稳定可靠的火焰品质信息。 Uvisor™ SF810i 拥有现代工艺技术成果,可以适 合各种恶劣环境: ◆ 固态传感器可以探测火焰的全辐射光谱(紫外 线 - 可见光 - 红外线) 。 ◆ 信号处理器单元,一个功能强大的模块,能够 运行 ABB 专利的火焰分析程序。在发出火焰状 态以前,实时测量动态火焰信号,连续接受全 面的智能诊断程序的监控。 ◆ 通信驱动程序,内置两个冗余 Profibus DP-V1 总线(或可选择为 Modbus 标准)可用于向外 部的监视和管理系统提供高速数据传输。 ◆ 端子板和配置电路板,利用本机显示器和按钮, 允许进行初步的设置以及在线调整功能。所有 的输入 / 输出端子都采用螺钉式连接器。 Uvisor™ SF810i 火焰检测器配置了适合不同炉型 的附件: 外窥式火检(LOS)用于前后墙对冲式燃烧锅 炉和“W”火焰燃烧锅炉。 配备了外导管的光纤型火检(FOC)应用于四 角切圆摆动燃烧器锅炉,同时提供冷却风软管 和安装套管。

ICSLV810FILF中文资料

ICSLV810FILF中文资料

ICSLV810 Buffer/Clock DriverDescriptionThe ICSLV810 is a low skew 1.5 V to 2.5 V, 1:10 fanout buffer. This device is specifically designed for data communications clock management. The large fanout from a single input line reduces loading on the input clock. The TTL level outputs reduce noise levels on the part. Typical applications are clock and signal distribution. Features•Packaged in 20-pin QSOP/SSOP•Split 1:10 fanout Buffer•Maximum skew between outputs of different packages 0.75 ns•Max propagation delay of 3.8 ns•Operating voltage of 1.5 V to 2.5 V on Bank A •Operating voltage of 1.5 V to 2.5 V on Banks B and C •Advanced, low power, CMOS process •Industrial temperature range -40° C to +85° C• 3.3 V tolerant input when VDDA=2.5 V •Available in Pb (lead) free packagingBlock DiagramBuffer/Clock Driver Pin AssignmentPin DescriptionsPin NumberPinNamePinTypePin Description1CLKIN Input Clock input.2GND Power Connect to ground.3CLK1Output Clock output.4VDDA Power Connect to +1.5 - +2.5 V. 5CLK2Output Clock output.6GND Power Connect to ground.7CLK3Output Clock output.8VDDA Power Connect to +1.5 - +2.5 V. 9CLK4Output Clock output.10GND Power Connect to ground.11CLK5Output Clock output.12CLK6Output Clock output.13GND Power Connect to ground.14CLK7Output Clock output.15VDDC Power Connect to +1.5 - 2.5 V. 16CLK8Output Clock output.17GND Power Connect to ground.18CLK9Output Clock output.19CLK10Output Clock output.20VDDB Power Connect to +1.5 - 2.5 V.Buffer/Clock DriverExternal ComponentsThe ICSLV810 requires a minimum number of external components for proper operation.Decoupling CapacitorsDecoupling capacitors of 0.01µF must be connected between VDD and GND, as close to these pins as possible. For optimum device performance, the decoupling capacitors should be mounted on thecomponent side of the PCB. Avoid the use of vias in the decoupling circuit.Series Termination ResistorWhen the PCB trace between the clock outputs and the loads are over 1 inch, series termination should be used. T o series terminate a 50Ω trace (a commonly used trace impedance) place a 33Ω resistor in serieswith the clock line, as close to the clock output pin as possible. The nominal impedance of the clock output is 20Ω.PCB Layout RecommendationsFor optimum device performance and lowest output phase noise, the following guidelines should be observed.1) The 0.01µF decoupling capacitors should bemounted on the component side of the board as close to the VDD pins as possible. No vias should be used between the decoupling capacitors and VDD pins. The PCB trace to VDD pin should be kept as short as possible, as should the PCB trace to the ground via. 2) T o minimize EMI the 33Ω series termination resistor, if needed, should be placed close to the clock output.Absolute Maximum RatingsStresses above the ratings listed below can cause permanent damage to the ICSLV810. These ratings, which are standard values for ICS commercially rated parts, are stress ratings only. Functional operation of the device at these or any other conditions above those indicated in the operational sections of thespecifications is not implied. Exposure to absolute maximum rating conditions for extended periods can affect product reliability. Electrical parameters are guaranteed only over the recommended operating temperature range.Recommended Operation ConditionsItemRatingSupply Voltage, VDD MAX 7 VAll Inputs and Outputs-0.5 V to VDDA + 1.2 V Ambient Operating Temperature -40 to +85°C Storage Temperature -65 to +150°C Junction Temperature 125°C Soldering Temperature260°CParameterMin.Typ.Max.UnitsAmbient Operating Temperature-40+85°C Power Supply Voltage (measured with respect to GND), VDDA 1.425 2.625V Power Supply Voltage (measured with respect to GND), VDDB 1.425 2.625V Power Supply Voltage (measured with respect to GND), VDDC1.4252.625VBuffer/Clock DriverDC Electrical Characteristics—CLKIN and Bank AVDDA = 2.5 V , Ambient Temperature -40° C to +85° CNote1: This parameter is not tested, guaranteed by design.DC Electrical Characteristics—Bank BVDDB = 2.5 V , Ambient Temperature -40° C to +85° C, unless otherwise notedParameterSymbolConditionsMin.Typ.Max.UnitsOperating Voltage VDDA 1.4252.625V Quiescent Power Supply CurrentIDDA No Load F = 40 MHz 15mA Short Circuit Current I OS CLK 1 - 5±80mA Input High Voltage, CLKINV IH Guaranteed Logic Level High1.6VInput Low Voltage, CLKINV IL Guaranteed Logic Level Low 0.8V Output High Voltage V OH VIN = VIH or VILI OH = -7 mA 1.8V Output Low Voltage V OL VIN = VIH or VIL I OL =12 mA 0.4V Input High Current I IH VDD = max VIN = 2.4 V 1µA Input Low Current I IL VDD = max VIN = 0.5 V -1µA Input High Current I I VDD = max VIN = VDD (max)20µA Input Capacitance C IN VIN = 0V , Note15 6.0pF Output CapacitanceC OUTV OUT = 0V, Note15.58.0pFParameterSymbolConditionsMin.Typ.Max.UnitsOperating Voltage VDDB 1.4252.625V Quiescent Power Supply CurrentIDDBVDDB = 2.5 V No Load F = 40 MHz 7mAVDDB = 1.5 V No Load F = 40 MHz3mA Short Circuit CurrentI OS VDDB = 1.5 V CLK8-10±35mA VDDB = 2.5 VCLK8-10±80mABuffer/Clock DriverNote1: This parameter is not tested, guaranteed by design.DC Electrical Characteristics—Bank CVDDC = 2.5 V , Ambient Temperature -40° C to +85° C, unless otherwise notedOutput High VoltageV OHVDDB = 1.5 V VIN = VIH or VIL I OH = -7 mA 1.1V VDDB = 2.5 V VIN = VIH or VILI OH = -7 mA 1.8VOutput Low VoltageV OLVDDB = 1.5 V VIN = VIH or VIL I OL =12 mA 0.42V VDDB = 2.5 V VIN = VIH or VILI OL =12 mA0.4V Input High Current I IH VDDB = max 1µA Input Low Current I IL VDDB = max -1µA Input High Current I I VDDB = max, VIN = VDD (max)20µA Input Capacitance C IN VIN = 0V , Note15 6.0pF Output CapacitanceC OUTV OUT = 0V, Note 15.58.0pFParameterSymbolConditionsMin.Typ.Max.UnitsOperating Voltage VDDC 1.4252.625V Quiescent Power Supply CurrentIDDCVDDC = 2.5 V No Load F = 40 MHz 3mAVDDC = 1.5 V No Load F = 40 MHz2mA Short Circuit Current I OS VDDC = 1.5 V CLK6-7±35mA VDDC = 2.5 V CLK6-7±80mA Output High VoltageV OHVDDC = 1.5 V VIN = VIH or VIL I OH = -7 mA 1.1V VDDC = 2.5 V VIN = VIH or VILI OH = -7 mA 1.8V Output Low VoltageV OLVDDC = 1.5 V VIN = VIH or VIL I OL =12 mA 0.42V VDDC = 2.5 V VIN = VIH or VILI OL =12 mA0.4V Input High Current I IH VDDC = max 1µA Input Low CurrentI ILVDDC = max-1µAParameterSymbolConditionsMin.Typ.Max.UnitsBuffer/Clock DriverNote1: This parameter is not tested, guaranteed by design.AC Electrical Characteristics—Bank AVDDA = 2.5 V , Ambient Temperature -40° C to +85° CInput High Current I I VDDC = max, VIN = VDD (max)20µA Input Capacitance C IN VIN = 0V, Note15 6.0pF Output CapacitanceC OUTV OUT = 0V , Note 15.58.0pFParameterSymbolConditionsMin.Typ.Max.UnitsOutput Skew: skew between outputs of same package t SK(0)CL = 3 pF , RL = 500ΩFigure 3-200200psPulse Skew: skew between opposite transitions of same output (t PLH -t PHL )t SK(P)CL = 3 pF ,RL = 500ΩFigure 4-200200psPropagation Delayt pLH / t pHL CL = 3 pF ,RL = 500ΩFigure 2 1.5 2.6 3.5nsPart to Part Skew t SK(t)CL = 3 pF , RL = 500ΩFigure 5-650650psOutput Rise Time 20% to 80%t r(o)CL = 3 pF ,RL = 500Ω0.8ns Output Fall Time 80% to 20%t f(o)CL = 3 pF , RL = 500Ω0.8ns Additive Jitter t J All Outputs 50ps Duty CycleMeasured at VDD/2DC CL = 3 pF , RL = 500Ω4555%Duty Cycle, VDDA=1.8V DC405060%Output Frequency Range1133MHzParameterSymbolConditionsMin.Typ.Max.UnitsBuffer/Clock DriverAC Electrical Characteristics—Bank BVDDB = 2.5 V, Ambient Temperature -40° C to +85° C, unless otherwise notedParameter Symbol Conditions Min.Typ.Max.UnitsOutput Skew: skew between outputs of same package t SK(0)C L = 3 pF, R L = 500ΩFigure 3-200200psPulse Skew: skew between opposite transitions of same output (t PLH-t PHL)t SK(P)C L = 3 pF, R L = 500ΩFigure 4-200200psPropagation Delay t pLH / t pHL C L = 3 pF, R L = 500Ω,VDDB = 1.5 VFigure 25.5nsC L = 3 pF, R L = 500Ω,VDDB = 2.5 VFigure 21.52.63.5nsPart to Part Skew C L = 3 pF, R L = 500ΩVDDB = 1.5 VFigure 5-11nsC L = 3 pF, R L = 500ΩVDDB = 2.5 VFigure 5-650650psOutput Rise Time 20% to 80%t r(o)C L = 3 pF, R L = 500ΩVDDB = 1.5 V1.0nsC L = 3 pF, R L = 500ΩVDDB = 2.5 V0.8nsOutput Fall Time 80% to 20%t f(o)C L = 3 pF, R L = 500ΩVDDB = 1.5 V1.0nsC L = 3 pF, R L = 500ΩVDDB = 2.5 V0.8nsAdditive Jitter t J All Outputs,VDDB = 1.5 V34psAll Outputs,VDDB = 2.5 V50psDuty Cycle Measured at VDD/2DC CL = 3 pF,RL = 500Ω4555%Duty Cycle, VDDB = 1.8V DC405060% Output Frequency Range1133MHzBuffer/Clock DriverAC Electrical Characteristics—Bank CVDDC = 2.5 V, Ambient Temperature -40° C to +85° C, unless otherwise notedParameter Symbol Conditions Min.Typ.Max.UnitsOutput Skew: skew between outputs of same package t SK(0)C L = 3 pF, R L = 500ΩFigure 3-200200psPulse Skew: skew between opposite transitions of same output (t PLH-t PHL)t SK(P)C L = 3 pF, R L = 500ΩFigure 4-200200psPropagation Delay t pLH / t pHL C L = 3 pF, R L = 500Ω,VDDC = 1.5 VFigure 25.5nsC L = 3 pF, R L = 500Ω,VDDC = 2.5 VFigure 21.52.63.5nsPart to Part Skew C L = 3 pF, R L = 500ΩVDDC = 1.5 VFigure 5-11nsC L = 3 pF, R L = 500ΩVDDC = 2.5 VFigure 5-650650psOutput Rise Time 20% to 80%t r(o)C L = 3 pF, R L = 500ΩVDDC = 1.5 V1.0nsC L = 3 pF, R L = 500ΩVDDC = 2.5 V0.8nsOutput Fall Time 80% to 20%t f(o)C L = 3 pF, R L = 500ΩVDDC = 1.5 V1.0nsC L = 3 pF, R L = 500ΩVDDC = 2.5 V0.8nsAdditive Jitter t J All Outputs,VDDC = 1.5 V34psAll Outputs,VDDC = 2.5 V50psDuty Cycle Measured at VDD/2DC CL = 3 pF,RL = 500Ω4555%Duty Cycle, VDDC=1.8V DC405060% Output Frequency Range1133MHzBuffer/Clock DriverThermal Characteristics for 20QSOPThermal Characteristics for 20SOICParameterSymbolConditionsMin.Typ.Max.UnitsThermal Resistance Junction to AmbientθJA Still air 135°C/W θJA 1 m/s air flow 93°C/W θJA 3 m/s air flow78°C/W Thermal Resistance Junction to CaseθJC60°C/WParameterSymbolConditionsMin.Typ.Max.UnitsThermal Resistance Junction to AmbientθJA Still air 83°C/W θJA 1 m/s air flow 71°C/W θJA 3 m/s air flow58°C/W Thermal Resistance Junction to CaseθJC46°C/WPackage dimensions are kept current with JEDEC Publication No. 95Buffer/Clock DriverPackage Outline and Package Dimensions (20-pin SSOP, 209 Mil. Body)Package dimensions are kept current with JEDEC Publication No. 95Ordering InformationParts that are ordered with a "LF" suffix to the part number are the Pb-Free configuration and are RoHS compliant.While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems (ICS) assumes no responsibility for either its use or for the infringement of any patents or other rights of third parties, which would result from its use. No other circuits, patents, or licenses are implied. This product is intended for use in normal commercial applications. Any other applications such as those requiring extended temperature range, high reliability, or other extraordinary environmental requirements are not recommended without additional processing by ICS. ICS reserves the right to change any circuitry or specifications without notice. ICS does not authorize or warrant any ICS product for use in life support devices or critical medical instruments.Part / Order NumberMarkingShipping PackagingPackageTemperatureICSLV810RI ICSLV810RI Tubes 20-pin QSOP -40 to +85° C ICSLV810RIT ICSLV810RI T ape and Reel20-pin QSOP -40 to +85° C ICSLV810FI ICSLV810FI Tubes 20-pin SSOP -40 to +85° C ICSLV810FIT ICSLV810FI T ape and Reel20-pin SSOP -40 to +85° C ICSLV810RILF LV810RILF Tubes 20-pin QSOP -40 to +85° C ICSLV810RILFT LV810RILF T ape and Reel20-pin QSOP -40 to +85° C ICSLV810FILF LV810FILF Tubes 20-pin SSOP -40 to +85° C ICSLV810FILFTLV810FILFT ape and Reel20-pin SSOP-40 to +85° CRevision HistoryRev.Originator Date Description of ChangeA P.Griffith03/25/05New device/datasheet.B P.Griffith05/02/05Released from Preliminary to final; changed Short Circuit Current parameter in 2.5 V DCChar table to ±80 mA; changed Short Circuit Current parameter in 1.5 V DC Char table to±35 mAC P.Griffith05/12/05Added bullet in “Features” for operating voltage of 2.5 V on Bank A and specified thatoperating voltages of 1.5 and 2.5 V are on Banks B and C; changed block diagram inputand pin 1 from IN to CLKIN; removed +1.5 V spec from pin 4 and pin 8 descriptions; added“VDDA + 1.2 V” to “All Inputs and Outputs” section of Absolute Maximum Ratings; addedmin and max values for Banks A, B, and C “Power Supply Voltage” in RecommendedOperating Conditions; expanded DC Electrical Char tables in to include a separate tablefor Banks A, B, and C; expanded AC Electrical Char tables in to include a separate tablefor Banks A, B, and C;D P.Griffith06/21/05Added 209 mil 20-pin SSOP package and ordering info.E K. Beckmeyer07/27/05Specified operating voltage on Bank A from 1.5V to 2.5V; Added figures 4 and 5 on page10 to explain Pulse Skew and Part-to-Part Skew; Changed Output Frequency MaxSpecification to 133MHz in AC Electrical Char tables for Banks A, B, and C; Added DutyCycle Spec for VDD = 1.5V in AC Electrical Char tables for Banks A, B, C; Changed CLKconditions in DC Electrical Char tables on Banks B and C; removed SOIC package.F K. Beckmeyer10/13/05Added “LF” packaging and ordering info to both “R” and”F” packages.。

福禄克810_____gschi0000

福禄克810_____gschi0000
Fluke Corporation P.O. Box 9090 Everett, WA 98206-9090 U.S.A. Fluke Europe B.V. P.O. Box 1186 5602 BD Eindhoven The Nethe3 3 3 4 4 6 6 8 8 9
有限担保和有限责任 保证您的 Fluke Vibration Tester 从装运给您之日起三年之内在正常使用和维修之下不会有材料和工艺缺陷。同样的保证条 件也适用于转速计和传感器,但是只是保证从装运之日起的一年时间。本担保仅限于 Fluke 授权零售商的原购买人或最终用 户,并且不适用于一次性电池、电缆接头、电缆绝缘转换接头或 Fluke 认为由于误用、改装、疏忽、污染及意外或异常操作 或处理引起的任何产品损坏。Fluke 担保软件能依照功能规格正常运行 90 天,并且软件是记录在无缺陷的媒介上。Fluke 并 不担保软件毫无错误或在运行中不会中断。 Fluke 授权的零售商应仅对最终用户就新的和未使用的产品提供本担保,但无权代表 Fluke 公司提供额外或不同的担保。只有 通过 Fluke 授权的销售店购买的产品或者买方已经按适用的国际价格付款才能享受 Fluke 的担保支持。在一国购买的产品需 在他国修理时,Fluke 有权向买方要求负担重大修理/零件更换费用。 Fluke 的担保为有限责任,由 Fluke 决定是否退还购买金额、免费修理或更换在担保期间退还 Fluke 授权服务中心的故障产 品。 如需要保修服务,请与您就近的 Fluke 授权服务中心联系,获得退还授权信息;然后将产品寄至服务中心,并附上产品问题 描述,同时预付运费和保险费(目的地离岸价格)。Fluke 不承担运送途中发生的损坏。在保修之后,产品将被寄回给买方并 提前支付运输费(目的地交货)。如果 Fluke 认定产品故障是由于疏忽、误用、污染、修改、意外或不当操作或处理状况而产 生,包括未在产品规定的额定值下使用引起的过压故障;或是由于机件日常使用损耗,则 Fluke 会估算修理费用,在获得买 方同意后再进行修理。在修理之后,产品将被寄回给买方并预付运输费;买方将收到修理和返程运输费用(寄发地交货)的帐 单。 本担保为买方唯一能获得的全部补偿内容,并且取代所有其它明示或隐含的担保,包括但不限于适销性或满足特殊目的任何隐 含担保。FLUKE 对任何特殊、间接、偶发或后续的损坏或损失概不负责,包括由于任何原因或推理引起的数据丢失。 由于某些国家或州不允许对隐含担保的期限加以限制、或者排除和限制意外或后续损坏,本担保的限制和排除责任条款可能并 不对每一个买方都适用。如果本担保的某些条款被法院或其它具有适当管辖权的裁决机构判定为无效或不可执行,则此类判决 将不影响任何其它条款的有效性或可执行性。

咨询通告易折易碎杆塔通用技术要求及检测规范-中国民用航空局

咨询通告易折易碎杆塔通用技术要求及检测规范-中国民用航空局

咨询通告易折易碎杆塔通⽤技术要求及检测规范-中国民⽤航空局中国民⽤航空局机场司编⼀⼀号:AC-137-CA-2014-01下发⽇期:2014年9⽉9⽇易折易碎杆塔通⽤技术要求及检测规范⽬⼀录1⽬的(1)2适⽤范围(1)3定义(1)4参考资料(2)5通⽤要求(3)⼀5.1产品(3)⼀5.2环境条件(4)⼀⼀5.2.1风(4)⼀⼀5.2.2温度(5)⼀⼀5.2.3湿度(5)⼀⼀5.2.4⽇照(5)⼀⼀5.2.5盐雾(5)⼀⼀5.2.6振动(5)⼀⼀5.2.7摆动(5)⼀5.3材料(6)⼀⼀5.3.1杆塔材料(6)⼀⼀5.3.2其它部件材料(6)⼀5.4⼯艺要求(6)⼀⼀5.4.1钢铁制件和钢制紧固件(7)⼀⼀5.4.2铝制件(7)⼀⼀5.4.3颜⾊(7)⼀⼀5.4.4涂装(7)⼀5.5⾼度(7)⼀5.6重量(7)⼀5.7易折性要求(8)⼀5.8组装要求(9)⼀5.9偏移要求(9)⼀5.10可维护性(9)1⼀⼀5.10.1⼀般要求(9)⼀⼀5.10.2特殊要求(10)⼀5.11基础(10)⼀5.12防雷接地(10)⼀5.13电线电缆(11)⼀5.14清洁(11)⼀5.15说明书(11)6试验规程和合格判断条件(11)⼀6.1可视测试(11)⼀6.2盐雾试验(11)⼀⼀6.2.1试验程序(11)⼀⼀6.2.2合格判断条件(11)⼀6.3太阳辐射试验(11)⼀⼀6.3.1试验程序(12)⼀⼀6.3.2合格判断条件(12)⼀6.4偏移试验(12)⼀⼀6.4.1试验程序(12)⼀⼀6.4.2合格判断条件(12)⼀6.5易折性试验(12)⼀⼀6.5.1试验⼯具和程序(13)⼀⼀6.5.2合格判断条件(14)⼀6.6风压试验(14)⼀⼀6.6.1试验程序(14)⼀⼀6.6.2合格判断条件(15)⼀6.7维护性能试验(15)7出⼚检验(15)⼀7.1检验(15)⼀7.2检验记录(15)8包装(15)编写说明(17)2易折易碎杆塔通⽤技术要求及检测规范1⽬的为明确民⽤机场飞⾏区内易折易碎杆塔的技术要求,规范有关检测⼯作,根据国际民航组织第9157号⽂件‘机场设计⼿册第6部分-易折性“,参考美国联邦航空局第150/5345-45C号咨询通告‘Low-impactResistantStructures“,制定本咨询通告三2适⽤范围本咨询通告适⽤于民⽤机场飞⾏区障碍物限制⾯中的⽤于⽀撑助航设施设备的易折易碎杆塔,包括进近灯光杆塔⼆仪表着陆设备杆塔⼆风向标杆塔等类似结构,不适⽤于跑道⼆停⽌道和滑⾏道边上的⽴式灯具三3定义a.易折易碎物体三在规定的冲击⼒下会折断(破碎)⼆弯曲或屈服,从⽽对航空器的危害达到最⼩的轻质量物体三b.易折性三机场各种⽬视和⾮⽬视助航设施(例如进近灯光杆塔⼆⽓象设备⼆⽆线电导航设备等)⼀般设在跑道⼆滑⾏道和机坪附近,若起飞⼆着陆或地⾯运⾏的航空器与其意外碰撞会造成危险三所有此类设备及其⽀柱必须易折且应当安装得尽可能低,以保证碰撞不会导致航空器失控三易折性可通过多种设计理念来实1现,例如可采⽤轻质易折易碎材料⼆脆性或低韧性的构件和连接件等⽅式,以确保易折物体受到碰撞时破碎⼆弯曲或屈服三注:易折性包含易折性和易碎性三c.易折易碎杆塔三易折易碎杆塔(以下简称易折杆)是指采⽤轻质易碎材料或易折结构制成的单杆式⼆塔架式等构型的⽀撑结构物三注:易折杆通常⽤作进近灯光系统⼆仪表着陆系统航向仪天线⼆下滑仪天线⼆风向标⼆⼤⽓投射仪⼆前向散射仪等机场设备的⽀柱三4参考资料a.GB50009-2012‘建筑结构荷载规范“b.GB50135-2006‘⾼耸结构设计规范“c.GB/T3190-2008‘变形铝及铝合⾦化学成分“d.GB/T6892-2006‘⼀般⼯业⽤铝及铝合⾦挤压型材“e.GB/T8733-2007‘铸造铝合⾦锭“f.GB/T11206-2009‘橡胶⽼化试验表⾯龟裂法“g.GB/T13912-2002‘⾦属覆盖层钢铁制件热浸镀锌层技术要求及试验⽅法“h.GB/T5267.3-2008‘紧固件热浸镀锌层“i.GB/T20878-2007‘不锈钢和耐热钢-牌号及化学成分“j.GB/T10610-2009‘产品⼏何技术规范(GPS)表⾯结构轮廓法评定表⾯结构的规则和⽅法“2k.GB/T13384-2008‘机电产品包装通⽤技术条件“l.GB/T3098.1-2000‘紧固件机械性能螺栓⼆螺钉和螺柱“m.GJB150.1A-2009‘军⽤装备实验室环境试验⽅法第1部分:通⽤要求“n.GJB150.7A-2009‘军⽤装备实验室环境试验⽅法第7部分:太阳辐射试验“o.GJB150.11A-2009‘军⽤装备实验室环境试验⽅法第11部分:盐雾试验“p.GJB150.21A-2009‘军⽤装备实验室环境试验⽅法第21部分:风压试验“q.MH5001-2013‘民⽤机场飞⾏区技术标准“r.ICAODoc9157‘机场设计⼿册第6部分易折性“s.ICAO附件14‘机场-卷I机场设计和运⾏“t.FAAAC150/5345-45CLow-impactResistantStructuresu.FAA-E-2702Low-impactResistantStructuresv.MIL-STD-810FEnvironmentalEngineeringConsiderationsandLaboratoryTestsw.ASTMA325M‘最⼩抗拉强度830MPa的热处理⽶制钢结构螺栓“5通⽤要求5.1产品产品应当结构完整⼆配件齐全⼆外观完好,整体满⾜本规程的3技术要求,还应当提供出⼚试验报告和产品型式试验报告⼆产品出⼚合格证和使⽤说明书三注:产品应当包括易折杆的所有零部件(安装底座⼆调整和连接组件等),还应当提供安装和维护所必需的装置(如升降或折倒装置等)三5.2环境条件易折杆及其零部件和所有必需设备置于以下环境中,其结构或任意易折易碎部分必须能正常⼯作⽽不会失效三5.2.1风a.确定⾃然风速三易折杆应当⾜够结实牢固以满⾜在国家规定的典型⾃然风荷载(例如覆冰12.5mm和风速140km/h)中正常⼯作的运⾏要求;还应当能经受210km/h的风速,或采⽤当地50年⼀遇最⼤风压来确定风荷载,具体可参考GB50009‘建筑结构荷载规范“,取两者最⼤值三b.确定喷⽓⽓流风速三航空器的喷⽓⽓流不应当对正常⼯作的易折杆产⽣破坏和永久性变形三设计时,应当使⽤航空器排⽓轮廓线图,结合易折杆相对于航空器的距离和⽅向,确定易折杆所能承受的喷⽓⽓流风速三c.综合确定设计风速三易折杆应当综合考虑当地的⾃然风和航空器的喷⽓⽓流来确定所能承受的风速,取⼆者中最⼤值三d.计算设计风压三设计风速确定后,应当依据‘建筑结构荷载规范“(GB50009-2012)附录E的风压风速变换公式,计算易折4杆所能承受的设计风压三e.计算风荷载三设计风压确定后,应当依据‘建筑结构荷载规范“(GB50009-2012)8.1的计算公式,综合考虑风振系数⼆体型系数⼆⾼度变化系数等计算易折杆所能承受的风荷载三5.2.2温度易折杆及其零部件和所有必需设备,应当能在-55? 55?的环境中正常⼯作三5.2.3湿度易折杆及其零部件和所有必需设备,应当能在相对湿度为5%100%(包括冷凝)的环境中正常⼯作三5.2.4⽇照此要求适⽤于使⽤塑料或⾮⾦属材料的易折杆及其零部件和所有必需设备,其应当能经受长时间太阳辐射三5.2.5盐雾易折杆及其零部件和所有必需设备,应当能经受盐雾腐蚀环境三5.2.6振动易折杆的零部件⼆其零部件组合乃⾄整个结构,在⾃然风⼆喷⽓⽓流和地震等影响下不应当产⽣谐波振动三5.2.7摆动对于安装在⾼塔上的易折杆,设计时应当考虑摆动因素,满⾜⾼耸结构的位移要求和助航设施设备的偏移要求三55.3材料5.3.1杆塔材料杆塔应当选⽤质量轻⼆质地硬⼆韧性模量低的材料,可⽤哑光处理的阳极氧化铝合⾦⼆玻璃纤维增强塑料(以下简称玻璃钢)等三5.3.2其它部件材料5.3.2.1不锈钢所有不锈钢制成的五⾦零部件应当使⽤18-8以上的不锈钢三5.3.2.2钢制五⾦件所有⾼强度碳素钢制成的螺栓和螺母应当进⾏热处理,最⼩抗拉强度不低于830MPa,适合实际应⽤三5.3.2.3⾮⾦属连接器玻璃钢的钻孔和切割边应当镀与原树脂同样的材料三5.3.2.4橡胶所有⽤于易折杆结构的橡胶或类似橡胶的材料应当符合GB/T11206‘橡胶⽼化试验表⾯龟裂法“B法--矩形试样弯曲试验法的全部要求三5.4⼯艺要求易折杆结构及其零部件不应当有锐利边缘,以防操作中造成危险;其表⾯应当平整,防⽌影响组合和安装三所有接合⾯,⽆论是⾦属的还是⾮⾦属的,结构接合前均应当喷砂处理并⽤溶剂清洗三65.4.1钢铁制件和钢制紧固件所有钢铁制件和钢制紧固件(不锈钢除外)表⾯应当做防锈⼆防腐蚀处理,并满⾜5.2.5的要求三对于钢铁制件,宜按照GB/T13912‘⾦属覆盖层钢铁制件热浸镀锌层技术要求及试验⽅法“进⾏热浸镀锌,且钢铁制件表⾯在镀锌前应当喷砂到基体⾦属三对于钢制紧固件(螺母⼆螺栓⼆垫圈和其它微⼩部件),宜按照GB/T5267.3‘紧固件热浸镀锌层“进⾏热浸镀锌三5.4.2铝制件所有铝制件都应当在硫酸电解液中进⾏阳极氧化,阳极氧化膜不染⾊,但应当做哑光处理三5.4.3颜⾊易折杆颜⾊应当符合MH5001‘民⽤机场飞⾏区技术标准“有关要求三5.4.4涂装所有玻璃钢或同等性能材料制成的零部件应当喷涂3851微⽶厚的聚氨酯涂料三除有具体说明外,对于所有玻璃钢零部件,⾊素和紫外线吸收剂应当溶⼊涂料中三喷涂料前,应当⽤砂纸或通过机械加⼯磨平所有突起(表⾯粗糙度参数Ra达到6.3)并⽤适合的溶剂清洁表⾯三5.5⾼度易折杆⽀撑的设备⾄少应当在?20cm⾼度范围内可调整三5.6重量7易折杆结构应当设计得尽可能地轻,并符合5.2⼆5.3⼆5.7⼆5.9⼆5.10中的相关要求三5.7易折性要求a.设计⽬的三在5.2所述的所有环境条件下,能⽤质量尽可能轻的易折杆⽀撑起尽可能重的助航设施设备三但遭受任意⽅向意外撞击时,易折杆应当易折易碎,以最⼤限度减轻对航空器的结构损伤三碰撞时,易折杆必须破碎⼆弯曲或屈服,且不缠绕航空器,以防限制航空器的安全机动性三b.对于可能与起飞或降落的航空器发⽣碰撞的易折杆,在遭受重3000kg⼆速度140km/h的航空器撞击时必须易折易碎三对于可能与地⾯滑⾏的航空器发⽣碰撞的易折杆,在遭受重3000kg⼆速度50km/h的航空器撞击时必须易折易碎三c.碰撞时,易折杆施加到航空器上的⼒应当不⼤于45kN;航空器与易折杆碰撞接触瞬间(约100ms),易折杆施加给航空器的最⼤能量应当不⼤于55kJ三d.电缆应当是易断开的,以避免缠绕航空器和降低易折杆的易折性能,同时应当确保供电可靠性三电缆可设置⼀些断开点,可通过采⽤⽐拉断电缆⼩的拉⼒就能断开的接线器来实现,接线器应当符合相关标准;同时应当使⽤可脱开的保护罩,以减⼩电缆断开时电弧引起的⽕灾危险,保护罩的⼤⼩应当与电压相匹配三e.安装在易折杆上的电⽓设备或组件宜设计成易折杆结构的⼀部分,并保证运⾏性能不降低三8f.如果易折杆位于跑道端安全区内,易折杆底座的所有机械固定点必须与易折固定装置相匹配,且易折固定装置的易折点应当不⾼于周围地⾯76mm三易折杆进⾏测试时,必须将其底座的固定点连接到易折固定装置上三g.按照MH5001‘民⽤机场飞⾏区技术标准“,⽴式进近灯及其⽀柱均应当易折三但在距跑道⼊⼝300m以外的部分:(1)若⽀柱⾼度超过12m,则其顶端12m的部分应当易折;(2)若⽀柱四周存在⾮易折物体,则⾼出⾮易折物体的部分应当易折三5.8组装要求易折杆应当制成多个部件的组合体,以便于运输和操作,但不得影响设计的整体性三各部件应当不需使⽤特殊⼯具就能在现场快速组装,不应当在现场焊接结构部件三5.9偏移要求易折杆必须⾜够牢固,其结构偏移应当限定在偏移容差范围内,以防影响其所⽀撑的助航设施设备的信号质量三设计时,应当考虑不同设施设备的运⾏性能⼆测量精度等要求,合理确定偏移容差三例如,进近灯光杆塔在全部表⾯覆冰12.5mm⼆经受100km/h的风速时,光束垂直偏移应当不⼤于?2度,光束⽔平偏移应当不⼤于?5度三5.10可维护性5.10.1⼀般要求9易折杆应当便于维护,不应当作为攀登架或⽤来固定梯⼦,以防⽌其性能降低三可以采⽤容易移动和升降的设备对易折杆及所⽀撑的设备进⾏维护,也可以将易折杆降⾄地⾯或仅降低设备进⾏维护三对于可降⾄地⾯或仅降低设备的易折杆,当降⾄地⾯时,设备应当处于易于维护的⾼度三所有可降低装置应当作为易折杆的必要部件由制造商提供,且应当与易折杆作为整体来考虑其重量和易折性三维护作业完成后,设备应当重新安装就位,且不需重新调校三例如,进近灯光杆塔的灯具降⾄地⾯维护时,灯具应当保持⽔平;杆塔应当适于安装且不会限制灯座的调整范围;维护作业完成后,灯具应当在⽔平和垂直⽅向上对齐三5.10.2特殊要求对于某些有特殊要求的易折杆,例如仪表着陆系统下滑仪天线杆塔,若确实需要设置⽤于维护的固定爬梯,爬梯应当作为易折性设计的⼀部分予以考虑三5.11基础为确保易折杆及所⽀撑设施设备的稳定性,易折杆底座应当牢固安装在基础上(⼀般为⽔泥混凝⼟基础),且经简单调整即可调⾄⽔平三易折杆基础应当符合MH5001‘民⽤机场飞⾏区技术标准“及相关规定三5.12防雷接地易折杆必须设置防雷接地装置三015.13电线电缆电线电缆不得裸露,其外部保护构件应当作为易折性设计的⼀部分予以考虑,且不降低整体的易折性能三5.14清洁易折杆材料表⾯应当保持清洁,所有在⽣产过程中所残留的油脂⼆油⼆灰尘⼆污垢⼆助焊剂和化学品等应当予以清除三5.15说明书说明书中必须提供所有重要程序,包括:分拆⼆组合⼆安装⼆操作⼆建议维护措施说明和⼀份完整的零部件清单三6试验规程和合格判断条件6.1可视测试必须对易折杆所有零部件的⼯艺品质⼆表⾯光洁度和预期⽬标的符合情况等⽅⾯进⾏⽬视检查三6.2盐雾试验6.2.1试验程序必须对易折杆的⼀部分和所有必需五⾦件进⾏盐雾试验三试验条件为48⼩时喷盐雾⼆48⼩时⼲燥三具体可参照GJB150.11A‘军⽤装备实验室环境试验⽅法第11部分:盐雾试验“三6.2.2合格判断条件若没有出现损坏⼆锈蚀⼆点蚀⼆腐蚀(保护性涂层损坏除外)以及玻璃钢分层等现象,则认定通过盐雾试验三6.3太阳辐射试验116.3.1试验程序对于所有带有塑料或⾮⾦属外层材料的易折杆,必须进⾏太阳辐射试验三试验以24⼩时为⼀个循环,照射20⼩时,停照4⼩时,试验应当持续⾄少56个循环三具体可参照GJB150.7A‘军⽤装备实验室环境试验⽅法第7部分:太阳辐射试验“中的程序II--稳态试验(光化学效应)三6.3.2合格判断条件若没有出现品质降低或玻璃钢分层等现象,则认定通过太阳辐射试验三6.4偏移试验6.4.1试验程序将根据100km/h风速和覆冰12.5mm计算出的静态荷载,垂直施加到按实际⼯作组态组合和安装的易折杆(最⼤⾼度)的纵轴上三6.4.2合格判断条件若偏移不超过5.9中的数值,且易折杆没有永久性变形,则认定通过偏移试验三6.5易折性试验必须对装有所有零部件和最⼤设施设备负荷的(包括电线电缆)⼆最⼤规格的易折杆进⾏易折性试验,易折杆底座的易折五⾦件也应当包含在内三易折性试验应当能够模拟易折杆被航空器碰撞的情形三216.5.1试验⼯具和程序a.撞击物三撞击物应当为刚性半圆形轻质钢管三钢管长度为1m或为易折杆(塔)最⼤横截⾯尺⼨的5倍(取两者最⼤值),钢管壁厚不⼩于25mm,钢管外径不超过250mm三钢管表⾯应当尽量平滑⼆不需要涂层或抛光三撞击物应当固定在试验车上,从⽽使撞击物与易折杆结构的碰撞过程尽量体现出刚体碰撞的特性,以便于在试验中获取最⼤碰撞⼒⼆碰撞时间及碰撞时间内的能量变化等数据三b.测⼒传感器三测⼒传感器应当安装在尽量靠近撞击物的位置上,并且应当安装⾜够数量的测⼒传感器,以确保当撞击物偏离中⼼线或与易折杆(或其底座)反作⽤产⽣意外冲量时,数据仍能有效测量三测⼒传感器量程不低于45kN,采样频率不低于10kHz三c.⾼速摄像机三应当使⽤⾼速摄像机来记录撞击物与易折杆的碰撞过程,帧速率应当⾜以观察并记录碰撞瞬间(⼤约100ms)易折杆的损坏模式三⽬视观察碰撞过程和结构变形是不可⾏的三d.撞击速度三装载撞击物的试验车辆最⼤⾏驶速度应当⼤于140km/h三应当维持撞击速度不变,并记录碰撞瞬间的撞击速度三e.撞击位置三撞击物或易折杆结构应当处于合适的相对位置,使碰撞发⽣在⾼出地⾯以上4m或易折杆顶端以下1m的位置31(选两者较⾼的位置)三6.5.2合格判断条件a.根据测⼒传感器的记录,易折杆施加到撞击物上的⼒应当不⼤于45kN;撞击物与易折杆碰撞接触瞬间(约100ms),易折杆施加给撞击物的最⼤能量应当不⼤于55kJ三b.观察⾼速摄像机的视频或影像记录,易折杆不应当继续锚定在基础上,且不会有缠绕机翼的潜在可能性,以防⽌航空器飞⾏⽅向受到不利影响三c.易折杆被撞击后的损坏模式应当为:被撞击位置破碎⼆开出⼀个豁⼝或弯曲三d.若易折杆碰撞后形成的节段(碎⽚)或与基础分离的易折杆下部被撞击物带⾛,可认为不会对航空器造成危险,不算作试验失败三e.电线电缆应当分离,不应当妨碍易折杆破碎⼆开出⼀个豁⼝或弯曲三如果撞击物与电线电缆⼆或与被电线电缆捆住的易折杆节段缠绕在⼀起,应当判断是否会阻碍重约3000kg的航空器继续飞⾏和安全操作三f.易折杆被撞击后形成的节段或碎⽚,其质量应当尽可能⼩且其断开⽅式不会对航空器造成严重损害(例如击穿挡风玻璃⼆机⾝或机尾操纵⾯)三6.6风压试验6.6.1试验程序41⾄少应当对最⼤规格的⼆以实际⼯作组态组合和安装的易折杆按照5.2.1中的风速要求,通过施加静态荷载或者按照GJB150.21A‘军⽤装备实验室环境试验⽅法第21部分:风压试验“的要求进⾏风压试验三6.6.2合格判断条件当荷载消除时,易折杆结构恢复⾄初始位置,且未发⽣永久变形,则认定通过风压试验三6.7维护性能试验制造商应当按照说明组装⼀个最⼤规格的易折杆结构,以演⽰组装⼆所有零部件及升降功能的适⽤性三结构升降前,制造商应当在易折杆上安装与适⽤设备等重的配重块三演⽰必须证明维护⼈员能够安全执⾏所有维护作业三7出⼚检验7.1检验制造商应当检验易折杆的所有零部件,以保证其物理尺⼨⼆材料和⼯艺品质合格三7.2检验记录制造商应当保留7.1中的检验记录3年三所有零部件应当可通过序列号或检验记录追踪查询三8包装易折杆应当妥善包装,以保护其零部件,防⽌运输过程中受损或被腐蚀三所有集装箱应当标明易折杆的装箱内容⼆型号⼆⾼度51等三若使⽤⼀个以上的集装箱运输,易折杆的零部件应当在包装上贴有识别标签三所有包装标签和易折杆零部件应当符合GB/T13384‘机电产品包装通⽤技术条件“的要求三61。

GJB 150A,MIL-STD-810F军标对照表

GJB 150A,MIL-STD-810F军标对照表

测试项目国军标GJB 150A 美军标MIL-STD-810F 第2部分:低气压(高度)试验500.4Low Pressure (Altitude)第3部分:高温试验501.4High Temperature 第4部分:低温试验502.4Low Temperature 第5部分:温度冲击试验503.4Temperature Shock 第7部分:太阳辐射试验505.4Solar Radiation (Sunshine)第8部分:淋雨试验506.4Rain 第9部分:湿热试验507.4Humidity 第10部分:霉菌试验508.5Fungus 第11部分:盐雾试验509.4Salt Fog第12部分:砂尘试验510.4Sand and Dust第13部分:爆炸性大气试验511.4Explosive Atmosphere 第14部分:浸渍试验512.4Immersion第15部分:加速度试验513.5Acceleration第16部分:振动试验514.5Vibration 第17部分:噪声试验515.5Acoustic Noise 第18部分:冲击试验516.5Shock 第20部分:炮击振动试验519.5Gunfire Vibration 第21部分:风压试验第22部分:积冰/冰雨试验521.2Icing/Freezing Rain第23部分:倾斜和摇摆试验第24部分:温度--湿度--振动--高520.2Temperature, Humidity , Vibration, and Altitude第25部分:振动--噪声--温度试验523.2Vibro-Acoustic/Temperature 第26部分:流体污染试验504 Contamination by Fluids 第27部分:爆炸分离冲击试验517Pyroshock第28部分:酸性大气试验518Acidic Atmosphere 第29部分:弹道冲击试验522Ballistic Shock第30部分:舰船冲击试验试验目的在于确定装备在常温条件下能否:a耐受低气压环境;b在低气压环境下工作正常;c耐受空气压力快速变在于获取有关数据,以评价高温条件对装备的安全性,完整性和性能的影响。

UL810-1-中译

UL810-1-中译
*6.1 1998 年 8 月 24 修订
表 6.1
聚合绝缘材料
属性
阻燃性
电性能
介质
应用
最 小 可 燃 热线(HWI)b 强电流(HAI)b 击 穿 相比较的追
性等级 a
强度 b 踪 指 标
(CTI)b
最 大 性 能 水平 最大性能水平分 最 小 最大性能水
分类Байду номын сангаас

电压 平分类
相 关 的 绝 缘 的 V-0
*10.3.1 1998 年 8 月 24 日修订*
10.3.2 全部 3 个样品被测试,一个样品将被安装在下面的 3 个位置: a 电容的主轴垂直,接线端子在上端 b 电容的主轴水平,当电容是椭圆的,椭圆次轴水平 c 电容的主轴垂直,接线端子在下端
例外:使用保护方式而不是压敏中断的电容仅在位置 1 处测试
第一部分 电容 结构 4、 封装 4.1 一般说明 4.4.1 电容的带电部分应被封装,除了电源导线,端子或是放电电阻。
4.2 金属封装 4.2.1 如果是钢,金属封装的最小厚度为 0.010 英寸(0.25mm),如果是铝、黄铜、铜,
最小厚度为 0.016 英寸(0.41mm)。
4.3 非金属封装 4.3.1 聚合材料作为全部或部分封装材料应该符合聚合材料应用标准——UL 746C 电气
a 卷绕电容的抗吸湿完全被包封或是在包封在有同样作用的其他材料内 b 绝缘衬垫应具有 5000V 的耐压。在 90%的湿度下,10 兆欧-厘米电阻值符合电子设
备评估,UL764C 中聚合材料标准。 7 引线和端子 7.1 电容引线达到相关的电压和电流标准。电容导线绝缘额定温度不低于电容额定温度。 7.2 引线在电容内部的连接应可靠。拉力缓解应符合自恢复测试,9 部分 7.3 电容引线端子应由锡膏,压力端子连接器,线邦定螺纹,定位导线尺寸的快速连接端子

斑马技术公司DS8108数字扫描仪产品参考指南说明书

斑马技术公司DS8108数字扫描仪产品参考指南说明书
Chapter 1: Getting Started Introduction .................................................................................................................................... 1-1 Interfaces ....................................................................................................................................... 1-2 Unpacking ...................................................................................................................................... 1-2 Setting Up the Digital Scanner ....................................................................................................... 1-3 Installing the Interface Cable .................................................................................................... 1-3 Removing the Interface Cable .................................................................................................. 1-4 Connecting Power (if required) ................................................................................................ 1-4 Configuring the Digital Scanner ............................................................................................... 1-4

TPIC8101中文资料

TPIC8101中文资料

Input SignalInt/Hold SignalOutput SignalFigure 3. Amplified Input Signal ProcessInput SignalInt/Hold SignalOutput SignalFigure 4. Input Signal ProcessingIMPORTANT NOTICETexas Instruments Incorporated and its subsidiaries (TI) reserve the right to make corrections, modifications, enhancements, improvements, and other changes to its products and services at any time and to discontinue any product or service without notice. Customers should obtain the latest relevant information before placing orders and should verify that such information is current and complete. All products are sold subject to TI’s terms and conditions of sale supplied at the time of order acknowledgment.TI warrants performance of its hardware products to the specifications applicable at the time of sale in accordance with TI’s standard warranty. Testing and other quality control techniques are used to the extent TI deems necessary to support this warranty. Except where mandated by government requirements, testing of all parameters of each product is not necessarily performed.TI assumes no liability for applications assistance or customer product design. Customers are responsible for their products and applications using TI components. To minimize the risks associated with customer products and applications, customers should provide adequate design and operating safeguards.TI does not warrant or represent that any license, either express or implied, is granted under any TI patent right, copyright, mask work right, or other TI intellectual property right relating to any combination, machine, or process in which TI products or services are used. Information published by TI regarding third-party products or services does not constitute a license from TI to use such products or services or a warranty or endorsement thereof. Use of such information may require a license from a third party under the patents or other intellectual property of the third party, or a license from TI under the patents or other intellectual property of TI.Reproduction of information in TI data books or data sheets is permissible only if reproduction is without alteration and is accompanied by all associated warranties, conditions, limitations, and notices. Reproduction of this information with alteration is an unfair and deceptive business practice. TI is not responsible or liable for such altered documentation.Resale of TI products or services with statements different from or beyond the parameters stated by TI for that product or service voids all express and any implied warranties for the associated TI product or service and is an unfair and deceptive business practice. TI is not responsible or liable for any such statements. Following are URLs where you can obtain information on other Texas Instruments products and application solutions:Products ApplicationsAmplifiers Audio /audioData Converters Automotive /automotiveDSP Broadband /broadbandInterface Digital Control /digitalcontrolLogic Military /militaryPower Mgmt Optical Networking /opticalnetwork Microcontrollers Security /securityTelephony /telephonyVideo & Imaging /videoWireless /wirelessMailing Address:Texas InstrumentsPost Office Box 655303 Dallas, Texas 75265Copyright 2003, Texas Instruments Incorporated。

GJB150A讲解

GJB150A讲解

1.9 试验项目发展趋势
试验项目超过810F范围 试验项目或程序增加,力图覆盖各行业 冲击试验中增加航天弹道冲击和爆炸分离冲 击试验程序、增加舰船用的冲击、摇摆和风 压试验项目 试验项目更完整和国际化,增加了酸性大气 和流体污染等欧洲标准中项目

2.2 格式区别对比说明 2.2.3 重视收集信息和应用(1)
编写试验大纲收集信息
• • • • • • • • • • 宜采用的试验设备和测量仪器 试件的标识、试验履历等有用信息 选定的试验程序及其次序 选定的试验条件(量值,时间) 试件的技术状态 所用传感器的数量和安装位置 试件和传感器的安装要求 负载和冷却措施 在试验室进行功能、性能检测时记录的结果 编写试验大纲

2、GJB 150A与GJB 150的区别
祝耀昌
航空综合环境重点实验室
Aero Combined Environment Laboratory

2.1 GJB150A与GJB150试验项目编写格式对比表(1)
章节 GJB150 GJB150A 章节 1 范围 说明该部分的内容 说明该部分适用的 装备对象
810F 通用实验室试验 方法指南 低气压(高度) 高温 低温 温度冲击 810F中取消
温度冲击试 验 6 取消
5
1.6 三个标准的试验项目对比(2)
GJB150 7 太阳辐射试验 7 GJB150A 太阳辐射 试验 505.4 810F 太阳辐射
8 9 10 11 12
淋雨试验 湿热试验 霉菌试验 盐雾试验 砂尘试验
8 9 10 11 12
淋雨试验 湿热试验 霉菌试验 盐雾试验 砂尘试验
506.4 507.4 508.5 509.4 510.4

WEST8100温控表选型手册

WEST8100温控表选型手册

技术指标
特点 控制类型 自动/手动 输出配置 报警类型 人机界面 计算机组态
输入 热电偶 RTD DC 直流 阻抗 精度 采样频率 传感器断路检测
输出和选件 控制和报警继电器 SSR 输出 故态继电器输出 直流输出 变送器电源 通讯 数字输入 遥控输入
操作环境 温度和湿度 电源 前面板防护 认证
PID 控制,on/off 控制,自整定、自适应,单输出或加热/制冷双输出。 无扰动切换,通过按键或数字输入切换。 最多 3 个输出,可以自由设置输出用途(控制、报警、变送输出、变送器电源)。 过程高/低报警,偏差报警,,带报警,逻辑与/或报警,回路断线报警。 4 键操作, 双 4 位 10mm、8mm LED 显示, 5 个 LED 指示灯 离线计算机组态 (不需通讯选件),组态软件:PS1-CON。
选件 B
零件号
遥控输入及数字输入...............PB1-W0R
选件 B
0

R
遥控输入/数字输入
显示颜色
0
红色/红色
1
绿色/绿色
2
红色/绿色
3
绿色/红色
电源
0
100-240V AC
2
24-48V AC/DC
选件 A
0

1
RS485 通讯
3
数字输入
4
遥控输入(基本型)
选件 3
0

1
继电器
2
选件 1
零件号
继电器模块 ..............................PO1-C10
直流模块.................................. PO1-C21

一汽马自达配件报价系统4s价--联保网络.

一汽马自达配件报价系统4s价--联保网络.

G22C51P4038 G22C51P4064 G22C51P4066 G22C51P4087 G22C51P40A08 G22C51P40A10 G22C51P40A28 G22C51P40A33 G22C51P40A37 G22C51P40A66 G22C51P5001 G22C51P5008 G22C51P5010 G22C51P5021 G22C51P5028 G22C51P5033 G22C51P5037 G22C51P5038 G22C51P5064 G22C51P5066 G22C51P5087 G22C51P50A08 G22C51P50A10 G22C51P50A28 G22C51P50A33 G22C51P50A37 G22C51P50A66 BR5S51P40B08 BR5S51P40B11 BR5S51P40B67 BR5S51P40B91 BR5S51P40B96 BR5S51P50B08 BR5S51P50B11 BR5S51P50B67 BR5S51P50B91 BR5S51P50B96 C23651P40B11 C23651P40B67 C23651P40B82 C23651P40B85 C23651P40B91 C23651P40BPZ C23651P40C67 C23651P40C82 C23651P40C85 C23651P40C91 C23651P40CPZ C23651P50B11 C23651P50B67 C23651P50B82 C23651P50B85 C23651P50B91 C23651P50BPZ
编号备件名称4s市场f18932982转向盘本体21861858bs1a70201a右侧围外板21801853bs1a71201左侧围外板21801853bs1a70201右侧围外板21801853c31751170d21791852c31751170e21791852c31751180d21791852c31751180e2179185249f018904适配器21751849fey5675d2a无钥匙控制单元21741848br9g67070e发动机线束总成21651840br9g67070f发动机线束总成21651840bs1c6701021631839gap466960低音扬声器21611837bcn254200b左纵梁总成21601836bcn254200c左纵梁总成2160183650nst0005快修小车21531830g22e50221eaa后保险杠面罩21511829g22e50221ebb后保险杠面罩2151182949n019002机座21471825g31t882115621461824gj5e88211a0221461824gj5e88211a8021461824gf092252021461824gf09226202146182450bjh2733气动焊点削钻机21451823bs1a53200d右纵梁总成21451823cg1560420仪表板金属支架总成21401819bn8d46100e换档杆底座总成2137181650nst0002工位工作台21311811bs1a57k5021261807cg428831034第三排座椅右坐垫21251806cg42883603421251806cg438831034第三排座椅右坐垫21251806cg43883603421251806ce408833034第三排座椅右侧靠背针织21231805ce408838034第三排座椅左侧靠背针织21231805ce4088380a3421231805bcn254200左纵梁总成21201802bcn254200a左纵梁总成21201802bcy25320xa右纵梁总成21201802bpy053810e右后边梁总成21201802bbm461l20a空调压缩机皮带轮21161799bp4s61l20空调压缩机皮带轮21161799fe8169840天窗滑动框架21151798ff2369840天窗滑动

典型结构振动-加速度综合环境试验研究

典型结构振动-加速度综合环境试验研究

典型结构振动-加速度综合环境试验研究周桐;张志旭;任万发;邓志刚【摘要】目的:研究多种典型结构在振动-加速度综合环境下的响应规律,证明开展振动-加速度综合环境试验的必要性。

方法采用试验研究的方法,对比单一振动环境和振动-加速度综合环境下典型结构响应特征的差异。

结果试验结果表明,振动-加速度综合环境下结构表现出的响应特征可能会与单一振动环境下的完全不同。

结论振动-加速度综合环境更加接近产品的真实使用环境,综合环境试验能够发现单一环境无法暴露的问题,在产品研制中的作用无可替代。

%ABSTRACT:Objective To study the dynamic response of typical structure under vibration-acceleration combined environment and demonstrate the necessity of experiments in the vibration-acceleration combined environment. Methods The difference in the dynamic response of typical structure under single vibration environment and vibration-acceleration combined environment was studied by experiment. Results The dynamic response under vibration-acceleration combined environment may be totally different from those under single vibration environment. Conclusion Vibration-acceleration combined environment could simulate the actual environment more realistically than single environment. Some special problems could only be exposed under combined environment test instead of single environment. As to its special significance, the combined environment test could not be replaced by other tests.【期刊名称】《装备环境工程》【年(卷),期】2015(000)005【总页数】6页(P50-55)【关键词】振动;加速度;综合环境【作者】周桐;张志旭;任万发;邓志刚【作者单位】中国工程物理研究院总体工程研究所,四川绵阳 621999;中国工程物理研究院总体工程研究所,四川绵阳 621999;中国工程物理研究院总体工程研究所,四川绵阳 621999;中国工程物理研究院总体工程研究所,四川绵阳621999【正文语种】中文【中图分类】TJ05;V416振动环境和加速度环境是许多武器装备尤其是飞行器都将经历的环境,为了确保装备在此类环境下结构的完整性和功能的可靠性,研究人员开展了大量的地面单一环境振动试验和单一环境加速度试验,在装备研制中发挥了重要作用。

VCA810中文数据手册

VCA810中文数据手册
VCA810 高增益调节范围,宽带,可变增益放大器 特点:
1、 高增益调节范围:± 40 2、 微分/单端输出 3、 低输入噪声电压:2.4nV/√Hz 4、 恒定带宽与增益:达到 5、 较高的分贝/
分贝

35MHz
V 的增益线性度:± 0.3 分贝 的
6、 增益控制带宽:25MHz
7、 低输出直流误差:<± 40mv 8、 高输出电流:± 60
毫安 毫安
9、 低电源电流:24.8
(最大为-40°C 至+85°C 温度范围)
应用: 光接收器时间增益控制、声纳系统、电压可调主动滤波器、对数放大 器、 脉冲振幅补偿、 带有 RSSI 的 AGC 接收机、 改善更换为 VCA610
描述:
VCA810 是直流耦合,宽带,连续可变电压控制增益放大器。它提供了差分输入单端输 出转换,用来改变高阻抗的增益控制输入超过- 40DB 增益至+40 dB 的范围内成 dB/ V 的线 性变化。从± 5V 电源工作,将调整为 VCA810 的增益控制电压在 0V 输入- 40DB 增益在-2V 输入到+40 dB。增加地面以上的控制电压将衰减超过 80dB 的信号路径。 信号带宽和压摆率保持在整个增益的不断调整 range.This40 分贝/ V 的增益控制精确到 ± 1.5 分贝(± 0.9 分贝高档) ,允许在一个 AGC 应用的增益控制电压为接收使用信号强度指 示器(RSSI)的精度为± 1.5 分贝。 出色的共模抑制,并在两个高阻抗输入的共模输入范围,允许 VCA810 提供差分接收 器的操作与增整。以地为参考的输出信号。零差分输入电压,给出了一个很小的直流偏移误 差 0V 输出。低输入噪声电压,确保在最高增益设置好输出信噪比。 在实际应用中,脉冲前沿的信息是至关重要的,和正在使用的 VCA810,以平衡不同的 信道损耗,群延迟变化最小增益设置将保留优秀的脉冲边沿信息。 一种改进的输出阶段提供足够的输出电流来驱动最苛刻的负载。 虽然主要用于驱动模拟 到数字转换器(ADC)或第二阶段的放大器,± 60 毫安输出电流将轻松驱动双端接 50Ω 线 或被动的后过滤超过± 1.7V 输出电压范围的阶段。

中英文安装说明书20111年_FCC_

中英文安装说明书20111年_FCC_

Enclosure Climate Control Unit工业控制柜制冷机Assembly Instructions安装说明书(FCC系列)雷子克(广州)电气设备有限公司 Let Us Take You To The Top...3.3顶装按照开孔图开孔, 再锁紧制冷机底部内置的螺丝孔保证制冷机与控制柜的固定与密封。

4.安全与注意安全提示¾制冷机为精密电气,搬运务必轻放,严禁倒置,倾斜存放。

¾安装制冷机前,应该先取开外壳,(松开制冷机顶部的螺丝,由下向上垂直推卸外壳),把制冷机安装上控制柜后再把外壳装上制冷机(靠紧制冷机四周边框,由上向下卡入钩环,再拧紧制冷机顶部的两粒螺钉)¾因制冷机为无冷凝水设计,制冷机的出水管只为安全备份使用,正常使用时无水导出,不必考虑冷凝水的处理。

注意事项¾制冷机在灰尘大,或油性,毛绒的环境务必及时清理过滤网,否则会影响制冷机性能。

¾制冷机入风口需安装到控制柜体的上部。

¾控制柜外的温度不能超过55摄氏度,但短暂的高温并不影响制冷机运作。

¾包装应完好,如果发现制冷机有油渍,极有可能是泄漏制冷剂,包装的任何损坏都有可能引起制冷机的故障。

¾控制柜必须达到IP54,如果控制柜有漏洞或缝隙,冷凝水可能会发生。

¾制冷机之间或制冷机与墙壁距离至少不小于200mm¾在控制柜内部,制冷机入风和出风口不可有障碍物阻塞。

¾制冷机需水平安装、使用,最大倾斜角度不大于2°¾维护及送电必须由专业人员操作。

¾为避免冷凝物的形成,建议采用门位开关,保证当控制柜门打开时,制冷机必须关闭。

¾控制柜内部的电气元件的热释放不能超过制冷机可用制冷功率,否则会出现制冷机长期运作。

¾不可用任何方式修改制冷机。

5.电气联接电压与频率必须与制冷机的铭牌相匹配,在制冷机电气联接前端不可有其他的温度控制,制冷机上回路电保护元件应与制冷机额定功率相吻合,在安装时参考相关说明。

BD8105FV中文资料

BD8105FV中文资料

(Contact address for overseas customers in Japan)
Yokohama
As of 18th. April 2005
United Kingdom / London TEL : +44(1)908-282-666 France / Paris China / Hong Kong Shanghai Dilian Beijing Taiwan / Taipei Korea / Seoul Singapore Malaysia / Kuala Lumpur Philippines / Manila Thailand / Bangkok
Please contact our sales offices for details ;
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LORD 810产品安全数据表说明书

LORD 810产品安全数据表说明书

USA SAFETY DATA SHEET1. CHEMICAL PRODUCT AND COMPANY IDENTIFICATIONProduct name:LORD 810Product Use/Class: Acrylic Adhesive, Part 1 of 2LORD Corporation111 LORD DriveCary, NC 27511-7923 USATelephone: 814 868-3180Non-Transportation Emergency: 814 763-2345Chemtrec 24 Hr Transportation Emergency No.800 424-9300 (Outside Continental U.S. 703 527-3887)EFFECTIVE DATE: 04/21/20212. HAZARDS IDENTIFICATIONGHS CLASSIFICATION:Flammable liquids Category 2Skin corrosion/irritation Category 2Serious eye damage/eye irritation Category 1Skin sensitization Category 1Respiratory sensitization Category 1Reproductive toxicity Category 2Specific target organ systemic toxicity (single exposure) Category 1 Respiratory systemSpecific target organ systemic toxicity (single exposure) Category 3Specific target organ systemic toxicity (repeated exposure) Category 1 Respiratory system, Nervous system Hazardous to the aquatic environment - acute hazard Category 3Hazardous to the aquatic environment - chronic hazard Category 3GHS LABEL ELEMENTS:Symbol(s)Signal WordD ANGERHazard StatementsHighly flammable liquid and vapor.Causes skin irritation.Causes serious eye damage.May cause an allergic skin reaction.May cause allergy or asthma symptoms or breathing difficulties if inhaled.Suspected of damaging fertility or the unborn child.Causes damage to organs.(Respiratory system)May cause respiratory irritation.May cause drowsiness or dizziness.Causes damage to organs through prolonged or repeated exposure.(Respiratory system, Nervous system)Harmful to aquatic life.Harmful to aquatic life with long lasting effects.Precautionary StatementsPrevention300001008235Keep away from heat/sparks/open flames/hot surfaces. - No smoking.Ground/Bond container and receiving equipment.Use explosion-proof electrical/ventilating/lighting equipment.Use only non-sparking tools.Take precautionary measures against static discharge.Obtain special instructions before use.Do not handle until all safety precautions have been read and understood.Wear protective gloves/protective clothing/eye protection/face protection.Use personal protective equipment as required.In case of inadequate ventilation wear respiratory protection.Do not breathe dust/fume/gas/mist/vapors/spray.Wash thoroughly after handling.Do not eat, drink or smoke when using this product.Use only outdoors or in a well-ventilated area.Contaminated work clothing should not be allowed out of the workplace.Avoid release to the environment.ResponseIn case of fire: refer to section 5 of SDS for extinguishing media.Immediately call a POISON CENTER or doctor/physician.Specific treatment (see supplemental first aid instructions on this label).IF INHALED: Remove to fresh air and keep at rest in a position comfortable for breathing.IF ON SKIN (or hair): Remove/Take off immediately all contaminated clothing. Rinse skin with water/shower.IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses, if present and easy to do.Continue rinsing.StorageStore in a well-ventilated place. Keep cool.Store in a well-ventilated place. Keep container tightly closed.Store locked up.Disposal:Dispose of contents/container in accordance with waste/disposal laws and regulations of your country or particular locality.Other Hazards:This product contains component(s) which have the following warnings; however based on the GHS classification criteria of your country or locale, the product mixture may be outside the respective category(s).Acute: Harmful if absorbed through skin. May cause central nervous system depression characterized by thefollowing progressive steps: headache, dizziness, staggering gait, confusion, unconsciousness or coma. May cause headache and nausea. May be harmful if swallowed. Ingestion is not an expected route of entry in industrial orcommercial uses.Chronic: IARC has designated carbon black as Group 2B - inadequate evidence for carcinogenicity in humans, but sufficient evidence in experimental animals. In 2006 IARC reaffirmed its 1995 finding that there is "inadequate evidence" from human health studies to assess whether carbon black causes cancer in humans. Further,epidemiological evidence from well-conducted investigations has shown no causative link between carbon black exposure and the risk of malignant or non-malignant respiratory disease in humans.withheld.FIRST AID - EYE CONTACT: Flush eyes immediately with large amount of water for at least 15 minutes holding eyelids open while flushing. Get prompt medical attention. Immediately flush eyes continuously with lukewarm, gently flowing water for at least 30 minutes. Get prompt medical attention.FIRST AID - SKIN CONTACT: Flush contaminated skin with large amounts of water while removing contaminated clothing. Wash affected skin areas with soap and water. Get medical attention if symptoms occur. Wash clothing before reuse.FIRST AID - INHALATION: Move person to fresh air. Restore and support continued breathing. If breathing is difficult, give oxygen. Get immediate medical attention.FIRST AID - INGESTION: If swallowed, do not induce vomiting. Call a physician or poison control center immediately for further instructions. Never give anything by mouth if victim is rapidly losing consciousness, unconscious or convulsing.SUITABLE EXTINGUISHING MEDIA: Carbon Dioxide, Dry Chemical, Foam, Water FogUNSUITABLE EXTINGUISHING MEDIA: Not determined for this product.SPECIFIC HAZARDS POSSIBLY ARISING FROM THE CHEMICAL: Flammable liquid and vapor. Keep containers tightly closed. Isolate from heat, electrical equipment, sparks, open flame, and other sources of ignition. Closed containers may rupture when exposed to extreme heat. Use water spray to keep fire exposed containers cool. During a fire, irritating and/or toxic gases and particulate may be generated by thermal decomposition or combustion.SPECIAL PROTECTIVE EQUIPMENT AND PRECAUTIONS FOR FIRE-FIGHTERS: Wear full firefighting protective clothing, including self-contained breathing apparatus (SCBA). Water spray may be ineffective. If water is used, fog nozzles are preferable.PERSONAL PRECAUTIONS, PROTECTIVE EQUIPMENT AND EMERGENCY PROCEDURES: Remove all sources of ignition (flame, hot surfaces, and electrical, static or frictional sparks). Avoid breathing vapors. Use self-contained breathing equipment. Avoid contact.ENVIRONMENTAL PRECAUTIONS: Do not contaminate bodies of water, waterways, or ditches, with chemical or used container.METHODS AND MATERIALS FOR CONTAINMENT AND CLEANUP: Keep non-essential personnel a safe distance away from the spill area. Notify appropriate authorities if necessary. Contain and remove with inert absorbent material and non-sparking tools. Avoid contact. Before attempting cleanup, refer to hazard caution information in other sections of the SDS form.HANDLING: Keep closure tight and container upright to prevent leakage. Ground and bond containers when transferring material. Avoid skin and eye contact. Wash thoroughly after handling. Avoid breathing of vapor or spray mists. Do not handle until all safety precautions have been read and understood. Empty containers should not be re-used. Use with adequate ventilation. Because empty containers may retain product residue and flammable vapors, keep away from heat, sparks and flame; do not cut, puncture or weld on or near the empty container. Do not smoke where this product is used or stored.STORAGE: Do not store or use near heat, sparks, or open flame. Store only in well-ventilated areas. Do not puncture, drag, or slide container. Keep container closed when not in use. Refer to OSHA 29CFR Part 1910.106 "Flammable and Combustible Liquids" for specific storage requirements.INCOMPATIBILITY: Strong acids, bases, and strong oxidizers.; AminesEngineering controls: Sufficient ventilation in pattern and volume should be provided in order to maintain air contaminant levels below recommended exposure limits. Caution: Solvent vapors are heavier than air and collect in lower levels of the work area. Sufficient ventilation (using explosion-proof equipment) should be provided to prevent flammable vapor/air mixtures from accumulating.PERSONAL PROTECTION MEASURES/EQUIPMENT:RESPIRATORY PROTECTION: Use a NIOSH approved chemical/mechanical filter respirator designed toremove a combination of particulates and organic vapor if occupational limits are exceeded. For emergencysituations, confined space use, or other conditions where exposure limits may be greatly exceeded, use an approved air-supplied respirator. For respirator use observe OSHA regulations (29CFR 1910.134) or use in accordance with applicable laws and regulations of your country or particular locality.SKIN PROTECTION: Use neoprene, nitrile, or rubber gloves to prevent skin contact. If contact with the product is prolonged or repeated, Silver Shield or Butyl rubber gloves are recommended.EYE PROTECTION: Use safety eyewear including safety glasses with side shields and chemical goggles where splashing may occur.OTHER PROTECTIVE EQUIPMENT: Use disposable or impervious clothing if work clothing contamination is likely. Remove and wash contaminated clothing before reuse.HYGIENIC PRACTICES: Wash hands before eating, smoking, or using toilet facility. Do not smoke in anychemical handling or storage area. Food or beverages should not be consumed anywhere this product is handled or stored. Wash thoroughly after handling.Typical values, not to be used for specification purposes.ODOR: Sweet VAPOR PRESSURE: N.D.APPEARANCE: Black VAPOR DENSITY: Heavier than Air PHYSICAL STATE: Paste LOWER EXPLOSIVE LIMIT: 1.6 %(V)UPPER EXPLOSIVE LIMIT: 8.8 %(V)FLASH POINT: 59 °F, 15 °C SetaflashClosed CupBOILING RANGE: N.A.EVAPORATION RATE: Faster than n-butyl-acetate.AUTOIGNITION TEMPERATURE:N.D.DENSITY: 0.96 g/cm3 (7.95 lb/gal)DECOMPOSITION TEMPERATURE:N.D. VISCOSITY, DYNAMIC: ≥85,000 mPa.s @ 25 °C ODOR THRESHOLD: N.D.VISCOSITY, KINEMATIC: ≥88,542 mm2/s @ 25 °CSOLUBILITY IN H2O: Insoluble VOLATILE BY WEIGHT: 0.03 %pH: N.A.VOLATILE BY VOLUME: 0.03 %FREEZE POINT: N.D. VOC CALCULATED: 0 lb/gal, 0 g/l0 g/lN.D.COEFFICIENT OF WATER/OILDISTRIBUTION:LEGEND: N.A. - Not Applicable, N.E. - Not Established, N.D. - Not DeterminedHAZARDOUS POLYMERIZATION: Hazardous polymerization will not occur under normal conditions. STABILITY: Product is stable under normal storage conditions.CONDITIONS TO AVOID: High temperatures. Sources of ignition.INCOMPATIBILITY: Strong acids, bases, and strong oxidizers.; AminesHAZARDOUS DECOMPOSITION PRODUCTS: Carbon monoxide, carbon dioxide, and organic or inorganic nitrogen compounds, Corrosive acid vaporsEXPOSURE PATH: Refer to section 2 of this SDS.SYMPTOMS:Refer to section 2 of this SDS.TOXICITY MEASURES:Germ cell mutagenicity: No classification proposedCarcinogenicity: No classification proposedReproductive toxicity: Category 2 - Suspected of damaging fertility or the unborn child.Components contributing to classification: Methacrylate monomer. Amine catalyst.PERSISTENCE AND DEGRADABILITY:Not determined for this product.BIOACCUMULATIVE: Not determined for this product.MOBILITY IN SOIL: Not determined for this product.OTHER ADVERSE EFFECTS: Not determined for this product.DISPOSAL METHOD: Disposal should be done in accordance with Federal (40CFR Part 261), state and local environmental control regulations. If waste is determined to be hazardous, use licensed hazardous waste transporter and disposal facility.US DOT RoadProper Shipping Name: AdhesivesHazard Class: 3SECONDARY HAZARD: NoneUN/NA Number: 1133Packing Group: IIEmergency Response Guide Number: 128IATA CargoPROPER SHIPPING NAME: AdhesivesHazard Class: 3HAZARD CLASS: NoneUN NUMBER: 1133PACKING GROUP: IIEMS: 3LIMDGPROPER SHIPPING NAME: AdhesivesHazard Class: 3HAZARD CLASS: NoneUN NUMBER: 1133PACKING GROUP: IIEMS: F-EThe listed transportation classification applies to non-bulk shipments. It does not address regulatory variations due to changes in package size, mode of shipment or other regulatory descriptors. For the most accurate shipping information, refer to your transportation/compliance department.U.S. FEDERAL REGULATIONS: AS FOLLOWS:SARA SECTION 313This product contains the following substances subject to the reporting requirements of Section 313 of Title III of the Superfund Amendment and Reauthorization Act of 1986 and 40 CFR part 372.:Chemical Name CAS Number Weight % Less ThanMethyl methacrylate80-62-640.0%TOXIC SUBSTANCES CONTROL ACT:INVENTORY STATUSThe chemical substances in this product are on the active TSCA Section 8 Inventory or exempt.EXPORT NOTIFICATIONThis product contains the following chemical substances subject to the reporting requirements of TSCA 12(B) if exported from the United States:NoneUnder HazCom 2012 it is optional to continue using the HMIS rating system. It is important to ensure employees have been trained to recognize the different numeric ratings associated with the HazCom 2012 and HMIS schemes.HMIS RATINGS - HEALTH: 2* FLAMMABILITY: 3 PHYSICAL HAZARD: 1* - Indicates a chronic hazard; see Section 2Revision: Section 2, Section 11Effective Date: 04/21/2021The information contained herein is, to the best of our knowledge and belief, accurate. However, since the conditions of handling and use are beyond our control, we make no guarantee of results, and assume no liability for damages incurred by use of this material. It is the responsibility of the user to comply with all applicable federal, state and local laws and regulations.。

vca810中文资料

vca810中文资料
应用信息电路描述 该 VCA810 是一种高增益调整了电压控制增益,如图 1 所示,范围,宽带,电压放大器。该 电路的基本电压放大器响应了内部增益控制放大器控制。在它的输入,电压放大器介绍了高 阻抗的差分阶段,允许灵活的输入阻抗匹配。为了维护终端的选择,没有内部电路连接到这 个阶段的差分输入基地。出于这个原因,用户必须为从信号源输入基本直流电流路径,通过 一个终端电阻接地或直接连接到地。差分输入级也允许共模信号的抑制。在其输出端,电压 放大器提出一个低阻抗,从而简化了阻抗匹配。开环设计生产在所有增益设置宽的带宽。以 地为参考的差分至单端输出的转换会保留在低输出失调电压。
一个增益控制电压 VC,控制通过一个高速控制电路放大器增益的大小。增益可以是极性反 相或非反相,经输入信号驱动放大器的输入而定。增益控制电路提出了一个非反相运算放大 器连接高输入阻抗。控制电压引脚被称为接地。
这关系到增益与 db 的关系式: Gdb=-40(Vg+1)db。因此,db 线性变化在指定的- 40dB 至+40 dB 的范围为 0V 至-2V。或者,使 Vc 轻微的改变(≥±0.15V)有效地禁止了放大器, 从而使信号在低频率衰减> 80dB。在内部,增益控制电路通过改变不同的 gm放大器增益, 双极晶体管的偏置电流通过不同程度的差异有所不同阶段的晶体管的 gm偏置电流控制 VCA810 电压增益。以 gm为基础的增益调节通常热稳定性差。该 VCA810 包括电路,以尽量 减少这种影响。 VCA810 运行图 2 显示了电路配置作为典型电气特性和特点的基础上使用。 电压波动的规格报道采取的输入和输出引脚直接。出于测试目的,输入阻抗设置为 50Ω,以 接地电阻。一个 25Ω电阻(RT)是包括在 V -的输入,偏置电流取消。适当的电源旁路如图 2 所示,和两个电容组成的每个电源引脚:一个大的电解电容(2.2μF 的至 6.8μF),在较 低的频率有效,一个小的陶瓷电容(0.1pF 的)的高频去耦。如需去耦信息,请参考电路板 布局部分。

ABB Uvisor 多燃料安全型智能火焰检测器

ABB Uvisor 多燃料安全型智能火焰检测器

火焰故障继电器有/无火延时时间 火焰继电器 火焰继电器接点容量 故障继电器接点容量 火焰模拟量输出 串行数据通讯 串行数据格式 自检周期 环境温度 外形尺寸 电气连接 模件安装 耗电量 级联极限
可设置 0.1~10 秒 三个 250 Vac, 3 A, 750 VA; 220 Vdc, 300 mA, 66 W 250 Vac, 3 A, 750 VA; 220 Vdc, 300 mA, 66 W 两个 4~20 mA信号,每个火检可以独立监视火焰强度、频率、质量和火 焰交流幅值。 两个隔离的RS-485通讯接口 (完全隔离,用于冗余通讯) MODBUS (缺省),PROFIBUS DP-V1 (可设定) 0.1 S 0oC~60oC,95%非凝结 13 cm 高,12 cm长,11 cm宽 螺钉端子,压片类型,可连接12到20线规 标准导轨式安装 最小4 W, 最大10W,标准 6 W 4 个模件级联从一端供电,或 7 个模件从中间供电。
8
Uvisor SF810+FAU810
Signal Processing Unit FAU810
SF810 #1 端子 +15V -15V Out GND CHK Shield SF810 #2 端子 +15V -15V Out GND CHK Shield
FAU810 端子 +B (18) -B (21) IN (19) COM (20) SH (17) FAU810端子 +B (23) -B (26) IN (24) COM (25) SH (22)
每个检测器可以通过FAU810上的液晶显示器和按键进行独立设置,或者通过联网的火焰分析软件设置。 FAU810可以有单个或者冗余的24V电源供电(21.6V ~31.2VDC),FAU810内置的自动电源分配电路均衡两 路电源。 两个DI通道用于参数选择,每个检测器一个DI(例如:一套参数用于检测油火焰,另一套参数用于检测煤火 焰)。 公共模件信号地与屏蔽地连接一起,允许连接到外部的接地排。系统地可以连接到公共接地母线上。
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