HLMP-C417-X0001中文资料
伯尔梅特 供水系统 700系列大口径阀门技术说明书
14556788目录流量特性(美制)外形尺寸表(公制)外形尺寸表(美制)700-M5 / 700-M5L 材料规格700-M6材料规格独立止回功能工作原理2ֺ■ ■ֺ ֺ ֺֺ■ ■ ■ ■ ■ ■ ■ ■ ■ 伯尔梅特700系列大口径阀门是液压驱动的隔膜式水力控制阀。
该系列阀门的设计符合流体动力学原理,球型阀体,具有特制阀瓣,阀门过流量大。
主阀采用标准配置,型号后缀为“2S”的阀门具有独立止回功能。
该系列阀门适用于各种大流量应用场合,可实现高精度控制。
阀门类型分为开关阀、减压阀、持压阀、泵控阀、液位控制阀、止回阀、流量控制阀、爆管控制阀、紧急关闭阀等。
球形宽阀体符合流体动力学设计,具有以下优点比常规球形阀体流量(Kv; Cv )更大 抗气蚀能力强在线维护阀门可采用各种控制方式,包括液压控制、电力控制、气动控制阀门自动工作,无需外接动力选件和配件种类丰富一通或二通流向 V 型节流塞(选件) 抗气蚀笼筒(选件) 阀位指示杆 限位开关开度模拟信号输出 控制配件种类多样 双腔式阀门(700-M6) 设有检查和维护孔(700-M5L)产品特性和选配件3阀门开度 -%Kv; Cv %US 阀门行程SI SI 流量系数US 流量系数∆P Gf∆P∆P =( )Q2KvQ = Kv ∆P Gf ∆P∆P =( )Q2CvQ = Cv 阀门行程技术参数阀门形式: 球形尺寸范围: DN 500-1200; 20”-48”压力等级: PN10, 16 & 25ANSI Class #150;ANSI Class #300 (如需更多信息,欢迎咨询我们)连接形式: 法兰连接温度: 水温达80°C; 180°F 涂层: 熔结环氧涂层(蓝色)通过饮用水应用认证,具有紫外线保护功能阀瓣特性Kv; Cv 与阀门开度关系图压差和流量计算阀门流量系数,Kv=Q 其中:Kv =阀门流量系数(压差为1bar 时的流量,以m 3/h 表示)Q =流量(m 3/h )∆P =压差(bar )Gf =流体比重(水=1.0)公式:阀门流量系数, Kv=Q其中:Cv =阀门流量系数(压差为1psi 时的流量,以gpm 表示)Q =流量(gpm )∆P =压差(psi )Gf =流体比重(水=1.0)公式:4水头损失 - b a r流量 - m 3/h0.050.10.51.0水头损失 - p s i流量 - gpm151020流量特性 公制流量特性 美制5注释:CF –欢迎向我们咨询相关信息 (2) =Class #300,欢迎向我们咨询相关信息外形尺寸表 公制外形尺寸表 美制控制腔容量6[11][10][8][7][6][4][3][2][5][1][9]700-M5 / 700-M5L 材料规格7[11][12][13][14][10][8][7][6][4][3][2][5][1][9]700-M6材料规格8■ ■ ■ ■独立止回功能型号后缀为2S 的阀门具有独立止回功能独立止回功能通过阀门内置升降式止回装置实现。
FP-XH系列学习资料
四
FP-XH控制单元在FPWIN GR7中的配置以及程序编写
FP-XH控制单元在FPWIN GR7中的配置
7
FPWIN GR7 软件配置
〇 STEP 1
双击FPWIN GR7图标,打开编程 软件。
〇 STEP 2
新建程序后,在<选项>中选择<系统寄存器设置> 选择<主单元输出设置>,在右侧对话框中按照, 数据表设置模式进行配置。
FP-XH控制单元在FPWIN GR7中程序编写
17
原点返回 (原点返回的种类)
〇 原点方式 原点开关的脉冲沿检测 从当前值向原点复位方向移动,检测到最初的原点开关的上升沿后停止, 将其作为原点。
〇 数据设置点方式 将当前值作为原点。
FP-XH控制单元在FPWIN GR7中程序编写
原点返回(DOG1)
对应版本 Ver.2.0以上
1
松下 工业控制
二
FP-XH系列控制单元外观和I/O分配
FP-XH系列控制单元外观和I/O分配
2
I/O分配
3
三
FP-XH控制单元接线
FP-XH控制单元接线
4
端子分布
3轴 4轴
FP-XH控制单元接线
5
端子分布
6轴
FP-XH控制单元接线
6
与驱动器连接
〇 脉冲指令输出(脉冲+方向 CW/CCW)
FP-XH控制单元在FPWIN GR7中程序编写
14
原点返回 (原点返回的种类)
〇 DOG3
近原点开关的脉冲沿检测 + 原点开关 后端基准 检测到近原点开关的下降沿(后端)后,将原点复位方向最初的原点开关 的上升沿作为原点。
液压式SIEMENS S7-400H F FH CPU 417-5H数据表说明书
General information Product type designation HW functional status Firmware version Engineering with ● Programming package
CiR – Configuration in RUN CiR synchronization time, basic load CiR synchronization time, time per I/O byte
Yes Yes; all data No
180 µA; Valid up to 40°C 1 000 µA Dealt with in the module data manual with the secondary conditions and the factors of influence 5 V DC to 15 V DC
Address area I/O address area ● Inputs ● Outputs Process image ● Inputs, adjustable ● Outputs, adjustable ● Inputs, default ● Outputs, default ● consistent data, max. ● Access to consistent data in process image Subprocess images ● Number of subprocess images, max. Digital channels ● Inputs — of which central ● Outputs — of which central Analog channels ● Inputs — of which central ● Outputs — of which central
插件封装大全
CE-PHIL037-12-H2
(1 : 2)
CE-PHIL037-18
(1 : 1)
CE-PHIL037-13
(1 : 1)
CE-PHIL037-18-H
(1 : 3)
CE-PHIL037-13-H
(1 : 2)
CE-PHIL037-18-H2
(1 : 3)
CE-PHIL037-13-H2
(1 : 2)
CL-BOUR-PT122-A
(1 : 2)
CL-SI-B82145
(2 : 1)
CL-PULSE-KM20
(1 : 1)
CL-SI-B82500-A10
(1 : 1)
CL-PULSE-KM30
(1 : 1)
CL-SI-B82721-A
(1 : 3)
CL-RAD08-5
(1 : 1)
CL-SI-B82722-A
DIP14(4)
(1 : 2)
CX23-5
(2 : 1)
DIP14(8)
(1 : 2)
CX234-5
(2 : 1)
DIP16
(1 : 2)
DC-JACK
(1 : 1)
DIP16(8)
(1 : 2)
DI-FAGOR-7
(1 : 1)
DIP18
(1 : 2)
DI-FAGOR-9
(1 : 1)
DIP20
(1 : 2)
(2 : 1)
CMK35-5
(3 : 1)
CMK60-75
(2 : 1)
CMK40-10
(3 : 1)
CMK70-15
(1 : 1)
CMK40-10-75
西门子 plc CPU_414-417[1]
![西门子 plc CPU_414-417[1]](https://img.taocdn.com/s3/m/bc1e8b4c2b160b4e767fcf47.png)
每个 S7-400F/FH 系统需要 有一个许可证,包括 2 个 TÜV (德国技术检查)标签。
- 集成装载存储器对于 一个程序是不够的, 所以,经常需要一个 存 储 器 卡 。 RAM 和 FEPROM 卡都适合使 用(FEPROM 卡在没 有通电的情况下也可 以用来存储信息。)
PROFIBUS-DP 接 口 : 带 PROFIBUS-DP 主站 接口的 CPU 417-4H 能 构成高速和简化操作的 分布式自动化系统。从 用户的观点来看,分布 式 I/O 和集中式 I/O 的操 作是相同的(相同的配 置 , 寻 址 和 编 程 )。 注:如果 PROFIBUS-DP 接口和 MPI 接口同时使 用,只有下列总线连接 器 可 以 和 MPI 接 口 相 连: - 带插槽:
• 带 2 个插槽,用于同步 模板
应用
CPU 417-4H 是 SIMATIC S7400H 和 S7-400F/FH 中功能 最强的。可配置为容错式 S7400H 系统。
连接上 F 运行授权后,可以 作为 S7-400F/FH 容错自动 化系统应用。
集成的 PROFIBUS-DP 接口 能作为主站直接连接到
最大循环时间和通讯负
载的定义
• 地址分配:
•
I/O 模板的寻址。
• 保持区域:
可保持的位存储器、计数 •
器、计时器、数据块和时
钟位存储器的定义。
•
地址的设置
每个 S7-400F/FH 系统需要 有一个许可证,交货时包括 2 个“TÜV”(技术检查)标签。
• 测试功能
•
在执行程序时,编程器
可用来显示信号状态,
• 灵活的扩展能力 最大可达 65K 的数字量 输入/输出,4K 的模拟量 输入/输出。
HLMP-EJ10中文资料
T-13/4 (5 mm) Precision Optical Performance AlInGaP LED LampsData SheetFeatures• Well Defined Spatial Radiation Patterns• Viewing Angles: 6°, 15°, 23°, 30°• High Luminous Output• Colors:590 nm Amber605 nm Orange615 nm Reddish-Orange626 nm Red• High Operating Temperature:T J LED=+130°C• Superior Resistance to Moisture• Package Options:With or Without Lead Stand-OffsBenefits• Viewing Angles Match Traffic Management Sign Requirements• Colors Meet Automotive and Pedestrian Signal Specifications• Superior Performance in Outdoor Environments• Suitable for Autoinsertion onto PC Boards Applications• Traffic Management:Traffic SignalsPedestrian SignalsWork Zone Warning LightsVariable Message Signs• Commercial OutdoorAdvertising:SignsMarquees• Automotive:Exterior and Interior LightsDescriptionThese Precision Optical Perform-ance AlInGaP LEDs providesuperior light output for excellentreadability in sunlight and areextremely reliable. AlInGaP LEDtechnology provides extremelystable light output over longperiods of time. Precision OpticalPerformance lamps utilize thealuminum indium gallium phos-phide (AlInGaP) technology.These LED lamps are untinted,nondiffused, T-13/4 packagesincorporating second generationoptics producing well definedspatial radiation patterns atspecific viewing cone angles.SunPower SeriesHLMP-ELxxHLMP-EJxxHLMP-EHxxHLMP-EGxxThese lamps are made with anadvanced optical grade epoxy,offering superior high tempera-ture and high moisture resistanceperformance in outdoor signaland sign applications. The highmaximum LED junction tempera-ture limit of +130°C enables hightemperature operation in brightsunlight conditions. The packageepoxy contains both uv-a anduv-b inhibitors to reduce theeffects of long term exposure todirect sunlight.These lamps are available in twopackage options to give thedesigner flexibility with devicemounting.Device Selection GuideTypicalViewing Color and Luminous Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2] 2θ1/2Wavelength on Leads on Leads@ 20 mA (Deg.)[4](nm), Typ.[3] (Outline Drawing A)(Outline Drawing B)Min.Max.HLMP-EL08-VY000HLMP-EL10-VY000360013800HLMP-EL08-VYK00*360013800HLMP-EL08-VXK00*360010700HLMP-EL08-VX400**360010700HLMP-EL08-VX000360010700HLMP-EL08-WZ000HLMP-EL10-WZ000470018400HLMP-EL08-XZ400**620018400 Amber 590HLMP-EL08-XZ000620018400HLMP-EL08-XZK00*620018400HLMP-EL08-XY000620013800HLMP-EL08-XYK00*620013800HLMP-EL08-X1K00*620024100HLMP-EL08-X1000HLMP-EL10-X1000620024100 6°[5]HLMP-EJ08-WZ000HLMP-EJ10-WZ000470018400 Orange 605HLMP-EJ08-X1000HLMP-EJ10-X1000620024100HLMP-EJ08-Y2000HLMP-EJ10-Y2000800031000HLMP-EH08-UX000HLMP-EH10-UX000275010700HLMP-EH08-VY000HLMP-EH10-VY000360013800 Red-Orange 615HLMP-EH08-WZ000HLMP-EH10-WZ000470018400HLMP-EH08-X1000HLMP-EH10-X1000620024100HLMP-EH08-Y2000HLMP-EH10-Y2000800031000HLMP-EG08-VW00036008300HLMP-EG08-VY000HLMP-EG10-VY000360013800HLMP-EG08-WZ000HLMP-EG10-WZ000470018400 Red 626HLMP-EG08-X1000HLMP-EG10-X1000620024100HLMP-EG08-YZ000800018400HLMP-EG08-Y1000800024100HLMP-EG08-Y2000HLMP-EG10-Y2000800031000 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2.The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part numbers in bold are recommended for new designs.*HLMP-xLxx-xxK00 are selected to amber color bins 2 and 4 only.Device Selection Guide (Continued)TypicalViewing Color and Luminous Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2] 2θ1/2Wavelength on Leads on Leads@ 20 mA (Deg.)[4](nm), Typ.[3] (Outline Drawing A)(Outline Drawing B)Min.Max.HLMP-EL15-PS000HLMP-EL17-PS0007652900HLMP-EL15-QR00010002200HLMP-EL15-QRK00*10002200HLMP-EL15-QS00010002900 Amber 590HLMP-EL15-QS400**10002900HLMP-EL15-QSK00*10002900HLMP-EL15-QT000HLMP-EL17-QT00010003700 15°HLMP-EL15-QTK00*10003700HLMP-EL15-RU000HLMP-EL17-RU00013004800HLMP-EJ15-PS0007652900 Orange 605HLMP-EJ15-RU000HLMP-EJ17-RU00013004800HLMP-EJ15-SV000HLMP-EJ17-SV00016506300 Red-Orange 615HLMP-EH15-QT000HLMP-EH17-QT00010003700HLMP-EH15-RU000HLMP-EH17-RU00013004800HLMP-EG15-PS0007652900 Red 626HLMP-EG15-QT000HLMP-EG17-QT00010003700HLMP-EG15-RU000HLMP-EG17-RU00013004800HLMP-EL24-MQ0004501730HLMP-EL24-NR000HLMP-EL26-NR0005902200HLMP-EL24-PS000HLMP-EL26-PS0007652900HLMP-EL24-PSK00*7652900HLMP-EL24-PR400**7652200HLMP-EL24-PQK00*7651730 Amber 590HLMP-EL24-QR00010002200HLMP-EL24-QRK00*10002200 23°HLMP-EL24-QS00010002900HLMP-EL24-QSK00*10002900HLMP-EL24-QS400**10002900HLMP-EL24-QT000HLMP-EL26-QT00010003700HLMP-EL24-QTK00*10003700 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2.The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Device Selection Guide (Continued)TypicalViewing Color and Luminous Angle Dominant Lamps Without Standoffs Lamps With Standoffs Intensity Iv (mcd) [1,2] 2θ1/2Wavelength on Leads on Leads@ 20 mA (Deg.)[4](nm), Typ.[3] (Outline Drawing A)(Outline Drawing B)Min.Max.Orange 605HLMP-EJ24-QT000HLMP-EJ26-QT00010003700HLMP-EJ24-RU000HLMP-EJ26-RU00013004800HLMP-EH26-PS0007652900 Red-Orange 615HLMP-EH24-QT000HLMP-EH26-QT00010003700 23ºHLMP-EH24-RU000HLMP-EH26-RU00013004800HLMP-EG24-PS000HLMP-EG26-PS0007652900 Red 626HLMP-EG24-QT000HLMP-EG26-QT00010003700HLMP-EG24-RU000HLMP-EG26-RU00013004800HLMP-EL30-MQ000HLMP-EL32-MQ0004501730HLMP-EL30-NR000HLMP-EL32-NR0005902200HLMP-EL30-PQ0007651730HLMP-EL30-PQK00*7651730 Amber 590HLMP-EL30-PR0007652200HLMP-EL30-PR400**7652200HLMP-EL30-PRK00*7652200HLMP-EL30-PS000HLMP-EL32-PS0007652900HLMP-EL30-PSK00*7652900 30°HLMP-EJ30-MQ0004501730 Orange 605HLMP-EJ30-NR000HLMP-EJ32-NR0005902200HLMP-EJ30-PS000HLMP-EJ32-PS0007652900HLMP-EH30-MQ000HLMP-EH32-MQ0004501730 Red-Orange 615HLMP-EH30-NR000HLMP-EH32-NR0005902200HLMP-EH30-PS000HLMP-EH32-PS0007652900HLMP-EG30-KN0002701010HLMP-EG30-MQ000HLMP-EG32-MQ0004501730HLMP-EG30-NQ0005901730HLMP-EG30-NR000HLMP-EG32-NR0005902200 Red 626HLMP-EG30-PQ0007651730HLMP-EG30-PR0007652200HLMP-EG30-PS000HLMP-EG32-PS0007652900 Notes:1. The luminous intensity is measured on the mechanical axis of the lamp package.2.The optical axis is closely aligned with the package mechanical axis.3. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the lamp.4. θ1/2 is the off-axis angle where the luminous intensity is one half the on-axis intensity.5.The intensity of narrow viewing angle lamps is measured at the intensity peak.Part Numbering SystemHLMP-x x xx-x x x xxMechanical Options00: Bulk PackagingDD: Ammo PackYY: Flexi-Bin; Bulk PackagingZZ: Flexi-Bin; Ammo PackColor Bin Selections0: No color bin limitation4: Amber color bin 4 onlyK: Amber color bins 2 and 4 onlyMaximum Intensity Bin0: No Iv bin limitationMinimum Intensity BinViewing Angle & Lead Stand Offs08: 6 deg without lead stand offs10: 6 deg with lead stand offs15: 15 deg without lead stand offs17: 15 deg with lead stand offs24: 23 deg without lead stand offs26: 23 deg with lead stand offs30: 30 deg without lead stand offs32: 30 deg with lead stand offsColorG: 626 nm RedH: 615 nm Red-OrangeJ: 605 nm OrangeL: 590 nm AmberPackageE: 5 mm RoundNOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. LEADS ARE MILD STEEL, SOLDER DIPPED.3. TAPERS SHOWN AT TOP OF LEADS (BOTTOM OF LAMP PACKAGE) INDICATE AN EPOXY MENISCUS THAT MAY EXTEND ABOUT 1 mm (0.040 in.) DOWN THE LEADS.4. RECOMMENDED PC BOARD HOLE DIAMETERS:• LAMP PACKAGE A WITHOUT STAND-OFFS: FLUSH MOUNTING AT BASE OF LAMP PACKAGE = 1.143/1.067 (0.044/0.042).• LAMP PACKAGE B WITH STAND-OFFS: MOUNTING AT LEAD STAND-OFFS = 0.965/0.889 (0.038/0.035).5. FOR DOME HEIGHTS ABOVE LEAD STAND-OFF SEATING PLANE, d, LAMP PACKAGE B, SEE TABLE.BPackage DimensionsA(0.039)(0.039)PART NO.d HLMP-XX1012.37 ± 0.25 (0.487 ± 0.010)HLMP-XX1712.42 ± 0.25 (0.489 ± 0.010)HLMP-XX2612.52 ± 0.25 (0.493 ± 0.010)HLMP-XX3211.96 ± 0.25 (0.471 ± 0.010)Electrical/Optical Characteristics at T A = 25°CParameter SymbolMin.Typ.Max.UnitsTest Conditions Forward VoltageI F = 20 mAAmber (λd = 590 nm) 2.02Orange (λd = 605 nm)V F 1.98 2.4VRed-Orange (λd = 615 nm) 1.94Red (λd = 626 nm) 1.90Reverse Voltage V R 520VI F = 100 µAPeak Wavelength:Peak of Wavelength of Amber (λd = 590 nm)592Spectral Distribution Orange (λd = 605 nm)λPEAK 609nmat I F = 20 mARed-Orange (λd = 615 nm)621Red (λd = 626 nm)635Spectral Halfwidth∆λ1/217nmWavelength Width at Spectral Distribution 1/2 Power Point at I F = 20 mASpeed of Response τs 20ns Exponential Time Constant, e -t/τCapacitanceC 40pF V F = 0, f = 1 MHzThermal Resistance R θJ-PIN240°C/WLED Junction-to-Cathode LeadLuminous Efficacy [1]Emitted LuminousAmber (λd = 590 nm)480Power/Emitted Radiant Orange (λd = 605 nm)ηv370lm/WPowerRed-Orange (λd = 615 nm)260Red (λd = 626 nm)150Note:Absolute Maximum Ratings at T A = 25°CDC Forward Current [1,2,3]............................................................50 mA Peak Pulsed Forward Current [2,3]..............................................100 mA Average Forward Current [3].........................................................30 mA Reverse Voltage (I R = 100 µA).........................................................5 V LED Junction Temperature..........................................................130°C Operating Temperature ..............................................-40°C to +100°C Storage Temperature ..................................................-40°C to +120°C Dip/Drag Soldering Temperature...........................260°C for 6 seconds Through-the-Wave Preheat Temperature......................................145°C Through-the-Wave Solder Temperature.................245°C for 3 seconds [1.59 mm (0.060 in.) below seating plane]Notes:1. Derate linearly as shown in Figure 4.2. For long term performance with minimal light output degradation, drive currentsbetween 10 mA and 30 mA are recommended. For more information on recommended drive conditions, please refer to Application Brief I-024 (5966-3087E).3. Operating at currents below 1 mA is not recommended. Please contact your local representative for further information.sFigure 2. Forward Current vs.Forward Voltage.Figure 3. Relative Luminous Intensity vs. Forward Current.Figure 4. Maximum Forward Current vs. Ambient Temperature. Derating Based on T JMAX = 130°C.Figure 1. Relative Intensity vs. Peak Wavelength.I F – F O R W A R D C U R R E N T – m AT A – AMBIENT TEMPERATURE – °CR E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES8060507020-20-15103040-1051015202590-25-5WAVELENGTH – nmR E L A T I V E I N T E N S I T YR E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )00I F – DC FORWARD CURRENT – mA 403.02.01.51.00.520602.5C U R R E NT – m AV F – FORWARD VOLTAGE – VBin Name Min.Max.K 310400L 400520M 520680N680880P 8801150Q 11501500R 15001900S 19002500T 25003200U 32004200V 42005500W 55007200X 72009300Y 930012000Z 12000160001160002100022100027000Intensity Bin Limits (mcd at 20 mA)Tolerance for each bin limit is ± 15%.Bin Name Min.Max.1584.5587.02587.0589.54589.5592.06592.0594.5Amber Color Bin Limits (nm at 20 mA)Tolerance for each bin limit is ± 0.5 nm.Note:1.Bin categories are established for classification of products. Products Figure 7. Representative Spatial Radiation Pattern for 23° Viewing Angle Lamps.R E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES806050702010304090-20-15-10510152025-25-5R E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES806050702010304090-20-15-10510152025-25-5R E L A T I V E I N T E N S I T Y – %1000θ – ANGULAR DISPLACEMENT – DEGREES806050702010304090-20-15-10510152025-25-5Figure 6. Representative Spatial Radiation Pattern for 15° Viewing Angle Lamps.Data subject to change.Copyright © 2001 Agilent Technologies, Inc. August 13, 2001。
MP01追剪控制器使用说明书
飞锯/追剪专用控制器EP09Versoin1.0使用前请先阅读本手册目录目录目录................................................ I一、飞锯/追剪的运动特点 (1)二、系统框架 (2)三、系统参数 (3)1.厂家参数设定 (3)2.用户参数设定 (3)3.设定后生成的数据比较 (4)四、控制模式 (5)1.手动模式 (5)2.自动模式 (5)五、控制器端子说明 (6)六、参数使用方法 (7)七、EP09控制器尺寸 (8)八、电路图 (9)一、飞锯/追剪的运动特点在设定的同步区牵引剪切部件的速度和送料速度一致,在同步区完成剪切运动,而不同的切割长度则通过调节非同步区速度来适应。
该飞锯/追剪系统由测量轮,牵引电机,剪切电磁阀和运动控制器完成追剪运动。
测量轮负责平稳无打滑测量物料的长度和速度,牵引电机由伺服系统驱动,运动控制器根据设定的切断长度发出对应的脉冲给伺服控制系统使剪切部件跟踪材料同步运动;剪切/飞锯电磁阀在剪切部件与材料同步时完成剪切/飞锯。
康尼斯追剪控制系统应用此处的参数设定分为两个部分:1. 厂家参数设定2. 用户参数设定3. 设定后生成的数据比较本系统工作方式分为以下三种:当系统电源闭合的所有条件满足后,系统才能启动,启动后系统应进入手动模式。
而通常在生产过程使用自动方式。
1. 手动模式系统正常运行所需的条件具备以后,系统通电后进入手动模式,而实际生产使用的是自动模式,在手动模式下,当按下正向点动按钮,刀架向正方向走,当按下反向点动按钮,刀架向反方向走,按下回零按钮,刀架回零点。
2. 自动模式这是为正常生产设置的操作方式,根据设定的切断长度,刀架自动与材料移动并按照设定长度对材料进行切断,然后刀架反回原点位置。
切刀的速度由设定长度和材料速度自动计算决定。
在指定的环境条件具备后,按下“自动模式”按钮,系统就能进入自动操作方式。
注意:在自动模式下,即使材料处于停止状态,也有可能因某种偶然因素引起测量轮转动而导致刀架移动。
罗克韦尔 ControlLogix 系统 说明书
准备事宜 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19 1756-L7x 控制器部件. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
未随 1756-L6x 控制器提供的部件. . . . . . . . . . . . . . . . . . . . . . 33 1756-L6x 控制器安装. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 CF 卡的安装和取出 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 电池的连接与更换 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38 将控制器插入机架 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40 将控制器从机架拆下 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 42
安装 1756-L7x 控制器 安装 1756-L6x 控制器
控制器使用入门
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DescriptionThese non-diffused lamps are designed to produce a bright light source and smooth radiationpattern. A slight tint is added to the lens for easy color identification.This lamp has been designed with aHLMP-C115, HLMP-C117, HLMP-C123, HLMP-C215, HLMP-C223,HLMP-C315, HLMP-C323, HLMP-C415, HLMP-C423, HLMP-C515,HLMP-C523, HLMP-C615, HLMP-C623Features•Very high intensity •Exceptional uniformity •Microtint lens for color identification•Consistent viewability All colors: AlGaAs RedHigh Efficiency Red Yellow Orange GreenEmerald Green •15° and 25° family•Tape and reel options available •Binned for color and intensity Applications•Ideal for backlighting front panels*•Used for lighting switches •Adapted for indoor and outdoor signsAgilentT-13/4 Super Ultra-Bright LED LampsData Sheet20mil lead frame, enhanced flange, and tight meniscus controls, making it compatible with radial lead automated insertion equipment.Selection GuidePart Number Luminous Intensity Iv (mcd) Color2θ1/2[1]Standoff Leads HLMP-Min.Max.DH AS AlGaAs15No C115290.0–C115-O00xx290.0–C115-OP0xx290.01000.0Yes C117-OP0xx290.01000.025No C12390.2–C123-L00xx90.2–Red15No C215138.0–C215-M00xx138.0–C215-MN0xx138.0400.025No C22390.2–C223-L00xx90.2–C223-MN0xx138.0400.0 Yellow15No C315147.0–C315-L00xx147.0–C315-LM0xx147.0424.025No C32396.2–C323-K00xx96.2–C323-KL0xx96.2294.0 Orange15No C415138.0–C415-M00xx138.0–C415-M0D0xx138.0–C415-MN0xx138.0400.025No C42390.2–C423-L00xx90.2–C423-LM0xx90.2276.0 Green15No C515170.0–C515-L00xx170.0C515-LM0xx170.0490.025No C52369.8–C523-J00xx69.8–C523-KL0xx111.7340.0 Emerald Green15No C61517.0–C615-G00xx17.0–25No C623 6.7–C623-E00xx 6.7–Part Numbering SystemHLMP - C x xx - x x x xxMechanical Options00: Bulk01: Tape & Reel, Crimped Leads02: Tape & Reel, Straight LeadsB2: Right Angle Housing, Even LeadsUQ: Ammo Pack, Horizontal LeadsColor Bin Options0: Full Color Bin DistributionD: Color Bins 4 & 5 onlyMaximum Iv Bin Options0: Open (No Maximum Limit)Others: Please refer to the Iv Bin TableMinimum Iv Bin OptionsPlease refer to the Iv Bin TableViewing Angle & Standoffs Options15: 15 Degree, without Standoffs17: 15 Degree, with Standoffs23: 25 Degree, without StandoffsColor Options1. AS AlGaAs Red2. High Efficiency Red3. Yellow4. Orange5. Green6. Emerald GreenPackage OptionsC: T-1 3/4 (5 mm)Absolute Maximum Ratings at T A = 25°CHighHighDH AS Efficiency Performance AlGaAs Red and Green and ParameterRed Orange Yellow Emerald Green Units DC Forward Current [1]30302030mA Transient Forward Current [2]500500500500mA (10 µsec Pulse)Reverse Voltage (Ir = 100 µA)5555V LED Junction Temperature 110110110110°C Operating Temperature Range –20 to +100–55 to +100–20 to +100°C Storage Temperature Range –55 to +100°CWave Soldering Temperature 250°C for 3 seconds [1.59 mm (0.063 in.) from body]Lead Solder Dipping Temperature 260°C for 5 seconds[1.59 mm (0.063 in.) from body]Notes:1. See Figure 5 for maximum current derating vs. ambient temperature.2. The transient current is the maximum nonrecurring peak current the device can withstand without damaging the LED die and wire bond.Package DimensionsHLMP-Cx15 and HLMP-Cx23HLMP-Cx17(0.039)NOTES:1. ALL DIMENSIONS ARE IN MILLIMETERS (INCHES).2. LEADS ARE MILD STEEL, SOLDER DIPPED.3. AN EPOXY MENISCUS MAY EXTEND ABOUT 0.5 mm (0.020 in.) DOWN THE LEADS.± 0.20± 0.008)Electrical Characteristics at T A = 25°CForward Reverse Capacitance Speed of ResponseVoltage Breakdown C (pF)Thermalτs (ns)Vf (Volts)Vr (Volts)Vf = 0Resistance Time Constant@ If = 20 mA@ Ir = 100 µA f = 1 MHz RθJ-PIN e-t/τsPart Number Typ.Max.Min.Typ.(°C/W)Typ.HLMP-C115 1.8 2.253021030HLMP-C117HLMP-C123HLMP-C215 1.9 2.651121090HLMP-C223HLMP-C315 2.1 2.651521090HLMP-C323HLMP-C415 1.9 2.654210280HLMP-C423HLMP-C515 2.2 3.0518210260HLMP-C523HLMP-C615 2.2 3.0518210260HLMP-C623Optical Characteristics at T A = 25°CLuminous Color,ViewingIntensity Peak Dominant Angle LuminousIv (mcd)Wavelength Wavelength2θ1/2Efficacy@ 20 mA[1]λpeak (nm)λd[2] (nm)(Degrees)[3]ηvPart Number Min.Typ.Typ.Typ.Typ.(lm/w) HLMP-C1152906006456371180HLMP-C117HLMP-C1239020026HLMP-C215138300635626171459017023HLMP-C315146300583585175009617025HLMP-C415138300600602173809017023HLMP-C515170300568570205956917028HLMP-C61517455585602065662728Notes:1. The luminous intensity, Iv, is measured at the mechanical axis of the lamp package. The actual peak of the spatial radiation pattern may not bealigned with this axis.2. The dominant wavelength, λd, is derived from the CIE Chromaticity Diagram and represents the color of the device.3. 2θ1/2 is the off-axis angle where the luminous intensity is 1/2 the on-axis intensity.Figure 1. Relative intensity vs. wavelength.Figure 2. Forward current vs. forward voltage (non-resistor lamp).Figure 3. Relative luminous intensity vs. forward current.WAVELENGTH – nmR E L A T I V E I N T E N S I T Y1.00.50I F – F O R W A R DC U R R E N T – m AV F – FORWARD VOLTAGE – VI F – F O R W A R D C U R R E N T – m AV F – FORWARD VOLTAGE – VHIGH EFFICIENCY RED, ORANGE,YELLOW, AND HIGH PERFORMANCEGREEN, EMERALD GREENR E L A T I V E L U M I N O U S I N TE N S I T Y (N O R M A L I Z E D A T 20 m A )I F – DC FORWARD CURRENT – mA R E L A T I V E L U M I N O U S I N T E N S I T Y (N O R M A L I Z E D A T 20 m A )0I DC – DC CURRENT PER LED – mA10201.60.80.4515301.2250.20.61.01.4HER, ORANGE, YELLOW, AND HIGH PERFORMANCE GREEN, EMERALD GREENFigure 5. Maximum forward dc current vs. ambient temperature. Derating based on T j MAX = 110°C.Figure 4. Relative efficiency (luminous intensity per unit current) vs. peak current.Figure 6. Relative luminous intensity vs. angular displacement. 15 degree family.R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D A T 20 m A )0I PEAK – PEAK FORWARD CURRENT – mA0.60.8300201001.21.00.20.45020010DH As AlGaAs REDηP E A K – R E L A T I V E E F F I C I E N C Y (N O R M A L I Z E D A T 20 m A )I PEAK – PEAK FORWARD CURRENT – mAHER, ORANGE, YELLOW, HIGHPERFORMANCE GREEN, EMERALD GREENI F – F O R W A R D C U R R E NT – m AT A – AMBIENT TEMPERATURE – °C DH As AlGaAs REDI F – F O R W A R D C U R R E N T – m AT A – AMBIENT TEMPERATURE – °CHER, ORANGE, YELLOW, AND HIGH PERFORMANCE GREEN, EMERALD GREEN N O R M A L I Z E D L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.80.60.50.70.2450.10.30.4403530252010515-5-10-15-20-25-30-35-40-450.9Figure 7. Relative luminous intensity vs. angular displacement. 25 degree family.Intensity Bin Limits Intensity Range (mcd)ColorBin Min.Max.L 101.5162.4M 162.4234.6N 234.6340.0O 340.0540.0P 540.0850.0Q 850.01200.0R 1200.01700.0Red/OrangeS 1700.02400.0T 2400.03400.0U 3400.04900.0V 4900.07100.0W 7100.010200.0X 10200.014800.0Y 14800.021400.0Z 21400.030900.0L 173.2250.0M 250.0360.0N 360.0510.0O 510.0800.0P 800.01250.0YellowQ 1250.01800.0R 1800.02900.0S 2900.04700.0T 4700.07200.0U 7200.011700.0V 11700.018000.0W18000.027000.0N O R M A L I Z E D L U M I N O U S I N T E N S I T Y10ANGULAR DISPLACEMENT – DEGREES0.80.60.50.70.2450.10.30.4403530252010515-5-10-15-20-25-30-35-40-450.9Intensity Bin Limits, continuedIntensity Range (mcd) Color Bin Min.Max.E7.612.0F12.019.1G19.130.7H30.749.1I49.178.5J78.5125.7K125.7201.1L201.1289.0 Green/M289.0417.0 Emerald Green N417.0680.0O680.01100.0P1100.01800.0Q1800.02700.0R2700.04300.0S4300.06800.0T6800.010800.0U10800.016000.0V16000.025000.0W25000.040000.0 Maximum tolerance for each bin limit is ± 18%.Color CategoriesLambda (nm)Color Category #Min.Max.6561.5564.55564.5567.5 Green4567.5570.53570.5573.52573.5576.51582.0584.53584.5587.0 Yellow2587.0589.54589.5592.05592.0593.01597.0599.52599.5602.03602.0604.5 Orange4604.5607.55607.5610.56610.5613.57613.5616.58616.5619.5 Tolerance for each bin limit is ± 0.5 nm.Mechanical Option MatrixMechanical Option Code Definition00Bulk Packaging, minimum increment 500 pcs/bag01Tape & Reel, crimped leads, minimum increment 1300 pcs/bag02Tape & Reel, straight leads, minimum increment 1300 pcs/bagB2Right Angle Housing, even leads, minimum increment 500 pcs/bagUQ Ammo Pack, horizontal leads, in 1K minimum incrementNote:All categories are established for classification of products. Products may not be available in all categories. Please contact your local Agilent representative for further clarification/information./semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only)Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand,Philippines, Indonesia: (+65) 6755 2044Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc.Obsoletes 5965-6165ENovember 11, 20045988-2149EN。