YP-350A-AA中文资料

DISC BRAKES SERIES DISC BRAKES SERIES订货标记　Order Mark YP Series Electro-Hydraulic Disc Brakes主要特点附加装置YP1.YP2.YP3系列　Series YP11.YP21.YP31.YP32系列　Series YP31.YP32系列　Series电源电压等级和电源频率　Power voltage and power frequencyCL-闭闸限位开关　Close limit-switchRL-开闸限位开关　Release limit-switchWL-衬垫摩损极限限位开关　Lining wear limit-switchHL-手动释放限位开关　Hand release limit-switchH-手动释放装置　Hand release lever产品型号　Type推动器规格（推力）　Thruster specification (thrust)制动盘直径和厚度　Diameter and width of disc制动器安装形式（参见尺寸图）　InstallationYP□－□－□×□－ⅡA－CL.H 380V/50Hz应用：YP系列电力液压盘式制动器是一种高性能、多功能的先进产品，由于其具有瓦块退距自动均等，衬垫磨损自动补偿等先进功能，使用过程中维护非常便捷。

通过增设各种限位开关，可给主机PLC提供所需的联锁保护信号。

非常适合各种现代的大型专用装卸机械、起重运输机械、冶金设备、矿山设备及工程机械中各种机构的减速和维持（停车）制动。

Application:YP Series Electro-hydraulic Disc Brakes are advanced products with high performance and multiple functions. They aremaintenance-friendly due to advanced functions applied on them such as automatic shoe clearance balancing and wear-self-compensation device. Various limit switches can provide interlocking protection signal to main machinery PLC. Theyfit very well for decelerating and stop/braking large-scale modern machines such as loading and unloading machinery,lifting and transporting machinery, metallurgy equipment and mining equipment.■联锁退距均等装置和瓦块自动随位装置（专利技术），使用过程中可始终保持两侧瓦块退距均等且无需调整，完全避免制动衬垫浮贴制动盘的现象。

YE3皖南电机样本系列xxxxxxxx(新版)YE3系列是一种超高效率三相异步电动机，适用于需要节能连续运行的一般使用场所，如风机、水泵等。

这些电动机的机座号为63至355，功率范围为0.12至375千瓦，采用工作制S1和冷却方式IC411.它们符合中国GB-2012标准的2级能效等级（IEC3级）。

这些电动机外形美观，高效节能，采用F级绝缘，防护等级为IP55，电机噪声低、振动小，运行可靠。

这些电动机有许多优点，包括美观的外观、高效节能、F 级绝缘、IP55防护等级、低噪声、小振动和平稳运行。

这些电动机的性能数据如下：型号Type 功率额定电流转速效率功率因数额定转矩千瓦）（安培）（转/分）（牛顿·米）0.53 0.63 0.80 0.81 0.630.70 0.88 0.81 0.81 0.881.0 1.29 0.82 0.81 1.291.4 1.92 0.82 0.82 1.921.72.50 0.83 0.82 2.502.43.65 0.84 0.83 3.653.24.97 0.85 0.84 4.974.6 7.30 0.87 0.85 7.306.0 9.95 0.88 0.87 9.957.8 13.1 0.88 0.88 13.110.6 17.9 0.88 0.88 17.914.4 24.4 0.89 0.89 24.420.6 35.6 0.89 0.89 35.627.9 48.6 0.90 0.89 48.634.2 60.0 0.90 0.89 60.040.5 71.2 0.91 0.89 71.254.9 96.6 0.92 0.89 96.667.4 119 0.92 0.89 11980.8 145 0.93 0.89 145这些电动机的转速、效率、功率因数和额定转矩随功率的增加而增加。

这些电动机的额定电流和额定转矩也随功率的增加而增加。

Performance Data for 380V50Hz MotorsModel Type Power kW Rated Current A Speed ___ YE3-315S-2 195 0.45 1.8 96.5 0.95 1147YE3-315M-2 234 0.64 1.8 97.2 0.95 1376YE3-315L1-2 279 0.81 1.8 97.5 0.95 1640YE3-315L-2 323 1.1 1.8 97.7 0.95 1903YE3-315L2-2 349 1.4 1.8 97.8 0.95 2059YE3-315L3-2 383 1.8 1.8 97.9 0.95 2262YE3-355M1-2 383 2.6 1.6 97.9 0.95 2262YE3-355M-2 436 3.5 1.6 98.1 0.95 2574YE3-355L1-2 488 4.8 1.6 98.2 0.95 2886YE3-355L-2 549 6.3 1.6 98.3 0.95 3249YE3-355L2-2 619 8.4 1.6 98.4 0.95 3669YE3-355L3-2 654 11.2 2.1 98.5 0.95 3872YE3-63M1-4 0.45 21.5 2.1 84.4 0.87 3.2YE3-63M2-4 0.64 28.8 2.1 86 0.87 4.5YE3-71M1-4 0.81 35.3 2.1 87.6 0.88 5.7YE3-71M2-4 1.1 41.8 2.1 88.5 0.88 7.7YE3-80M1-4 1.4 56.6 2.3 89.2 0.89 9.8YE3-80M2-4 1.8 69.6 2.3 90 0.89 12.5YE3-90S-4 2.6 84.4 2.3 91.1 0.89 18.1YE3-90L-4 3.5 103 2.3 92 0.89 24.4YE3-100L1-4 4.8 136 2.3 92.6 0.89 33.3YE3-100L2-4 6.3 163 2.3 93.1 0.89 43.6Note: The table above shows the performance data for motors with a voltage of 380V and frequency of 50Hz。

北京艺源优源技术有限公司产品列表（军品）型号输入输出1 输出2机型说明AD2A-100WA AC 220V DC 5V/10A 12V/4A FAD2A-10W AC 220V DC 5V/1A -5V/1A BAD2A-10WA AC 220V DC 5V/1.5A 12V/0.3AAD2A-15W AC 220V DC 5V/2A 12V/0.5A C不共地AD2A-15WA AC 220V DC 15V/0.5A -15V/0.5A BAD2A-20WA AC 220V DC 5.7V/3A 5.7V/0.3A B不共地AD2A-25W AC 220V DC 5V/0.2A 24V/1A CAD2A-30W AC 220V DC 5V/3A 7.5V/2A C两路共地AD2A-30WA AC 220V DC 5V/5A -5V/1A C单地AD2A-30WB AC 220V DC 5V/3A 15V/1A CAD2A-30WC AC 220V DC 5V/5A 5V/1A C单地AD2A-35WA AC 220V DC 5V/3A 24V/1A CAD2A-50WA AC 220 V DC 5V/8A 12V/1A CAD2A-50WB AC 220V DC +12V/2A -12V/2A CAD2A-50WC AC 220 V DC 5V/2A 12V/3A裸板，无外壳AD2A-50WD AC 220 V DC 12V/4A -12V/0.5A CAD2A-50WE AC 220V DC 5V/7A 12V/1A CAD2B-100WL AC 220 V DC 12V/8.3A 14V/1A特殊规格,警用电源. AD2B-120WA AC 220 V DC 12V/10A -12V/0.5A F两路共地AD2B-120WB AC 220V DC 5V/6A 24V/3A F不共地AD2B-150WL AC 220V DC 12V/10A 14.6V/3A特殊规格：警用电源AD2B-170WA AC 220V DC 12V/7A -12V/7A FAD2B-240WA AC 220V DC 12V/20A -12V/0.5A FAD2B-240WB AC 220V DC 5V/3A 12V/18A FAD2B-30WA AC 220V DC 12V/1.5A -12V/1A CAD2B-50WA AC 220V DC 5V/5A 27V/1A C单地AD2B-50WB AC 220V DC 12V/3A -12V/1A CAD2B-600WA AC 220V DC 12V/20A 24V/20AAD2C-100WA AC 220V±15%DC 15V/3.5A -15V/3.5A FAD2C-120WA AC 220V DC 15V/4A -15V/4A FAD2C-150WA AC 220V DC 15V/5A -15V/5A FAD2C-50WA AC (90～250) V DC 15V/2A -15V/1AAD2D-100WA AC 220V DC 24V/3A 5V/1A FAD2D-100WB AC 220V DC 24V/3A 12V/1A FAD2D-120W AC （180～260）V DC 24V/4A 48V/0.5A EAD2D-120WA AC 220V DC 24V/5A 5V/1A FAD2D-150WA AC 220V DC 24V/3A -24V/3A FAD2D-150WB AC 220V DC 24V/3A -24V/3A FAD2D-15WA AC 220V DC 24V/0.5A 5V/0.5A B不共地AD2D-170WA AC 220V DC 24V/3.5A -24V/3.5A FAD2D-200WA AC 220V DC 24V/6A 12V/2A F共地AD2D-200WB AC 220V DC 24V/5A 12V/5A F用24V做主回路AD2D-240WA AC 220V DC （18～24）V/8A 10V/1A FAD2D-40WB AC 220 V DC 20V/1A -20V/1A CAD2D-50WA AC 220 V DC 24V/1A -24V/1A CAD2D-80WA AC 220V DC 24V/2.5A 15V/1.2A EAD2E-30WB AC 220V DC 6V/2.5A 8V/1A CAD2E-50WA AC 220V DC 12V/2.5A 15V/1A CAD2E-50WB AC 220V DC 12V/1.5A 20V/1.5A CAD2F-150W AC 220V DC 48V/3.5A 中间抽头： DC 24V/3.5A FAD2F-30WA AC 220V DC 7.2V/1A 14.4V/1.5A CAD2F-30WB AC 220V DC 8.1V/1A 14.4V/1.5A BAD2G-100WA AC 220V DC -48V/1.2A -30V/1.2A E不共地AD2G-60WA AC 220V DC 9V/1.3A 24V/2A C断续工作，两路共地AD2J-50W AC 380V DC 24V/1.5A 30V/0.7A EAD2K-200W AC 220V DC 200V/0.5A -200V/0.5A FAD2K-240WA AC 220V DC 40V/3A -40V/3A FAD2M-100WA AC 220V DC 9V/5A -9V/5A FAD2M-200W AC 220V DC 17V/4A -17V/4A FAD2M-50WA AC 220V DC 420V/0.03A 110V/0.3A EAD2N-220WA AC 220V DC （30～55）V/2A（30～55）V/2A FABD2D-250W AC 220V DC 24V/10A 27V/1A GABD2F-300W AC 220V DC 48V/5A 56V/1A G。

IRFS350ABV DSS = 400 V R DS(on) = 0.3ΩI D = 11.5 A40011.57.368±30113411.59.24.0920.74- 55 to +1503001.3540----♦ Avalanche Rugged Technology ♦ Rugged Gate Oxide Technology ♦ Lower Input Capacitance ♦ Improved Gate Charge♦ Extended Safe Operating Area♦ Lower Leakage Current: 10µA (Max.) @ V DS = 400V ♦ Low R DS(ON): 0.254Ω (Typ.)$GYDQFHG 3RZHU 026)(7Thermal ResistanceJunction-to-Case Junction-to-AmbientR θJC R θJA°C/WCharacteristic Max.Units Symbol Typ.FEATURESAbsolute Maximum RatingsDrain-to-Source VoltageContinuous Drain Current (T C =25°C)Continuous Drain Current (T C =100°C)Drain Current-Pulsed (1)Gate-to-Source VoltageSingle Pulsed Avalanche Energy (2)Avalanche Current (1)Repetitive Avalanche Energy (1)Peak Diode Recovery dv/dt (3)Total Power Dissipation (T C =25°C)Linear Derating Factor Operating Junction and Storage Temperature Range Maximum Lead Temp. for Soldering Purposes, 1/8 from case for 5-secondsCharacteristicValue Units Symbol I DM V GS E AS I AR E AR dv/dt I D P D T J , T STGT LA V mJ A mJ V/ns W W/°CA °CV DSS V TO-3PF1.Gate2. Drain3. Source321©1999 Fairchild Semiconductor CorporationRev. B元器件交易网400--2.0----------0.46----------3051342022100321011451.5----4.0100-100101000.3--2780350155505521075131----9.752140------3854.8511.5681.5----Notes;(1) Repetitive Rating: Pulse Width Limited by Maximum Junction Temperature (2) L=15mH, I AS =11.5A, V DD =50V, R G =27Ω, Starting T J =25°C (3) I SD ≤ 17A, di/dt ≤ 250A/µs, V DD ≤ BV DSS , Starting T J =25°C (4) Pulse Test: Pulse Width = 250µs, Duty Cycle ≤ 2%(5) Essentially Independent of Operating TemperatureElectrical Characteristics (T C =25°C unless otherwise specified)Drain-Source Breakdown Voltage Breakdown Voltage Temp. Coeff.Gate Threshold Voltage Gate-Source Leakage , Forward Gate-Source Leakage , Reverse CharacteristicSymbol Max.Units Typ.Min.Test Condition Static Drain-Source On-State Resistance Forward Transconductance Input Capacitance Output CapacitanceReverse Transfer Capacitance Turn-On Delay Time Rise TimeTurn-Off Delay Time Fall TimeTotal Gate Charge Gate-Source Charge Gate-Drain (Miller ) Chargeg fs C iss C oss C rss t d(on)t r t d(off)t f Q g Q gs Q gdBV DSS∆BV/∆T J V GS(th)R DS(on)I GSS I DSS V V/°C V nAµA ΩΩpF ns nC --------------------------V GS =0V,I D =250µA I D =250µA See Fig 7V DS =5V,I D =250µA V GS =30V V GS =-30V V DS =400VV DS =320V,T C =125°C V GS =10V,I D =5.75A (4) V DS =50V,I D =5.75A(4)V DD =200V,I D =17A,R G =6.2ΩSee Fig 13 (4) (5)V DS =320V,V GS =10V,I D =17ASee Fig 6 & Fig 12 (4) (5)Drain-to-Source Leakage Current V GS =0V,V DS =25V,f =1MHz See Fig 5Source-Drain Diode Ratings and CharacteristicsContinuous Source Current Pulsed-Source Current (1)Diode Forward Voltage (4)Reverse Recovery Time Reverse Recovery ChargeI S I SM V SD t rr Q rrCharacteristicSymbol Max.Units Typ.Min.Test Condition ----------A V ns µCIntegral reverse pn-diode in the MOSFETT J =25°C,I S =11.5A,V GS =0V T J =25°C,I F =17Adi F /dt=100A/µs (4)10-110010110-110101@ N o t e s :1. 250 µsP u l s e T e s t 2. T C= 25 oC V GS Top : 1 5 V1 0 V 8.0 V 7.0 V 6.0 V 5.5 V 5.0 V Bottom : 4.5 VI D , D r a i n C u r r e n t [A ]V D S , D r a i n -S o u r c e V o l t a g e [V ]24681010-11010125 oC150 oC- 55 oC@ N o t e s :1. V GS = 0 V2. V DS= 50 V 3. 250 µsP u l s e T e s t I D , D r a i n C u r r e n t [A ]V G S , G a t e -S o u r c e V o l t a g e [V ]102030405060700.000.150.300.450.60@ N o t e : T J= 25 oC V GS= 20 V V GS= 10 V R D S (o n ) , [Ω]D r a i n -S o u r c e O n -R e s i s t a n c eI D, D r a i n C u r r e n t [A ]0.20.40.60.81.01.21.41.61.810-110101150 oC25 oC@ N o t e s :1. V GS = 0 V2. 250 µsP u l s e T e s t I D R , R e v e r s e D r a i n C u r r e n t [A ]V S D , S o u r c e -D r a i n V o l t a g e [V ]1010101000200030004000C iss = C gs + C gd ( C ds = s h o r t e d )C oss = C ds + C gd C rss = C gd@ N o t e s :1. V GS = 0 V2. f = 1 M H zC rssC oss C issC a p a c i t a n c e [p F ]V D S , D r a i n -S o u r c e V o l t a g e [V ]20406080100120510V DS= 320 V V DS = 200 V V DS = 80 V @ N o t e s : I D= 17.0 A V G S , G a t e -S o u r c e V o l t a g e [V ]Q G , T o t a l G a t e C h a r g e [n C ]Fig 1. Output CharacteristicsFig 2. Transfer CharacteristicsFig 6. Gate Charge vs. Gate-Source VoltageFig 5. Capacitance vs. Drain-Source VoltageFig 4. Source-Drain Diode Forward VoltageFig 3. On-Resistance vs. Drain Current-75-50-252550751001251501750.80.91.01.11.2@ N o t e s :1. V GS = 0 V2. I D= 250 µA B V D S S , (N o r m a l i z e d )D r a i n -S o u r c e B r e a k d o w n V o l t a g eT J , J u n c t i o n T e m p e r a t u r e [oC ]-75-50-252550751001251501750.00.51.01.52.02.53.0@ N o t e s :1. V GS = 10 V2. I D= 8.5 A R D S (o n ) , (N o r m a l i z e d )D r a i n -S o u r c e O n -R e s i s t a n c eT J , J u n c t i o n T e m p e r a t u r e [oC ]25507510012515024681012I D , D r a i n C u r r e n t [A ]T c , C a s e T e m p e r a t u r e [o C ]10-510-410-310-210-110010110-210-1100single pulse0.20.10.010.020.05D=0.5@ Notes :1. Z θJC (t)=1.35 o C/W Max.2. Duty Factor, D=t 1/t 23. T JM -T C =P DM *Z θJC (t)Z θJ C (t ) , T h e r m a l R e s p o n s et 1 , Square Wave Pulse Duration [sec]1010110210310-110010110210 µs10 m s D C100 µs1 m s @ N o t e s :1. T C =25 oC 2. T J = 150 o C 3. S i n g l e P u l s eO p e r a t i o n i n T h i s A r e ai s L i m i t e d b y R DS(on)I D , D r a i n C u r r e n t [A ]V D S , D r a i n -S o u r c e V o l t a g e [V ]Fig 7. Breakdown Voltage vs. TemperatureFig 8. On-Resistance vs. TemperatureFig 11. Thermal ResponseFig 10. Max. Drain Current vs. Case TemperatureFig 9. Max. Safe Operating AreaP DMt 1t 2Fig 12. Gate Charge Test Circuit & WaveformFig 13. Resistive Switching Test Circuit & WaveformsFig 14. Unclamped Inductive Switching Test Circuit & WaveformsE AS =L L I AS 2----21--------------------BV DSS -- V DDBV DSSV inV out10%90%t d(on)t r t ont offt d(off)t fChargeV GS10VQ gQ gs Q gdVary t p to obtain required peak I D10VV DDCL LV DSI DR Gt pDUTBV DSSt pV DDI ASV DS (t)I D (t)TimeV DD( 0.5 rated V DS )10VV out V inR LDUTR G3mAV GSCurrent Sampling (I G )ResistorCurrent Sampling (I D )ResistorDUTV DS300nF50k Ω200nF12VSame Typeas DUTCurrent RegulatorR 1R 2Fig 15. Peak Diode Recovery dv/dt Test Circuit & WaveformsDUTV DS +--LI SDriver V GSR GSame Type as DUTV GSdv/dt controlled by R GI S controlled by Duty Factor DV DD10VV GS ( Driver )I S ( DUT )V DS ( DUT )V DDBody DiodeForward Voltage DropV fI FM , Body Diode Forward CurrentBody Diode Reverse CurrentI RMBody Diode Recovery dv/dtdi/dtD =Gate Pulse Width Gate Pulse Period--------------------------TRADEMARKSACEx™CoolFET™CROSSVOLT™E 2CMOS TM FACT™FACT Quiet Series™FAST ®FASTr™GTO™HiSeC™The following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is not intended to be an exhaustive list of all such trademarks.LIFE SUPPORT POLICYFAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORTDEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROV AL OF FAIRCHILD SEMICONDUCTOR CORPORA TION.As used herein:ISOPLANAR™MICROWIRE™POP™PowerTrench™QS™Quiet Series™SuperSOT™-3SuperSOT™-6SuperSOT™-8TinyLogic™1. Life support devices or systems are devices or systems which, (a) are intended for surgical implant intothe body, or (b) support or sustain life, or (c) whosefailure to perform when properly used in accordancewith instructions for use provided in the labeling, can be reasonably expected to result in significant injury to the user.2. A critical component is any component of a lifesupport device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness.PRODUCT STATUS DEFINITIONS Definition of TermsDatasheet Identification Product Status Definition Advance InformationPreliminary No Identification Needed Obsolete This datasheet contains the design specifications for product development. Specifications may change in any manner without notice.This datasheet contains preliminary data, andsupplementary data will be published at a later date.Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.This datasheet contains final specifications. Fairchild Semiconductor reserves the right to make changes at any time without notice in order to improve design.This datasheet contains specifications on a product that has been discontinued by Fairchild semiconductor.The datasheet is printed for reference information only.Formative or In DesignFirst ProductionFull ProductionNot In ProductionDISCLAIMERFAIRCHILD SEMICONDUCTOR RESERVES THE RIGHT TO MAKE CHANGES WITHOUT FURTHER NOTICE TO ANY PRODUCTS HEREIN TO IMPROVE RELIABILITY , FUNCTION OR DESIGN. FAIRCHILD DOES NOT ASSUME ANY LIABILITY ARISING OUT OF THE APPLICATION OR USE OF ANY PRODUCT OR CIRCUIT DESCRIBED HEREIN; NEITHER DOES IT CONVEY ANY LICENSE UNDER ITS PATENT RIGHTS, NOR THE RIGHTS OF OTHERS.元器件交易网。

t esto 350-EPA,-Pro手操器和testo 350-EPA,-Pro/-XL烟气分析箱操作手册 中文2 一般说明一般说明请仔细阅读本文，以便在投入使用前，先熟悉产品的操作。

如有必要，请把本手册放在手边，以供取阅。

本文描述了testo 350-EPA,-Pro 测量系统的操作说明。

Testo 350-XL 的一些标准功能，对于testo 350-EPA,-Pro 烟气分析仪来说则是选配功能。

两种烟气分析仪分别使用testo 350-EPA,-Pro 手操器。

也就是说，本手册描述的功能和操作，适用于testo 350-EPA,-Pro 手操器和testo 350-EPA, Pro 烟气分析箱。

提示标识含义建议警告：warning!如果未采取特定的预防措施，可能会引起严重的人身伤害请仔细阅读警告提示，采取预防措施警告：warning!如果未采取特定的预防措施，可能会造成轻微的人身伤害，或设备损坏请仔细阅读警告提示，采取预防措施重要信息请特别注意Text仪器屏幕显示文字 -按键请按键打印的功能键 请按功能键简明版操作步骤 见简易格式，3页一般说明简易格式本手册使用一些简易格式，来描述操作步骤（例如，调用功能）例如：调用诊断功能简易格式：要求的操作步骤：1．打开主菜单：2．选择菜单项：3．确认选择：4．选择功能诊断：5．确认选择：34 内容内容一般说明 (2)内容 (4)A. 安全说明 (8)B. 预定用途 (9)C. 产品描述 (10)手操器 (10)C.1C.1.1 手操器概述 (10)C.1.2 键盘 (11)C.1.3 显示屏 (11)手操器连接/接口 (14)C.1.4手操器电源 (14)C.1.5烟气分析箱 (15)C.2C.2.1 烟气分析箱概述 (15)C.2.2 LED状态显示灯 (16)C.2.3 烟气分析箱连接/接口 (16)烟气分析箱供电 (17)C.2.4功能/仪器选项 (17)C.2.5烟气探针 (17)C.3D 调试 (18)E 操作 (19)电源，电池/充电电池 (19)E.1更换电池 (19)E.1.1电池充电 (20)E.1.2电源供电 (21)E.1.3E.2探头传感器 (21)E.2.1 连接探头传感器 (21)E.2.2 使用烟气探针 (21)内容5 E.3 基本操作步骤 (22)连接系统部件 (22)E.3.1打开测量系统 (23)E.3.2调用功能 (24)E.3.3分配功能键 (25)E.3.4输入数值/名称 (26)E.3.5打印数据 (27)E.3.6E.3.7保存数据 (27)E.3.8关闭测量系统 (27)E.4 设置测量系统 (28)E.4.1设置语言 (28)设置日期/时间 (28)E.4.2设置燃料 (28)E.4.3编辑显示 (29)E.4.4设置地点 (30)E.4.5更改仪器名称 (31)E.4.6设置打印机 (31)E.4.7E.5 日常保养 (32)E.5.1冷凝槽/冷凝箱 (32)检查/替换过滤芯 (33)E.5.2E.5.3检测系统泄露 (33)F. 主菜单 (34)内存 (34)F.1F.1.1 读取 (34)F.1.2 程序 (34)F.1.3 删除内存 (36)F.1.4 释放内存？ (36)F.2传感器 (36)F.2.1 校准 (36)F.2.2 打印传感器数据 (39)F.2.3 传感器状态 (39)输入 (39)F.3F.3.1 测量点编号/HCT (39)F.3.2 燃料 (40)F.3.3 O2参考值/CO2max (40)F.3.4 参数 (40)F.3.5 稀释 (41)F.3.6 露点/环境空气 (41)6 内容装置 (42)F.4F.4.1 更改日期 (42)F.4.2 视图 (42)F.4.3 打印机 (42)F.4.4 诊断 (43)F.4.5 配置 (43)F.4.6 密码 (43)服务 (44)F.5F.5.1 操作值 (44)F.5.2关闭 (44)地址 (44)F.5.3F.5.4 设备数据 (44)F.5.5 语言 (45)F.5.6 数据传输总线地址 (45)G. 测量 (46)准备测量 (46)G..1烟气测量 (47)G..2抽力/差压测量 (47)G..3风速测量 (48)G.4温差测量 (49)G.5测量编程/固体燃料测量 (49)G.6H. 保养和维修 (50)清洁仪器 (50)H.1更换/翻新传感器 (50)H.2重新校准传感器 (51)H.3清洁烟气探针 (51)H.4替换探针前置过滤器 (52)H.5替换热电偶 (52)H.6更换打印纸 (52)H.7更换电池/充电电池 (52)H.8H.9更换冷凝泵 (53)I. 问与答 (54)内容7J. 技术数据 (55)标准和测试 (55)J.1量程和精度 (55)J.2其他仪器数据 (57)J.3J.4计算原理 (58)J.4.1 燃料参数 (58)J.4.2 计算公式 (58)推荐的清洗时间 (61)J.5K. 附件/备件 (62)8 A. 安全说明A. 安全说明避免电气危险：> 不要在有电部件上或其附近使用本测量仪器和探头进行测量保护仪器：> 不要将测量仪器/测量元件与溶剂放在一起，并且不要使用任何干燥剂。

HQ SeriesSPECIFICATIONS STANDARD*SPECIAL ELECTRICALCenter Frequency (Fc)100 to 1000 Mhz80 to 1400 MHz 3dB Relative Bandwidth (% of FC) 4 to 40 4 to 50 Number of Sections Available 3 to 8 2 to 10 Nominal Impedance50 Ohms50 to 75 Ohms Maximum Insertion Loss See Curve See Curve Maximum VSWR 1.5/1 1.3/1 Attenuation in the Stopband See Graph See GraphMaximum Input Power (Average)(Watts to10,000 ft.)500 x 3dB BW (MHz)(Loss Factor)(Fc MHz)See StandardMaximum Input Power (Peak)(Watts to10,000 ft.)300 x 3dB BW (MHz)Fc (MHz)2,000ENVIRONMENTALShock15 G's25 G's Vibration 5 G's10 G's Humidity90% relative100% relativeINSERTION LOSS:The Maximum Insertion Loss at center frequency is equal to :LF x (N + 0.5) / % 3 dB BW + 0.2 Where:LF= Loss Factor, N= Number of Sections% 3dB BW:3dB BW (MHz) x 100divided byCenter Frequency (MHz) Example:A 3 section HQ with a center frequency of 400 MHz and a 3dB BW of 40 MHz would have,1.5 x 3.5 / 10 = 5.25 / 10 = 0.525 0.525 + 0.2 = 0.8 dBConnectors Available on HQ Series:Lark Code Type C DIM.Inches & MMLarkCodeType C DIM.Inches & MMA SMA JACK.800 & 20.3G N JACK 1.625 & 41.3B SMA PLUG.855 & 22.5H N PLUG 1.585 & 40.3C TNC JACK 1.350 & 34.3L SOLDER MPINAXIAL.625 & 15.9D TNC PLUG 1.280 & 32.5*M SOLDER PINRADIAL.625 & 15.9E BNC JACK 1.350 & 34.3S SPECIALF BNC PLUG 1.280 & 32.5*Not recommended for use with this series.LENGTH:The approximate length of a Lark HQ series filter can be determined by the formula:( 0.5 N + 2 / %BW ) x LC = LWhere N is the number of sections used, % BW is:3dB BW (MHz) x 100divided byCENTER FREQUENCY (MHz)LC is the length constant at the specified center frequency, L is the dimension between theconnectors; C1 and C2 are the connector lengths as shown above. All of the length information given here is approximate. Exact length specifications must be quoted by the factory. If a special length is needed,please submit all of your requirements - both electrical and mechanical. This will enable Lark Engineering to quote the optimum design for your application.Example:A 3 section HQ with a center frequency of 400 MHz a 3dB BW of 40 MHz and SMA jack input and output connectors would be:(1.5 + 0.2) x 1.38 = 2.35 + C1 + C2In most cases, the L dimension is rounded to the nearest 1/4 inch which in this instance would be 2.25inches and the O.A.L. is:2.25 + .800 + .800 =3.85 inches.To convert inches to millimeters multiply x 25.40.Lark Engineering HQ SERIES元器件交易网STOPBAND ATTENUATIONThe graph on the following pages defines the normal specification limits on attenuation Lark bandpass filter series HP, HQ, SF, and SM. The minimum level of attenuation in dB is shown as a "number of 3dB bandwidths from center frequency".Since the frequency characteristics vary for differing bandwidths, it is necessary to establishspecifications for each bandwidth of filter. The different graphs represent various 3dB percentage bandwidths. Intermediate values should be interpolated. The 3dB percentage bandwidth is defined asfollows:STOPATT5.HTM元器件交易网As the 3dB bandwidth is exactly 10% of the center frequency, the answer can be read directly from the 10% graph. Using the 5 section curve at the point -1.5 (255 MHz) we find the minimum level of attenuation is 36dB. At +1.6 (348 MHz) the minimum level of attenuation is 48dB.For special requirements, please contact our Application Engineering Department.STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPATT5.HTM元器件交易网STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPBAND ATTENUATION。

YP 系列变频调速三相异步电动机产品样本代号：0AP.138.0091南阳防爆集团有限公司2004 年 3 月0AP.038.0091分发单位： 设计:2 销售:2共 10 页第1 页1. 概述随着电力电子技术的发展,交流变频调速系统也正在突飞猛进的发展。

为适应市 场的需要，我公司在广泛收集国内外相关资料的基础上，研制开发了 YP 系列变频调 速三相异步电动机。

本系列电动机适用于各种需要调速的传动装置中,广泛应用于轻 工、纺织、化工、石油、冶金、机床、水泵等行业。

可与国内外各类变频装置配套使 用, 有助于节能和实现自动控制,配合高精度传感器可实现高精度闭环运行。

本系列电动机具有调速性能好、节能、噪声低、振动小、外形美观、运行安全可 靠、使用维修方便等优点。

本系列电动机功率等级和安装尺寸完全符合国际电工委员 会(IEC)标准，其对应关系与德国 DIN42673 标准基本相同，有利于出口设备的配套和 引进设备的备品备件。

绝缘等级为 F 级，外壳防护等级为 IP54、IP55，冷却方式为 IC416，也可按需要制成其它冷却方式，并可按用户要求派生制成户外型（W） 、户外 防中等腐蚀型（WF1）等。

本系列电动机的功率范围为 0.75～315KW， 机座中心高 80～355mm。

调频范围广,2 极变频范围为 3~60Hz、 极及以上为 3~100Hz,低于额定频率以下为恒转矩输出， 4 高于 额定频率以上为恒功率输出。

电动机型号代表的意义Y P异步电动机 变频 机座中心高（355mm）355L1– 2 WF1户外防中等腐蚀 极数（2 极） 长机座，1 号铁心长2. 结构说明2.1.本系列电动机采用计算机辅助设计技术， 为使该电动机能适应 SPWM 及 PWM 变频电 源供电的状况，在设计上对定子、转子槽型和定子绕组分布形式作了特殊考虑，以期 获得一个较为合适的电感值，来抑制和减少谐波所产生的不良影响。