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RPLIDAR A2 2016-10-28 rev.1.0Low Cost 360 Degree Laser Range ScannerIntroduction and DatasheetModel: A2M5A2M6OPTMAG 4KCONTENTS (1)INTRODUCTION (3)S YSTEM CONNECTION (4)M ECHANISM (5)S AFETY AND S COPE (6)D ATA O UTPUT (6)H IGH S PEED S AMPLING P ROTOCOL AND C OMPATIBILITY (7)A PPLICATION S CENARIOS (8)SPECIFICATION (9)M EASUREMENT P ERFORMANCE (9)L ASER P OWER S PECIFICATION (9)O PTICAL W INDOW (10)C OORDINATE S YSTEM D EFINITION OF S CANNING D ATA (10)C OMMUNICATION INTERFACE (11)MISC (14)SELF-PROTECTION AND STATUS DETECTION (15)SDK AND SUPPORT (16)MECHANICAL DIMENSIONS (17)REVISION HISTORY (18)APPENDIX (19)I MAGE AND T ABLE I NDEX (19)The RPLIDAR A2 is the next generation low cost 360 degree 2D laser scanner (LIDAR) solution developed by SLAMTEC. It can take up to 4000 samples of laser ranging per second with high rotation speed. And equipped with SLAMTEC patented OPTMAG technology, it breakouts the life limitation of traditional LIDAR system so as to work stably for a long time.RPLIDAR A2M5/A2M6 is the enhanced version of 2D laser range scanner(LIDAR). The system can perform 2D 360-degree scan within a 16-meter range. The generated 2D point cloud data can be used in mapping, localization and object/environment modeling.The typical scanning frequency of the RPLIDAR A2 is 10hz (600rpm). Under this condition, the angular resolution will be 0.9°. And the actual scanning frequency can be freely adjusted within the 5-15hz range according to the requirements of users.The RPLIDAR A2 adopts the low cost laser triangulation measurement system developed by SLAMTEC, which makes the RPLIDAR A2 has excellent performance in all kinds of indoor environment and outdoor environment without direct sunlight exposure. Meanwhile, before leaving the factory, every RPLIDAR A2 haspassed the strict testing to ensure the laser output power meet the standards of FDA Class I.System connectionThe RPLIDAR A2 consists of a range scanner core and the mechanical powering part which makes the core rotate at a high speed. When it functions normally, the scanner will rotate and scan clockwise. And users can get the range scan data via the communication interface of the RPLIDAR and control the start, stop and rotating speed of the rotate motor via PWM.Range Scanner CoreCommunication andPower Interface MechanicalPowering PartFigure 1-1 RPLIDAR System CompositionThe RPLIDAR A2 comes with a rotation speed detection and adaptive system. The system will adjust the angular resolution automatically according to the actual rotating speed. And there is no need to provide complicated power system for RPLIDAR. In this way, the simple power supply schema saves the BOM cost. If the actual speed of the RPLIDAR is required, the host system can get the related data via communication interface.The detailed specification about power and communication interface can be found in the following sections.MechanismThe RPLIDAR A2 is based on laser triangulation ranging principle and adopts the high-speed vision acquisition and processing hardware developed by SLAMTEC. The system ranges more than 4000 times per second.dFigure 1-2 The RPLIDAR Working SchematicDuring every ranging process, the RPLIDAR emits modulated infrared laser signal and the laser signal is then reflected by the object to be detected. The returning signal is then sampled by vision acquisition system in RPLIDAR and the DSP embedded in RPLIDAR starts processing the sample data and outputs distance value and angle value between object and RPLIDAR via communication interface.When drove by the motor system, the range scanner core will rotate clockwise and perform the 360-degree scan for the current environment.Figure 1-3 The Obtained Environment Map from RPLIDAR ScanningSafety and ScopeThe RPLIDAR A2 system uses a low power infrared laser as its light source, and drives it by using modulated pulse. The laser emits light in a very short time frame which can ensure its safety to human and pets, and it reaches Class I laser safety standard.The modulated laser can effectively avoid the interference from ambient light and sunlight during ranging scanning process, which makes RPLIDAR work excellent in all kinds of indoor environment and outdoor environment without sunlight.Data OutputDuring the working process, the RPLIDAR will output the sampling data via the communication interface. And each sample point data contains the information in the following table. If you need detailed data format and communication protocol, please contact SLAMTEC.*Note ：The LIDAR scan image is not directly relative to the environment showed here. Illustrative purpose only.Class IFigure 1-4 The RPLIDAR Sample Point Data InformationFigure 1-5 The RPLIDAR Sample Point Data FramesThe RPLIDAR outputs sampling data continuously and it contains the sample point data frames in the above figure. Host systems can configure output format and stop RPLIDAR by sending stop command. For detailed operations please contact SLAMTEC.High Speed Sampling Protocol and CompatibilityThe RPLIDAR A2 adopts the newly extended high speed sampling protocol for outputting the 4000 times per second laser range scan data. Users are required to update the matched SDK or modify the original driver and use the new protocol to use the 4000 times per second mode of RPLIDAR A2. Please check the related protocol documents for details.The RPLIDAR A2 is compatible with all the communication protocols of previous versions. Users can directly replace the previous RPLIDAR with RPLIDAR A2 and use it in the original system. But in this scenario, the RPLIDAR A2 will work in compatible mode and the system will take range 2000 times per second.Data TypeUnitDescriptionDistance mm Current measured distance value between the rotating core of the RPLIDAR and the sampling point Heading degree Current heading angle of the measurement Start Flag (Bool) Flag of a new scanChecksumThe Checksum of RPLIDAR return data…(d ሾn −1ሿ,θሾn −1ሿ)(d ሾn ሿ,θሾn ሿ) (d ሾ0ሿ,θሾ0ሿ) (d ሾ1ሿ,θሾ1ሿ)…Start FlagA new scanApplication ScenariosThe RPLIDAR can be used in the following application scenarios:o General robot navigation and localizationo Environment scanning and 3D re-modelingo Service robot or industrial robot working for long hourso Home service /cleaning robot navigation and localization o General simultaneous localization and mapping (SLAM)o Smart toy’s localization and obstacle avoidanceMeasurement Performance●For Model A2M5/A2M6 OnlyFigure 2-1 RPLIDAR PerformanceNote: the triangulation range system resolution changes along with distance. Laser Power SpecificationFigure 2-2 RPLIDAR Optical SpecificationNote: the laser power listed above is the peak power and the actual average power is much lower than the value.Optical WindowTo make the RPLIDAR A2 working normally, please ensure proper space to be left for its emitting and receiving laser lights when designing the host system. The obscuring of the host system for the ranging window will impact the performance and resolution of RPLIDAR A2. If you need cover the RPLIDAR A2 with translucent materials or have other special needs, please contact SLAMTEC about the feasibility.Optical WindowFigure 2-3 RPLIDAR Optical WindowYou can check the Mechanical Dimensions chapter for detailed window dimensions.Coordinate System Definition of Scanning DataThe RPLIDAR A2 adopts coordinate system of the left hand. The dead ahead of the sensors is the x axis of the coordinate system; the origin is the rotating center of the range scanner core. The rotation angle increases as rotating clockwise. The detailed definition is shown in the following figure:Figure 2-4 RPLIDAR Scanning Data Coordinate System DefinitionCommunication interfaceThe RPLIDAR A2 uses separate 5V DC power for powering the range scanner core and the motor system. And the standard RPLIDAR A2 uses XH2.54-5P male socket. Detailed interface definition is shown in the following figure:Figure 2-5 RPLIDAR Power Interface Definitionθ ሾ0,360)Interface LeadRedXH2.54-5PVCCTXRXGND MOTOCTLFigure 2-6 RPLIDAR External Interface Signal DefinitionPower Supply InterfaceRPLIDAR A2 takes the only external power to power the range scanner core and the motor system which make the core rotate. To make the RPLIDAR A2 work normally, the host system needs to ensure the output of the power and meet its requirements of the power supply ripple.Figure 2-7 RPLIDAR Power Supply SpecificationData communication interfaceThe RPLIDAR A2 takes the 3.3V-TTL serial port (UART) as the communication interface. The table below shows the transmission speed and the protocol standard.Figure 2-8 RPLIDAR Serial Port Interface SpecificationsNote: the RX input signal of A2M5/A2M6 is current control type. In order to ensure the reliable signal identification inside the system, the actual control node voltage of this pin will not be lower than 1.6v. Scanner Motor ControlThe RPLIDAR A2 is embedded with a motor driver which has speed tuning feature. Users can control the start, the stop and the rotating speed for the motor via MOTOCTL in the interface. MOTOCTL can be supplied using PWM signal with special frequency and duty cycle, and in this mode, the rotating speed is decided by the duty cycle of the input MOTOCTL PWM Signal.The following table describes the requirement for the input PWM signal of MOTOCTL:Figure 2-9 RPLIDA Specification for PWM Signal of MOTOCTLNote: the typical value is tested when the scanner rotating frequency is 10Hz. With the same rotating speed, the PWM duty cycle of every RILIDAR A2 may vary slightly. If a precise rotating speed is required, users can perform a closed-loop control.If the host system only need to control the start and stop of the motor, please use the direct current signal in high level and low level to drive MOTOCTL. Under this condition, when the MOTOCTL is the low level signal, the RPLIDAR A2 will stop rotating and scanning; when the MOTOCTL is the high level signal, the RPLIDAR A2 will rotated at the highest speed.MISCFor Model A2M5/A2M6 OnlyFigure 2-10 RPLIDAR MISC SpecificationTo ensure the laser of RPLIDAR always working in the safety range (<3mW) and avoid any other damage caused by device, the RPLIDAR comes with laser power detection and sensor healthy check feature. It will shut down the laser and stop working automatically when any of the following errors has been detected.o Laser transmit power exceeds limited valueo Laser cannot power on normallyo Scan speed of Laser scanner system is unstableo Scan speed of Laser scanner system is too slowo Laser signal sensor works abnormallyThe host systems can check the status of the RPLIDAR via the communication interface and restart the RPLIDAR to try to recover work from error.SLAMTEC provides debug GUI tool and SDK (available for Windows, x86 Linux and Arm Linux) to speed up the product development for users. Please contact SLAMTEC for detail information.Figure 4-1 The Debugging GUI of RPLIDARThe mechanical dimensions of the RPLIDAR A2 are shown as below:Figure 5-1 RPLIDAR Mechanical DimensionsNote: the 4 * M3 screws in the bottom should be no longer than 4mm, or the internal module would be damaged.Image and Table IndexF IGURE 1-1RPLIDAR S YSTEM C OMPOSITION (4)F IGURE 1-2T HE RPLIDAR W ORKING S CHEMATIC (5)F IGURE 1-3T HE O BTAINED E NVIRONMENT M AP FROM RPLIDAR S CANNING (6)F IGURE 1-4T HE RPLIDAR S AMPLE P OINT D ATA I NFORMATION (7)F IGURE 1-5T HE RPLIDAR S AMPLE P OINT D ATA F RAMES (7)F IGURE 2-1RPLIDAR P ERFORMANCE (9)F IGURE 2-2RPLIDAR O PTICAL S PECIFICATION (9)F IGURE 2-3RPLIDAR O PTICAL W INDOW (10)F IGURE 2-4RPLIDAR S CANNING D ATA C OORDINATE S YSTEM D EFINITION (11)F IGURE 2-5RPLIDAR P OWER I NTERFACE D EFINITION (11)F IGURE 2-6RPLIDAR E XTERNAL I NTERFACE S IGNAL D EFINITION (12)F IGURE 2-7RPLIDAR P OWER S UPPLY S PECIFICATION (12)F IGURE 2-8RPLIDAR S ERIAL P ORT I NTERFACE S PECIFICATIONS (13)F IGURE 2-9RPLIDA S PECIFICATION FOR PWM S IGNAL OF MOTOCTL (13)F IGURE 2-10RPLIDAR MISC S PECIFICATION (14)F IGURE 4-1T HE D EBUGGING GUI OF RPLIDAR (16)F IGURE 5-1RPLIDAR M ECHANICAL D IMENSIONS (17)。

美国MOTOROLA压力传感器美国MOTOROLA公司的MPX系列硅压力传感器，主要以气压测量为主，适合用于医疗器械，气体压力控制等领域，输出数字信号。

其测量方式可分为：表压（GP）、绝压（A、AP）、差压（D、DP）型。

在宽温度范围工作时需外加补偿网络和信号调整电路。

具体型号分类而定名称：MPX2010DP 名称：MPX5700DP MPX5700GP 名称：MPX2100AP名称：MPX5500DP 名称：MPX5100AP 名称：MPX5050DP名称：MPX5010DP 名称：MPX4115AP 名称：MPX2200A 名称：MPX2200AP 名称：MPXH6115A6U 名称：MPX4250DP名称：MPX4115A 名称：MPX2202DP 名称：MPX2102AP名称：MPX2053GP 名称：MPXY8300A6U 压力传感器 名称：触力型压力传感器 FSG15N1A 名称：硅压力传感器 MPXH6115A 名称：MPX5700DP 硅压力传感器 名称：MPX53GP 硅压力传感器 名称：压力传感器FPM07 名称：轮胎压力传感器TP015 名称：轮胎压力传感器NPP301名称：Freescale 压力传感器 MPX2010DP商斯达实业传感器与智能控制分公司专门从事各种进口传感器的营销工作，代理多家欧美知名公司的产品。

涉及压力、温度、湿度、电流、液位、磁阻、霍尔、流量、称重、光纤、倾角、扭矩、气体、光电、位移、触力、红外、速度、加速度等多种产品。

广泛应用于航空航天、医疗器械（如血压计）、工业控制、冶金化工、汽车制造、教育科研等领域。

商斯达实业代理的品牌产品主要有：压 力：Kulite、ACSI、Honeywell、Entran、Gems、Dwyer、SSI、Smi、Senstronics、Intersema、Motorola、 NAIS、E+H、Fujikura、Dytran、APM称重测力：Transcell、HBM、Interface、Thamesside、Philips、Entran 温 湿 度：Honeywell、Dwyer流 量：Gems、Dwyer、Honeywell、Folwline、WorldMagnetics 液 位：Honeywell、Siccom、Gems、Dwyer、Kulite、SSI 加 速 度：Entran、Silicondesigns、Dytran 压力开关：ACSI、Gems、Dwyer、台湾矽微航空器材：TexTech 隔音材料、Honeywell 薄膜加热片、DigirayX 射线探伤仪 仪 表：Honeywell、Transcell、东辉、上润、AD、东崎商斯达实业 除代理上述产品外，还有几条传感器生产线，一条压力传感器组装线，可为用户提供各种用途的、特殊要求的配套产品。

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4-64Safety RelaysTiming Control UnitsCU4DescriptionThe CU4 is an off-delay timing unit which can be operatedstandalone or as an extension of a host relay. The timed outputs are used in applications where power must be maintained for a fixed duration after an input signal is received. For example, driving a power to lock TLS2-GD2 to maintain a guard door in the locked position for a fixed duration after a stop button is pressed. Another example would be maintaining the connection of a drive to a motor until the braking function is achieved, and then dropping out a contactor to remove power to the motor.The inputs can be connected in either a single channel or dual channel configuration. The inputs must remain closed during the complete timing cycle. Opening the contacts before the timing cycle completes causes the timer to be reset to zero.The CU4 has a redundant structure with two independent safe timer circuits. The outputs include two normally open safety delayed outputs as well as one normally closed safety output. The safety outputs have independent and redundant internal contacts to help ensure the safety function. When used an extension of a host relay, the normally closed contacts should be used in the feedback loop of the host relay. If used in standalone application, the normally closed contacts can be used to signal an auxiliary device or PLC. A typical operation starts with power applied to A1/A2 and the input circuits open.1.Close the B11/B12 and B21/B22 circuits.a. The safety outputs (17/18 and 27/28) close immediately.2.Open the B11/B12 or B21/B22 circuits.a. The timing process starts.b. The safety outputs (17/18 and 27/28) open after the time expires.3.Go to Step 1.Features•Category 3 per EN 954-1•Stop category 1•Timed off-delay 0.15s to 30s • 2 Safety contacts • 1 Auxiliary contact •1 Monitoring contactSpecifications➊ See Output Ratings on page 1-29 for details. Consult factory for ratings notshown.Standards EN 954-1, ISO 13849-1, IEC/EN 60204-1, IEC 60947-5-1, ANSI B11.19, AS4024.1Category Cat. 3 per EN 954-1 (ISO13849-1)Approvals C-Tick, CE marked for allapplicable directives, cULus and BG Power Supply 24V AC/DC, 50/60 Hz 0.85 to 1.1 x rated voltage Power Consumption 2.5WSafety Inputs 1 N.C. or 2 N.C.Input Simultaneity InfiniteOutputs2 N.O. Safety; 1 N.C. Auxiliary ➊ Output Utilization per IEC 60947-5-1 (Inductive)B300 AC-155A/250V AC, 5A/125V AC N300 DC-13 3A/24V DC Timed Off-Delay 0.15 to 30sFuses Output External 6A Slow Blow or 10A Quick Blow Min. Switched Current/Voltage 10mA/10V Contact Material Ag Sn O 2/0.5µ Au Response Time 30msecIndication LEDsGreen = PowerGreen =CH t1 Active Green = CH t2 active Impulse Withstand Voltage 2500V Pollution Degree 2Operating T emperature -5°C to +55°C (+23°F to 131°F)Humidity90% RH Enclosure Protection IP40 (NEMA 1)T erminal Protection IP20Maximum Conductor Size 0.2–4mm 2 (24-12AWG)T orque Settings—terminal screws 0.4Nm (3.54lb²in)Mounting 35mm DIN rail Weight165g (0.36lbs)Electrical Life220V AC/4A/880VA cos ϕ=0.35220V AC/1.7A/375VA cos ϕ=0.630V DC/2A/60W 10V DC/0.01A/0.1W 100,000 operations 500,000 operations 1,000,000 operations 2,000,000 operations Mechanical Life 2,000,000 operations Vibration 10-55 Hz, 0.35mm Shock10g, 16ms, 100 shocksSafety Relays4-65Timing Control UnitsCU4Product SelectionDimensions—mm (inches) Block DiagramTypical Wiring DiagramsInputs Safety OutputsAuxiliary OutputsTiming Range Catalogue Number1 N.C. or2 N.C.2 N.O.1 N.C.0.15 – 3s 440R-S231730.5 – 10s 440R-S231741.5 – 30s440R-S23175Dual Channel Wiring to CU4 InputsSingle Channel Wiring to CU4 Inputs。

waves 效果器全套中英文说对照表99个英文中文01.Prologue 12:42 加载方法02.API-2500 09:06 压缩处理03.API-550A 09:04 均衡处理04.API-550B 05:29 均衡处理05.API-560 03:20 均衡处理06.AudioTrack 09:50 多重效果07.C1 Comp 04:16 压缩处理08.C1 Comp-Gate 12:33 压缩+门限09.C1 Comp-Sc 18:00 侧链压缩10.C1 Gate 07:14 门限处理11.C4 13:14 多段动态12.DeEsser 03:44 齿音消除13.Doppler 04:48 声场调整14.Doubler 12:32 合唱效果15.Enigma 09:36 迷幻效果16.IDR 01:45 抖动处理17.L1-Ultramaximizer 02:54 母带处理18.L1-Ultramaximizer+ 03:49 母带处理19.L2 02:52 母带处理20.L3-MultiMaximizer 11:56 母带处理21.L3-UltraMaximizer 03:38 母带处理22.LinEq Broadband 05:40 均衡处理23.LinMB 08:57 多段动态24.MaxxBass 03:59 泛音处理25.MetaFlanger 06:40 镶边效果26.MondoMod 09:15 调制效果27.Morphoder 07:18 声码效果28.PAZ Analyzer 11:36 综合分析仪29.PAZ Frequency 15:31 频谱仪30.PAZ Meters 12:10 电平表31.PAZ Position 11:16 声场仪32.Qx-Paragraphic EQ 21:07 均衡处理33.RBass 05:22 泛音处理34.RChannel 09:23 多重效果35.RComp 18:11 压缩处理36.RDeEsser 04:32 齿音消除37.REQ bands 04:43 均衡处理38.RVerb 26:39 卷积混响39.RVox 04:00 压缩处理40.S1-Imager 07:23 立体声扩展41.S1-Shuffler 07:32 立体声扩展42.SoundShifter G Offline 08:11 变速变调43.SoundShifter P 03:26 变调处理44.SoundShifter P Offline 07:11 变速变调45.SSLChannel 36:49 通道条46.SSLComp 06:24 压缩处理47.SSLEQ 07:19 均衡处理48.SuperTap 24:43 延迟处理49.TransX 08:09 瞬间电平控制50.TrueVerb 19:11 模拟混响51.UltraPitch 07:55 自动和声52.X-Click 03:36 去咔哒声53.X-Crackle 03:40 去噼啪声54.X-Hum 06:13 滤波降噪55.X-Noise 10:45 采样降噪56.Z-Noise 12:24 采样降噪57.DeBreath 06:09 去呼吸声58.Tune 01 22:22 音高修正（上）59.Tune 02 16:11 音高修正（中）60.Tune 03 18:07 音高修正（下）WAVES HELP第一种效果：AudioTrack(音频轨）它是针对通常我们见到的普通的音轨的，综合了4段EQ均衡、压缩、噪声门三种效果器。

Document Number: 42067For technical questions, contact: aluminumcaps4@Aluminum Capacitors+ 85 °C and + 95 °C, Large Can36DAVishay SpragueFEATURES•The industry standard for large can aluminum capacitors•Ideal for high wattage power supplies and energy storage applications •Largest Capacitance available •Highest voltage available•Metric threads and stud mount versions included•Replaces Type 36DYFig. 1 Component OutlinesQUICK REFERENCE DATADESCRIPTION VALUENominal case size Ø D x L in inches (mm) 1.375 x 1.625 (35.0 x 41.2) to 3.000 x 8.675 (76.2 x 220.3)Operating temperature - 40 °C to + 95 °C: 6.3 WVDC to 100 WVDC; - 40 °C to + 85 °C; 125 WVDC to 500 WVDCRated capacitance range, C R 100 µF to 2.2 µF T olerance on C R- 10 % to 50 %Rated voltage range, U R 6.3 WVDC to 500 WVDC T ermination Screw insert or solderableterminals Life validation test at 85 °C2000 h: ΔCAP ≤ 15 % frominitial measurementΔESR ≤ 1.5 x initial specifiedlimit Shelf life at 85 °C500 h: ΔCAP ≤ 15 % from initial measurement ΔESR ≤ 1.2 x initial specified limitDC leakage current 5 min charge timeI = K K = 4.0 at + 25 °C; 32.0 at + 85 °CI in µA, C in µF, V in VoltsCVRIPPLE CURRENT MULTIPLIERSTEMPERATUREAMBIENT TEMPERATUREMULTIPLIERS+ 85 °C 1.0+ 75 °C 1.4+ 65 °C 1.7+ 55 °C and below2.0FREQUENCY (Hz)RATED WVDC1204001000 AND UP0 to 50 1.0 1.05 1.1051 to 100 1.0 1.10 1.15150 to 300 1.0 1.15 1.25301 to 5001.01.201.30DIMENSIONS in inches (millimeters)LARGE CAN CAPACITORSCASE CODE NOMINALWITH INSULATING SLEEVETERMINAL SPACING M ± 0.016 (0.4)TYPICAL WEIGHT (g)D± 0.032 (0.8)L± 0.063 (1.6)D (Max.)L (Max.)(P TERMINAL)H (Max.)AN 1.375 (35.0) 1.625 (41.0) 1.453 (36.9) 1.750 (44.5) 1.849 (47.0) 0.500 (12.7) 43.0 AY 1.375 (35.0) 1.875 (48.0) 1.453 (36.9) 2.000 (50.8) 1.099 (53.3) 0.500 (12.7) 54.0 AA 1.375 (35.0) 2.125 (54.0) 1.453 (36.9) 2.250 (57.2) 1.349 (59.7) 0.500 (12.7) 63.0 AM1.375 (35.0)2.625 (67.0)1.453 (36.9)2.750 (69.9)1.849 (72.4)0.500 (12.7)82.0Note• T o ensure delivery of lead (Pb)-free RoHS compliant parts during the transition period please contact your Vishay Sales office * Pb containing terminations are not RoHS compliant, exemptions may apply36DAVishay SpragueAluminum Capacitors+ 85 °C and + 95 °C, Large CanFor technical questions, contact: aluminumcaps4@Document Number: 42067AB 1.375 (35.0) 3.125 (79.0) 1.453 (36.9) 3.250 (82.6) 1.349 (85.1) 0.500 (12.7) 105.0 AL 1.375 (35.0) 3.625 (92.0) 1.453 (36.9) 3.750 (95.3) 1.849 (97.8) 0.500 (12.7) 122.0 AC 1.375 (35.0) 4.125 (105.0) 1.453 (36.9) 4.250 (108.0) 1.349 (110.5) 0.500 (12.7) 129.0 AD 1.375 (35.0) 4.625 (117.0) 1.453 (36.9) 4.750 (120.7) 1.849 (123.2) 0.500 (12.7) 162.0 AE 1.375 (35.0) 5.125 (130.0) 1.453 (36.9) 5.250 (133.4) 1.349 (125.9) 0.500 (12.7) 179.0 AF 1.375 (35.0) 5.625 (143.0) 1.453 (36.9) 5.750 (146.1) 1.849 (148.6) 0.500 (12.7) 201.0 EN 1.750 (44.0) 1.625 (41.0) 1.828 (46.4) 1.750 (44.5) 1.849 (47.0) 0.750 (19.1) 71.0 EY 1.750 (44.0) 1.875 (48.0) 1.828 (46.4) 2.000 (50.8) 2.099 (53.3) 0.750 (19.1) 88.0 EA 1.750 (44.0) 2.125 (54.0) 1.828 (46.4) 2.250 (57.2) 2.349 (59.7) 0.750 (19.1) 102.0 EM 1.750 (44.0) 2.625 (67.0) 1.828 (46.4) 2.750 (69.9) 2.849 (72.4) 0.750 (19.1) 133.0 EB 1.750 (44.0) 3.125 (79.0) 1.828 (46.4) 3.250 (82.6) 3.349 (85.1) 0.750 (19.1) 167.0 EL 1.750 (44.0) 3.625 (92.0) 1.828 (46.4) 3.750 (95.3) 3.849 (97.8) 0.750 (19.1) 198.0 EC 1.750 (44.0) 4.125 (105.0) 1.828 (46.4) 4.250 (108.0) 4.349 (110.5) 0.750 (19.1) 230.0 ED 1.750 (44.0) 4.625 (117.0) 1.828 (46.4) 4.750 (120.7) 4.849 (123.2) 0.750 (19.1) 252.0 EE 1.750 (44.0) 5.125 (130.0) 1.828 (46.4) 5.250 (133.4) 5.349 (135.9) 0.750 (19.1) 269.0 EF 1.750 (44.0) 5.625 (143.0) 1.828 (46.4) 5.750 (146.1) 5.849 (148.6) 0.750 (19.1) 318.0 BY 2.000 (51.0) 1.875 (48.0) 2.078 (52.8) 2.000 (50.8) 2.099 (53.3) 0.875 (22.2) 113.0 BA 2.000 (51.0) 2.125 (54.0) 2.078 (52.8) 2.250 (57.2) 2.349 (59.7) 0.875 (22.2) 133.0 BM 2.000 (51.0) 2.625 (67.0) 2.078 (52.8) 2.750 (69.9) 2.849 (72.4) 0.875 (22.2) 176.0 BB 2.000 (51.0) 3.125 (79.0) 2.078 (52.8) 3.250 (82.6) 3.349 (85.1) 0.875 (22.2) 213.0 BL 2.000 (51.0) 3.625 (92.0) 2.078 (52.8) 3.750 (95.3) 3.849 (97.8) 0.875 (22.2) 261.0 BC 2.000 (51.0) 4.125 (105.0) 2.078 (52.8) 4.250 (108.0) 4.349 (110.5) 0.875 (22.2) 381.0 BD 2.000 (51.0) 4.625 (117.0) 2.078 (52.8) 4.750 (120.7) 4.849 (123.2) 0.875 (22.2) 326.0 BE 2.000 (51.0) 5.125 (130.0) 2.078 (52.8) 5.250 (133.4) 5.349 (135.9) 0.875 (22.2) 337.0 BF 2.000 (51.0) 5.625 (143.0) 2.078 (52.8)5.750 (146.1)5.849 (148.6)0.875 (22.2) 408.0 CB 2.500 (64.0) 3.125 (79.0) 2.578 (65.5) 3.250 (82.6) N/A 1.125 (28.6) 329.0 CL 2.500 (64.0) 3.625 (92.0) 2.578 (65.5) 3.750 (95.3) N/A 1.125 (28.6) 400.0 CC 2.500 (64.0) 4.125 (105.0) 2.578 (65.5) 4.250 (108.0) N/A 1.125 (28.6) 473.0 CD 2.500 (64.0) 4.625 (117.0) 2.578 (65.5) 4.750 (120.7) N/A 1.125 (28.6) 562.0 CE 2.500 (64.0) 5.125 (130.0) 2.578 (65.5) 5.250 (133.4) N/A 1.125 (28.6) 607.0 CF 2.500 (64.0) 5.625 (143.0) 2.578 (65.5)5.750 (146.1)N/A 1.125 (28.6) 675.0 DB 3.000 (76.0) 3.125 (79.0) 3.078 (78.2) 3.250 (82.6) N/A 1.250 (31.8) 496.0 DL 3.000 (76.0) 3.625 (92.0) 3.078 (78.2) 3.750 (95.3) N/A 1.250 (31.8) 598.0 DC 3.000 (76.0) 4.125 (105.0) 3.078 (78.2) 4.250 (108.0) N/A 1.250 (31.8) 700.0 DD 3.000 (76.0) 4.625 (117.0) 3.078 (78.2) 4.750 (120.7) N/A 1.250 (31.8) 802.0 DE 3.000 (76.0) 5.125 (130.0) 3.078 (78.2) 5.250 (133.4) N/A 1.250 (31.8) 944.0 DF 3.000 (76.0) 5.625 (143.0) 3.078 (78.2) 5.750 (146.1) N/A 1.250 (31.8) 1004.0 DJ3.000 (76.0)8.625 (219.0)3.078 (78.2)8.750 (222.3)N/A1.250 (31.8)1403.0DIMENSIONS in inches (millimeters)LARGE CAN CAPACITORSCASE CODE NOMINALWITH INSULATING SLEEVETERMINAL SPACING M ± 0.016 (0.4)TYPICALWEIGHT (g)D± 0.032 (0.8)L± 0.063 (1.6)D (Max.)L (Max.)(P TERMINAL)H (Max.)Document Number: 42067For technical questions, contact: aluminumcaps4@36DAAluminum Capacitors+ 85 °C and + 95 °C, Large CanVishay SpragueDIMENSIONS AND AVAILABLE FORMSNote• Not available on “DJ” case code, E diameters and ’P’ terminal optionDIMENSIONS in inches (millimeters)STUDCASE DIAMETERR THREADHEIGHT P ± 0.039 (1.0)A M 80.472 (12.0)B, C, D M 120.630 (16.0)EN/A N/ATERMINALCODE THREADTHREAD DEPTH HEIGHT J ± 0.032 (0.8)DIAMETER S ± 0.010 (0.25)DIAMETERT ± 0.010 (0.25)NOTESA 10-32 NF-280.219 (5.6)0.063 (1.6)0.313 (8.0)0.438 (11.1)All sizesB 10-32 NF-280.375 (9.5)0.250 (6.4)0.313 (8.0)0.438 (11.1)All sizesD 1/4-28 NF-280.344 (8.7)0.093 (2.4)0.688 (17.5)- C and D dia. codes onlyI M50.375 (9.5)0.250 (6.4)0.313 (8.0)-T ype 602D, 622D onlyN M50.219 (5.6)0.063 (1.6)0.313 (8.0)0.438 (11.1)T ype 36D only T M50.375(9.5)0.250 (6.4)0.313 (8.0)0.438 (11.1)T ype 36D only36DAVishay SpragueAluminum Capacitors+ 85 °C and + 95 °C, Large Can For technical questions, contact: aluminumcaps4@Document Number: 42067DIMENSIONS in inches (millimeters)BOARDNOMINAL CASE DIAMETER A± 0.032 (0.8)B± 0.032 (0.8)C± 0.032 (0.8)E± 0.032 (0.8)F± 0.032 (0.8)G± 0.020 (0.5)1.375 (35.0)0.500 (12.7)0.250 (6.4)0.937 (23.8)0.375 (9.5)0.550 (14.0)0.312 (7.9)1.750 (44.0)0.700 (17.8)0.350 (8.9) 1.350 (31.8)0.525 (13.3)0.900 (22.9)0.312 (7.9)2.000 (51.0)0.800 (20.3)0.400 (10.2)1.400 (38.10)0.575 (14.6)1.000 (25.4)0.312 (7.9)Large Can Circuit Board Layout (Bottom View)Circuit Board Mount “P” Terminal Dimensions0.039 [1.0]Large Can Mounting Kits (Insulated)Large Can Mounting Kits (Uninsulated)DIMENSIONS in inches (millimeters)MOUNTING KITSTYPE PART NUMBERE F G H M Insulated M850-80.331 (8.4) 1.0 (25.0)1.0 (25.0)-0.669 (17.0)Uninsulated M850-8A 0.331 (8.4)-0.551 (14.0)0.31 (0.8)0.512 (13.0)Insulated M1250-8B 0.512 (13.0) 1.181 (30.0)1.0 (25.0)-0.748 (19.0)Uninsulated M1250-8C0.512 (13.0)-0.807 (20.5)0.38 (1.0)0.748 (19.0)Document Number: 42067For technical questions, contact: aluminumcaps4@36DAAluminum Capacitors+ 85 °C and + 95 °C, Large CanVishay SpragueORDERING EXAMPLEElectrolytic capacitor 36DA series:36DA 183 F 016 AN 2 ADIMENSIONS in inches (millimeters)BRACKETS (RoHS COMPLIANT)TYPE PART NUMBER A B C FIGURE NUMBER2 Feet 1245860035A 1.375 (35.0) 1.781 (45.0) 2.218 (56.3)13 Feet 1245860036A 2.000 (51.0) 2.500 (64.0) 2.875 (73.0)23 Feet 1245860037A 2.500 (64.0) 3.000 (76.0) 3.375 (85.7)23 Feet1245860038A3.000 (76.0)3.500 (88.9)3.875 (98.4)2DESCRIPTIONCODE EXPLANATION 36DA Product type183Capacitance value (18 000 µF)F Tolerance (G = - 10 %/+ 75 %; F = -10 %/+ 50 %)016Voltage rating at 85 °C (16 V)AN Can size (see dimensions table)2PVC insulating sleeveATerminal code (low insert 10-32 screw thread)36DAVishay SpragueAluminum Capacitors+ 85 °C and + 95 °C, Large Can For technical questions, contact: aluminumcaps4@Document Number: 42067ELECTRICAL DATA AND ORDERING INFORMATIONCAPACITANCE(µF)PART NUMBERNOMINAL CASE SIZED x LMAX. ESR at 25 °C(m Ω)120 HzMAX. RIPPLE at + 85 °C (A)120 Hz16 WVDC at + 85 °C, SURGE = 8 V18 000.036DA183F016AN2A 1.375 x 1.625 (35.0 x 41.0) 47.74.3025 WVDC at + 85 °C, SURGE = 30 V 8200.0 36DA822F025AN2A 1.375 x 1.625 (35.0 x 41.0) 51.5 4.1012 000.0 36DA123F025AA2A 1.375 x 2.125 (35.0 x 54.0) 32.6 5.70 39 000.0 36DA393F025BM2A 2.000 x 2.625 (51.0 x 67.0) 13.712.250 WVDC at + 85 °C, SURGE = 65 V 6800.0 36DA682F050AA2A 1.375 x 2.125 (35.0 x 54.0) 40.0 5.20 27 000.0 36DA273F050BB2A 2.000 x 3.125 (51.0 x 79.0) 13.313.2047 000.0 36DA473F050CB2A 2.500 x 3.125 (64.0 x 79.0) 9.518.1063 WVDC at + 85 °C, SURGE = 79 V 2700.0 36DA272F063AN2A 1.375 x 1.625 (35.0 x 41.0)69.03.62160 WVDC at + 85 °C, SURGE = 200 V 4700.0 36DA472F160BL2A 2.000 x 3.625 (51.0 x 92.0)54.75.60200 WVDC at + 85 °C, SURGE = 250 V 1500.0 36DA152F200AB2A 1.375 x 3.125 (35.0 x 79.0) 84.0 3.432200.0 36DA222F200BM2A 2.000 x 2.675 (51.0 x 67.0) 72.0 4.36 8200.0 36DA822F200DL2A 3.000 x 3.625 (76.0 x 92.0)20.012.04250 WVDC at + 85 °C, SURGE = 300 V 560.036DA561F250AA2A 1.375 x 2.125 (35.0 x 54.0)158.02.15350 WVDC at + 85 °C, SURGE = 400 V 270.0 36DA271F350AA2A 1.375 x 2.125 (35.0 x 54.0) 590.6 1.12470.0 36DA471F350AM2A 1.375 x 2.625 (35.0 x 41.0) 388.0 1.493300.0 36DA332F350CD2A 2.500 x 4.625 (64.0 x 117.0) 50.0 7.44 5600.036DA562F350DD2A 3.000 x 4.625 (76.0 x 117.0) 37.09.68400 WVDC at + 85 °C, SURGE = 450 V 1200.0 36DA122F400BL2A 2.000 x 3.625 (51.0 x 92.0)150.03.41450 WVDC at + 85 °C, SURGE = 525 V 1200.0 36DA122F450BC2A 2.000 x 4.125 (51.0 x 105.0) 113.0 4.132200.036DA222F450CC2A2.500 x 4.125 (64.0 x 105.0)62.06.39Disclaimer Legal Disclaimer NoticeVishayAll product specifications and data are subject to change without notice.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained herein or in any other disclosure relating to any product.Vishay disclaims any and all liability arising out of the use or application of any product described herein or of any information provided herein to the maximum extent permitted by law. The product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein, which apply to these products.No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay.The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications unless otherwise expressly indicated. Customers using or selling Vishay products not expressly indicated for use in such applications do so entirely at their own risk and agree to fully indemnify Vishay for any damages arising or resulting from such use or sale. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.Product names and markings noted herein may be trademarks of their respective owners.元器件交易网Document Number: 。

SA5.0A Series500 Watt Peak Power MiniMOSORB t Zener Transient Voltage SuppressorsUnidirectionalThe SA5.0A series is designed to protect voltage sensitive components from high voltage, high energy transients. They have excellent clamping capability, high surge capability, low zener impedance and fast response time. The SA5.0A series is supplied in ON Semiconductor’s exclusive, cost-effective, highly reliable Surmetic t axial leaded package and is ideally-suited for use in communication systems, numerical controls, process controls, medical equipment, business machines, power supplies and many other industrial/consumer applications.Features•Working Peak Reverse V oltage Range − 5.0 to 170 V •Peak Power − 500 Watts @ 1.0 ms•ESD Rating of Class 3 (>16 kV) per Human Body Model •Maximum Clamp V oltage @ Peak Pulse Current•Low Leakage < 1 m A above 8.5 V•UL 497B for Isolated Loop Circuit Protection •Maximum Temperature Coefficient Specified •Response Time is typically < 1.0 ns•Pb−Free Packages are Available*Mechanical Characteristics:CASE:V oid-free, Transfer-molded, Thermosetting Plastic FINISH:All external surfaces are corrosion resistant and leads are readily solderableMAXIMUM LEAD TEMPERATURE FOR SOLDERING:230°C,1/16 in. from the case for 10 secondsPOLARITY:Cathode indicated by polarity bandMOUNTING POSITION:Any*For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.Device Package Shipping†ORDERING INFORMATIONSAxxxA Axial Lead1000 Units / Box SAxxxAG Axial Lead(Pb−Free)1000 Units / Box†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.SAxxxARL*Axial Lead5000 / Tape & Reel SAxxxARLG*Axial Lead(Pb−Free)5000 / Tape & Reel SAxxxALF**Axial Lead2000 Units / Box SAxxxALFG**Axial Lead(Pb−Free)2000 Units / Box*SA8.0A, SA130A, and SA160A Not Available in 5000/ Reel.** Lead formed device.MAXIMUM RATINGSRating Symbol Value Unit Peak Power Dissipation (Note 1)@ T L≤ 25°CP PK500WSteady State Power Dissipation@ T L≤ 75°C, Lead Length = 3/8 in Derated above T L = 75°C P D 3.030WmW/°CThermal Resistance, Junction−to−Lead R q JL33.3°C/W Forward Surge Current (Note 2)@ T A = 25°CI FSM70A Operating and Storage T emperature Range T J, T stg−55 to +175°CStresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability.1.Nonrepetitive current pulse per Figure 4 and derated above T A = 25°C per Figure2.2.1/2 sine wave (or equivalent square wave), PW = 8.3 ms, duty cycle = 4 pulses per minute.ELECTRICAL CHARACTERISTICS (T A = 25°C unlessotherwise noted, V F = 3.5 V Max. @ I F (Note 6) = 35 A)Symbol ParameterI PP Maximum Reverse Peak Pulse CurrentV C Clamping Voltage @ I PPV RWM Working Peak Reverse VoltageI R Maximum Reverse Leakage Current @ V RWMV BR Breakdown Voltage @ I TI T Test CurrentQ V BR Maximum Temperature Variation of V BRI F Forward CurrentV F Forward Voltage @ I FELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted, V F = 3.5 V Max. @ I F (Note 6)= 35 A)Device*DeviceMarkingV RWM(Note 3)I R @ V RWMBreakdown Voltage V C @ I PP(Note 5)Q V BRV BR (Note 4) (Volts)@ I T V C I PP Volts m A Min Nom Max mA Volts A mV/°CSA5.0A, G SA5.0A5600 6.4 6.77109.254.35 SA6.0A, G SA6.0A6600 6.677.027.371010.348.55 SA7.0A, G SA7.0A71507.788.198.6101241.76 SA7.5A, G SA7.5A7.5508.338.779.21112.938.87 SA8.0A, G†SA8.0A8258.899.369.83113.636.77 SA8.5A, G SA8.5A8.559.449.9210.4114.434.78 SA9.0A, G SA9.0A911010.5511.1115.432.59 SA10A, G SA10A10111.111.712.311729.410 SA11A, G SA11A11112.212.8513.5118.227.411 SA12A, G SA12A12113.31414.7119.925.112 SA13A, G SA13A13114.415.1515.9121.523.213 SA14A, G SA14A14115.616.417.2123.221.514 SA15A, G SA15A15116.717.618.5124.420.616 SA16A, G SA16A16117.818.7519.712619.217 SA17A, G SA17A17118.919.920.9127.618.119 SA18A, G SA18A1812021.0522.1129.217.220 SA20A, G SA20A20122.223.3524.5132.415.423 SA22A, G SA22A22124.425.6526.9135.514.125 SA24A, G SA24A24126.728.129.5138.912.828 SA26A, G SA26A26128.930.431.9142.111.930 SA28A, G SA28A28131.132.7534.4145.41131 SA30A, G SA30A30133.335.0536.8148.410.336 SA33A, G SA33A33136.738.6540.6153.39.439 SA36A, G SA36A3614042.144.2158.18.641 SA40A, G SA40A40144.446.5549.1164.57.846 SA43A, G SA43A43147.850.352.8169.47.250 SA45A, G SA45A4515052.6555.3172.7 6.952 SA48A, G SA48A48153.356.158.9177.4 6.556 SA51A, G SA51A51156.759.762.7182.4 6.161 SA58A, G SA58A58164.467.871.2193.6 5.370 SA60A, G SA60A60166.770.273.7196.8 5.271 SA64A, G SA64A64171.174.8578.61103 4.976 SA64ALF, G SA64A64171.174.8578.61103 4.976 SA70A, G SA70A70177.881.9861113 4.485 SA78A, G SA78A78186.791.2595.81126 4.095 SA90A, G SA90A901100105.51111146 3.4110 SA100A, G SA100A10011111171231162 3.1123 SA110A, G SA110A1101122128.51351177 2.8133 SA120A, G SA120A12011331401471193 2.5146 SA130A, G†SA130A1301144151.51591209 2.4158 SA150A, G SA150A15011671761851243 2.1184 SA160A, G†SA160A1601178187.51971259 1.9196 SA170A, G SA170A17011891992091275 1.8208 NOTE:Devices listed in bold, italic are ON Semiconductor Preferred devices. Preferred devices are recommended choices for future use and best overall value.3.MiniMOSORB t transients suppressor is normally selected according to the maximum working peak reverse voltage (V RWM), whichshould be equal to or greater than the dc or continuous peak operating voltage level.4.V BR measured at pulse test current I T at an ambient temperature of 25°C.5.Surge current waveform per Figure 4 and derate per Figures 1 and 2.6.1/2 sine wave (or equivalent square wave), PW = 8.3 ms, duty cycle = 4 pulses per minute*The “G’’ suffix indicates Pb−Free package available.†Not Available in the 5000/Tape & Reel.1001010.11ms 10msP P , P E A K P O W E R (k W )t p , PULSE WIDTHFigure 1. Pulse Rating Curve 1008060402000255075100125150175200P E A K P U L S E D E R A T I N G I N % O F P E A K P O W E R O R C U R R E N T @ T A = 25C T A , AMBIENT TEMPERATURE (°C)Figure 2. Pulse Derating Curve10,0001000C, C A P A C I T A N C E (p F )V BR , BREAKDOWN VOLTAGE (VOLTS)Figure 3. Capacitance versus Breakdown Voltage t, TIME (ms)Figure 4. Pulse Waveform543210P D , S T E A D Y S T A T E P O W E R D I S S I P A T I O N (W A T T S )T L , LEAD TEMPERATURE (°C)Figure 5. Steady State Power DeratingK °UL RECOGNITION*The entire series including the bidirectional CA suffix has Underwriters Laboratory Recognition for the classification of protectors (QVGV2) under the UL standard for safety 497B and File #E 116110. Many competitors only have one or two devices recognized or have recognition in a non-protective category. Some competitors have no recognition at all. With the UL497B recognition, our parts successfully passed several tests including Strike V oltage Breakdown test, Endurance Conditioning, Temperature test, Dielectric V oltage-Withstand test, Discharge test and several more.Whereas, some competitors have only passed a flammability test for the package material, we have been recognized for much more to be included in their protector category.*Applies to SA5.0A, CA − SA170A, CA.PACKAGE DIMENSIONSAXIAL LEADCASE 59AA−01ISSUE O(Similar to DO−204AC or DO−15)MiniMOSORB and Surmetic are trademarks of Semiconductor Components Industries, LLC.ON Semiconductor and are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should Buyer purchase or use SCILLC products for any such unintended or unauthorized application, Buyer shall indemnify and hold SCILLC and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that SCILLC was negligent regarding the design or manufacture of the part. SCILLC is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.PUBLICATION ORDERING INFORMATION。

®1/11Table 1: Main FeaturesDESCRIPTIONAvailable either in through-hole or surface-mount packages, the BTA08, BTB08 and T8 triac series is suitable for general purpose AC switching. They can be used as an ON/OFF function in applica-tions such as static relays, heating regulation, in-duction motor starting circuits... or for phase control operation in light dimmers, motor speed controllers,...The snubberless versions (BTA/BTB...W and T8series) are specially recommended for use on inductive loads, thanks to their high commutation performances.Logic level versions are designed to interface directly with low power drivers such as microcontrollers.By using an internal ceramic pad, the BTA series provides voltage insulated tab (rated at 2500V RMS ) complying with UL standards (file ref.:E81734).Symbol Value Unit I T(RMS)8A V DRM /V RRM 600 and 800V I GT (Q 1)5 to 50mABTA08, BTB08 and T8 Series8A TRIAC SREV. 6February 2006SNUBBERLESS™, LOGIC LEVEL & STANDARDTable 2: Order CodesPart Number Marking BTA08-xxxxxRG See page table 8 onpage 10BTB08-xxxxxRG T8xx-xxxG T8xx-xxxH T8xx-xxxBBTA08, BTB08 and T8 Series2/11Table 3: Absolute Maximum Ratings Tables 4: Electrical Characteristics (T j = 25°C, unless otherwise specified)■SNUBBERLESS and Logic Level (3 quadrants)Symbol ParameterValue Unit I T(RMS)RMS on-state current (full sine wave)IPAK/D 2PAK/DPAK/TO-220AB T c = 110°C 8ATO-220AB Ins.T c = 100°C I TSM Non repetitive surge peak on-state current (full cycle, T j initial = 25°C) F = 50 Hz t = 20 ms 80A F = 60 Hz t = 16.7 ms84I ²t I ²t Value for fusingt p = 10 ms 36A ²s dI/dt Critical rate of rise of on-state cur-rent I G = 2 x I GT , t r ≤ 100 ns F = 120 Hz T j = 125°C 50A/µs I GM Peak gate currentt p = 20 µsT j = 125°C 4A P G(AV)Average gate power dissipation T j = 125°C1W T stg T jStorage junction temperature rangeOperating junction temperature range- 40 to + 150- 40 to + 125°CSymbol Test ConditionsQuad-rantT8BTA08 / BTB08Unit T810T835TW SW CW BW I GT (1)V D = 12 V R L = 30 ΩI - II -III MAX.10355103550mA V GT I - II - III MAX.1.3V V GD V D = V DRM R L = 3.3 k ΩT j = 125°C I - II - IIIMIN.0.2V I H (2)I T = 100 mA MAX.153510153550mA I L I G = 1.2 I GTI - III MAX.255010255070mAII306015306080dV/dt (2)V D = 67 %V DRM gate open T j = 125°CMIN.4040020404001000V/µs (dI/dt)c (2)(dV/dt)c = 0.1 V/µs T j = 125°CMIN.5.4- 3.5 5.4--A/ms(dV/dt)c = 10 V/µs T j = 125°C2.8- 1.5 2.98--Without snubber T j = 125°C- 4.5-- 4.57BTA08, BTB08 and T8 Series3/11■Standard (4 quadrants)Table 5: Static Characteristics Table 6: Thermal resistance Symbol Test ConditionsQuadrant BTA08 / BTB08Unit C B I GT (1)V D = 12 V R L = 30 ΩI - II - III IV MAX.255050100mA V GT ALL MAX. 1.3V V GD V D = V DRM R L = 3.3 k Ω T j = 125°C ALLMIN.0.2V I H (2)I T = 500 mA MAX.2550mA I L I G = 1.2 I GTI - III - IVMAX.4050mA II80100dV/dt (2)V D = 67 %V DRM gate open T j = 125°CMIN.200400V/µs (dV/dt)c (2)(dI/dt)c = 5.3 A/ms T j = 125°C MIN.510V/µsSymbol Test ConditionsValueUnit V T (2)I TM = 11 A t p = 380 µs T j = 25°C MAX. 1.55V V to (2)Threshold voltage T j = 125°C MAX.0.85V R d (2)Dynamic resistance T j = 125°C MAX.50m ΩI DRM I RRMV DRM = V RRMT j = 25°C MAX.5µA T j = 125°C1mANote 1: minimum I GT is guaranted at 5% of I GT max.Note 2: for both polarities of A2 referenced to A1.Symbol ParameterValue Unit R th(j-c)Junction to case (AC)IPAK / D 2PAK / DPAK / TO-220AB 1.6°C/WTO-220AB Insulated 2.5R th(j-a)Junction to ambientS = 1 cm ²D 2PAK 45°C/WS = 0.5 cm ²DPAK70TO-220AB / TO-220AB Insulated 60IPAK100S = Copper surface under tab.BTA08, BTB08 and T8 Series4/11Figure 1: Maximum power dissipation versus RMS on-state current (full cycle)Figure 2: RMS on-state current versus case temperature (full cycle)Figure 3: RMS on-state current versus ambient temperature (printed circuit board FR4, copper thickness: 35µm) (full cycle)Figure 4: Relative variation of thermal impedance versus pulse durationFigure 5: On-state characteristics (maximum values)Figure 6: Surge peak on-state current versus number of cyclesBTA08, BTB08 and T8 Series5/11Figure 7: Non-repetitive surge peak on-state current for a sinusoidal pulse with width t p < 10 ms and corresponding value of I 2tFigure 8: Relative variation of gate trigger current, holding current and latching current versus junction temperature (typical values)Figure 9: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values) (Snubberless & L ogic level types)Figure 10: Relative variation of critical rate of decrease of main current versus (dV/dt)c (typical values) (Standard types)Figure 11: Relative variation of critical rate of decrease of main current versus junction temperatureFigure 12: DPAK and D 2P AK Thermal resistance junction to ambient versus copper surface under tab (printed circuit board FR4, copper thickness:35µm)BTA08, BTB08 and T8 Series6/11Figure 13: Ordering Information Scheme (BTA08 and BTB08 series)Figure 14: Ordering Information Scheme (T8 series)Table 7: Product SelectorPart NumberVoltage (xxx)Sensitivity Type Package 600 V 800 V BTA/BTB08-xxxB X X 50 mA Standard TO-220AB BTA/BTB08-xxxBW X X 50 mA Snubberless TO-220AB BTA/BTB08-xxxC X X 25 mAStandard TO-220AB BTA/BTB08-xxxCW X X 35 mA Snubberless TO-220AB BTA/BTB08-xxxSW X X 10 mA Logic level TO-220AB BTA/BTB08-xxxTW X X 5 mA Logic Level TO-220AB T810-xxxG X X 10 mA Logic Level D2PAK T810-xxxH X X 10 mA Logic Level IPAK T835-xxxB X X 35 mA Snubberless DPAK T835-xxxG X X 35 mA Snubberless D 2PAK T835-xxxHXX35 mASnubberlessIPAKBTB: non insulated TO-220AB packageBTA08, BTB08 and T8 Series Figure 15: D2PAK Package Mechanical DataFigure 16: D2PAK Foot Print Dimensions(in millimeters)7/11BTA08, BTB08 and T8 SeriesFigure 17: DPAK Package Mechanical DataFigure 18: DPAK Foot Print Dimensions (in millimeters)8/11BTA08, BTB08 and T8 Series9/11BTA08, BTB08 and T8 Series10/11In order to meet environmental requirements, ST offers these devices in ECOPACK® packages. These packages have a Lead-free second level interconnect . The category of second level interconnect is marked on the package and on the inner box label, in compliance with JEDEC Standard JESD97. The maximum ratings related to soldering conditions are also marked on the inner box label. ECOPACK is an ST trademark. ECOPACK specifications are available at: .Table 8: Ordering InformationOrdering type Marking Package Weight Base qtyDelivery modeBTA/BTB08-xxxyzRGBTA/BTB08-xxxyzTO-220AB 2.3 g 50Tube T8yy-xxxG T8yyxx D 2PAK 1.5 g 50Tube T8yy-xxxG-TR T8yyxx 1000Tape & reel T8yy-xxxB T8yyxx DPAK 0.3 g 75Tube T8yy-xxxB-TR T8yyxx 2500Tape & reel T8yy-xxxHT8yyxxIPAK0.4 g75TubeNote: xxx = voltage, yy = sensitivity, z = typeTable 9: Revision HistoryDate Revision Description of ChangesApr-20025A Last update.13-Feb-20066TO-220AB delivery mode changed from bulk to tube.ECOPACK statement added.元器件交易网BTA08, BTB08 and T8 Series Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequencesof use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is grantedby implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subjectto change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are notauthorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics.All other names are the property of their respective owners© 2006 STMicroelectronics - All rights reservedSTMicroelectronics group of companiesAustralia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America11/11。

HZS-L SeriesSilicon Epitaxial Planar Zener Diode for Low Noise ApplicationADE-208-121A(Z)Rev 1Features• Diode noise level of this series is approximately 1/3-1/10 lower than the HZ series.• Low leakage, low zener impedance and maximum power dissipation of 400 mW are ideally suited for stabilized power supply, etc.• Wide spectrum from 5.2V through 38V of zener voltage provide flexible application.• Suitable for 5mm-pitch high speed automatic insertion.Ordering InformationType No.Mark Package Code HZS-L SeriesType No.MHDOutline1. Cathode2. AnodeCathode bandType No.12B 27HZS-L Series2Absolute Maximum Ratings (Ta = 25°C)ItemSymbol Value Unit Power dissipation Pd 400mW Junction temperature Tj 200°C Storage temperatureTstg-55 to +175°CElectrical Characteristics (Ta = 25°C)Zener Voltage Reverese CurrentDynamic ResistanceV Z (V)*1TestCondition I R (µA)TestCondition r d (Ω)TestCondition Type Grade Min Max I Z (mA)Max V R (V)Max I Z (mA)HZS6LA1 5.2 5.50.512.01500.5A2 5.3 5.6A3 5.4 5.7B1 5.5 5.8800.5B2 5.6 5.9B3 5.7 6.0C1 5.8 6.1600.5C2 6.0 6.3C36.1 6.4HZS7LA1 6.3 6.60.51 3.5600.5A2 6.4 6.7A3 6.6 6.9B1 6.77.0B2 6.97.2B37.07.3C17.27.6C27.37.7C37.57.9HZS9LA17.78.10.51 6.0 600.5A27.98.3A38.18.5Note:1.Tested with DC.HZS-L Series3Zener Voltage Reverese CurrentDynamic ResistanceV Z (V)*1TestCondition I R (µA)TestCondition r d (Ω)TestCondition Type Grade Min Max I Z (mA)Max V R (V)Max I Z (mA)HZS9LB18.38.70.516.0600.5B28.58.9B38.79.1C18.99.3C29.19.5C39.39.7HZS11LA19.59.90.518.0 800.5A29.710.1A39.910.3B110.210.6B210.410.8B310.711.1C110.911.3C211.111.6C311.411.9HZS12LA111.612.10.5110.5 800.5A211.912.4A312.212.7B112.412.9B212.613.1B312.913.4C113.213.7C213.514.0C313.814.3HZS15L114.114.70.5113.0 800.5214.515.1314.915.5HZS16L115.315.90.5114.0 800.5215.716.5316.317.1Note:1.Tested with DC.HZS-L Series4Zener Voltage Reverese Current Dynamic ResistanceVZ(V)*1TestCondition IR(µA)TestCondition rd(Ω)TestConditionType Grade Min Max IZ (mA)Max VR(V)Max IZ(mA)HZS18L116.917.70.5115.0 800.5 217.518.3318.119.0HZS20L118.819.70.5118.01000.5 219.520.4320.221.1HZS22L120.921.90.5120.01000.5 221.622.6322.323.3HZS24L122.924.00.5122.01200.5 223.624.7324.325.5HZS27L125.226.60.5124.01500.5 226.227.6327.228.6HZS30L128.229.60.5127.02000.5 229.230.6330.231.6HZS33L131.232.60.5130.02500.5 232.233.6333.234.6HZS36L134.235.70.5133.03000.5 235.336.8336.438.0Note: 1.Tested with DC.Note: 2.Type No. is as follows; HZS6A1L, HZS6A2L, HZS36-3LHZS-L Series5Main CharacteristicZ e n e r C u r r e n t I Z (A )Zener Voltage V Z (V)Fig.1 Zener current Vs. Z ener voltage51015202530354050403020100–10–20–30–40–500.100.080.060.040.020–0.02–0.04–0.06–0.08–0.10%/°CmV/°CFig.2 Temperature Coefficient Vs. Z ener voltage Fig.3 Power Dissipation Vs. A mbient TemperatureZener Voltage V (V)Z e n e r V o l t a g e T e m p e r a t u r e C o e f f i c i e n t (%/°C )zγZZ e n e r V o l t a g e T e m p e r a t u r e C o e f f i c i e n t (m V /°C )z γ51015202530354010-210-310-410-510-610-710-80500400300200100200150100500Ambient Temperature Ta (°C)P o w e r D i s s i p a t i o n P (m W )d 02.5 mm 3 mmPrinted circuit board100 180 1.6t mm Quality: paper phenol××ll=5 mml=10 mm(Publication value)H Z S 6B 2LH Z S 16-2LH Z S 9B 2LH Z S 12B 2LH Z S 20-2LH Z S 24-2LH Z S 30-2LH Z S 36-2L。

Serie | 4, combiné pose libre avec surgélateur en bas, 186 x 60 cm, inox-easycleanKGN36VI4ALe réfrigérateur combiné No Frost avecVitaFresh : conserve vos aliments frais pluslongtemps la fraîcheur.VitaFresh : conserve le croquant des aliments frais pluslongtemps : grâce à des températures très basses pour laviande et le poisson et un taux d'humidité ajustable pour lesfruits et légumes2 circuits de refroidissement: réfrigérateur et congélateurcontrôlables séparément- empêche le transfert d'odeurs.Données techniquesType de construction : Pose librePorte habillable : impossibleLargeur (mm) : 600Profondeur : 660Poids net (kg) : 74,138Puissance de raccordement (W) : 100Intensité (A) : 10Charnière de la porte : Droite réversibleTension (V) : 220-240Fréquence (Hz) : 50Certificats de conformité : CE, VDELongueur du cordon électrique (cm) : 240Autonomie en cas de coupure de courant (h) : 16Nombre de compresseurs : 1Nombre de circuit de froid : 2Y a-t-il un ventilateur dans le compartiment réfrigérateur : NonPorte réversible : OuiNombre de clayettes dans le réfrigérateur : 2Clayettes spéciales bouteille : OuiCode EAN : 4242002951546Marque : BoschRéférence Commerciale : KGN36VI4AClasse énergétique (2010/30/CE) : A+++Consommation énergétique annuelle (kWh/annum) - NOUVEAU(2010/30/CE) : 173,00Capacité net du réfrigérateur (l) - nouveau (2010/30/EC) : 237Capacité net du congélateur (l) - nouveau (2010/30/EC) : 87Froid ventilé : Réfrigérateur et congélateurPouvoir de congélation (kg/24h) - nouveau (2010/30/EC) : 14Classe climatique : SN-TNiveau sonore (dB(A) re 1 pW) : 36Type d'installation : N/A'!2E20A C-j f b f e g!1/3Serie | 4, combiné pose libre avecsurgélateur en bas, 186 x 60 cm, inox-easyclean KGN36VI4ALe réfrigérateur combiné No Frost avecVitaFresh : conserve vos aliments frais plus longtemps la fraîcheur.Informations générales-Classe d’efficacité énergétique A+++ sur une échelle de classes d’efficacité énergétique de A+++ à D : 173 kWh/an-Volume net total: 324 l-Volume net partie réfrigérateur: 237 l-Volume net partie fraîcheur proche de 0°C: 24 l -Volume net partie surgélateur ****: 87 l -Niveau sonore: 36 dB(A) re 1 pWEquipement-NoFrost - plus jamais dégivrer-Réglage électronique séparé de la température, lisible via LED -Réglage et contrôle de la température séparément pourchaque zone-Système d'alarme optique et acoustique pour porte ouverte -Système d'alarme optique et acoustique en casd'augmentation de la température-Portes Inox AntiFingerprint, parois inox-metallic -Poignée verticale intégrée-Eclairage LED à allumage progressif (SoftStart)Partie réfrigérateur-Système MultiAirflow-Commutateur de superréfrig.: Super-froid avec désactivationautomatique-4 clayettes en verre incassable, dont 2 réglables en hauteur -Support à bouteilles spécial, chromé-2 petit(s) et 1 grand(s) compartiments de porteSystème fraîcheur-1 compartiment VitaFresh avec contrôle de l'humidité - lesfruits et légumes restent frais et riches en vitamines plus longtempsPartie surgélateur-Commutateur de supercongél.: Manual/automatic activiation -Capacité de surgélation: 14 kg/24h-Conservation en cas de coupure de courant: 16 h -3 tiroirs de surgélation transparentsAccessoires-casier à oeufs, bac à glaçonsInformations techniques-Dimensions de l'appareil (H x L x P): 186 x 60 x 66 cm -Charnières de porte à droite, réversibles-Pieds réglables en hauteur à l'avant, roulettes à l'arrière -Classe climatique: SN-T-Puissance de raccordement: 100 W -Tension 220 - 240 V2/3Serie | 4, combiné pose libre avecsurgélateur en bas, 186 x 60 cm, inox-easycleanKGN36VI4A3/3。

SUBMITTAL SHEET SYSTEM INDOOR/OUTDOOR36KS32A KS3632/C3632AWALL MOUNTED AIR CONDITIONERGENERAL DATA(AT 230V)POWER V/PH/HZ230/208/1/60Circuit Ampacity, Min.(A)35Fuse size, Max.(A)35COMPRESSOR Rotary-HermeticNo. used1R.L. Amps - L.R. Amps (A)12.5 ñ 95.0Crankcase Heater-OUTDOOR FAN - TYPE PropellerDia. (in.) - No. used18-3/32 - 2Type Drive - No. speeds Direct ñ 2 (AUTO)No. Poles - RPM (High) 6 - 879No. Motors ñ HP 2 - 110CFM (High)3,670F.L. Amps.(A) 1.8OUTDOOR COIL - TYPE Aluminum Fin & Copper Pipe Fin Type - Pipe Type Slit Plate - Inner Riffled Rows - F.P.I. 2 - 12.7Face Area (sq.ft.)11.63Tube Size (in.)3/8INDOOR FAN ñ TYPE Cross - FlowDia. & Length (in.) - No. used 4 -13/18 & 46-1No. speeds 3 & AutoNo. Poles -RPM (High) 4 -1,329No. Motors - WATTS 1 - 50CFM (HI/MED/LOW)830/710/590F.L. Amps (A)0.6INDOOR COIL - TYPE Aluminum Fin & Copper Pipe Fin Type - Pipe type Slit Plate - Inner Riffled Rows - F.P.I.3-12.7Face Area (sq. ft.) 3.33Tube Size (in.)3/8Drain Connection Size (in.) 1 - 1/4REFRIGERANT R22Lbs. - R22 (O.D. Unit)9.48Control Capillary TubeConnection FlareLine Length, Max (ft.)165Lift difference, Max (ft.)100Line Size - in. O.D. Discharge3/8Line Size - in. O.D. Suction3/4DIMENSIONS (in.)H x W x DIndoor Unit-Uncrated14- 9/16x59- 1/16x9- 7/16-Crated18- 6/32x62- 9/16x11-5/8 Outdoor Unit-Uncrated48- 5/8x37x13-3/8-Crated52- 7/32x40x16- 12/32 WEIGHT INDOOR OUTDOORNet(lbs.)68.0198.0Shipping(lbs.)86.0223.07.719.8SS36KS32A-2 PERFORMANCE DATA @ ARI STANDARD CONDITIONS (230/208V) COOLINGTotal Capacity(BTU/H)34,000/33,000Sensible Capacity(BTU/H)21,790/21,150Latent Capacity(BTU/H)12,210/11,850SEER10.8/11.0 Dehumidification(Pints/H)11.1/11.1Amps(A)14.9/15.5Power Inputs(W)3,300/3,110Outdoor Sound Rating(bels)7.9FEATUREControls MicroprocessorRemote Controller LCD Wireless type Temperature Control IC ThermostatTimer ON/OFF, 24 hoursNight Setback Built-InAir Louver(Horizontal)Manual(Vertical)AutomaticPower Failure Automatic Restart Built-InSelf Diagnosis N/AOPTIONRefrigerant Line Set AP2710BH (30 ft)AP2715BH (50 ft)Low Ambient Control AvailableFresh Air Intake N/ACentral Remote ON-OFF Control AvailableAirduct Extension N/AIndoor Frame Extension N/ACondensate Drain Pump AvailableNon-Removable Remo-con Bracket RCS5PS4BWire Remote Controller RCS-102WD/RDS-302WD36KS32ASUBMITTAL SHEET SYSTEM INDOOR/OUTDOOR36K L S32A KS3632/C L3632AWALL MOUNTED LOW AMBIENT AIR CONDITIONER GENERAL DATA(AT 230V)POWER V/PH/HZ230/208/1/60Circuit Ampacity, Min.(A)35Fuse size, Max.(A)35COMPRESSOR Rotary-HermeticNo. used1R.L. Amps - L.R. Amps (A)12.5 ñ 95.0Crankcase Heater-OUTDOOR FAN - TYPE PropellerDia. (in.) - No. used18-3/32 - 2Type Drive - No. speeds Direct ñ 2 (AUTO)No. Poles - RPM (High) 6 - 879No. Motors ñ HP 2 - 110CFM (High)3,670F.L. Amps.(A) 1.8OUTDOOR COIL - TYPE Aluminum Fin & Copper Pipe Fin Type - Pipe Type Slit Plate - Inner Riffled Rows - F.P.I. 2 - 12.7Face Area (sq.ft.)11.63Tube Size (in.)3/8INDOOR FAN ñ TYPE Cross - FlowDia. & Length (in.) - No. used 4 -13/18 & 46-1No. speeds 3 & AutoNo. Poles -RPM (High) 4 -1,329No. Motors - WATTS 1 - 50CFM (HI/MED/LOW)830/710/590F.L. Amps (A)0.6INDOOR COIL - TYPE Aluminum Fin & Copper Pipe Fin Type - Pipe type Slit Plate - Inner Riffled Rows - F.P.I.3-12.7Face Area (sq. ft.) 3.33Tube Size (in.)3/8Drain Connection Size (in.) 1 - 1/4REFRIGERANT R22Lbs. - R22 (O.D. Unit)9.48Control Capillary TubeConnection FlareLine Length, Max (ft.)165Lift difference, Max (ft.)100Line Size - in. O.D. Discharge3/8Line Size - in. O.D. Suction3/4DIMENSIONS (in.)H x W x DIndoor Unit-Uncrated14- 9/16x59- 1/16x9- 7/16-Crated18- 6/32x62- 9/16x11-5/8 Outdoor Unit-Uncrated48- 5/8x37x13-3/8-Crated52- 7/32x40x16- 12/32 WEIGHT INDOOR OUTDOORNet(lbs.)68.0198.0Shipping(lbs.)86.0223.07.719.8SS36K L S32A-2 PERFORMANCE DATA @ ARI STANDARD CONDITIONS (230/208V) COOLINGTotal Capacity(BTU/H)34,000/33,000Sensible Capacity(BTU/H)21,790/21,150Latent Capacity(BTU/H)12,210/11,850SEER10.8/11.0Dehumidification(Pints/H)11.1/11.1Amps(A)14.9/15.5Power Inputs(W)3,300/3,110Outdoor Sound Rating(bels)7.9FEATUREControls MicroprocessorRemote Controller LCD Wireless type Temperature Control IC ThermostatTimer ON/OFF, 24 hoursNight Setback Built-InAir Louver(Horizontal)Manual(Vertical)AutomaticPower Failure Automatic Restart Built-InSelf Diagnosis N/AOPTIONRefrigerant Line Set AP2710BH (30 ft)AP2715BH (50 ft)Low Ambient Control Buit-inFresh Air Intake N/ACentral Remote ON-OFF Control AvailableAirduct Extension N/AIndoor Frame Extension N/ACondensate Drain Pump AvailableNon-Removable Remo-con Bracket RCS5PS4BWire Remote Controller RCS-102WD/RDS-302WD36K L S32A。

一、流式细胞仪技术参数1 工作条件：1.1 电源要求: 220V (±10%)、50-60HZ1.2 环境温度:16-30℃1.3 湿度：20-80%2 用途：免疫分析、淋巴细胞亚群分析；细胞周期分析、凋亡分析；感染分析、肿瘤细胞分析；多重细胞因子分析等。

3 技术规格和参数3.1 激发系统：3.1.1 激发光源：405nm紫色固态激光器、488nm蓝色固态激光器和640nm红色固态激光器，固定光路，空间立体激发。

3.1.2 激光塑形：自动的多棱镜塑形系统，光斑大小：9x65um椭圆形光斑3.1.3 流动室规格：180x430μm3.2 荧光收集和检测3.2.1 光胶耦合物镜，数值孔径1.2，大面积收集发射荧光。

3.2.2 每一激发激光对应一个独立检测单元，光胶耦合物镜自动分开汇集每一激光激发的发射荧光进入相对应检测单元，避免光谱交叉。

*3.2.3 配备1个独立八角型全反射检测系统、2个独立三角型全反射检测系统3.2.4 光学检测系统内部采用全反射检测光路系统，荧光信号到达检测器只经过一个长通滤光片，信号能量损失最小。

3.2.5 检测系统依次优先检测易衰减的长波长信号，保证弱信号灵敏度。

*3.2.6 共计12个信号检测器，包括10个光电倍增和和2个散射光探测器。

3.2.7 荧光通道组合：405nm紫色激光器对应3个检测通道，滤光片包括450/50nm、 525/50nm、 605/40 nm；488nm蓝色激光器对应4个检测通道滤光片包括530/30nm、 575/25nm、695/40nm、780/60 nm； 640nm 红色激光器对应3个检测通道，检测滤光片包括：670/30nm、712/21nm、780/60 nm。

通道之间最低光谱交叉，滤光片带有智能芯片，直接插拔，自动识别。

*3.2.8 荧光检测灵敏: FITC<100MESF，PE<50MESF(提供英文原版参数)；CFDA检测结果FITC<5MESF，PE<5MESF（提供检测报告）。