G5131-40-T15U中文资料

T 08:17:29+02:00Type code BI15U-EM30WD-AP6X-H1141/3GD Ident no.1634855Rated switching distance Sn 15 mm Mounting conditionsflushAssured switching distance ð (0,81 x Sn) mm Repeatability ð 2 % of full scale Temperature drift ð ± 10 %ð ± 20 %, ð -25 °C , ï +70 °C Hysteresis3…15 %Ambient temperature-40…+100 °Cin the explosion hazardous area see instruction leafletOperating voltage 10… 30VDC Residual rippleð 10 % U DC rated operational current ð 200 mA No-load current I 0ð 20 mA Residual currentð 0.1 mA Rated insulation voltage ð 0.5 kV Short-circuit protection yes/ cyclic Voltage drop at I ð 1.8 VWire breakage / Reverse polarity protection yes/ completeOutput function3-wire, NO contact, PNP Protective insulation ÷Switching frequency 0.75 kHzApproval acc. to ATEX test certificate TURCK Ex-10002M XDevice designationÉ II 3 G Ex nA IIC T4 Gc/II 3 D Ex tc IIIC T110°C DcConstruction Threaded barrel, M30 x 1.5Dimensions62 mmHousing material Stainless steel, V4A (1.4404)Active area material Plastic, LCP Connector housingplastic, PP Admissible pressure on front cap ð 10 bar Max. tightening torque housing nut 75 NmConnectionFlange connector, M12 x 1Vibration resistance 55 Hz (1 mm)Shock resistance 30 g (11 ms)Protection class IP68 / IP69KMTTF874 years acc. to SN 29500 (Ed. 99) 40 °C Switching stateLED yellow■ATEX category II 3 G, Ex Zone 2■ATEX category II 3 D, Ex Zone 22■Threaded barrel, M30 x 1.5■Stainless steel, 1.4404■Front cap made of liquid crystal poly-mer ■Factor 1 for all metals ■Resistant to magnetic fields ■Temperatures -40 °C … +100 °C ■High protection class IP69K, for harsh environments ■Special double-lip seal■Protection against all common acid and alkaline cleaning agents ■Laser engraved label, permanently legi-ble ■DC 3-wire, 10…30 VDC ■NO contact, PNP output ■M12 x 1 male connectorWiring DiagramFunctional principleThe inductive sensors for the food industry are absolutely tight and resistant to cleaning agents and disinfectants,thanks to the LCP front cap and the stainless steel housing.Derating curveT 08:17:29+02:00Distance D 60 mm Distance W 3 x Sn Distance T 3 x B Distance S 1.5 x B Distance G6 x Sn Diameter of the active area BØ 30 mmAll flush mountable uprox ®+ threaded barrel types are also recessed mountable. Safe operation is ensured if the sensor is screwed in by half a turn.T 08:17:29+02:00AccessoriesType codeIdent no.DescriptionMW-306945005Mounting bracket for threaded barrel devices; material: Stain-less steel A2 1.4301 (AISI 304)BSS-306901319Mounting bracket for smooth and threaded barrel devices;material: PolypropylenePN-M306905308Protective nut for M30 x 1 threaded barrel devices; material:Stainless steel A2 1.4305 (AISI 303)Wiring accessoriesType code Ident no.DescriptionRKH4-2/TFE6935482Connection cable, M12 connector, female, straight, 3-pin,cable length: 2 m, sheath material: PVC, grey; temperature range: -25…+80 °C (in resting state), 0…+80 °C (in motion);other cable lengths and types available, see RKH4-2/TFG 6934384Connection cable, M12 connector, female, straight, 3-pin,cable length: 2 m, sheath material: TPE, grey; tempera-ture range: -40…+105 °C (in resting state), -25…+105 °C (in motion); other cable lengths and types available, see T 08:17:29+02:00Operating manual Intended useThis device fulfills the directive 2014/34/EC and is suited for use in explosion hazardous areas acc. to EN 60079-0:2012, EN 60079-15:2010 and EN 60079-31:2014In order to ensure correct operation to the intended purpose it is required to observe the national regulations and directives.For use in explosion hazardous areas conform to classificationII 3 G and II 3 D (Group II, Category 3 G, electrical equipment for gaseous atmospheres and category 3 D, electrical equipment for dust atmo-spheres).Marking (see device or technical data sheet)É II 3 G Ex nA IIC T4 Gc acc. to EN 60079-0:2012 and EN 60079-15:2010 and É II 3 D Ex tc IIIC T110°C Dc acc. to EN 60079-0:2012 and EN 60079-31:2014Local admissible ambient temperature -25…+70 °CInstallation / CommissioningThese devices may only be installed, connected and operated by trained and qualified staff. Qualified staff must have knowledge of protection classes, directives and regulations concerning electrical equipment designed for use in explosion hazardous areas.Please verify that the classification and the marking on the device comply with the actual application conditions.Installation and mounting instructionsAvoid static charging of cables and plastic devices. Please only clean the device with a damp cloth. Do not install the device in a dust flow and avoid build-up of dust deposits on the device.The devices must be protected against strong magnetic fields.The pin configuration and the electrical specifications can be taken from the device marking or the technical data sheet.In order to avoid contamination of the device, please remove possible blanking plugs of the cable glands or connectors only shortly before in-serting the cable or opening the cable socket.Special conditions for safe operationFor devices with M12 connectors please use the supplied safety clip SC-M12/3GD.Do not disconnect the plug-in connection or cable when energised.Please attach a warning label permanently in an appropriate fashion in close proximity to the plug-in connection with the following inscription:Nicht unter Spannung trennen / Do not separate when energized.The device must be protected against any kind of mechanical damage and degrading UV-radiation.The connectors are fully IP rated only in combination with the O-ring.Load voltage and operating voltage of this equipment must be provided by power supplies featuring safe isolation (IEC 60 364/ UL 508), which ensures that the rated voltage (24 VDC +20% = 28.8 VDC) of the equipment is not exceeded by more than 40%.service / maintenanceRepairs are not possible. The approval expires if the device is repaired or modified by a person other than the manufacturer. The most important data from the approval are listed.。

比较常用的笔记本芯片内部管脚解释统供电芯片型号有:一、美信产的用的最多的两个芯片MAX1632、MAX1635可以互换,它们的工作原理一样。

主要产生出3.3V、5V 、12V电压。

二、MAX1631、MAX1634、MAX1904这三种芯片的工作原理与MAX1632 MAX1635差不多，但不能与MAX1632MAX1635芯片互换。

说明:1、MAX1631、MAX1634、MAX1904互相可以代换。

2、MAX1631、1634、1904没有12V输出,这一点与MAX1632、1635不一样,如果MAX1631、1634、1904的板子上需要12V的话,一般是在5V输出的后级,电路中设计一个升压电路。

(参考升压电路一节)3、MAX1632、1635芯片上的12#、 3#的反馈信号脚没有使用,但MAX1631、1634、1904还使用了这个反馈角。

4、4#、5#的定义与MAX1632、1635不一样。

三、MAX785 MAX786用于东芝的笔记本电脑PⅡPⅢ较多。

四、LTC1628用于索尼、康柏的笔记本较多。

五、系统供电电路维修方法与经验小结:1、23#有总控制SHDN时? 9#2.5V不正常或9#为0V时 ?芯片坏或者18#、25# 5V供激放供电没有查D1与D22、7# 28#应有5V高电平控制信号，有时为NQ送来，有时与21#相连，由21#5V电压作为控制信号用，还有的由键盘芯片送来。

注:7#与28#加上一个5V的控制信号，电路应该有正常3.3V或5V电压输出，如果还没有，一般是芯片损坏。

3、先不加电测对地阻值，首先测高端管是否击穿，供电负载是否击穿，如果是OΩ表明击穿短路了，如果有正常的几百欧阻值，但一加电就短路，表明是稳压二极管已经保护了，这是高端还管击穿的结果。

4、电源控制器芯片本身损坏的故障现象:①供电和控制都正常，但没有输出。

②待机状态下总供电正常，但一按开机键总供电瞬间短路。

5、除负载短路原因外，芯片任何一脚无电压输出为芯片损坏(在供电输入与控制都正常情况下)。

PSM Step-up DC/DC ConverterFeatures1~4 Cell Alkaline Battery Operating Range Output Voltage Range: 2.5V~5.0V in 0.1V In-crementsMinimum External Component (L, D, C)100KHz Max. Oscillation Frequency75% Duty RatioUp to 80% Efficiency±2% High Output Voltage Accuracy< 100ppm/°C Temperature CoefficientSOT-89 and SOT-23-5 Small Packages ApplicationsPower Source for Portable EquipmentsHandheld Computers, PalmtopsDigital Still Cameras, CamcordersCellular Phones, PagersPortable Multimedia Players General DescriptionThe G5130/G5131 boost converter is designed for use of main power source on portable equipments.It consist of an oscillator, PSM control logic circuit, an embedded power MOS (LX switch), accurate voltage reference, error amplifier, feedback resistors, and LX protection circuit.Only 3 external components (includes 1 inductor, 1 diode and 1 capacitor) are needed to construct the power application.For larger output power application, G5131 can be used to drive an external NPN device for more input current.Pin Configuration Typical Application Circuit2.5V~5.0V2.5V~5.0VStep 0.1VStep 0.1VOrdering InformationORDER NUMBER ORDER NUMBER(Pb free)MARKINGOUTPUTVOLTAGE (V)TEMP.RANGEPACKAGEG5130-30T11U G5130-30T11Uf EA30x 3.0 -40°C ~ +85°C SOT-23-5G5130-33T11U G5130-33T11Uf EA33x 3.3 -40°C ~ +85°C SOT-23-5G5130-42T11U G5130-42T11Uf EA42x 4.2 -40°C ~ +85°C SOT-23-5G5130-50T11U G5130-50T11Uf EA50x 5.0 -40°C ~ +85°C SOT-23-5G5130-30T21U G5130-30T21Uf 5130Fx 3.0 -40°C ~ +85°C SOT-89G5130-33T21U G5130-33T21Uf 5130Ix 3.3 -40°C ~ +85°C SOT-89G5130-42T21U G5130-42T21Uf 5130Rx 4.2 -40°C ~ +85°C SOT-89G5130-50T21U G5130-50T21Uf 5130Zx 5.0 -40°C ~ +85°C SOT-89G5131-30T11U G5131-30T11Uf EB30x 3.0 -40°C ~ +85°C SOT-23-5G5131-33T11U G5131-33T11Uf EB33x 3.3 -40°C ~ +85°C SOT-23-5G5131-42T11U G5131-42T11Uf EB42x 4.2 -40°C ~ +85°C SOT-23-5G5131-50T11U G5131-50T11Uf EB50x 5.0 -40°C ~ +85°C SOT-23-5G5131-30T21U G5131-30T21Uf 5131Fx 3.0 -40°C ~ +85°C SOT-89G5131-33T21U G5131-33T21Uf 5131Ix 3.3 -40°C ~ +85°C SOT-89G5131-42T21U G5131-42T21Uf 5131Rx 4.2 -40°C ~ +85°C SOT-89G5131-50T21U G5131-50T21Uf 5131Zx 5.0 -40°C ~ +85°C SOT-89For other output voltage, please contact us at sales@Order Number IdentificationGXXXX XX XXTypePin OptionTypeVoltage OptionPart NumberG5130: Internal MOS (LX)G5131: External MOS (EXT)PACKAGE TYPE PIN OPTION PACKINGT1 : SOT-23-5 SOT89 SOT23-5U & D: Tape & Reel Direction T2 : SOT-89 1 2 3 1 2 3 4 5G5130 1:GND VOUT LX 1:CE VOUT NC GND LXG5131 1:GND VOUT EXT 1:CE VOUT NC GND EXTORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5130-25T11U G5130-25T11Uf 2.5 EA25x G5130-26T11U G5130-26T11Uf 2.6 EA26x G5130-27T11U G5130-27T11Uf 2.7 EA27x G5130-28T11U G5130-28T11Uf 2.8 EA28x G5130-29T11U G5130-29T11Uf 2.9 EA29x G5130-30T11U G5130-30T11Uf 3.0 EA30x G5130-31T11U G5130-31T11Uf 3.1 EA31x G5130-32T11U G5130-32T11Uf 3.2 EA32x G5130-33T11U G5130-33T11Uf 3.3 EA33x G5130-34T11U G5130-34T11Uf 3.4 EA34x G5130-35T11U G5130-35T11Uf 3.5 EA35x G5130-36T11U G5130-36T11Uf 3.6 EA36x G5130-37T11U G5130-37T11Uf 3.7 EA37x G5130-38T11U G5130-38T11Uf 3.8 EA38x G5130-39T11U G5130-39T11Uf 3.9 EA39x G5130-40T11U G5130-40T11Uf 4.0 EA40x G5130-41T11U G5130-41T11Uf 4.1 EA41x G5130-42T11U G5130-42T11Uf 4.2 EA42x G5130-43T11U G5130-43T11Uf 4.3 EA43x G5130-44T11U G5130-44T11Uf 4.4 EA44x G5130-45T11U G5130-45T11Uf 4.5 EA45x G5130-46T11U G5130-46T11Uf 4.6 EA46x G5130-47T11U G5130-47T11Uf 4.7 EA47x G5130-48T11U G5130-48T11Uf 4.8 EA48x G5130-49T11U G5130-49T11Uf 4.9 EA49x G5130-50T11U G5130-50T11Uf 5.0 EA50x Note: T1: SOT-23-5Selector GuideORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5130-25T21U G5130-25T21Uf 2.5 5130Ax G5130-26T21U G5130-26T21Uf 2.6 5130Bx G5130-27T21U G5130-27T21Uf 2.7 5130Cx G5130-28T21U G5130-28T21Uf 2.8 5130Dx G5130-29T21U G5130-29T21Uf 2.9 5130Ex G5130-30T21U G5130-30T21Uf 3.0 5130Fx G5130-31T21U G5130-31T21Uf 3.1 5130Gx G5130-32T21U G5130-32T21Uf 3.2 5130Hx G5130-33T21U G5130-33T21Uf 3.3 5130Ix G5130-34T21U G5130-34T21Uf 3.4 5130Jx G5130-35T21U G5130-35T21Uf 3.5 5130Kx G5130-36T21U G5130-36T21Uf 3.6 5130Lx G5130-37T21U G5130-37T21Uf 3.7 5130Mx G5130-38T21U G5130-38T21Uf 3.8 5130Nx G5130-39T21U G5130-39T21Uf 3.9 5130Ox G5130-40T21U G5130-40T21Uf 4.0 5130Px G5130-41T21U G5130-41T21Uf 4.1 5130Qx G5130-42T21U G5130-42T21Uf 4.2 5130Rx G5130-43T21U G5130-43T21Uf 4.3 5130Sx G5130-44T21U G5130-44T21Uf 4.4 5130Tx G5130-45T21U G5130-45T21Uf 4.5 5130Ux G5130-46T21U G5130-46T21Uf 4.6 5130Vx G5130-47T21U G5130-47T21Uf 4.7 5130Wx G5130-48T21U G5130-48T21Uf 4.8 5130Xx G5130-49T21U G5130-49T21Uf 4.9 5130Yx G5130-50T21U G5130-50T21Uf 5.0 5130Zx Note: T2: SOT-89ORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5131-25T11U G5131-25T11Uf 2.5 EB25x G5131-26T11U G5131-26T11Uf 2.6 EB26x G5131-27T11U G5131-27T11Uf 2.7 EB27x G5131-28T11U G5131-28T11Uf 2.8 EB28x G5131-29T11U G5131-29T11Uf 2.9 EB29x G5131-30T11U G5131-30T11Uf 3.0 EB30x G5131-31T11U G5131-31T11Uf 3.1 EB31x G5131-32T11U G5131-32T11Uf 3.2 EB32x G5131-33T11U G5131-33T11Uf 3.3 EB33x G5131-34T11U G5131-34T11Uf 3.4 EB34x G5131-35T11U G5131-35T11Uf 3.5 EB35x G5131-36T11U G5131-36T11Uf 3.6 EB36x G5131-37T11U G5131-37T11Uf 3.7 EB37x G5131-38T11U G5131-38T11Uf 3.8 EB38x G5131-39T11U G5131-39T11Uf 3.9 EB39x G5131-40T11U G5131-40T11Uf 4.0 EB40x G5131-41T11U G5131-41T11Uf 4.1 EB41x G5131-42T11U G5131-42T11Uf 4.2 EB42x G5131-43T11U G5131-43T11Uf 4.3 EB43x G5131-44T11U G5131-44T11Uf 4.4 EB44x G5131-45T11U G5131-45T11Uf 4.5 EB45x G5131-46T11U G5131-46T11Uf 4.6 EB46x G5131-47T11U G5131-47T11Uf 4.7 EB47x G5131-48T11U G5131-48T11Uf 4.8 EB48x G5131-49T11U G5131-49T11Uf 4.9 EB49x G5131-50T11U G5131-50T11Uf 5.0 EB50x Note: T1: SOT-23-5Selector GuideORDER NUMBER ORDER NUMBER(Pb free)OUTPUTVOLTAGE (V)MARKINGG5131-25T21U G5131-25T21Uf 2.5 5131Ax G5131-26T21U G5131-26T21Uf 2.6 5131Bx G5131-27T21U G5131-27T21Uf 2.7 5131Cx G5131-28T21U G5131-28T21Uf 2.8 5131Dx G5131-29T21U G5131-29T21Uf 2.9 5131Ex G5131-30T21U G5131-30T21Uf 3.0 5131Fx G5131-31T21U G5131-31T21Uf 3.1 5131Gx G5131-32T21U G5131-32T21Uf 3.2 5131Hx G5131-33T21U G5131-33T21Uf 3.3 5131Ix G5131-34T21U G5131-34T21Uf 3.4 5131Jx G5131-35T21U G5131-35T21Uf 3.5 5131Kx G5131-36T21U G5131-36T21Uf 3.6 5131Lx G5131-37T21U G5131-37T21Uf 3.7 5131Mx G5131-38T21U G5131-38T21Uf 3.8 5131Nx G5131-39T21U G5131-39T21Uf 3.9 5131Ox G5131-40T21U G5131-40T21Uf 4.0 5131Px G5131-41T21U G5131-41T21Uf 4.1 5131Qx G5131-42T21U G5131-42T21Uf 4.2 5131Rx G5131-43T21U G5131-43T21Uf 4.3 5131Sx G5131-44T21U G5131-44T21Uf 4.4 5131Tx G5131-45T21U G5131-45T21Uf 4.5 5131Ux G5131-46T21U G5131-46T21Uf 4.6 5131Vx G5131-47T21U G5131-47T21Uf 4.7 5131Wx G5131-48T21U G5131-48T21Uf 4.8 5131Xx G5131-49T21U G5131-49T21Uf 4.9 5131Yx G5131-50T21U G5131-50T21Uf 5.0 5131Zx Note: T2: SOT-89Absolute Maximum RatingsLX to GND…………….…..……………..…-0.3V to +7V CE to GND….……………..………..……...-0.3V to +7V VOUT to GND.…….…..................……….-0.3V to +7V Operating Temperature Range (Note 1)..-40°C to +85°CJunction Temperature ......…......…......……........+125°C Storage Temperature…………........…..-65°C to +150°C Reflow Temperature (soldering, 10 sec)…..…....+260°CStress beyond those listed under “Absolute Maximum Rating” may cause permanent damage to the device.Electrical Characteristics(V OUT = 3.3V, V IN = 1.8V, T A = 25°C )PARAMETER CONDITION MIN TYP MAX UNITOutput Voltage Accuracy-2 --- +2 % Input Voltage Range ------6.5VStart-up Voltage --- 0.9 ---VHold-on Voltage--- 0.5 --- VNo Switching (I DD2) --- 10 15 µASwitching (I DD1) --- 20 --- µAInput CurrentNo Load (I IN ) ---30 --- µA LX Switch On ResistanceV LX = 0.4V --- 2 6Ω LX Leakage Current V LX = 6.0V --- --- 0.1 µAMaximum Oscillation Frequency 70 100 130 KHzDuty Cycle65 75 85 %V LX Voltage Limit--- 1 --- V Efficiency--- 80 --- %Note 1: The G5130 are guaranteed to meet performance specifications from 0°C to 85°C. Specifications over the -40°C to 85°Coperating temperature range are assured by design, characterization and correlation with statistical process controls.Block DiagramCELX VOUTTypical Performance Characteristics(V IN= +3.0V, L=100µH, T A=25°C, unless otherwise noted.)Line Transient Load TransientRecommended Minimum FootprintSOT-89SOT-23-5Power On ResponsePackage InformationSOT-23-5 (T1) PackageNote:1. Package body sizes exclude mold flash protrusions or gate burrs2. Tolerance ±0.1000 mm (4mil) unless otherwise specified3. Coplanarity: 0.1000mm4. Dimension L is measured in gage planeDIMENSIONS IN MILLIMETERSYMBOLMIN NOM MAXA 1.00 1.10 1.30A1 0.00 ----- 0.10A2 0.70 0.80 0.90 b 0.35 0.40 0.50C 0.10 0.15 0.25D 2.70 2.90 3.10E 1.40 1.60 1.80e ----- 1.90(TYP) ----- e1 ----- 0.95 ----- H 2.60 2.80 3.00L 0.37 ------ ----- θ1 1º 5º9ºSOT-89 (T2) PackageDIMENSIONS IN MILLIMETER DIMENSIONS IN INCH SYMBOLMIN NOM MAX MIN NOM MAXA 1.40 1.50 1.60 0.055 0.059 0.063 A1 0.80 1.04 ----- 0.031 0.041 ----- b 0.36 0.42 0.48 0.014 0.016 0.018 b1 0.41 0.47 0.53 0.016 0.018 0.020 C 038 0.40 0.43 0.014 0.015 0.017 D 4.404.50 4.600.173 0.177 0.181 D1 1.40 1.60 1.75 0.055 0.062 0.069 HE ----- ----- 4.25 ----- ----- 0.167 E 2.40 2.50 2.60 0.094 0.098 0.102 e 2.90 3.00 3.10 0.114 0.118 0.122Taping SpecificationPACKAGE Q’TY/REELSOT-23-5 3,000 ea SOT-89 1,000 eaGMT Inc. does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and GMT Inc. reserves the right at any time without notice to change said circuitry and specifications.SOT-89 Package OrientationSOT-23-5 Package Orientation。

NCP551SN27T1G NCP551SN28T1G NCV551SN36T1GNCP551, NCV551Voltage Regulator - CMOS,Low Iq, Low-Dropout150 mAThe NCP551 series of fixed output low dropout linear regulators are designed for handheld communication equipment and portable battery powered applications which require low quiescent. The NCP551series features an ultra −low quiescent current of 4.0 m A. Each device contains a voltage reference unit, an error amplifier, a PMOS power transistor, resistors for setting output voltage, current limit, and temperature limit protection circuits.The NCP551 has been designed to be used with low cost ceramic capacitors and requires a minimum output capacitor of 0.1 m F. The device is housed in the TSOP −5 surface mount package. Standard voltage versions are 1.4, 1.5, 1.8, 2.5, 2.7, 2.8, 2.9, 3.0, 3.1, 3.2, 3.3,3.6, 3.8 and 5.0 V . Other voltages are available in 100 mV steps.Features•Low Quiescent Current of 4.0 m A Typical •Maximum Operating V oltage of 12 V •Low Output V oltage Option•High Accuracy Output V oltage of 2.0%•Industrial Temperature Range of −40°C to 85°C (NCV551, T A = −40°C to +125°C)•NCV Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC −Q100Qualified and PPAP Capable•These Devices are Pb −Free and are RoHS CompliantTypical Applications•Battery Powered Instruments •Hand −Held Instruments •Camcorders and CamerasFigure 1. Representative Block DiagramV inV outEnable OFFON See detailed ordering and shipping information in the package dimensions section on page 11 of this data sheet.ORDERING INFORMATIONTSOP −5(SOT23−5, SC59−5)SN SUFFIX CASE 483PIN CONNECTIONS AND MARKING DIAGRAM13N/CVin 2GND Enable4V out5(Top View)xxxAYW G G xxx = Specific Device Code A = Assembly Location Y = YearW = Work Week G = Pb −Free Package(Note: Microdot may be in either location)PIN FUNCTION DESCRIPTIONPin No.Pin Name Description1V in Positive power supply input voltage.2GND Power supply ground.3Enable This input is used to place the device into low−power standby. When this input is pulled low, thedevice is disabled. If this function is not used, Enable should be connected to V in.4N/C No Internal Connection.5V out Regulated output voltage.MAXIMUM RATINGSRating Symbol Value Unit Input Voltage V in0 to 12V Enable Voltage V EN−0.3 to V in+0.3V Output Voltage V out−0.3 to V in+0.3V Power Dissipation P D Internally Limited W Operating Junction Temperature T J+150°COperating Ambient Temperature NCP551NCV551T A−40 to +85−40 to +125°CStorage Temperature T stg−55 to +150°C Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionalityshould not be assumed, damage may occur and reliability may be affected.1.This device series contains ESD protection and exceeds the following tests:Human Body Model 2000 V per MIL−STD−883, Method 3015Machine Model Method 200 VCharge Device Model (CDM) tested C3B per EIA/JESD22−C101.tchup capability (85°C) "100 mA DC with trigger voltage.THERMAL CHARACTERISTICSRating Symbol Test Conditions Typical Value Unit Junction−to−Ambient R q JA 1 oz Copper Thickness, 100 mm2250°C/W PSIJ−Lead 2Y J−L2 1 oz Copper Thickness, 100 mm268°C/W NOTE:Single component mounted on an 80 x 80 x 1.5 mm FR4 PCB with stated copper head spreading area. Using the following boundary conditions as stated in EIA/JESD 51−1, 2, 3, 7, 12.ELECTRICAL CHARACTERISTICS(V in = V out(nom.) + 1.0 V, V EN = V in, C in = 1.0 m F, C out = 1.0 m F, T A = 25°C, unless otherwise noted.)Characteristic Symbol Min Typ Max UnitOutput Voltage (T A = 25°C, I out = 10 mA) 1.4 V1.5 V1.8 V2.5 V2.7 V2.8 V2.9 V3.0 V3.1 V3.2 V3.3 V3.6 V3.8 V5.0 V V out1.3581.4551.7462.4252.6462.7442.8422.9403.0383.1363.2343.5283.7244.901.41.51.82.52.72.82.93.03.13.23.33.63.85.01.4421.5451.8542.5752.7542.8562.9583.0603.1623.2643.3663.6723.8765.10VOutput Voltage (T A = T low to T high, I out = 10 mA) 1.4 V1.5 V1.8 V2.5 V2.7 V2.8 V2.9 V3.0 V3.1 V3.2 V3.3 V3.6 V3.8 V5.0 V V out1.3441.4401.7282.4002.6192.7162.8132.9103.0073.1043.2013.4923.6864.8501.41.51.82.52.72.82.93.03.13.23.33.63.85.01.4561.5601.8722.6002.7812.8842.9873.0903.1933.2963.3993.7083.9145.150VLine Regulation (V in = V out + 1.0 V to 12 V, I out = 10 mA)Reg line−1030mV Load Regulation (I out = 10 mA to 150 mA, V in = V out + 2.0 V)Reg load−4065mVOutput Current (V out = (V out at I out = 100 mA) −3%)1.4 V−2.0 V (V in = 4.0 V)2.1 V−3.0 V (V in = 5.0 V)3.1 V−4.0 V (V in = 6.0 V)4.1 V−5.0 V (V in = 8.0 V)I o(nom.)150150150150−−−−−−−−mADropout Voltage (I out = 10 mA, Measured at V out−3.0%)1.4 V1.5 V, 1.8 V,2.5 V2.7 V, 2.8 V, 2.9 V,3.0 V, 3.1 V, 3.2 V, 3.3 V, 3.6 V, 3.8 V, 5.0 V V in−V out−−−17013040250220150mVQuiescent Current(Enable Input = 0 V)(Enable Input = V in, I out = 1.0 mA to I o(nom.))1.4 V−2.0 V options, V in = 4.0 V2.1 V−3.0 V options, V in = 5.0 V3.1 V−4.0 V options, V in = 6.0 V4.1 V−5.0 V options, V in = 8.0 V I Q−−0.14.01.08.0m AOutput Voltage Temperature Coefficient T c−"100−ppm/°CEnable Input Threshold Voltage(Voltage Increasing, Output Turns On, Logic High) (Voltage Decreasing, Output Turns Off, Logic Low)V th(en)1.3−−−−0.3VELECTRICAL CHARACTERISTICS (continued)(V in = V out(nom.) + 1.0 V, V EN = V in , C in = 1.0 m F, C out = 1.0 m F, T A = 25°C, unless otherwise noted.)Output Short Circuit Current (V out = 0 V)1.4 V −2.0 V (V in = 4.0 V)2.1 V −3.0 V (V in = 5.0 V)3.1 V −4.0 V (V in = 6.0 V)4.1 V −5.0 V (V in = 8.0 V)I out(max)160160160160350350350350600600600600mA3.Maximum package power dissipation limits must be observed.PD +T J(max)*T A R q JA4.Low duty cycle pulse techniques are used during testing to maintain the junction temperature as close to ambient as possible.5.NCP551T low = −40°CT high = +85°C NCV551T low = −40°CT high = +125°C.DEFINITIONSLoad RegulationThe change in output voltage for a change in output current at a constant temperature.Dropout VoltageThe input/output differential at which the regulator output no longer maintains regulation against further reductions in input voltage. Measured when the output drops 3% below its nominal. The junction temperature, load current, and minimum input supply requirements affect the dropout level. Maximum Power DissipationThe maximum total dissipation for which the regulator will operate within its specifications.Quiescent CurrentThe quiescent current is the current which flows through the ground when the LDO operates without a load on its output: internal IC operation, bias, etc. When the LDO becomes loaded, this term is called the Ground current. It is actually the difference between the input current (measured through the LDO input pin) and the output current.Line RegulationThe change in output voltage for a change in input voltage. The measurement is made under conditions of low dissipation or by using pulse technique such that the average chip temperature is not significantly affected.Line Transient ResponseTypical over and undershoot response when input voltage is excited with a given slope.Thermal ProtectionInternal thermal shutdown circuitry is provided to protect the integrated circuit in the event that the maximum junction temperature is exceeded. When activated at typically 160°C, the regulator turns off. This feature is provided to prevent failures from accidental overheating.Maximum Package Power DissipationThe maximum power package dissipation is the power dissipation level at which the junction temperature reaches its maximum operating value, i.e. 125°C. Depending on the ambient power dissipation and thus the maximum available output current.3.25G R O U N D C U R R E N T (m A )3.05Figure 2. Ground Pin Current versusOutput Current 3.35I out , OUTPUT CURRENT (mA)3.33.13.23.15Figure 3. Ground Pin Current versusOutput Current3.35G R O U N D C U R R E N T (m A )3.153.45I out , OUTPUT CURRENT (mA)3.43.23.33.250.50Figure4. Ground Pin Current versusInput Voltage V in , INPUT VOLTAGE (VOLTS)Figure 5. Ground Pin Current versusInput VoltageG R OU N D P I N C U R R E N T (m A )11.522.533.540.50V in , INPUT VOLTAGE (VOLTS)G R OU N D P I N C U R R E N T (m A )11.522.533.5440004−200200−60064200TIME (m s)Figure 6. Line Transient Response Figure 7. Line Transient Response8TIME (m s)−20004006−400−400O U T P U T V O L T A G E D E V I A T I O N (m V )V i n , I N P U T V O L T A G E (V )O U T P U T V O L T A G E D E V I A T I O N (m V )V i n , I N P U T V O L T A G E (V )4−−4200TIME (m s)Figure 8. Line Transient Response Figure 9. Line Transient ResponseTIME (m s)−20004006−−400O U T P U T V O L T A G E D E V I A T I O N (m V )V i n , I N P U T V O L T A G E (V )O U T P U T V O L T A G E D E V I A T I O N (m V )V i n , I N P U T V O L T A G E (V )−600−−4200Figure 10. Line Transient Response Figure 11. Line Transient ResponseTIME (m s)−20004006−−400O U T P U T V O L T A G E D E V I A T I O N (m V )V i n , I N P U T V O L T A G E (V )O U T P U T V O L T A G E D E V I A T I O N (m V )V i n , I N P U T V O L T A G E (V )−600600800TIME (m s)150O U T P U T V O L T A G E D E V I A T I O N (m V )−1000TIME (ms)Figure 12. Load Transient Response ON Figure 13. Load Transient Response OFFTIME (ms)−50000I o u t , O U T P U T C U R R E N T (m A )−O U T P U T V O L T A G E D E V I A T I O N (m V )I o u t , O U T P U T C U R R E N T (m A )Figure 14. Load Transient Response OFF TIME (ms)Figure 15. Load Transient Response ONTIME (ms)150−5005000−−01000O U T P U T V O L T A G E D E V I A T I O N (m V )I o u t , O U T P U T C U R R E N T (m A )O U T P U T V O L T A G E D E V I A T I O N (m V )I o u t , O U T P U T C U R R E N T (m A )12Figure 16. Turn −On Response 3TIME (m s)0132V o u t , O U T P U T V O L T A G E (V )E N A B L E V O L T A G E (V )Figure 17. Turn−On ResponseTIME (m s)V o u t , O U T P U T V O L T A G E (V )E N A B L E V O L T A G E(V )Figure 18. Output Voltage versus Input Voltage Figure 19. Output Voltage versus Input Voltage2V o u t , O U T P U T V O L T A G E (V O L T S )3V in , INPUT VOLTAGE (VOLTS)2.50.51.51V o u t , O U T P U T V O L T A G E (V O L T S )V in , INPUT VOLTAGE (VOLTS)APPLICATIONS INFORMATIONA typical application circuit for the NCP551 series is shown in Figure 20.Input Decoupling (C1)A 0.1 m F capacitor either ceramic or tantalum is recommended and should be connected close to the NCP551package. Higher values and lower ESR will improve the overall line transient response.Output Decoupling (C2)The NCP551 is a stable Regulator and does not require any specific Equivalent Series Resistance (ESR) or a minimum output current. Capacitors exhibiting ESRs ranging from a few m W up to 3.0 W can thus safely be used.The minimum decoupling value is 0.1 m F and can be augmented to fulfill stringent load transient requirements.The regulator accepts ceramic chip capacitors as well as tantalum devices. Larger values improve noise rejection and load regulation transient response.Enable OperationThe enable pin will turn on or off the regulator. These limits of threshold are covered in the electrical specification section of this data sheet. If the enable is not used then the pin should be connected to V in .HintsPlease be sure the V in and GND lines are sufficiently wide.When the impedance of these lines is high, there is a chance to pick up noise or cause the regulator to malfunction.Set external components, especially the output capacitor,as close as possible to the circuit, and make leads as short as possible.ThermalAs power across the NCP551 increases, it might become necessary to provide some thermal relief. The maximum power dissipation supported by the device is dependent upon board design and layout. Mounting pad configuration on the PCB, the board material, and also the ambient temperature effect the rate of temperature rise for the part.This is stating that when the NCP551 has good thermal conductivity through the PCB, the junction temperature will be relatively low with high power dissipation applications.The maximum dissipation the package can handle is given by:PD +T J(max)*T AR q JAIf junction temperature is not allowed above the maximum 125°C, then the NCP551 can dissipate up to 400 mW @ 25°C.The power dissipated by the NCP551 can be calculated from the following equation:P tot +ƪV in *I gnd (I out )ƫ)[V in *V out ]*I outorV inMAX +P tot)V out *I outI GND )I outIf a 150 mA output current is needed then the ground current from the data sheet is 4.0 m A. For an NCP551SN30T1 (3.0 V), the maximum input voltage will then be 5.6 V .Battery or Unregulated VoltageFigure 20. Typical Application CircuitOFFONm FFigure 21. Current Boost RegulatorFigure 22. Current Boost Regulator withShort Circuit LimitFigure 23. Delayed Turn −onFigure 24. Input Voltages Greater than 12 VThe NCP551 series can be current boosted with a PNP transist-or. Resistor R in conjunction with V BE of the PNP determines when the pass transistor begins conducting; this circuit is not short circuit proof. Input/Output differential voltage minimum is increased by V BE of the pass resistor.Short circuit current limit is essentially set by the V BE of Q2 and R1. I SC = ((V BEQ2 − ib * R2) / R1) + I O(max) RegulatorIf a delayed turn −on is needed during power up of several volt-ages then the above schematic can be used. Resistor R, and capacitor C, will delay the turn −on of the bottom regulator.A regulated output can be achieved with input voltages that exceed the 12 V maximum rating of the NCP551 series with the addition of a simple pre −regulator circuit. Care must be taken to prevent Q1 from overheating when the regulated output (V out ) is shorted to GND .ORDERING INFORMATIONDeviceNominalOutput Voltage Marking Package Shipping†NCP551SN15T1G 1.5LAO TSOP−5(Pb−Free)3000 / Tape & Reel NCP551SN18T1G 1.8LAP TSOP−5(Pb−Free)3000 / Tape & Reel NCP551SN25T1G 2.5LAQ TSOP−5(Pb−Free)3000 / Tape & Reel NCP551SN27T1G 2.7LAR TSOP−5(Pb−Free)3000 / Tape & Reel NCP551SN28T1G 2.8LAS TSOP−5(Pb−Free)3000 / Tape & ReelNCP551SN29T1G 2.9LJL TSOP−5(Pb−Free)3000 / Tape & ReelNCP551SN30T1G 3.0LAT TSOP−5(Pb−Free)3000 / Tape & ReelNCP551SN31T1G 3.1LJM TSOP−5(Pb−Free)3000 / Tape & ReelNCP551SN32T1G 3.2LIV TSOP−5(Pb−Free)3000 / Tape & ReelNCP551SN33T1G 3.3LAU TSOP−5(Pb−Free)3000 / Tape & ReelNCP551SN50T1G 5.0LAV TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN14T1G* 1.4AAT TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN15T1G* 1.5LFZ TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN18T1G* 1.8LGA TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN25T1G* 2.5LGB TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN27T1G* 2.7LGC TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN28T1G* 2.8LGD TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN30T1G* 3.0LGE TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN31T1G* 3.1LJR TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN32T1G* 3.2LFR TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN33T1G* 3.3LGG TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN36T1G* 3.6AEJ TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN38T1G* 3.8AD5TSOP−5(Pb−Free)3000 / Tape & ReelNCV551SN50T1G* 5.0LGF TSOP−5(Pb−Free)3000 / Tape & ReelNOTE:Additional voltages in 100 mV steps are available upon request by contacting your ON Semiconductor representative.†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specific-ations Brochure, BRD8011/D.*NCV Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q100 Qualified and PPAP Capable.PACKAGE DIMENSIONSTSOP −5SN SUFFIX CASE 483−02ISSUE KNOTES:1.DIMENSIONING AND TOLERANCING PER ASME Y14.5M, 1994.2.CONTROLLING DIMENSION: MILLIMETERS.3.MAXIMUM LEAD THICKNESS INCLUDES LEAD FINISH THICKNESS. MINIMUM LEAD THICKNESS IS THE MINIMUM THICKNESS OF BASE MATERIAL.4.DIMENSIONS A AND B DO NOT INCLUDE MOLD FLASH, PROTRUSIONS, OR GATE BURRS. MOLDFLASH, PROTRUSIONS, OR GATE BURRS SHALL NOT EXCEED 0.15 PER SIDE. DIMENSION A.5.OPTIONAL CONSTRUCTION: AN ADDITIONAL TRIMMED LEAD IS ALLOWED IN THIS LOCATION.TRIMMED LEAD NOT TO EXTEND MORE THAN 0.2FROM BODY .DIM MIN MAX MILLIMETERS A 3.00 BSC B 1.50 BSC C 0.90 1.10D 0.250.50G 0.95 BSC H 0.010.10J 0.100.26K 0.200.60M 0 10 S2.503.00__ǒmm inchesǓ*For additional information on our Pb −Free strategy and solderingdetails, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT*2XDETAIL ZTOP VIEWON Semiconductor and the are registered trademarks of Semiconductor Components Industries, LLC (SCILLC) or its subsidiaries in the United States and/or other countries.SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessed at /site/pdf/Patent −Marking.pdf. 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 INFORMATIONNCP551SN27T1G NCP551SN28T1G NCV551SN36T1G。

High Efficiency, Constant Current Output for 8 Se-ries LEDs DriverFeaturesDriving Up to 8 LEDsAuto Trigger/Release OVP Function (G5114/G5118)Input Voltage Range: 1.7V ~ 6.5VPrecise Dimming Control Using PWM Signal 50µA No Switching CurrentInternal 30V Switch With 0.8Ω Rds(on) Soft Start Function IncludedUp to 85% EfficiencyApplicationsWhite LED Backlight Display for PDA Pocket PC Smart PhonesHandheld Devices Cellular PhonesGeneral DescriptionThe G5114/G5116/G5118 are high efficiency boost converters with constant current output that drives up to 8 white LEDs. The continuous LED current is set with the FB pin regulated voltage across an external sense resistor (Rs) connected from that pin to ground. A dim-ming PWM waveform to SHDN pin controls LED av-erage current proportional to its duty makes the bright-ness of LEDs also proportional to the duty.Low FB regulation voltage and low switch turned on resistance result in high converting efficiency from wide battery voltage range to high LED series voltage. An over-voltage protection prevents device damage while LEDs is open. It is easy to release protection state by just put the load path closed.Ordering InformationORDER NUMBERORDER NUMBER(Pb free)MARKINGTEMP. RANGEPACKAGEG5114T1U G5114T1Uf 5114X -40°C ~ +85°C SOT-23-5 G5116T1U G5116T1Uf 5116X -40°C ~ +85°C SOT-23-5 G5118P8UG5118P8UfG5118-40°C ~ +85°CMSOP-8Pin Configuration Typical Application CircuitVCCOVPSOT-23-5SWGND FB VCCSHDNSW GND FB SW MSOP-8LVCC PGND AGNDSHDNOVP FBAbsolute Maximum RatingsSW, OVP to GND……….……..…….…..….-0.3V to +35V VCC, SHDN to GND.….......................…...-0.3V to +7V FB to GND.....................….......................…-0.3V to VCC Operating Temperature.….……………...…-40°C to 85°CJunction Temperature.......................…...................125°C Storage Temperature………....……....…..–65°C to 150°C Reflow Temperature (soldering, 10sec)……….....260°C Stress beyond those listed under “Absolute Maximum Rating” may cause permanent damage to the device.Electrical Characteristics(V CC =V SHDN =3.6V, T A =25°C, unless specified)over the -40°C~85°C operating temperature range are assured by design, characterization and correlation with statistical process controls.Block DiagramV OUT** OVP pin only availiable for G5114/G5118Ver: 1.1TEL: 886-3-5788833Typical Performance Characteristics(V CC = +3.6V, V SHDN = +3.6V, L=10µH, T A =25°C, unless otherwise noted)Ver: 1.1TEL: 886-3-5788833Ver: 1.1TEL: 886-3-5788833PWM DimmingOVP WaveformG5118 Inrush Current WaveformPin DescriptionFunction DescriptionOperationThe G5114/G5116/G5118 are boost converters with NMOS switch embedded. They operate in a PFM scheme with constant peak current control. The opera-tion frequency is up to 1MHz and is determined by the current limit, inductor value, input voltage and minimum off time. The boost cycle is started when FB pin voltage drop below 0.25V as the NMOS switch turns on. During the switch on period, the inductor current ramps up until 400mA current limit is reached. Then turns the switch off, while the inductor current flows through external schottky diode, and ramps down to zero. During the switch off period, the inductor current provides for load current and also charges output capacitor. It makes the LED current higher and results in larger voltage drop on sense resistor Rs. The cycle stop when FB pin voltage is above 0.25V.The current limit function acts as an inherent soft start by controlling the inrush current.PWM DimmingTo control the brightness of the LEDs, use a low fre-quency PWM waveform to turn G5116/G5118 on for duty 0%~100%. How bright the LEDs at 100% duty are determined by sense resistor Rs.Overvoltage Protection (OVP)OVP is designed to prevent the damage of internal NMOS switch in case the increased impedance of the LED load (include the LED opened). Once the device detects over voltage at the output, the internal NMOS switch is kept off until the output voltage drops below 25V. Applications InformationInductor SelectionThe PFM peak current control scheme of the G5114/G5116/G5118 is inherently stable. The inductor valuedoes not affect the stability of the regulator. The se-lected inductor must have a saturation current that meets the maximum peak current of the converter. An-other important inductor parameter is the DC resistance.The lower DC resistance has the higher the efficiencyof the converter.Table 1. Recommended InductorsPART VALUE(µH)MAXDCR(Ω)VENDORLQH32CN100K1110 0.39MURATA 972AS-100M10 0.48TOKO 960AW-100M10 0.18TOKOOutput Capacitor SelectionFor better output voltage filtering, a low ESR output capacitor is recommended. Ceramic capacitors have alow ESR value, but depending on the application, tan-talum capacitors can be used. The selection of the output capacitor value directly influences the output voltage ripple of the converter which also influencesline regulation. The larger output voltage ripple, the larger line regulation, which means that the LED cur-rent changes if the input voltage changes. If a certain change in LED current gives a noticeable change inLED brightness, depends on the LED manufacturer andon the application. Applications requiring good line regulation ±1%/V (TYP) must use output capacitor val-ues ±1µF.Ver: 1.1 TEL: 886-3-5788833Ver: 1.1TEL: 886-3-5788833Table 2. Recommended Output CapacitorsPART VALUE (µF)VOLTAGERATING (V)VENDORUMK212BJ104MG 0.1 50 Tayo Yuden GMK316BJ105KL 1 35 Tayo Yuden GMK316F475ZG 4.735 Tayo YudenInput Capacitor SelectionFor good input voltage filtering the capacitor value can be increased. Low ESR ceramic capacitors are rec-ommended. A 4.7µF ceramic input capacitor is suffi-cient for most applications.Table 3. Recommended Input CapacitorsPART VALUE (µF)VOLTATERATING (V)VENDORLMK212BJ105MG 1 10 Tayo Yuden JMK212BJ475MG 4.7 6.3 Tayo Yuden JMK212BJ106MG 106.3 Tayo YudenDiode SelectionTo achieve high efficiency a Schottky diode must be used. The current rating of the diode must meet the peak current rating of the converter. Schottky diodes, with their low forward voltage drop and fast switching speed, are best match for the G5114/G5116/G5118.Table 4. Recommended DiodesPARTREVERSE VOLTAGE (V)VENDORMBR0530 30 On SemiconductorSetting The LED CurrentThe Converter regulates the LED current by regulating the voltage across the current sense resistor (R S ). The voltage across the sense resistor is regulated to the internal reference voltage of V (FB)=250mV. The LED Current can be calculated:V FB 0.25VI LED =R S =R SThe current programming method is used when the brightness of the LEDs is fixed or control by a PWM signal applied to the SHDN pin. When using a PWM signal on the SHDN pin, the LED brightness is only dependent on the PWM duty cycle, independent of the PWM frequency or amplitude, which simplifies the sys-tems.Layout considerationsIn all switching power supplies the layout is an impor-tant step in the design, especially at high peak currents and switching frequencies. If the layout is not carefully done, the regulator might show noise problems and duty cycle jitter. The input capacitor should be placed as close as possible to the input pin for good input voltage filtering. The inductor and diode must be placed as close as possible to the switch pin to minimize noise coupling into other circuits. Since the feedback pin and network is a high impedance circuit, the feedback net-work should be routed away from the inductor.Ver: 1.1TEL: 886-3-5788833Package InformationSOT-23-5 PackageNote:1. Package body sizes exclude mold flash protrusions or gate burrs2. Tolerance ±0.1000 mm (4mil) unless otherwise specified3. Coplanarity: 0.1000mm4. Dimension L is measured in gage planeDIMENSIONS IN MILLIMETERSYMBOLMIN NOM MAXA 1.00 1.10 1.30A1 0.00 ----- 0.10A2 0.70 0.80 0.90b 0.35 0.40 0.50 C 0.10 0.15 0.25D 2.70 2.90 3.10E 1.40 1.60 1.80e ----- 1.90(TYP) -----e1 ----- 0.95 ----- H 2.60 2.80 3.00L 0.37 ------ ----- θ1 1º 5º9ºVer: 1.1TEL: 886-3-5788833MSOP-8 PackageNote:1. Package body sizes exclude mold flash and gate burrs2. Dimension L is measured in gage plane3. Tolerance 0.10mm unless otherwise specified4. Controlling dimension is millimeter converted inch dimensions are not necessarily exact.5. Followed from JEDEC MO-137DIMENSION IN MM DIMENSION IN INCHSYMBOLMIN. NOM. MAX. MIN. NOM. MAX.A 0.81 1.02 1.22 0.032 0.040 0.048A1 0.00 ----- 0.20 0.000 ----- 0.008 A2 0.76 0.86 0.97 0.030 0.034 0.038 b 0.28 0.30 0.38 0.011 0.012 0.015 C 0.13 0.15 0.23 0.005 0.006 0.009 D 2.90 3.00 3.10 0.114 0.118 0.122 E 4.80 4.90 5.00 0.189 0.193 0.197 E1 2.90 3.00 3.10 0.114 0.118 0.122 e ----- 0.65 ----- ----- 0.026----- L 0.40 0.53 0.66 0.016 0.021 0.026 y ----- ----- 0.10 ----- ----- 0.004 θ 0º ----- 6º 0º ----- 6ºTaping SpecificationPACKAGE Q’TY/BY REELSOT-23-5 3,000 ea MSOP-8 2,500 eaGMT Inc. does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and GMT Inc. reserves the right at any time without notice to change said circuitry and specifications.Typical MSOP Package OrientationSOT-23-5 Package Orientation。

|常用三极管参数表下表是常用三极管的一些参数以及替换型号器件型号电压电流代换型号3DG9011 50V 2N4124 CS9011 JE9011 9011 50V LM9011 SS90119012 40V LM90129012(HH) 40V SS90129012LT1 40V A12983DG9013 40V CS9013 JE9013&9013 40V LM90139013(HH) 40V SS90139013LT1 40V C32653DG9014 50V CS9014 JE90149014 50V LM9014 SS90149014LT1 50V C16239015 50V LM9015 SS9015TEC9015 50V BC557 2N3906TEC9015A 50V BC557 2N3906TEC9015B 50V BC557 2N3906[TEC9015C 50V BC557 2N39063DG9016 30V JE90169016 30V SS9016TEC9016 40V BF240 BF254 BF5948050 40V SS80508050LT1 40V KA3265ED8050 50V BC337SDT85501 60V 10A 3DK104CSDT85502 80V 10A 3DK104CSDT85503 100V 10A 3DK104D~SDT85504 140V 10A 3DK104ESDT85505 170V 10A 3DK104FSDT85506 60V 10A 3DK104CSDT85507 80V 10A 3DK104CSDT85508 100V 10A 3DK104DSDT85509 140V 10A 3DK104EED8550 50V BC3378550 40V LM8550 SS85508550LT1 40V KA32652SA1015 50V BC177 BC204 BC212 BC213 BC251 BC257 BC307 BC512 BC557 CG1015 CG673 ￥2SC1815 60V BC174 BC182 BC184 BC190 BC384 BC414 BC546 DG458 DG18152SC1815L 60V BC550 2SC2240 2S26742SC2675 2SC33782SC1815LT1 60V 9014LT12SC945 60V BC107 BC171 BC174 BC182 BC183 BC190 BC207 BC237 BC382 BC546 BC547 BC582 DG945 2N2220 2N2221 2N2222 3DG120B 3DG4312 MMBT3904 40V BCW72 3DG120CMMBT3906 40V BCW70 3DG120CMMBT2222 未知BCX19 3DG120CMMBT2222A 75V 3DK10CMMBT5401 160V 3CA3FMMBTA92 300V 3CG180H'BC807 50V BC338 BC537 BC635 3DK14B BC807R 50V BCX17 BCX17R BCW68BCW68RBC807-W 50V BCX17 BCW68 2SB1219ABC817 50V BCX19 BCW65 BCX66BC817R 50V BCX19 BCX19R BCW65BCW65R BCX66 BCW66RBC817-W 50V BCX19 BCW65 BCW66 2SD1820 2SD1949BC846 80V BCV71 BCV72BC846R 80V BCV71 BCV71R BCV72 BCV72R BC846-W 80V BCV71 BCV72 BCV72RBC847 50V BCW71 BCW72 BCW81《BC847R 50V BCW71 BCW71R BCW72 BCW72R BCW81 BCW81RBC847-W 50V BCW71 BCW72 BCW812SC4101 2SC4102BC848 30V BCW31 BCW32 BCW33 BCW71 BCW72 BCW81BC848R 30V BCW31 BCW31R BCW32 BCW32R BCW33 BCW33R BCW71 BCW71R BCW72 BCW72R BCW81 BCW81RBC848-W 30V BCW31 BCW32 BCW33 BCW71 BCW72 BCW81 2SC4101 2SC4102 2SC4117BC856 50V BCW89BC856R 80V BCW89 BCW89RBC856-W 80V BCW89 2SA1507 2SA1527BC857 50V BCW69 BCW70 BCW89BC857R 50V BCW69 BCW69R BCW70 BCW70R BCW89 BCW89R（BC857-W 50V BCW69 BCW70 BCW892SA1507 2SA1527BC858 30V BCW29 BCW30 BCW69 BCW70 BCW89BC858R 30V BCW29 BCW29R BCW30 BCW30R BCW69 BCW69R BCW70 BCW70R BCW89 BCW89RBC858-W 30V BCW29 BCW30 BCW69 BCW70 BCW89 2SA1507 2SA15272SA733 60V BC177 BC204 BC212 BC213 BC251 BC257 BC307 BC513 BC557 3CG120C 3CG4312 MMUN2111 50V UN2111MUN2111 50V MMUN2111UN2111 50V FN1A4M DTA114EK RN24022SA1344MMUN2112 50V UN2112MUN2112 50V MMUN2112—UN2112 50V FN1F4M DTA124EK RN24032SA1342MMUN2113 50V UN2113MUN2113 50V MMUN2113UN2113 50V FN1L4M DTA144EK RN24042SA1341MMUN2211 50V UN2211MUN2211 50V MMUN2211UN2211 50V DTC114EK FA1A4M RN14022SC3398MMUN2212 50V UN2212MUN2212 50V MMUN2212UN2212 50V DTC124EK FA1F4M RN14032SC3396、MMUN2213 50V UN2213MUN2213 50V MMUN2213UN2213 50V DTC144EK FA1L4M RN14042SC33952SC3356 20V 2SC3513 2SC3606 2SC38292SC3838K 30V BF517 BF799 2SC3015 2SC3016彩显中易损大功率三极管主要参数表型号功率(W) 反压(V) 电流(A) 功能BU208A 50 1500 5 电源开关管BU508A 75 1500 8 电源开关管<BU2508AF 45 1500 8 行管* BU2508DF 125 1500 8 行管* BU2508D 125 1500 8 行管BU2520AF 45 1500 10 行管BU2520AX 45 1500 10 行管* BU2520DF 125 1500 10 行管BU2522AF 45 1500 10 行管* BU2522DF 80 1500 10 行管* BU2525DF 45 800 12 行管BUH515 60 1500 8 行管#BUH515D 60 1500 8 行管C1520 10 250 视放C1566 250 视放C1573 250 视放C1875 50 1500 电源开关管C3153 100 900 6 电源开关管C3026 50 1700 5 行管C3457 50 1100 3 电源开关管C3459 90 1100 电源开关管C3460 100 1100 6 电源开关管—C3461 140 1100 8 行管*C3683 50 1500 5 行管C3686 50 1400 8 行管C3687 150 1500 8 行管C3481 120 1500 5 电源开关管C3688 150 1500 10 行管*C3842 120 1500 6 行管*C3883 50 1500 5 行管C3885 50 1400 7 行管C3886 50 1400 8 行管\C3887 80 1400 7 行管C3888 80 1400 80 行管C3889 80 1400 80 行管*C3891 50 1400 6 行管*C3892 50 1400 7 行管*C3893 50 1400 8 行管C3895 60W 1400V 7A 行管C3896 70 1400 8 行管*C3897 180 1500 12 行管C3897 250 1500 25 行管—C3998 250 1500 25 行管*C4122 60 1500 6 行管*C4123 60 1500 7 行管*C4124 70 1500 8 行管*C4125 70 1500 10 行管C4237 150 800 10 行管*C4269 60 1500 7 行管*C4293 50 1500 5 行管*C4294 50 1500 6 行管*C4589 50 1500 10 行管$*C4742 50 1500 6 行管*C4744 50 1500 6 行管C4747 50 1500 10 行管*C4769 60 1500 7 行管C4770 60 1500 7 行管C5048 50 1500 12 行管C5088 45 1500 8 行管C5129 50 1500 6 行管C5144 200 1700 20 行管C5148 50 1500 8 行管%C5250 50 1500 8 行管C5297 60 1500 8 行管C5299 60 1400 8 行管C5339 50 1500 7 行管C5418 120 1500 6 行管*D1396 50 1500 2 行管*D1398 50 1500 5 行管D1402 120 1500 5 电源开关管D1403 120 1500 6 电源开关管*D1426 80 1500 行管%*D1427 80 1500 5 行管*D1428 80 1500 6 行管D1433 80 1500 7 行管D1434 80 1500 5 行管*D1455 50 1500 5 行管*D1554 40 1500 行管D1555 50 1500 5 电源开关管*D1878 60 1500 6 行管*D1879 60W 1500V 5A 行管*D1880 70 1500 8 行管…*D1881 70 1500 10 行管D1886 70 1500 8 行管D1887 70 1500 10 行管*D2125 50 1500 5 行管*D870 50 1500 5 行管功率Pcm/W 反压BVCBO 电流ICM/A（*带阻尼）进口与国产显示器常用三极管代换表型号可代用型号用途价格2SA562 CG673B、2SB689 预视放2SA670 2SA1069、2SB513 电源调整管…2SA673 2SA719、2SA697 帧激励2SA715 3CF3A、2SB529 场输出管2SA778A 3CG21C、CG75-1AB 开关电源误差放大2SA778AK C3CG21G、CG75-1A 开关电源误差放大2SA844D 3CG21C、CG75-1AB 视放2SA844E 3CG21G 视放2SA940 CD568B 场输出管2SA6395 2SA778、2SA858 行激励管2SB337 B337 电源调整管2SB407 3L780 电源调整管(2SB548 3CF3B、2SA794 场输出管2SB566AK CD77-1A、3CF5A 电源调整管2SB556K CD77-1A、3CF5B 电源调整2SB621 3CG23B、2SB1035 电源推动管2SC458 3DG4A、2SC664 行振荡2SC536 3DG4A、2SC2320 电源推动管2SC562 G6738、B689 预视放2SC633 3DG6B、2SC1684 行振荡管2SC634 3DG12B 行振荡管2SC643A D2027、2SD818 行输出管^2SC680A 3DD205B、2SC1025 场输出2SC681 3DD102B、2SC901 行输出2SC734 3DX200B、2SC2274 行振荡管2SC828 3DG56B、2SC3330 电源误差放大管2SC935 3DD102D、2SD320 电源调整管2SC8937 D2027、2SD818 行输出管2SC1034 2SD818、2SD299 行输出管2SC1162 FA433A、2SC2068 场输出枕形校正2SC1172 D2027、2SD820 行输出管2SC1209 3DG12A、2SD734 电源误差放大管#2SC1213 3DG130A、2SC2120 电源误差放大管2SC1213A 3DG12B、2SC1247A 电源误差放大2SC1214 3DA151A、2SC2002 枕形校正2SC1308 D209、2SD820 行输出管2SC1318 3DG12A、2SC2274 行激励管2SC1364 3DX2038、2SC2320 行激励管2SC1505 DA1722B、2SC1757 行视放2SC1507 DA1722B、2SC1756、2SC1757 行激励管2SC1364 3DX2038、C23020 行激励管2SC1520 DA1722B、2SC2068 预视放!2SC1566 3DA151D、2SC1514 视放2SC1573 3DA87C、2SC1762 视放2SC1672 3DD102B、2SC2433 电源调整管2SC1685 3DD180、2SC1570 脉冲开关2SC1819 3DA151D、2SC2425 视放2SC1890A 3DA878、2SC2363 视放2SC1905 3DA151D、2SD1163 视放2SC1942 D209、2SD1401 行输出管2SC2233 3DD12B、2SC2373 行输出2SD201 3DD102A、2SD125A 电源调整管。

HPMLDL系列服务器hpML系列服务器HP ProLiant ML110G7(C8R00A)参数规格差不多参数产品类型工作组级产品类别塔式产品结构4U处理器CPU类型奔腾双核CPU型号奔腾双核G860CPU频率3GHzHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML330 G6(B9D22A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600 CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sHP ProLiant ML330 G6(600911-AA1)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核HP ProLiant ML350 G6(638180-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5606CPU频率 2.13GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存8MB总线规格QPI 4.8GT/sCPU核心四核CPU线程四线程数主板HP ProLiant ML350 G6(600431-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML350 G6(594869-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强5600CPU型号Xeon E5620CPU频率 2.4GHz智能加速主2.666GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存12MB总线规格QPI 5.86GT/sCPU核心四核CPU线程八线程数HP ProLiant ML310e Gen8(686146-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1220 v2CPU频率 3.1GHz标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MB总线规格DMI 5GT/sHP ProLiant ML310e Gen8(686147-AA5)参数规格差不多参数产品类型企业级产品类别塔式产品结构4U处理器CPU类型Intel 至强E3-1200 v2 CPU型号Xeon E3-1240 v2CPU频率 3.4GHz智能加速主3.8GHz频标配CPU1颗数量最大CPU4颗数量制程工艺22nm三级缓存8MBHP ProLiant ML350e Gen8(C3Q10A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2403CPU频率 1.8GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q08A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2407CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3Q09A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2420CPU频率 1.9GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350e Gen8(C3F91A)参数规格差不多参数产品类型企业级产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2400 CPU型号Xeon E5-2430CPU频率 2.2GHz标配CPU1颗数量最大CPU4颗数量制程工艺32nm三级缓存15MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(646675-AA1)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2609CPU频率 2.4GHz标配CPU1颗数量最大CPU2颗数量制程工艺32nm三级缓存10MB总线规格QPI 6.4GT/sHP ProLiant ML350p Gen8(668271-AA5)参数规格差不多参数产品类别塔式产品结构5U处理器CPU类型Intel 至强E5-2600 CPU型号Xeon E5-2620CPU频率2GHz智能加速主2.5GHz频标配CPU1颗数量最大CPU2颗数量制程工艺32nm。

300mA Low-Dropout Linear RegulatorsFeatures90µA Quiescent CurrentGuaranteed 300mA Output CurrentDropout Voltage is 0.4V @ I O = 300mAOver-Temperature Protection and Short-Circuit ProtectionStable With Low Cost Ceramic CapacitorsFixed Output Voltage :1.5V, 1.8V, 2.5V, 3.3V ApplicationsCordless PhonesPDAsHand-Held DevicesBar Code ScannersElectronic Scales General DescriptionThe G9131 is a low supply current, low dropout linear regulator that comes in a space saving SOT-23 pack-age. The supply current at no-load is 90µA. An over temperature protection circuit is built-in in the G9131 to prevent thermal overload. These power saving fea-tures make the G9131 ideal for use in the bat-tery-powered applications such as notebook com-puters, cellular phones, and PDA’s.Ordering InformationORDER NUMBER ORDER NUMBER(Pb free)MARKING VOLTAGETEMP.RANGEPACKAGEG9131-15T73U G9131-15T73Uf 35xx 1.5V -40°C to +85°C SOT-23 G9131-18T73U G9131-18T73Uf 38xx 1.8V -40°C to +85°C SOT-23 G9131-25T73U G9131-25T73Uf 32xx 2.5V -40°C to +85°C SOT-23 G9131-33T73U G9131-33T73Uf 31xx 3.3V -40°C to +85°C SOT-23 G9131-33T24U G9131-33T24Uf 31xx 3.3V -40°C to +85°C SOT-89 * For other package types, pin options and package, please contact us at sales@Order Number IdentificationGXXXX XX XX X XTypePin OptionTypeVoltagePart NumberPACKAGE TYPE PIN OPTION PACKINGT2 : SOT-89 1 2 3 U: Tape & Reel DirectionT7 : SOT-23 1 : V OUT GND V IN2 : V OUT V IN GND3 : GND V OUT V IN4 : GND V IN V OUT5 : V IN GNDV OUT6 : V IN V OUT GNDPackage Type Typical ApplicationOUTPUT123SOT89SOT231VOLTAGEVINAbsolute Maximum Ratings (Note 1) Input Voltage (7V)Power Dissipation Internally Limited (Note2) Maximum Junction Temperature.........................150°C Storage Temperature Range.........-65°C ≤ T J≤+150°C Reflow Temperature (soldering, 10sec) ...........260°C Thermal Resistance Junction to Ambient, (θJA)SOT-23(1) .......................................................276°C/W SOT-89(1) ......................................... .............173°C/W Thermal Resistance Junction to Case, (θJC)SOT-89......................... ................................. .24°C/W Note (1): See Recommended Minimum Footprint. Operating Conditions (Note 1) Input Voltage.......................... ...........................3V ~ 6V Temperature Range...........................-40°C ≤ T A≤85°CElectrical CharacteristicsV IN =5V, I O = 300mA, C IN=1µF, C OUT =1µF. All specifications apply for T A = T J = 25°C. [Note 3]PARAMETER CONDITIONMINTYPMAX UNITV O=3.3V 3.234 3.3 3.366V O=2.5V 2.45 2.5 2.55V O=1.8V 1.764 1.8 1.845Output Voltage 5mA < I O < 300mAV O=1.5V 1.455 1.5 1.545VLine Regulation 4V < V IN < 6V, I O = 10mA --- 15 --- mVLoad Regulation 10mA < I O < 300mA --- 10 --- mVQuiescent Current V IN = 5V --- 90 150µARipple Rejection f i = 120 Hz, 1V P-P, Io = 100mA --- 45 --- dBV O=3.3V ---0.4---V O=2.5V ---0.5---V O=1.8V ---0.8---Dropout Voltage I O = 300mAV O=1.5V ---0.9---VShort Circuit Current --- 0.65 --- ACurrent Limit --- 0.8 --- AOver Temperature --- 145 --- °COver Temperature Hysterics ---25 --- °CNote 1: Absolute Maximum Ratings are limits beyond which damage to the device may occur. Operating Conditions are condi-tions under which the device functions but the specifications might not be guaranteed. For guaranteed specifications andtest conditions see the Electrical Characteristics.Note 2: The maximum power dissipation is a function of the maximum junction temperature, T Jmax ; total thermal resistance, θJA,and ambient temperature T A. The maximum allowable power dissipation at any ambient temperature is T jmax-T A / θJA. If thisdissipation is exceeded, the die temperature will rise above 150°C and IC will go into thermal shutdown. For the G9131inSOT-23 package, θJA is 276°C/W and in the SOT-89 package is 173°C/W (See Recommended Minimum Footprint). Thesafe operation in SOT-89 & SOT-23 package, it can see “Typical Performance Characteristics” (Safe Operating Area).Note3: Low duty pulse techniques are used during test to maintain junction temperature as close to ambient as possible.Note4: The type of output capacitor should be tantalum, aluminum or ceramic.DefinitionsDropout VoltageThe input/output Voltage differential at which the regu-lator output no longer maintains regulation against further reductions in input voltage. Measured when the output drops 100mV below its nominal value, dropout voltage is affected by junction temperature, load cur-rent and minimum input supply requirements.Line RegulationThe change in output voltage for a change in input volt-age. The measurement is made under conditions of low dissipation or by using pulse techniques such that av-erage chip temperature is not significantly affected. Load RegulationThe change in output voltage for a change in load cur-rent at constant chip temperature. The measurement is made under conditions of low dissipation or by using pulse techniques such that average chip temperature is not significantly affected.Maximum Power DissipationThe maximum total device dissipation for which the regulator will operate within specifications.Quiescent Bias CurrentCurrent which is used to operate the regulator chip and is not delivered to the load.Typical Performance Characteristics(V IN = V O + 1V, C IN =1µF, C OUT =1µF, T A = 25°C, unless otherwise noted.)Line TransientLoad TransientV IN vs. V OUTRipple Rejection vs. FrequencyTypical Performance Characteristics (continue)Output NoiseStart-UpDropout Volatge vs. TemperatureOutput Current vs. Output VoltageSOT-89 Max. Power Dissipation vs. PCB Top Copper Area T = 25°C ; Still AirSOT-89 Max. Power Dissipationvs. T A MB (still air)( Different PCB Top Copper Area )Recommended Minimum FootprintSOT-23SOT-89Pin DescriptionNAME FUNCTIONIN Regulator Input. Supply voltage can range from V IN(min) to +5.5V. Bypass with 1µF to GND.GND This is ground pin.OUT Regulator Output. Sources up to 300mA. Bypass with a 1µF, ＜0.2Ω typical ESR capacitor to GND.Detailed DescriptionThe block diagram of the G9131 is shown in Figure 1. It consists of an error amplifier, 1.25V bandgap refer-ence, PMOS output transistor, internal feedback volt-age divider, over current protection circuit, and over temperature protection circuit.Over Current ProtectionThe G9131 use a current sense-resistor to monitor the output current. A portion of the PMOS output transistor’s current is mirrored to a resistor such that the voltage across this resistor is proportional to the output current. Once the output current exceeds limit threshold, G9131 would be protected with a limited output current. Further more, when the output is short to ground, the output current would be folded-back to a less limit.Over Temperature ProtectionTo prevent abnormal temperature from occurring, the G9131 has a built-in temperature monitoring circuit. When it detects the temperature is above 150°C, the output transistor is turned off. When the IC is cooled down to below 135°C, the output is turned on again. In this way, the G9131 will be protected against abnor-mal junction temperature during operation.Operating Region and Power DissipationSince the G9131 is a linear regulator, its power dissi-pation is always given by P = I OUT (V IN - V OUT). The maximum power dissipation is given by: P D(MAX) = (T J - T A)/θJA, Where (T J - T A) is the temperature difference the G9131 die and the ambient air. For surface mount device, heat sinking is accomplished by using the heat spreading capabilities of the PC board and its copper traces. θJA is the thermal resistance of the chosen package to the ambient air. In the case of a SOT-23 package, the thermal resistance is typically 275.5°C/W. In SOT 89 RθJA is 172.5°C/W.Applications InformationCapacitor Selection and Regulator Stability Normally, use a 1µF capacitor on the input and a 1µF capacitor on the output of the G9131. Larger input ca-pacitor values and lower ESR provide better sup-ply-noise rejection and transient response. For stable operation over the full temperature range, with load currents up to 120mA, a minimum of 1µF is recom-mended.Power-Supply Rejection and Operation from Sources Other than BatteriesThe G9131 is designed to deliver low dropout voltages and low quiescent currents in battery powered sys-tems. Power-supply rejection is 47dB at low frequen-cies the output capacitor is the major contributor to the rejection of power-supply noise.When operating from sources other than batteries, improve supply-noise rejection and transient response by increasing the values of the input and output ca-pacitors, and using passive filtering techniques. Load Transient ConsiderationsThe G9131 load-transient response graphs show two components of the output response: a DC shift of the output voltage due to the different load currents, and the transient response. Typical overshoot for step changes in the load current from 0mA to 300mA is 10mV. Increasing the output capacitor's value and decreasing its ESR attenuates transient spikes.Input-Output (Dropout) VoltageA regulator's minimum input-output voltage differential (or dropout voltage) determines the lowest usable supply voltage. In battery-powered systems, this will determine the useful end-of-life battery voltage. Be-cause the G9131 use a P-channel MOSFET pass transistor, their dropout voltage is a function of R DS(ON) multiplied by the load current.Figure 1. Functional DiagramPackage InformationSOT-89 (T2) PackageDIMENSION IN MILLIMETER DIMENSION IN INCH SYMBOLMIN NOM MAX MIN NOM MAXA 1.40 1.50 1.60 0.055 0.059 0.063 A1 0.80 1.04 ----- 0.031 0.041 -----b 0.36 0.42 0.48 0.014 0.016 0.018 b1 0.41 0.47 0.53 0.016 0.0180.020 C 038 0.40 0.43 0.014 0.015 0.017 D 4.40 4.50 4.60 0.173 0.177 0.181 D1 1.40 1.60 1.75 0.055 0.062 0.069 HE ----- ----- 4.25 ----- ----- 0.167 E 2.40 2.50 2.60 0.094 0.098 0.102 e 2.90 3.00 3.10 0.114 0.118 0.122SOT-23 (T7) PackageNote:1.Package body sizes exclude mold flash protrusions or gate burrs2.Tolerance ±0.1000 mm (4mil) unless otherwise specified3.Coplanarity: 0.1000mm4.Dimension L is measured in gage planeDIMENSION IN MILLIMETERSYMBOLMIN NOM MAXA 1.00 1.10 1.30A1 0.00 ----- 0.10A2 0.70 0.80 0.90 b 0.35 0.40 0.50C 0.10 0.15 0.25D 2.70 2.90 3.10E 1.40 1.60 1.80 e ----- 1.90(TYP)-----H 2.60 2.80 3.00L 0.37 -----------θ1 1° 5° 9°Taping SpecificationPACKAGE Q'TY/BY REELSOT-23 3,000 ea SOT-89 1,000 eaGMT Inc. does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and GMT Inc. reserves the right at any time without notice to change said circuitry and specifications.θ1A1SOT-89 Package OrientationFeed DirectionSOT-23 Package OrientationFeed Direction。

Absolute Maximum Ratings (T A =25 ° C) EmitterReverse Voltage...................................................................6.0 V Continuous Forward Current .............................................60 mA Peak Forward Current (1 µ s)..................................................1 A Power Dissipation...........................................................100 mW Derate Linearly from 25 ° C..........................................1.3 mW/ ° C DetectorOutput Breakdown Voltage.................................................350 V Continous Load Current ..................................................150 mA Total Power Dissipation...................................................400 mW Derate Linearly from 25 ° C.......................................See Figure 3 PackageIsolation Test Voltage.............................................3750 VAC RMS Isolation ResistanceV IO =500 V , T A =25 ° C.................................................... ≥ 10 12 Ω V IO =500 V , T A =100 ° C.................................................. ≥ 10 11 Ω Power Dissipation...........................................................500 mW Derate Linearly from 25 ° C..........................................2.5 mW/ ° C Storage Temperature Range ................................–40 to +150 ° C Operating Temperature Range...............................–40 to +85 ° C Junction Temperature........................................................100 ° C Soldering Temperature, 2 mm from case, 10 sec.............260 °CFEATURES•Normally Open, Single Pole Single Throw Operation •Control 350 VAC or DC Voltage •Switch 150 mA Loads•LED Control Current, 1 mA, Typical•Low ON-Resistance, 20 Ω Typ. at 50 mA •Isolation Test Voltage, 3750 VAC RMS •Current Limit Protection•Underwriters Lab File # E52744APPLICATIONS•Telephone Switch Hook•High Voltage Test Equipment •TRIAC Driver •Motor Control•Industrial Control Systems DESCRIPTION(NO), solid state relay. The relay can control AC or DC loads currents up to 100 mA, with a supply voltage up to 350 V . The device is packaged in a six pin 0.3 inch dual-in line package. This package offers an insulation dielectric withstand of 3750 VAC RMS .The coupler consists of a AlGaAs LED that is optically coupled to a dielectrically isolated photodiode array which drives two series connected high voltage MOS transistors. The typical ON-resistance is 20 Ωat 25 mA and is linear up to 50 mA. There is built-in current limiting circuitry in the detector chip, enabling it to pass FCC 68-302 and other regulatory voltage surge requirements when over voltage protection is provided.元器件交易网Characteristics (T A =25 ° C)Description Symbol Min.Typ.Max.Unit Test ConditionEmitter Forward VoltageV F 1.25 1.5V I F =10 mAV F Temperature Coefficient ∆ V F / ∆ T –2.2mV/ ° CReverse Current I R 110 µ AV R =6 VJunction Capacitance C J 15pF V F =0 V, f=1 MHz Dynamic Resistance ∆ V F / ∆ I F 6W I F =10 mA Switching Time t R , t F1µ sI F =10 mADetectorOutput Breakdown Voltage V B 350V I B =50 µ AOutput Off-State Leakage Current I T(OFF) .02200nA V T =± 100 V, I F =0 mA Feed through Capacitance, pins 4 to 6C T 55pF I F =0, f=1 KHz,V L =1 VP-P Current Limit I LMT170210250mAI F =5 mA, t=5 msPackageLED Forward Current for Turn-on I FTh 12mA I L =100 mA, t=10 ms LED Forward Current for Turn-off I FOFF 0.20.9mA V L = ± 300 V, I L =<5 µ A ON-resistance R ON 122025W I F =5 mA, I L =50 mA Turn-on Time t ON 1.2 2.0ms I F =5 mA, V L =+50 V R L =1 k ΩTurn-off Timet OFF0.52.0msFigure 2. Forward current vs. forward voltage元器件交易网Figure 6. Change in ON-resistance vs. temperature Figure 7. Change in ON-resistancevs. LED currentFigure 11. Change in t OFF vs. temperatureFigure 12. Timing test circuit and timing waveform元器件交易网。

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AP5131外观参数长度（135 mm）,宽度（240mm）,高度（45mm）,基本参数端口类型2个端口(N)自动感应10/100Base-T以太网网络标准:802.11a ,802.11b ,802.11g ,802.3最大传输速率(Mbps):54-108传输速率（Mbps）:1, 2, 5.5, 6, 9, 11, 12, 18, 24, 36, 48, 54额定电压（48V）Symbol AP5131以更高的安全性、更强劲的动力和更充足的内存实现企业无线网络的高性能移动性Spectrum24 High RateIEEE 802.11b，11Mbps 无线局域网IEEE 802.11b 以太网连接速度实现高性能的无线移动和便携式计算Symbol Technologies 的Spectrum24? High Rate AP5131 接入点为支持高级移动网络和关键业务无线语音及数据应用程序提供了所需的无线局域网性能，包括10/100 Base-T 以太网连接，业界开放性最强、最先进的安全解决方案，以及Motorola 855T处理器。

Spectrum24 High Rate 的工作频带为2.4GHz，最高速度可达每秒11Mb，为今天节奏日益加快的工作人员提供了无比的移动性，使他们能够快速、安全地访问企业内部网和Internet - 同时还消除了为满足信息系统要求而临时搭建专用网络所需的时间和金钱。

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Spectrum24 High Rate 接入点能够与配备了Spectrum24 客户端适配器的任意数量的设备进行通信，包括Symbol Technologies无线计算设备。

可任意扩展伸缩的连接性- 适用于便携式计算机、PDA、桌面计算机以及移动客户端Spectrum24 High Rate AP5131 接入点最多可支持127 个装有Wi-Fi 认证802.11b 客户端卡的客户端，包括Symbol Technologies 推出的用于便携式计算机和PDA 的PC 和Compact Flash（紧凑闪光）格式的Wireless Networker 卡，以及用于桌面计算机和其它支持USB 的设备的Spectrum24 High Rate 通用串行总线。

电脑型号X86 兼容台式电脑操作系统Windows 7 旗舰版 32位 ( DirectX 11 )处理器英特尔 Pentium(奔腾) 双核 E5800 @ 3.20GHz主板华硕 P5G41T-M LX V2 (英特尔 4 Series 芯片组 - ICH7) 内存 2 GB ( 金士顿 DDR3 1333MHz )主硬盘西数 WDC WD5000AAKX-001CA0 ( 500 GB / 7200 转/分 ) 显卡英特尔 G41 Express Chipset ( 782 MB / 华硕 )显示器通用非即插即用监视器光驱华硕 DVD-E818A7T DVD光驱声卡瑞昱 ALC887 @ 英特尔 82801G(ICH7) 高保真音频网卡瑞昱 RTL8168E PCI-E Gigabit Ethernet NIC / 华硕《处理器英特尔 Pentium(奔腾) 双核 E5800 @ 3.20GHz速度 3.20 GHz (200 MHz x 16.0) / 前端总线: 800 MHz处理器数量核心数: 2 / 线程数: 2核心代号Wolfdale生产工艺45 纳米插槽/插座Socket 775 (FC-LGA6)一级数据缓存 2 x 32 KB, 8-Way, 64 byte lines一级代码缓存 2 x 32 KB, 8-Way, 64 byte lines二级缓存 2 MB, 8-Way, 64 byte lines特征MMX, SSE, SSE2, SSE3, SSSE3, EM64T, EIST主板型号华硕 P5G41T-M LX V2芯片组英特尔 4 Series 芯片组 - ICH7序列号MF70B1G03104530板载设备Onboard Ethernet / 网卡 (启用)BIOS American Megatrends Inc. 0304制造日期10/11/2010DIMM 0: 金士顿 DDR3 1333MHz 2GB制造日期2010 年 03 月型号7F98产品西数 WDC WD5000AAKX-001CA0 (蓝盘)大小500 GB转速7200 转/分缓存16 MB硬盘已使用共 854 次，累计 2291 小时固件15.01H15接口SATA III数据传输率600 MB/秒特征S.M.A.R.T, 48-bit LBA, NCQ主显卡英特尔 G41 Express Chipset显存782 MB制造商华硕BIOS版本Intel Video BIOSBIOS日期12/01/20驱动版本8.15.10.2413驱动日期6-3-2011产品华硕 DVD-E818A7T DVD光驱缓存/固件: 198 KB / 1.02网卡瑞昱 RTL8168E PCI-E Gigabit Ethernet NIC制造商华硕声卡瑞昱 ALC887 @ 英特尔 82801G(ICH7) 高保真音频》。

The productWith this new trip unit, covering the range from 320A upto 630A, ABB completes its offer of ‘integrated solution for energy measurement’ for applications with values of rating currents starting from 16A up to 1600A.Main characteristics•Available for T5 in three-pole and four-pole versions.•Protections:– against overloads (L): 0.18...1xIn adjustable protection threshold, with adjustable time trip curve;– against short-circuits with delay (S): 0,6...10xIn adjustable protection threshold, with adjustable time trip curve;– against instantaneous short-circuits (I): 1,5...12xIn adjustable protection threshold, with instantaneous tripcurve;– of the neutral in four-pole circuit-breakers.• Measurements:– available from 0.1xIn in Vaux mode;– Currents: three phases (L1, L2, L3), neutral (Ne) and earthfault;– Voltage: phase-phase, phase-neutral;– Power: active, reactive and apparent;– Power factor;– Frequency and peak factor;– Energy: active, reactive, apparent, counter.•Setting:– manual setting using the relative dip-switches on the front of the trip unit, which allow the settings to be made evenwhen the trip unit is off;– electronic setting, made both locally using Ekip T&P accessory and also via remote control, with version of tripunit with communication function. The electronic settinghave a wider range and a thicker regulation step. Use ofelectronic setting allows other functions to be activated:- function for protection against earth faults (G);- over voltage protection;- under voltage protection.•LED:– LED on with steady green light indicating that the trip unit is supplied correctly. The LED comes on when the currentexceeds 0.2xIn;– red LED for each protection:- L: LED with steady red light, indicates pre-alarm forcurrent exceeding 0.9xI1;- L: LED with flashing red light, indicates alarm for current exceeding setted threshold;- fixed LED MAN/ELT show the kind of active parameters;- LSI: LED with steady red light, shows that the protectionhas tripped. After the circuit-breaker has opened,connect the Ekip TT or Ekip T&P accessory to find outwhich protection function tripped the trip unit;– the trip unit is equipped with a device that detects the eventual opening solenoid disconnection thanks to thesimultaneous blinking of all the LED.•Test connector on the front of the release:– to connect the Ekip TT trip test unit, which allows trip test, LED test and signalling about the latest trip happened;– to connect the Ekip T&P unit, which allows themeasurements to be read, the trip test to be conducted,the protection functions test to be carried out, electronicsetting of the protection functions of the trip unit and of thecommunication parameters;•Self-supply from a minimum current of 0.2xIn up.•With version of trip unit with communication function, you can:– acquire and transmit a wide range of information via remote control;– accomplish the circuit-breaker opening and closing commands by means of the motor operator in theelectronic version (MOE-E);– know the state of the circuit-breaker (open/closed/trip) via remote control;– setting the configuration and programming the unit, such as the current thresholds and the protection function curves. •The three-pole version can be accessorized with external neutral current transformer and, in order to measure alsophase powers, with external neutral voltage connection kit.2Tmax T5 Ekip E-LSIGNew integrated solution for energy measurementThis new trip unit will have the following ratings:Ratings IECIn (A)320400630T5 400••-T5 630•••With Ekip E-LSIG T5, upon request, will be availablesimultaneously the communication, through internal bus, with ABB interface on the front of the switchgear HMI030 and, through system bus, with an external MODBUS network.Indeed for any ratings will be offered two versions:- with MODBUS communication function - without MODBUS communication function.The new solutionWith this new electrical trip unit, ABB offers an optimal solution for energy and power measurements without theusage of external accessories, as the device VM210Protection featuresUV(1)Tollerances in case of:– self-powered trip unit at full power;– 2 or 3 phase power supply.In conditions other than those considered, the following tollerance hold:Protection Trip threshold Trip time±20%L release between 1.1 and 1.3 x I1S±10%±20%I±15%≤60msG±15%±20%(2)Protection G is inhibited for currents higher than 4 In.(3)T5 630 I2 max = I3 max = 9.5In.(4)T5 630 t1 max = 42s.34ValueRange Accuracy Specified measuring range CurrentPhase current (I1, I2, I3, IN)0.1 … 12 InCl 10.2 … 1.2 InPhase current minimum value Phase current maximum value Ground current (Ig)0 … 4 In ––VoltagePhase voltage runtime, max and min (V1N, V2N, V3N) (3)5 … 480 V ±0.5%30 … 400 V Line voltage runtime, max and min (U12, U23, U31)10 … 828 V±0.5%50 … 690 V Power ActivePhase power runtime, max and min (P1, P2, P3) (3)-5.76 In kW … 5.76 In kW Cl 2-480In W … -6In W 6In W … 480In W (1)Total power runtime, max and min-17.28 In kW … 17.28 In kW Cl2 -1.44In kW … -18In W 18In W … 1.44In kW (1)ReactivePhase power runtime, max and min (Q1, Q2, Q3) (3)-5.76 In kvar … 5.76 In kvar Cl 2-480In var … -6In var 6In var … 4.80In var (1)Total power runtime, max and min-17.28 In kvar … 17.28 In kvar Cl2 -1.44In kvar … -18In var 18In var … 1.44In kvar (1)ApparentPhase power runtime, max and min (S1, S2, S3) (3)In VA … 5.76 In kVA Cl 26In VA … 480In VA Total power runtime, max and min 3 In VA … 17.28 In kVA Cl 218In VA … 1.44In kVA Energy ActiveTotal energy 1 kWh … 214.75 GWhCl 21 kWh … 214.75 GWhIncoming energy Outgoing energyReactive Total energy 1 kvarh … 214.75 Gvarh Cl 2 1 kvarh … 214.75 GvarhIncoming energy Outgoing energyApparentTotal energy 1 kVAh … 214.75 GVAh Cl 2 1 kVAh … 214.75 GVAh Power qualityHarmonic analisys (2)11th (50 - 60Hz)––THD of phase L1, L2, L3 (2)0 … 1000%±10%0 … 500%Frequency runtime, max, min 44 … 440 Hz ±0.2%45 … 66 Hz PF of phase L1, L2, L3 (3)-1 (1)±2%-1 ... -0.50.5 (1)(1) For: 0.2In < Ii < 1.2 In and 30V < Vi < 400V(2)Available on demand by sending a Modbus command (3)Not available if Neutral is not connectedTmax T5 Ekip E-LSIGNew integrated solution for energy measurement5Functions LSIG electronic settingTrip curves for power distributionG6CodesDescriptions1SDA081043R1T5N 400 Ekip E-LSIG In=320A 3p F F 1SDA081044R1T5S 400 Ekip E-LSIG In=320A 3p F F 1SDA081045R1T5H 400 Ekip E-LSIG In=320A 3p F F 1SDA081046R1T5L 400 Ekip E-LSIG In=320A 3p F F 1SDA081047R1T5V 400 Ekip E-LSIG In=320A 3p F F 1SDA081048R1T5N 400 Ekip E-LSIG In=400A 3p F F 1SDA081049R1T5S 400 Ekip E-LSIG In=400A 3p F F 1SDA081050R1T5H 400 Ekip E-LSIG In=400A 3p F F 1SDA081051R1T5L 400 Ekip E-LSIG In=400A 3p F F 1SDA081052R1T5V 400 Ekip E-LSIG In=400A 3p F F 1SDA081053R1T5N 400 Ekip E-LSIG In=320A 4p F F 1SDA081054R1T5S 400 Ekip E-LSIG In=320A 4p F F 1SDA081055R1T5H 400 Ekip E-LSIG In=320A 4p F F 1SDA081056R1T5L 400 Ekip E-LSIG In=320A 4p F F 1SDA081057R1T5V 400 Ekip E-LSIG In=320A 4p F F 1SDA081058R1T5N 400 Ekip E-LSIG In=400A 4p F F 1SDA081059R1T5S 400 Ekip E-LSIG In=400A 4p F F 1SDA081060R1T5H 400 Ekip E-LSIG In=400A 4p F F 1SDA081061R1T5L 400 Ekip E-LSIG In=400A 4p F F 1SDA081062R1T5V 400 Ekip E-LSIG In=400A 4p F F 1SDA081063R1T5N 630 Ekip E-LSIG In=630A 3p F F 1SDA081064R1T5S 630 Ekip E-LSIG In=630A 3p F FCodesDescriptions1SDA081065R1T5H 630 Ekip E-LSIG In=630A 3p F F 1SDA081066R1T5L 630 Ekip E-LSIG In=630A 3p F F 1SDA081067R1T5V 630 Ekip E-LSIG In=630A 3p F F 1SDA081068R1T5N 630 Ekip E-LSIG In=630A 4p F F 1SDA081069R1T5S 630 Ekip E-LSIG In=630A 4p F F 1SDA081070R1T5H 630 Ekip E-LSIG In=630A 4p F F 1SDA081071R1T5L 630 Ekip E-LSIG In=630A 4p F F 1SDA081072R1T5V 630 Ekip E-LSIG In=630A 4p F F 1SDA081094R1DIALOG Ekip E-LSIG MOD.T5 (EXTR)1SDA081082R1Ekip E-LSIG In=320 3p T51SDA081083R1Ekip E-LSIG/COM In=320 3p T51SDA081084R1Ekip E-LSIG In=320 4p T51SDA081085R1Ekip E-LSIG/COM In=320 4p T51SDA081086R1Ekip E-LSIG In=400 3p T51SDA081087R1Ekip E-LSIG/COM In=400 3p T51SDA081088R1Ekip E-LSIG In=400 4p T51SDA081089R1Ekip E-LSIG/COM In=400 4p T51SDA081090R1Ekip E-LSIG In=630 3p T5 6301SDA081091R1Ekip E-LSIG/COM In=630 3p T5 6301SDA081092R1Ekip E-LSIG In=630 4p T5 6301SDA081093R1Ekip E-LSIG/COM In=630 4p T5 6301SDA081073R1KIT x CONNECTION Ext Ne T5In order to receive for each complete CB the version with the communication function active, the extracode 1SDA081094R1 will have to be added.Ordering codesThe product will be available as loose trip units and also already mounted to specific breaking parts:Tmax T5 Ekip E-LSIGNew integrated solution for energy measurementMechanical and Electrical accessoriesThe following electrical accessories for Tmax trip units:– Aux-E, electronic auxiliary contacts– MOE-E, stored energy motor operator– Aux-S51, contact for signaling electronic trip unit tripped– HMI030, interface on the front of switchgear–Current sensor for external neutral– Ekip T&P, test and configuration kitand all the electrical and mechanical accessories for Tmax breaking parts will be compatible with the new trip unit Ekip E-LSIG. For the commercial codes please refer to the technical catalogue “SACE Tmax. T Generation”.75.512-22L1612CDS1For more information please contact:ABB SACEA division of ABB S.p.A.L.V. BreakersVia Pescaria, 524123 BergamoPhone: +39 035 395.111Fax: +39 035 395.306-433The data and illustrations are not binding. We reserve the right to make changes in the course of technical development of the product.Copyright 2015 ABB. All rights reserved.。

煤炭行业标准炭标准一览表(MT1-1039) -1序号编号标准名称被代替标1. MT/T1-商品煤含MT1-19832. MT/T2-窄轨铁路MT2-19663. MT/T2-选煤厂破MT/T2-4. MT4-1984 采煤机用电动机5. MT6-1975 矿山窄轨牵引网路瓷吊线6. MT7-1975 矿山窄轨牵引网路吊线线7. MT8-1975 矿山窄轨牵引网路吊弦线8. MT9-1975 矿山窄轨牵引网路并接线9. MT10-1975 矿山窄轨牵引网路搭接线10. MT11-1975 矿山窄轨牵引网路馈电线11. MT12-1975 矿山窄轨牵引网路终端线12. MT13-1975 矿山窄轨牵引网路卡环13. MT14-1975 矿山窄轨牵引网路金具的14. MT/T15-矿用刮板MT15-199115. MT20-1990 立井多绳1991-199316. MT21-1990 立井箕斗1991-199317. MT22-1975 煤矿立井多绳罐笼品种、18. MT23-1975 矿用吊挂带式输送机型式19. MT26-2004 KS型矿灯MT26-199820. MT28-2005 光干涉式MT28-199421. MT30-2000 金属顶梁MT30-199222. MT31-1996 煤电钻开MT31-197823. MT37-1980 镕模铸造用结晶氯化铝24. MT/T38-煤和岩石MT38-198025. MT/T39-岩石真密MT39-198026. MT/T40-岩石视密MT40-198027. MT/T41-岩石孔隙MT41-198028. MT/T42-岩石吸水MT42-198029. MT/T43-岩石吸水MT43-198030. MT/T44-煤和岩石MT44-198031. MT/T45-煤和岩石MT45-198032. MT/T46-煤和岩石MT46-198033. MT/T47-煤和岩石MT47-198034. MT/T48-煤和岩石MT48-198035. MT/T49-煤的坚固MT49-198036. MT51-1994 硫化氢检MT51-198037. MT52-1996 煤矿用岩MT52-198538. MT53-1980 静电显影记录仪39. MT54-1981 CJ-1000测井绞车40. MT55-1981 信号继电器41. MT59-1981 AJH型氧将被代替42. MT60-1995 煤矿炸药MT60-198243. MT61-1997 煤矿用炸MT61-198244. MT62-1997 煤矿许用MT62-198245. MT63-1982 短延期电雷管46. MT64-1982 煤矿许用电雷管井下可燃47. MT65-1995 水胶炸药MT65-198248. MT66-1995 乳胶炸药MT66-198049. MT67-2006 一氧化碳MT67-199450. MT68-2002 矿灯充电MT68-51. MT/T69-顺槽用刮MT69-198252. MT70-1993 HZJA型金MT70-198353. MT/T71-矿用圆环MT71-199154. MT72-1998 边双链刮MT72-199155. MT73-1992 煤矿用带1991-199356. MT75-1983 HSY-3型液压升柱器57. MT76-2002 液压支架MT76-198358. AQ1046-地堪时期MT/T77-59. AQ1045-煤尘爆炸MT78-8460. MT79-1984 粉尘浓度和分散度测定方61. MT80-1984 煤中灰分快速测定方法62. MT81-1998 滚筒采煤MT81-198463. MT82-1998 滚筒采煤MT82-198464. MT83-2006 滚筒式采MT83-199665. MT84-1997 滚筒式采MT84-198466. MT85-1999 采煤机液MT85-198467. MT87-1984 煤矿用乳化液泵试验规范68. MT88-1984 煤矿用乳化液泵用安全阀69. MT89-1984 煤矿用乳化液泵用减压阀70. MT90-1984 煤矿用乳化液泵站用自动71. MT91-1984 煤矿用乳化液泵站用高压72. MT92-1984 煤矿用乳化液泵站用液压73. MT93-1984 煤矿用乳化液泵的压力、74. MT/T94-液压支架MT94-198475. MT94-1984 被MT313-1992代替76. MT95-1984 被MT313-1992代替77. MT97-1992 液压支架1991-199378. MT/T98-液压支架MT98-198479. MT/T99-矿用圆环MT99-199180. MT/T100-刮板输送MT100-81. MT/T101-刮板输送MT/T10182. MT/T102-刮板输送机中部槽试验规83. MT/T103-矿用刮板MT103-84. MT/T104-刮板输送MT104-85. MT/T105-刮板输送MT105-86. MT/T106-顺槽用刮MT106-87. AQ1017-煤矿井下MT108-88. MT/T109-煤和矸石MT109-89. MT/T100-刮板输送MT100-90. MT111-矿用隔爆MT111-91. MT112.1-矿用单体MT112-92. MT113-煤矿井下MT113-93. MT114-煤矿用多MT114-94. MT115-煤工尘肺X光诊断标准95. MT117-采煤机用电缆夹板型式和96. MT118-一次成型液压锻钎机通用97. MT121-园图压力1991-199398. MT/T122-GM系列采1991-199399. MT123-ACW-1型1991-1993 100. MT124-QZB-50/601991-1993 101. MT127-JSX-2A型1991-1993 102. MT/T128-矿用一氧1991-1993 103. MT129-碱性矿灯1991-1993 104. MT130-ZMZ型装1991-1993 105. MT131-耙斗装岩MT131-106. MT132-NBD系列1991-1993 107. MT133-MED-12锚1991-1993 108. MT135-AFC-1211991-1993 109. MT136-隔爆型手MT136-110. MT137.1-矿井空气中有害气体一氧111. MT/T138-悬臂式掘MT138-112. MT140-采煤机滚MT/T140-113. MT141-煤矿井下MT141-114. MT142-煤矿井下空气采样方法115. MT143-巷道金属支架系列116. MT/T144-选煤实验MT144-117. MT/T145-评定煤用MT145-118. MT146.1-树脂锚杆MT146.1-119. MT146.2-树脂锚杆MT146.2-120. MT147-煤矿用阻MT147-121. MT/T148-刮板输送MT148-122. MT149-刮板输送2004年确123. MT/T150-刮板输送MT150-124. MT/T151-矿用液压MT151-125. MT/T152-中心单链MT152-126. MT/T153-中心单链刮板输送机蛙形127. MT/T154.1煤矿机电1991-1993 128. MT/T154.2煤矿用电MT154.2-129. MT/T154.3刨煤机产MT154.3-130. MT/T154.4煤矿用带MT154.4-131. MT/T154.5液压支架MT154.5-132. MT/T154.6矿灯型号MT/T154.6 133. MT/T154.7煤矿用分选设备型号编制134. MT/T154.8煤矿辅助运输设备型号编135. MT/T154.9煤用筛分设备型号编制方136. MT/T154.1煤矿用安全仪器仪表产品137. MT155-矿用机械式风速表通用技138. MT156-矿用风速表校验规程139. MT157-煤矿用隔MT157-140. MT158-煤矿用井下用岩粉和浮尘141. MT159-矿用除尘MT159-142. MT160-滤尘送风式防尘安全帽通143. MT161-滤尘送风式防尘口罩通用144. MT162-粉尘采样MT162-145. MT163-直读式粉MT163-146. MT164-煤矿用涂MT164-147. MT165-煤矿用涂MT165-148. MT/T166-矿用本质安全型压接式电149. MT/T167-矿用聚乙烯绝缘聚乙烯护150. MT168-煤矿井下工人滑囊炎诊断151. MT/T169-液压支架MT169-152. MT170-煤和岩石点荷载强度测定153. MT171-岩石膨胀率测定方法154. MT172-岩石膨胀应力测定方法155. MT173-岩石耐崩解性指数测定方156. MT174-煤层冲击MT174-157. MT175-矿及隔爆型电磁起动器用158. MT176-商品煤质1991-1993 159. MT177-矿用液压支架阀类压力、160. MT178-矿用液压支架阀类连接型161. MT179-矿用液压支架阀类通用技162. MT180-选煤厂浮1991-1993 163. MT181-煤矿井下用塑料管安全性164. MT182-酒精喷灯燃烧器的结构与165. MT/T183-刮板输送机中部槽166. MT/T184-工作面用刮板输送机挡板167. MT/T185-工作面用刮板输送机铲煤168. MT/T186-工作面用刮板输送电缆槽169. MT/T187.1刮板输送机紧固件螺栓技170. MT/T187.2刮板输送机紧固件 U型螺171. MT/T187.3刮板输送机紧固件棱头螺172. MT/T187.4刮板输送机紧固件棱头螺173. MT/T187.5刮板输送机紧固件长方头174. MT/T187.6刮板输送机紧固件梯型头175. MT/T187.7刮板输送机紧固件半圆形176. MT/T187.8刮板输送机紧固件非金属177. MT/T187.1刮板输送机紧固件 E型螺178. MT/T187.1刮板输送机紧固件179. MT/T188.1煤矿用乳MT188-180. MT/T188.2煤矿用乳化液泵站乳化液181. MT/T188.3煤矿用乳MT188.3-182. MT/T188.4煤矿用乳MT/T188.4 183. MT/T188.5煤矿用乳MT/T188.5 184. MT189-矿用隔爆型检漏继电器185. MT190-选煤厂煤1991-1993 186. MT191-煤矿井下1991-1993 187. MT192-煤矿用湿1991-1993 188. MT193-矿用液压1991-1993189. MT194-矿用工字MT194-190. MT195-煤矿用U1991-1993 191. MT196-煤水泵1991-1993 192. MT197-多极节段1991-1993 193. MT198-煤矿用液MT198-194. MT199-煤矿用液MT199-195. MT200-煤矿生产MT200-196. MT/T201-煤矿水中MT201-197. MT/T202-煤矿水中MT202-198. MT/T203-煤矿水中MT203-199. MT/T204-煤矿水中MT204-200. MT/T205-煤矿水中MT205-煤炭标准一览表(MT1-1039) -2序号编号标准名称被代替标200. MT/T205-煤矿水中MT205-201. MT/T206-煤矿水中MT206-202. MT/T207-工作面用MT207-203. MT/T208-刮板输送MT208-204. MT209-煤矿通1991-1993 205. MT210-煤矿通1991-1993 206. MT211-煤矿通1991-1993 207. MT212-煤矿用输1991-1993 208. MT213-煤矿用反1991-1993 209. MT214.1-提升容器1991-1993 210. MT214.2-提升容器1991-1993 211. MT214.3-提升容器1991-1993 212. MT214.4-提升容器1991-1993 213. MT214.5-提升容器1991-1993 214. MT215-电动翻车1991-1993 215. MT216-装罐推车1991-1993 216. MT217-立井罐笼1991-1993 217. MT218-水泥锚杆MT218-218. MT219-水泥锚杆MT219-219. MT220-煤矿用防1991-1993 220. MT221-煤矿用防MT221-221. MT222-煤矿用局MT222-222. MT223-煤和岩石1991-1993 223. MT224-煤和岩石1991-1993 224. MT225-单项压缩1991-1993 225. MT/T226-烟煤粘结MT/T226-226. MT/T227-煤中全硫MT/T227-227. MT/T228-煤炭氢测MT/T228-228. MT/T229-烟煤坩埚MT/T229-229. MT/T230-煤的哈氏MT/T230-230. MT231-矿用刮板MT/Z8-9--231. MT232-1t矿车1991-1993 232. MT233- 1.5t矿车1991-1993 233. MT234-3t矿车立1991-1993 234. MT235-立井多绳1991-1993 235. MT236-组合钢罐1991-1993 236. MT237.1-多绳提升1991-1993 237. MT237.2-多绳提升1991-1993 238. MT237.3-多绳提升1991-1993 239. MT237.4-多绳提升1991-1993 240. MT237.5-多绳提升1991-1993 241. MT/T238.3悬挂式掘MT/T238-242. MT/T239-褐煤蜡技MT239-243. MT/T240-煤矿降尘MT240-244. MT241-煤层注水泵技术条件245. MT242-KL型矿灯MT242-246. MT243-煤矿井下液力偶合器用高247. MT244-MT244-1991煤矿窄轨车辆248. MT244.1-煤矿窄轨MT244.1-249. MT244.2-煤矿窄轨MT244.2-250. MT/T245-DTQ6型通用抓斗251. MT/T246-采掘机械MT246-252. MT/T247-采掘机械MT247-253. MT/T248-摩擦提升机用衬垫摩擦系254. MT/T249-矿用隔爆MT249-255. MT/T250.1矿车修理机械通用技术要256. MT/T250.2矿车修理机械拆轮机257. MT/T250.3矿车修理机械装轮机258. MT/T250.4矿车修理机械整形机259. MT/T250.5矿车修理机械轴承外圈卸260. MT/T250.6矿车修理机械液压站261. MT/T250.7矿车修理机械刷轮机262. MT/T250.8矿车修理机械注油机263. MT/T250.9矿车修理机械轴承清洗机264. MT/T250.1矿车修理机械电动悬臂吊265. MT/T250-刮板输送机紧固件非金属266. MT/T251-煤矿水中MT/T251-267. MT/,, 煤矿水中MT/T252-268. MT/T253-煤矿水中MT/T253-269. MT/T254-煤矿水中MT/T254-270. MT/T255-煤矿水中MT/T255-271. MT/T256-煤矿水中MT/T256-272. MT/T257-煤矿水游MT/T257-273. MT258-ML型薄壳防水闸门274. MT259-煤炭可浮性评定方法275. MT260-选煤厂煤泥过滤性测定方276. MT261-选煤厂真空过滤机用助滤277. MT263-烟煤宏观类型的划分与描278. MT264-煤的显微硬度测定方法279. MT/T266-块偏心直1991-1993 280. MT/T267-块偏心圆1991-1993 281. MT/T268-煤矿用两1991-1993282. MT/T269-液压驱动1991-1993 283. MT/T270-同步带传1991-1993 284. MT271-二氧化硫检测管285. MT272-氮氧化物检测管286. MT273-氨气检测管287. MT274-二氧化碳检测管288. MT275-氧气检测管289. MT276-氢气检测管290. MT277-矿井空气中有害气体硫化291. MT278-矿井空气中有害气体氨气292. MT279-矿井空气中有害气体氮氧293. MT280-矿井空气中有害气体二氧294. AQ6202-煤矿甲烷MT281-295. MT282-煤矿用移动式甲烷断电仪296. AQ6208-煤矿用固MT283-297. MT284-立井提升容器楔形连接装298. MT285-缝管锚杆1991-1993 299. MT/T286-煤矿通1991-1993 300. MT/T287-煤矿信号1991-1993 301. MT/T288-煤矿架线1991-1993 302. MT/T289-煤矿本质1991-1993 303. MT/T290-煤矿本质1991-1993 304. MT291.1-悬臂式掘MT291.1-305. MT/T291.2悬臂式掘MT139-306. MT/T307-窄轨矿车1991-1993 307. MT/T308-水力采煤1991-1993 308. MT/T309-水力采煤1991-1993 309. MT/T310-高压水管1991-1993 310. MT/T311-采煤机牵1991-1993 311. MT312-液压支架MT312-312. MT313-液压支架1991-1993 313. MT314-煤矿假顶1991-1993314. MT/T315-煤矿用叶片式气动潜水泵315. MT/T316-煤矿用电1991-1993 316. MT317-煤矿用输MT/T317-317. MT/T318.1煤矿用输MT318-318. MT319-煤矿用输MT319-319. MT/T320-煤芯煤样可选性试验方法320. MT/T321-采煤机螺MT/T321-321. MT322-露天矿10KV及以下移动变322. MT/T323-中双链刮MT/T323-323. MT324-双柱并列式液压切顶支柱324. MT/T325-矿工钢支架制造技术条件325. MT326-U型钢可缩性巷道支架卡326. MT327-天轮327. MT/T328-JG系列立井大型多绳箕斗328. MT/T329-JC系列立井大型多绳箕斗329. MT/T330-XG、XC系列立井大型多绳330. MT/T331-JL系列立井大型多绳箕斗331. MT/T332-XL系列立井大型多绳箕斗332. MT/T333-煤矿机车产品型号编制方333. MT334-煤矿铅酸蓄电池防爆特殊334. MT335-单体液压MT335-335. MT350-矿用风速表检定装置通用336. MT/T351.1矿用橡套软电缆聚氨酯冷337. MT/T351.2矿用橡套软电缆聚氨酯冷338. MT/T351.3矿用橡套软电缆聚氨酯冷339. MT/T351.4矿用橡套软电缆聚氨酯冷340. MT/T352-矿用橡套软电缆聚氨酯冷341. MT/T353-矿用橡套软电缆聚氨酯冷342. MT/T354-矿用橡套电缆聚氨酯冷补343. MT355-矿用防坠MT355-344. MT/T356-煤矿井下MT/T356-345. MT/T357-煤的三氯甲烷萃取物测定346. MT/T358-煤的三氯甲烷萃取物族组347. MT/T359-煤矿水中MT/T359-348. MT/T360-煤矿水中MT/T360-349. MT/T361-煤矿水中铜的测定方法原350. MT/T362-煤矿水中铅的测定方法原351. MT/T363-煤矿水中锌的测定方法原352. MT/T364-煤矿水中镉的测定方法原353. MT/T365-煤矿水中锰的测定方法原354. MT/T366-煤矿水中可溶性固体的测355. MT/T367-煤矿水中侵蚀性二氧化碳356. MT/T368-煤矿水中MT/T368-357. MT/T369-煤矿水中化学耗氧量的测358. MT/T370-煤矿水中溶解氧的测定方359. MT/T371-煤矿水中MT/T371-360. MT/T372 煤矿水中硫离子的测定方361. MT/T373-煤矿水中MT/T373-362. MT/T374-阻燃抗静电三角带安全性363. MT/T375.2矿用菱镁混凝土制品梯形364. MT/T375.3矿用菱镁混凝土制品窄轨365. MT/T375.4矿用菱镁混凝土制品背366. MT/T375.5矿用菱镁混凝土制品拱形367. MT/T376.6矿用菱镁混凝土制品锚杆368. MT376-爆破母线技术条件369. MT377-电雷管用绝缘电线370. MT378-煤矿用炸药抗爆燃性测定371. MT379-煤矿用电雷管静电感度测372. MT380-煤矿用风MT380-373. MT381-煤矿用温MT381-374. MT382-矿用烟雾传感器通用技术375. MT383-煤矿用风筒涂覆布技术条376. MT/T384-煤中铀的测定方法377. MT386-煤矿用阻燃电缆阻燃性的378. MT387-煤矿窄轨MT387-379. MT388-矿用斜井MT388-380. MT389-煤矿用平MT389-381. MT/T390-矿井压风自救器装置技术382. MT391-风煤钻技术条件383. MT392-矿用钻杆圆锥螺纹体型式384. MT393-矿用差压传感器通用技术385. MT394-呼吸性风尘测量仪采样效386. MT395-矿灯短路保护装置387. MT/T396-煤矿采掘工作面用隔爆型388. MT/T397-煤矿模拟盘通用技术条件389. MT398-煤矿用防爆灯具的玻璃透390. MT/T399-装煤机检2004年确391. MT/T400-煤矿用带式输送机滚筒尺392. MT/T401-煤矿生产调度通信系统通393. MT402-煤矿生产调度电话用安全394. MT403-煤矿生产调度人工交换电395. MT/T404-煤矿生产调度通过式电话396. MT/T405-煤矿生产调度自动交换电397. MT/T406-煤矿通信井下汇接装置通398. MT/T407-煤矿地面立井提升面综合399. MT/T408-煤矿用直流稳压电源煤炭标准一览表(MT1-1039) -3序号编号标准名称被代替标400. MT409-矿用甲烷报警安全帽灯401. MT/T410-刨煤机型式和基本参数402. MT/T411-YBI系列装岩机用隔爆型403. MT412-隔爆型电将被代替404. MT413-矿用本质安全型数字式绝405. MT/T414-煤矿用带式输送机基本参406. MT/T415-矿用圆环2004年确407. MT416-装煤机通2004年确408. MT/T417-液压支架产品质量分等409. MT/T418-液压升注MT75-1983 410. MT419-液压支架MT119-411. MT/T420-高水充填材料412. MT/T421-煤矿用主要通风现场性能413. MT422-煤矿粉尘力度分布测定方414. MT423-空气中甲烷校准气体技术415. MT424-光干涉式甲烷测定器校准416. MT425-隔绝式化学氧自救器417. MT426-氯酸盐生氧器起动蜾技术418. MT427-超氧化钾片状生氧剂技术419. MT428-煤矿用隔爆型电铃420. MT429-煤矿用隔爆型低压电缆线421. MT/T440-矿井通风阻力测定方法422. MT/T441-巷道掘进混合式通风技术423. MT/T442-矿井通风网络解算程序编424. MT443-煤矿井下环境监测用传感425. AQ6203-煤矿用低MT444-426. MT445-煤矿用高浓度热导式甲烷427. AQ6205-煤矿用高MT446-428. MT447-煤矿用电化学式一氧化碳429. MT448-煤矿用电化学式氧气传感430. MT449-煤矿用钢丝绳牵引输送带431. MT450-煤矿用钢丝绳芯输送带阻432. MT451-煤矿用隔爆型低压三相异433. MT452-许用火焰灯技术条件434. MT453-隔绝式压ZB 435. MT454-压缩氧呼吸器和压缩氧自436. MT/T455-矿灯充电MT/T455-437. MT/T456-菱形金属网编网机438. MT/T457-水力采煤手动水枪通用技439. MT458-滑移顶梁液压支架通用技440. MT459-煤矿机械2004年确441. MT/T461-煤矿装载机械密封润滑履442. MT/T462-多刃镶齿盘形滚刀443. MT/T463-矿用圆环2004年确444. MT/T464-矿用刮板输送机通用安全445. MT/T465-矿用刮板输送机驱动链轮446. MT466-刮板输送2004年确447. MT/T467-煤矿用带式输送机设计计448. MT468-煤矿用机车单轨吊运输系449. MT469-煤矿井下用防爆柴油机检450. MT/T470-矿井地震勘探仪451. MT/T471-频率测探仪通用技术条件452. MT/T472-悬臂式掘2004年确453. MT/T473-装煤机型2004年确454. MT474-装煤机型2004年确455. MT/T475-悬臂式掘2004年确456. MT476-YBC系列采煤机用隔爆型457. MT477-YBU系列掘进机用隔爆型458. MT478-YBC系列刮板输送机用隔459. MT/T479-煤矿酸性水中硝酸根离子460. MT/T480-煤矿酸性水中可溶性固体461. MT/T481-煤矿酸性水中氯离子的测462. MT/T482-煤矿酸性水中硫酸钙离子463. MT/T483-煤矿酸性水中铁离子的测464. MT/T484-煤矿酸性水中铝离子的测465. MT/T485-煤矿酸性水中钙离子的测466. MT/T486-煤矿酸性水中镁离子的测467. MT/T487-矿用摆线2004年确468. MT/T488-矿用摆线2004年确469. MT/T489-矿用液压2004年确470. MT/T490-矿用液压2004年确471. MT/T491-煤矿防爆蓄电池电机车通472. MT/T492-煤矿用隔爆型三相异步电473. MT/T493-顺槽用破MT/T493-474. MT/T495-刮板输送机用紧链器475. MT/T496-综采用刮板输送机产品质476. MT/T497-综采用刮板输送机井下工477. MT/T498-CKJ系列交流真空接触器478. MT/T499-露天矿356KV和66KV移动479. MT500-煤矿用气动局部通风机480. MT501-长钻孔煤层注水方法481. MT502-粉尘采样器检定装置通用482. MT503-光控自动喷雾降尘装置通483. MT504-触控自动喷雾降尘装置通484. MT505-声控自动喷雾降尘装置线485. MT506-矿用降尘剂性能测定方法486. MT507-煤岩分析方法一般规定487. MT/T515-煤矿岩巷掘进机械设备噪488. MT/T516.1煤矿液压凿岩机用钎具波489. MT/T516.2煤矿液压凿岩机用钎具钎490. MT/T516.3煤矿液压凿岩机用钎具钎491. MT/T516.4煤矿液压凿岩机用钎具接492. MT/T516.5煤矿液压凿岩机用钎具接493. MT/T517-煤矿用钻井机用齿滚刀通494. MT/T518-钻进井筒永久支护通用技495. MT519-煤矿许用MT/T519-496. MT520-煤矿雷管生产厂防静电安497. MT/T521-煤矿坑道MT/T521-498. MT/T522-矿用高强MT/T522-499. MT/T523-防爆水压γ-γ组合测井仪500. MT/T524-防爆水压记录仪501. MT/T525-LCZ-80型微电脑超声波流502. MT/T526-LCD系列多普勒电脑超声503. MT/T527-机械热振动给料机504. MT/T528-滚筒式泥浆固液分离机505. MT/T529-煤矿用伸缩带式输送机参506. MT/T530-煤矿井下紧急闭锁开关507. MT/T531-煤矿用速度传感器508. MT/T532-液压凿岩机用钎头产品质509. MT/T533-液压凿岩机用钎杆产品质510. MT/T534-液压凿岩机用接杆套产品511. MT/T535-液压凿岩机用钎尾产品质512. MT/T536-煤矿用岩石钻头513. MT/T537-煤钻头514. MT/T538-煤钻杆515. MT/T539-煤矿用电MT/T539-516. MT/T540-底卸式吊桶517. MT/T541.1悬臂式掘2004年确518. MT/T541.2悬臂式掘进机检修规范机519. MT/T541.3悬臂式掘2004年确520. MT/T542-单体支柱柱鞋521. MT/T543-滑槽带式输送机522. MT/T544-矿用液压2004年确523. MT/T545-矿用液压2004年确524. MT/T546-矿用液压2004年确525. MT/T547-转子式混MT/T547-526. MT/T548-单体液压支柱使用规范527. MT/T549-单体液压支柱维修规范528. MT550-大采高液压支架技术条件529. MT/T551-辅网液压支架技术条件530. MT/T552-端头液压支架技术条件531. MT/T553-缓倾斜煤层采煤工作面底532. MT/T554-缓倾斜煤层采煤工作面顶533. MT555-大倾角液压支架技术条件534. MT/T556-液压支架设计规范535. MT/T557-立井罐道用冷弯方开形空536. MT558.1-煤矿井下MT558.1-537. MT558.2-煤矿井下MT558.2-538. MT558.3-煤矿井下MT558.3-539. MT559-煤矿用带式输送机橡胶冲540. MT/T560-煤的热稳将被代替541. MT/T561-煤的固定将被代替542. MT/T562-煤中磷分级543. MT563-煤矿用携带型气体测定仪544. AQ6207-煤矿用携MT564-545. MT/T569-矿用板翘式冷却器技术条546. MT/T570-煤矿电气图专用图形符号547. MT/T571.1煤矿用带式输送机电控系548. MT/T572-矿用液压MT572-549. MT/T573-矿用液压MT573-550. MT/T575-YBRB系列泵站用隔爆型三551. MT/T576-液压支架立柱千斤顶活塞552. MT/T577-悬臂式掘2004年确553. MT/T578-悬臂式掘2004年确554. MT/T579-悬臂式掘2004年确555. MT/T580-采煤机油2004年确556. MT/T581-矿用内曲2004年确557. MT/T586-装煤机传2004年确558. MT/T587-液压支架结构件制造技术559. MT/T588-煤矿用防爆柴油机胶套轮/ 560. MT/T589-煤矿用防爆柴油机钢轮/齿561. MT/T590-煤矿井下2004年确562. MT/T591-煤矿井下用紧急制动装置563. MT/T592-矿用隔爆型低压交流双速564. MT/T593.1人工冻土物理力学性能试565. MT/T593.2人工冻土物理力学性能试566. MT/T593.3人工冻土物理力学性能试567. MT/T593.4人工冻土物理力学性能试568. MT/T593.5人工冻土物理力学性能试569. MT/T593.6人工冻土物理力学性能试570. MT/T593.7人工冻土物理力学性能试571. MT/T594-煤显微组分萤火光谱测定572. MT/T595-煤显微组分萤火强度测定573. MT/T596-烟煤粘结指数分级574. MT/T597-煤中氯含量分级575. MT/T619-煤炭试验室分级和评定576. MT/T620-煤炭分析将被代替577. MT/T621-矿井生产MT/T621-578. MT/T622-五日生化需氧量简易测定579. MT/T623-煤炭脱硫工艺效果评定方580. MT624-煤矿用隔MT624-581. MT625-煤矿用隔MT625-582. MT626-矿井均压防灭火技术规范583. MT/T627-煤矿带式输送机易熔合金584. MT/T628-气体检测管用圆筒形负压585. MT/T629-气体检测管用圆筒形正压586. MT/T630-气体检测管用蛇腹形负压587. MT631-煤矿用风电甲烷闭锁装置588. MT/T632-井下探防水技术规范589. MT/T633-地下水动态长期观测技术590. MT/T634-煤矿矿井风量计算方法591. MT635-矿井巷道通风摩擦阻力系592. MT636-矿井主要通风机优选程序593. AQ1024-煤与瓦斯MT637-594. AQ1047-煤矿井下MT638-595. MT/T639-钻孔瓦斯涌出速度的测定596. MT640-煤矿用安全钻机参数系列597. MT/T641-钻屑瓦斯解吸指标的测定598. MT/T642-管道瓦斯抽放综合参数测599. MT/T643-滚筒采煤2004年确煤炭标准一览表(MT1-1039) -4序号编号标准名称被代替标600. MT644-气垛支架601. MT/T645-煤矿用带式输送机滚筒与602. MT646-摩擦式金MT5-603. MT/T647-煤矿用设备开停传感器604. MT/T648-煤矿用胶带跑偏传感器605. MT/T649-煤矿用喷射式浮选机技术606. MT/T650-煤款用斜叶轮浮选机技术607. MT/T651-煤矿用跳汰机清水性能试608. MT/T652-煤矿用浮选机清水性能试609. MT/T653-煤矿用带式输送机托辊组610. MT654-煤矿用带式输送机安全规611. MT/T655-煤矿用带ZB612. MT/T656-煤矿用带式输送机机架型613. MT/T657-TLL型立式刮刀斜料离心614. MT658-煤矿用特将被代替615. MT/T659-GXS细粒分级筛616. MT/T660-煤矿用振动筛规格尺寸系617. MT/T661-煤矿井下将被代替618. MT/T662-滚筒采煤机喷雾降尘用喷619. MT/T663-煤矿用反井钻机产品质量620. MT/T664-煤矿用反井钻机钻杆621. MT665-煤矿用调速型液力偶合器622. MT/T666-电子数显示收敛计623. MT/T667-煤矿用侧卸式装岩机试验624. MT/T668-煤矿用阻燃钢丝绳芯输送625. MT669-煤矿用阻燃钢丝绳牵引输626. MT670-煤矿井下牵引网络杂散电627. MT/T671-煤矿用隔MT/T671-628. MT/T672-煤矿水害防治水化学分析629. MT/T674-矿井生产时期排水技术规630. MT/T675-露天煤矿边坡模拟试验方631. MT/T676-悬臂式掘2004年确632. MT/T677-矿用全方位钻孔测斜仪通633. MT/T678-矿用密度测井仪通用技术634. MT/T679-矿用瑞利波探测仪通用技635. MT/T680-矿用本质安全型便携式微636. MT/T681-煤矿用带式输送机减速器637. MT/T682-悬臂式掘进机电控设备系638. MT684-矿用提升复印639. MT/T685-高位翻车机640. MT/T686-圆环链爬车机641. MT687-煤矿井下将被代替642. MT/T688-煤矿用锚杆钻机通用技术643. MT689.1-刨煤机出厂检验规范644. MT689.2-刨煤机型式检验规范645. MT/T690-雷管生产线导静电地面、646. MT691-雷管生产线静电电位测定647. AQ1027-煤矿瓦斯MT/T692-648. MT/T693-矿用无线电波坑道透视仪649. MT/T694-煤矿用自动隔爆装置通用650. MT/T695-煤矿用高倍数泡沫灭火剂651. MT/T696-煤矿用高倍数泡沫灭火装652. MT/T697-煤矿用燃油惰气发生装置653. AQ1044-矿井密封MT/T698-654. MT/T699-煤矿采空区阻化汽雾防火655. MT/T700-煤矿防火用阻化剂通用技656. MT/T701-煤矿用氮气防灭火技术规657. MT/T702-煤矿用注浆防灭火技术规658. MT703-煤矿用携带型电化学式一659. MT704-煤矿用携带式电化学式氧660. MT705-煤矿用隔MT705-661. MT706-一般兼矿MT706-662. MT/T707-煤自燃倾向性色谱吸氧鉴663. MT/T708-煤自燃倾向测定仪技术条664. MT709-煤矿用一氧化碳过滤式自665. MT710-煤矿用隔爆型插销开关666. MT711-隔绝式压缩氧自救器667. MT/T712-煤矿防尘措施的分级除尘668. MT/T713-煤矿粉尘真密度测定方法669. MT/T714-煤粉生产防爆安全技术规670. MT/T715-矿用防爆电磁阀通用技术671. MT716-煤矿重要MT716-672. MT717-煤矿重要用途在钢丝绳性673. MT718-矿用隔爆MT718-674. MT719-煤矿用隔MT719-675. MT/T720-瓦斯抽放管路自动阻爆灭676. AQ6204-瓦斯抽放MT721-677. MT/T722-煤矿用网路闭锁发爆器678. MT/T723-煤矿用甲烷闭锁发爆器679. MT/T736-无烟煤电阻率测定方法680. MT/T737-量热仪氧弹安全性能检验681. MT/T738-选煤厂水力分级设备工艺682. MT/T739-煤炭堆密度大容量测定方683. MT/T740-煤炭堆密度大容量测定方684. MT/T741-煤系高岭岩三氧化二铝浸685. MT/T742-煤矿水中铬的测定方法686. MT/T743-煤矿水中磷的测定方法687. MT/T744-煤矿水中总和总放射性测688. MT/T745-饲料添加剂用腐植酸钠技689. MT/T746-煤系腐殖酸复混肥料技术690. MT/T747-锅炉防垢剂用腐殖酸钠技691. MT/T748-工业型煤冷压强度测定方692. MT/T749-工业型煤浸水强度和浸水693. MT/T750-工业型煤中的全硫测定方694. MT/T751-工业型煤发热热量测定方695. MT/T752-煤的甲烷吸附量测定方法696. MT/T753 小型地方被MT754-697. MT754-小型煤矿MT/T753-698. MT755-对旋式局部通风机技术条699. MT756-隔爆水槽用聚苯乙烯泡沫700. MT/T757-煤矿自然发火束管监测系701. MT/T758-煤矿带式输送机电气自动702. MT/T760-数值法预测矿井涌水量技703. MT/T761-煤矿地下水管理模型技术704. MT/T762-煤矿用防火门无电源自动705. MT/T763-煤矿用风筒涂覆布基本物706. MT/T764-矿用泡沫除尘剂性能测定707. MT/T765-液压支架用自动喷雾控制708. MT/T766-评定煤用筛份设备工艺性709. MT/T767-矿用隔爆型直流电动机710. MT/T768-煤用双层伞形叶轮浮选机711. MT/T769-露天煤矿矿用自卸汽车适712. MT/T770-矿用频分制开关量信号传713. MT/T771-煤矿井口操车系统监控装714. MT/T772-煤矿监控系统主要性能测715. MT/T773-煤矿水文地质条件分类规716. MT/T774-煤矿用移动式膜分离制氮717. MT/T775-采煤机用拖拽式电缆夹技718. MT/T776-煤矿机械MT/T766-719. MT/T777-悬臂式掘2004年确720. MT/T778-数值法预测矿井涌水量技721. MT/T779-回柱绞车2004年确722. MT/T780-煤矿用喷射混凝土速凝剂723. MT/T781-高分辨自动地电阻率仪通724. MT/T782.1煤矿机电设备温度传感器725. MT/T782.2煤矿机电设备温度传感器726. MT/T783-沸腾炉灰渣制橡胶塑料补727. MT/T784-煤矿机械用浮动油封728. MT/T785-金刚石复将被代替729. MT/T786-金刚石复合片不取心钻头730. MT/T787-转盘钻机通用技术条件731. MT/T788-MP型平板防水闸门732. MT/T789-煤田钻探金刚石取心钻头733. MT/T790-煤矿坑道MT/T790-734. MT/T793-岩体原位抗剪强度的测定735. MT/T794-粗粒岩土大三轴抗剪强度736. MT/T795-岩土直剪流变特性试验方737. MT/T796-煤和岩石切割阻力的测定738. MT/T797-岩石室内直接剪切强度的739. MT/T798-煤泥压滤性试验方法740. MT/T799-煤系高岭岩（土）及其煅741. MT/T800-煤系高岭岩（土）煅烧土742. MT/T801-煤系高岭岩（土）及其煅743. MT/T802.1煤系硫铁ZB 744. MT/T802.2煤系硫铁ZB 745. MT/T802.3煤系硫铁ZB 746. MT/T802.4煤系硫铁ZB 747. MT/T802.1煤系硫铁ZB 748. MT/T803-煤中砷含量分级749. MT/T804-煤基橡胶填料技术条件750. MT/T805-煤矿水中悬浮物的测定方751. MT/T806-煤矿水中微量油的测定方752. MT/T807-烟煤的镜质组密度离心分753. MT/T808-选煤厂技术检查754. MT/T809-选煤试验方法一般规定755. MT/T810-选煤厂洗水闭路循环等级756. MT/T811-煤用重选设备分选下限评757. MT/T812-刮板输送机用刮板检验规758. MT/T813-井内悬吊式气动抓岩机通759. MT/T814-窄轨道岔扳道器760. MT/T815-放顶煤液压支架技术条件761. MT/T816-煤用磁选设备工艺效果评762. MT/T817-煤矿用带式输送机电控装763. MT/T818.1煤矿用阻将被代替764. MT/T818.1煤矿用阻将被代替765. MT/T818.2煤矿用阻将被代替766. MT/T818.3煤矿用阻将被代替767. MT/T818.4煤矿用阻将被代替768. MT/T818.5煤矿用阻将被代替769. MT/T818.6煤矿用阻将被代替770. MT/T818.7煤矿用阻将被代替771. MT/T818.8煤矿用阻将被代替772. MT/T818.9煤矿用阻将被代替773. MT/T818.1煤矿用阻将被代替774. MT/T818.1煤矿用阻将被代替775. MT/T818.1煤矿用阻将被代替776. MT/T818.1煤矿用阻将被代替777. MT/T818.1煤矿用阻燃电缆第3单元778. MT819-矿用隔爆ZB 779. MT820-煤矿井下MT820-780. MT821-煤矿井下MT821-781. MT/T822-煤矿用侧ZBD92004-782. MT/T823-煤矿用转MT/T823-783. MT/T824-煤矿机采ZBD98001-784. MT/T825-矿用水位传感器通用技术785. MT/T826-煤矿用单级耐腐耐磨离心786. MT/T827-煤矿机械MT/T827-787. MT828-煤矿用隔爆型快速断电煤788. MT829-矿用低压交流真空断路器789. MT830-煤矿用织物叠层阻燃输送790. MT/T831-EPS-1/8型破碎缩分联合791. MT/T832-密封气流内循环破碎机技792. MT/T833-悬臂式掘进机履带行走机793. MT/T834-煤矿用提升信号装置通用794. MT/T835-乳化液液压绞车795. MT/T836-甲烷煤尘混合物爆炸下限796. MT/T837-煤层爆炸极限氧含量测定797. MT/T838-摩擦式制动喷雾控制器通798. MT/T839-石门揭穿煤层煤与瓦斯突799. MT/T840-抽放瓦斯管道流量测定方煤炭标准一览表(MT1-1039) -5序号编号标准名称被代替标800. MT/T841-钢质薄壳反向风门技术条801. MT/T842-煤矿用配气装置（分压802. MT/T843-矿工普通工作服803. MT/T844-矿用风门开闭状态传感器804. MT/T845-煤矿巷道用SF6示踪气体805. MT/T846-煤体导水性分类806. MT/T847-煤矿隔爆型转换开关807. MT/T848.1-煤矿橡套电缆硫化热补带808. MT/T848.2-煤矿橡套电缆硫化热补带809. MT/T849-煤的挥发分产率分级810. MT/T850-煤的水分分级811. MT/T851-选煤厂浓MT/Z6-812. MT/T852-煤的哈氏可磨性指数分级813. MT/T853-煤灰熔融性分级814. MT/T854-电子等容式瓦斯解析仪技815. MT/T855-煤矿均压防灭火调压气室816. MT/T856-充气式钻孔瓦斯涌出初速。