STBN556中文资料

施耐德产品标签信息识别施耐德电气售后服务部2014年4月目录前言 (3)PLC系列 (4)昆腾Quantum——140* (4)Micro——TSX* (4)Premium——TSX* (5)M340——BMX* (5)Mmentum——170* (6)Advantys——STB* (6)Twdio——TWD* (7)M258——TM258* (7)M238——TM238* (8)M218、M208——TM218*、TM208* (8)Zelio——SR2*、SR3* (9)触摸屏系列 (9)XBTGT*、XBTGK*、XBTOT*、MPC*、HMIGTO* (9)HMIGXO* (10)HMISTU* (10)XBTN* (10)变频器、软启动器系列 (11)变频器——ATV* (11)软启动器——ATS* (11)伺服驱动和电机系列 (12)伺服——LXM23* (12)伺服——LXM32* (12)电机——BCH* (13)电机——BSH*、BMH* (13)配电产品系列 (14)EasyPact——LV* (14)微型断路器 (15)电动操作机构 (15)工业控制系列 (16)接触器——LC1D* (16)热继电器 (17)马达保护器——GV2* (18)开关电源 (19)前言在维修换货以及技术咨询过程中，我们需要用户提供订货号、序列号、生产批次号等信息。

这些信息大多数都能够从产品标签上获得。

本文档旨在指导用户轻松识别施耐德标签上这些信息。

订货号是比产品型号更加具体的代号，他不仅包括型号信息，还可能包括产品的版本、产地等信息。

申请维修退返以及下订单都必须要有订货号。

在产品标签上，订货号一般以加粗、相对较大的字体标出，可能为一串字符，也有可能是分开的几串字符的组合。

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生产批次号标示了产品生产日期，分为年周标记和年月日标记两种计法。

ams5662m标准
经过查阅，AMS5662M是一种关于高温合金钛合金Ti-6Al-2Sn-4Zr-2Mo（UNS 号R56620）的标准。

它是由Society of Automotive Engineers (SAE) 和全球航空材料供应商协会 (Global Aerospace Materials Suppliers, GAMPS) 共同制定的标准。

AMS5662M涵盖了对Ti-6Al-2Sn-4Zr-2Mo钛合金在固溶热处理和变形加工状态下的化学成分、物理性质、机械性能和表面质量等方面的要求。

该标准还包括了热处理和冷加工后的材料的可接受的缺陷和表面缺陷的限制。

通过遵循AMS5662M标准，制造商可以确保生产出符合规范的Ti-6Al-2Sn-4Zr-2Mo钛合金材料，以满足航空航天和其他高温应用领域的要求。

该标准对材料的性能和质量进行了严格的规定，有助于确保材料具有良好的可靠性、耐高温性和耐腐蚀性。

AMS5662M标准是经过定期修订和更新的，所以建议用户在实际应用中使用最新版本的标准。

此外，为了确保最佳结果，建议与相关的标准机构或认证机构进行进一步的确认和咨询。

俄罗斯电子元器件查找大全（1）俄型号：К１３３ИЕ２十进制计数器说明相应国内外产品К１３３ИЕ２型单片TTL中规模半□中国型号导体集成电路，由四个主从触发器和附加推荐替换 SG5490A门电路组成，功能为具有清零和置9输入生产厂家 4435厂端的负沿触发异步十进制计数器。

其计数□国外型号 SN5490A (美国)长度可以是2、5、10分频。

К１３３ИЕ２主要参数 5490A主要参数 (T A=25℃)К１３３ИЕ２逻辑图和外引线排列 5490A功能表和外引线排列俄型号：К１３３ИЕ５４位二进制计数器说明相应国内外产品К１３３ИЕ５型单片TTL中规模半□中国型号导体集成电路，由四个主从触发器和附加推荐替换 SG5493A门电路组成。

可组成二分频计数器和三级生产厂家 4435厂二进制计数器，具有清零输入端。

□国外型号 SN5493A (美国)К１３３И５主要参数 5493A主要参数 (T A=25℃)额定电源电压5V±10%额定电源电压V CC 4.5～5.5V输出低电平电压≤0.35V 输出低电平电压V OL≤0.4V输出高电平电压≥2.4V 输出高电平电压V OH≥2.4V输入低电平电流 (2,3) (1，14) ≤｜-1.6｜mA≤｜-3.2｜mA输入低电平电流I IL (R0(I))(CP1，CP2)≤｜-1.6｜mA≤｜-3.2｜mA输入高电平电流 (2,3) (1，14) ≤40μA≤80μA输入高电平电流I IH (R0(I))(CP1，CP2)≤40μA≤80μA输出短路电流I OS-20～-57mA电源电流≤46mA 电源电流I CC≤39mA传输延迟时间t PLH( 14→11)(2,3→12)≤135ns≤100ns传输延迟时间t PLH (CP1→Q3) ≤70ns传输延迟时间t PHL (14→11)≤135ns 传输延迟时间t PHL (CP1→Q3) ≤70ns扇出系数≤10 输出低电平电流I OL输出高电平电流I OH ≤16mA≤｜-800｜μA最高工作频率 (C1) ≤15MHz 最高工作频率f max (CP1→Q0)(CP2→Q1) ≥32MHz ≥16MHz时钟输入脉冲宽度 (C1) ≥50ns 输入脉冲宽度t W (CP2)≥30ns预置输入脉冲宽度≥50ns (CP1, R0(I)) ≥15nsК１３３ИЕ５逻辑图和外引线排列 5493A功能表和外引线排列俄型号：К１３３ЛА２８输入与非门说明相应国内外产品К１３３ЛА２型单片TTL小规模半□中国型号导体集成电路，功能为8输入端与非门。

FEATURESAPPLICATIONS12345671413121110981DISCH1THRES1CONT1RESET1OUT1TRIGGNDV CC2DISCH2THRES2CONT2RESET2OUT2TRIG NA556...D OR N PACKAGENE556...D,N,OR NS PACKAGESA556...D OR N PACKAGESE556...J PACKAGE(TOP VIEW)DESCRIPTION/ORDERING INFORMATION NA556,NE556,SA556,SE556 DUAL PRECISION TIMERS SLFS023G–APRIL1978–REVISED JUNE2006•Two Precision Timing Circuits Per Package•Astable or Monostable Operation•TTL-Compatible Output Can Sink or Sourceup to150mA•Active Pullup or Pulldown•Designed to Be Interchangeable WithSignetics NE556,SA556,and SE556•Precision Timers From Microseconds toHours•Pulse-Shaping Circuits•Missing-Pulse Detectors•Tone-Burst Generators•Pulse-Width Modulators•Pulse-Position Modulators•Sequential Timers•Pulse Generators•Frequency Dividers•Application Timers•Industrial Controls•Touch-Tone EncodersThese devices provide two independent timing circuits of the NA555,NE555,SA555,or SE555type in each package.These circuits can be operated in the astable or the monostable mode with external resistor-capacitor (RC)timing control.The basic timing provided by the RC time constant can be controlled actively by modulating the bias of the control-voltage input.The threshold(THRES)and trigger(TRIG)levels normally are two-thirds and one-third,respectively,of V CC. These levels can be altered by using the control voltage(CONT)terminal.When the trigger input falls below trigger level,the flip-flop is set and the output goes high.If the trigger input is above the trigger level and the threshold input is above the threshold level,the flip-flop is reset,and the output is low.The reset(RESET)input can override all other inputs and can be used to initiate a new timing cycle.When RESET goes low,the flip-flop is reset and the output goes low.When the output is low,a low-impedance path is provided between the discharge(DISCH)terminal and ground(GND).Please be aware that an important notice concerning availability,standard warranty,and use in critical applications of TexasInstruments semiconductor products and disclaimers thereto appears at the end of this data sheet.GNDRESET can override TRIG,which can override THRES.NA556,NE556,SA556,SE556DUAL PRECISION TIMERSSLFS023G–APRIL 1978–REVISED JUNE 2006ORDERING INFORMATIONV T (MAX)T APACKAGE (1)ORDERABLE PART NUMBER TOP-SIDE MARKING V CC =15VPDIP –NTube of 25NE556N NE556N Tube of 50NE556D 0°C to 70°C11.2VSOIC –D NE556Reel of 2500NE556DR SOP –NSReel of 2000NE556NSR NE556–40°C to 85°C 11.2V PDIP –N Tube of 25SA556N SA556N PDIP –N Tube of 25NA556N NA556N –40°C to 105°C11.2VTube of 50NA556D SOIC –D NA556Reel of 2500NA556DR SE556J SE556J –55°C to 125°C 10.6VCDIP –JTube of 25SE556JBSE556JB(1)Package drawings,standard packing quantities,thermal data,symbolization,and PCB design guidelines are available at /sc/package.FUNCTION TABLE(each timer)TRIGGER THRESHOLD DISCHARGE RESET OUTPUT VOLTAGE (1)VOLTAGE (1)SWITCHLow Irrelevant Irrelevant Low On High <1/3V DD Irrelevant High Off High >1/3V DD >2/3V DD LowOnHigh >1/3V DD<2/3V DDAs previously established(1)Voltage levels shown are nominal.FUNCTIONAL BLOCK DIAGRAM,EACH TIMERAbsolute Maximum Ratings(1) Recommended Operating Conditions NA556,NE556,SA556,SE556 DUAL PRECISION TIMERS SLFS023G–APRIL1978–REVISED JUNE2006over operating free-air temperature range(unless otherwise noted)MIN MAX UNIT V CC Supply voltage(2)18VV I Input voltage CONT,RESET,THRES,and TRIG V CC VI O Output current±225mAD package86θJA Package thermal impedance(3)(4)N package80°C/WNS package76θJC Package thermal impedance(5)(6)J package15.05°C/W T J Operating virtual junction temperature150°C Lead temperature1,6mm(1/16in)from case for60s J package300°CLead temperature1,6mm(1/16in)from case for10s D,N,or NS package260°CT stg Storage temperature range–65150°C (1)Stresses beyond those listed under"absolute maximum ratings"may cause permanent damage to the device.These are stress ratingsonly,and functional operation of the device at these or any other conditions beyond those indicated under"recommended operating conditions"is not implied.Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.(2)All voltage values are with respect to network ground terminal.(3)Maximum power dissipation is a function of T J(max),θJA,and T A.The maximum allowable power dissipation at any allowable ambienttemperature is P D=(T J(max)–T A)/θJA.Operating at the absolute maximum T J of150°C can affect reliability.(4)The package thermal impedance is calculated in accordance with JESD51-7.(5)Maximum power dissipation is a function of T J(max),θJC,and T C.The maximum allowable power dissipation at any allowable casetemperature is P D=(T J(max)–T C)/θJC.Operating at the absolute maximum T J of150°C can affect reliability.(6)The package thermal impedance is calculated in accordance with MIL-STD-883.MIN MAX UNITNA556,NE556,SA556 4.516V CC Supply voltage VSE556 4.518V I Input voltage CONT,RESET,THRES,and TRIG V CC VI O Output current±200mANA556–40105NE556070T A Operating free-air temperature°CSA556–4085SE556–55125Electrical CharacteristicsNA556,NE556,SA556,SE556DUAL PRECISION TIMERSSLFS023G–APRIL 1978–REVISED JUNE 2006V CC =5V to 15V,T A =25°C (unless otherwise noted)NA556NE556SE556PARAMETERTEST CONDITIONSUNITSA556MINTYP MAX MIN TYP MAX V CC =15V 8.81011.29.41010.6Threshold voltage V T V levelV CC =5V2.43.34.2 2.73.34I TThreshold current (1)3025030250nA 4.555.64.855.2V CC =15VT A =–55°C to 125°C36V TRIGTrigger voltage levelV 1.11.672.21.451.671.9V CC =5VT A =–55°C to 125°C1.9I TRIG Trigger current TRIG at 0V0.520.50.9µA 0.30.710.30.71V RESET Reset voltage level V T A =–55°C to 125°C 1.1RESET at V CC 0.10.40.10.4I RESET Reset current mA RESET at 0V–0.4 1.5–0.4–1Discharge switch I DISCH2010020100nA off-state current 910119.61010.4V CC =15V T A =–55°C to 125°C9.610.4Control voltage V CONTV (open circuit)2.63.342.93.3 3.8V CC =5V T A =–55°C to 125°C2.93.80.10.250.10.15V CC =15V,I OL =10mA T A =–55°C to 125°C0.20.40.750.40.5V CC =15V,I OL =50mAT A =–55°C to 125°C122.522.2V CC =15V,I OL =100mA Low-levelT A =–55°C to 125°C2.7V OLV output voltageV CC =15V,I OL =200mA2.52.5V CC =5V,T A =–55°C to 125°C0.35I OL =3.5mA 0.10.250.10.15V CC =5V,I OL =5mAT A =–55°C to 125°C0.8V CC =5V,I OL =8mA 0.150.30.150.2512.7513.31313.3V CC =15V,I OH =–100mAT A =–55°C to 125°C12High-level V OHV CC =15V,I OH =–200mA 12.512.5Voutput voltage2.753.33 3.3V CC =5V,I OH =–100mA T A =–55°C to 125°C 2V CC =15V 20302024Output low,No loadV CC =5V 612610I CCSupply currentmAV CC =15V 18261820Output high,No loadV CC =5V41048(1)This parameter influences the maximum value of the timing resistors R and R B in the circuit of Figure 1.For example,when V CC =5V,the maximum value is R =R A +R B ≈3.4M Ω,and for V CC =15V,the maximum value is ≈10M Ω.Operating Characteristics NA556,NE556,SA556,SE556 DUAL PRECISION TIMERS SLFS023G–APRIL1978–REVISED JUNE2006VCC=5V and15VNA556NE556SE556TESTPARAMETER UNITSA556CONDITIONS(1)MIN TYP MAX MIN TYP MAXEach timer,130.5 1.5(4) monostable(3)Initial error of timingT A=25°Cinterval(2)Each timer,astable(5) 2.25% 1.5%Timer1–Timer2±1±0.5Each timer,5030100(4) Temperature monostable(3)coefficient of timing T A=MIN to MAX ppm/°C Each timer,astable(5)15090intervalTimer1–Timer2±10±10Each timer,0.10.50.050.2(4)Supply voltage monostable(3)sensitivity of timing T A=25°C%/V Each timer,astable(5)0.30.15intervalTimer1–Timer2±0.2±0.1C L=15pF,Output-pulse rise time100300100200(4)nsT A=25°CC L=15pF,Output-pulse fall time100300100200(4)nsT A=25°C(1)For conditions shown as MIN or MAX,use the appropriate value specified under recommended operating conditions.(2)Timing-interval error is defined as the difference between the measured value and the average value of a random sample from eachprocess run.(3)Values specified are for a device in a monostable circuit similar to Figure2,with the following component values:R A=2kΩto100kΩ,C=0.1µF.(4)On products compliant to MIL-PRF-38535,this parameter is not production tested.(5)Values specified are for a device in an astable circuit similar to Figure1,with the following component values:R A=1kΩto100kΩ,C=0.1µF.APPLICATION INFORMATIONOUTRR OUTNOTE A:Bypassing the control-voltage input to ground with acapacitor might improve operation.This should be evaluated for individual applications.NA556,NE556,SA556,SE556DUAL PRECISION TIMERSSLFS023G–APRIL 1978–REVISED JUNE 2006Figure 1.Circuit for Astable Operation Figure 2.Circuit for Monostable OperationPACKAGING INFORMATION(1) The marketing status values are defined as follows:ACTIVE: Product device recommended for new designs.LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design. PREVIEW: Device has been announced but is not in production. Samples may or may not be available.OBSOLETE: TI has discontinued the production of the device.Addendum-Page 1(2) RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may reference these types of products as "Pb-Free".RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based flame retardants must also meet the <=1000ppm threshold requirement.(3) MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.(4) There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.(5) Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation of the previous line and the two combined represent the entire Device Marking for that device.(6) Lead finish/Ball material - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead finish/Ball material values may wrap to two lines if the finish value exceeds the maximum column width.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.Addendum-Page 2TAPE AND REEL INFORMATIONA0B0K0W Dimension designed to accommodate the component length Dimension designed to accommodate the component thickness Overall width of the carrier tapePitch between successive cavity centersDimension designed to accommodate the component width TAPE DIMENSIONSSprocket HolesP1*All dimensions are nominalDevicePackage Type Package Drawing Pins SPQReel Diameter (mm)Reel Width W1 (mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant NA556DR SOIC D 142500330.016.4 6.59.0 2.18.016.0Q1NE556DBR SSOP DB 142000330.016.48.35 6.6 2.412.016.0Q1NE556DR SOIC D 142500330.016.4 6.59.0 2.18.016.0Q1NE556NSRSONS142000330.016.48.210.52.512.016.0Q1*All dimensions are nominalDevice Package Type Package Drawing Pins SPQ Length (mm)Width (mm)Height (mm) NA556DR SOIC D142500356.0356.035.0 NE556DBR SSOP DB142000356.0356.035.0 NE556DR SOIC D142500356.0356.035.0 NE556NSR SO NS142000356.0356.035.0PACKAGE MATERIALS INFORMATION 1-Jul-2023 TUBET - Tube*All dimensions are nominalDevice Package Name Package Type Pins SPQ L (mm)W (mm)T (µm) B (mm)NA556D D SOIC1450506.683940 4.32NA556N N PDIP142550613.9711230 4.32NA556N N PDIP142550613.9711230 4.32NE556D D SOIC1450506.683940 4.32NE556N N PDIP142550613.9711230 4.32NE556N N PDIP142550613.9711230 4.32NE556NE4N PDIP142550613.9711230 4.32NE556NE4N PDIP142550613.9711230 4.32SA556N N PDIP142550613.9711230 4.32SA556NE4N PDIP142550613.9711230 4.32PACKAGE OUTLINECDIP - 5.08 mm max heightJ0014A CERAMIC DUAL IN LINE PACKAGENOTES:1. All controlling linear dimensions are in inches. Dimensions in brackets are in millimeters. Any dimension in brackets or parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M.2. This drawing is subject to change without notice.3. This package is hermitically sealed with a ceramic lid using glass frit.4. Index point is provided on cap for terminal identification only and on press ceramic glass frit seal only.5. Falls within MIL-STD-1835 and GDIP1-T14.EXAMPLE BOARD LAYOUTCDIP - 5.08 mm max heightJ0014A CERAMIC DUAL IN LINE PACKAGEMECHANICAL DATAMSSO002E – JANUARY 1995 – REVISED DECEMBER 2001DB (R-PDSO-G**)PLASTIC SMALL-OUTLINE4040065/E 12/0128 PINS SHOWNGage Plane8,207,400,550,950,253812,9012,302810,50248,50Seating Plane9,907,903010,509,900,385,605,00150,2214A 28120166,506,50140,05 MIN 5,905,90DIMA MAX A MIN PINS **2,00 MAX 6,907,500,65M 0,150°–ā8°0,100,090,25NOTES: A.All linear dimensions are in millimeters.B.This drawing is subject to change without notice.C.Body dimensions do not include mold flash or protrusion not to exceed 0,15.D.Falls within JEDEC MO-150IMPORTANT NOTICE AND DISCLAIMERTI PROVIDES TECHNICAL AND RELIABILITY DATA (INCLUDING DATA SHEETS), DESIGN RESOURCES (INCLUDING REFERENCE DESIGNS), APPLICATION OR OTHER DESIGN ADVICE, WEB TOOLS, SAFETY INFORMATION, AND OTHER RESOURCES “AS IS” AND WITH ALL FAULTS, AND DISCLAIMS ALL WARRANTIES, EXPRESS AND IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF THIRD PARTY INTELLECTUAL PROPERTY RIGHTS.These resources are intended for skilled developers designing with TI products. You are solely responsible for (1) selecting the appropriate TI products for your application, (2) designing, validating and testing your application, and (3) ensuring your application meets applicable standards, and any other safety, security, regulatory or other requirements.These resources are subject to change without notice. TI grants you permission to use these resources only for development of an application that uses the TI products described in the resource. Other reproduction and display of these resources is prohibited. No license is granted to any other TI intellectual property right or to any third party intellectual property right. TI disclaims responsibility for, and you will fully indemnify TI and its representatives against, any claims, damages, costs, losses, and liabilities arising out of your use of these resources.TI’s products are provided subject to TI’s Terms of Sale or other applicable terms available either on or provided in conjunction with such TI products. TI’s provision of these resources does not expand or otherwise alter TI’s applicable warranties or warranty disclaimers for TI products.TI objects to and rejects any additional or different terms you may have proposed.Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265Copyright © 2023, Texas Instruments Incorporated。

NE556工作原理NE556是一种集成双555定时器。

在电子电路设计中，555定时器是一种常用的集成电路，用于产生各种脉冲信号和定时延迟。

NE556在555定时器的基础上，整合了两个独立的555定时器核心，使其在一片芯片上同时工作。

本文将介绍NE556的工作原理及其应用。

NE556内部结构NE556内部包含两个独立的555定时器核心，分别命名为Timer A和Timer B。

每个定时器核心都有8个引脚，其中包括控制引脚、时钟引脚和输出引脚等。

NE556还包含一个共享的Reset引脚用于重置定时器。

在NE556中，每个定时器核心都有三个主要功能模块：比较器、触发器和输出放大器。

比较器用于比较输入信号与内部电压参考值，触发器用于输出高电平或低电平的脉冲信号，输出放大器用于放大脉冲信号到足够的电平。

NE556工作原理NE556的工作原理与555定时器类似，主要分为脉冲调制（Astable）、单稳态触发（Monostable）和RS触发器工作模式。

在脉冲调制模式下，NE556输出一个方波信号，其频率和占空比可以通过外部电阻和电容器控制。

在单稳态触发模式下，NE556输出一个单脉冲信号，输出脉冲宽度由外部元件控制。

在RS触发器模式下，NE556可以实现逻辑门的功能，用于数据处理和信号调制等应用。

NE556应用领域NE556在各种电子电路中广泛应用，例如时序控制、脉冲检测、多谐振荡、时钟发生器等。

NE556的特点是工作稳定可靠，功耗低，体积小，使用方便。

在工业控制、仪器仪表、通信设备、家用电器等领域都有广泛的应用。

总的来说，NE556作为一种集成双555定时器，具有多种工作模式和广泛的应用领域。

通过合理配置和连接外部元件，可以实现各种复杂的电子功能。

在今后的电子设计中，NE556仍然是一种重要且实用的集成电路。

以上便是NE556工作原理的相关介绍，希望能为读者提供一定的参考价值。

A,May,20121. COLLECTORJIANGSU CHANGJIANG ELECTRONICS TECHNOLOGY CO., LTDTO-92 Plastic-Encapsulate TransistorsBC556/BC557/BC558 TRANSISTOR (PNP)FEATURES z High Voltagez Complement to BC546,BC547,BC548MAXIMUM RATINGS (T a =25℃ unless otherwise noted)Symbol Parameter ValueUnitBC556 -80 BC557 -50 V CBOCollector-Base VoltageBC558 -30 V BC556 -65BC557 -45 V CEO Collector-Emitter Voltage BC558 -30V V EBO Emitter-Base Voltage -5 V I C Collector Current-Continuous -0.1 A P C Collector Power Dissipation625 mW R θJA Thermal Resistance from Junction to Ambient 200 ℃/W T j Junction Temperature 150 ℃ T stgStorage Temperature-55~+150℃ELECTRICAL CHARACTERISTICS (T a =25℃ unless otherwise specified)Parameter SymbolTest conditionsMinTypMaxUnitBC556 -80 BC557 -50Collector-base breakdown voltage BC558V (BR)CBO I C = -0.1mA,I E =0 -30V BC556 -65 BC557 -45Collector-emitter breakdown voltageBC558V (BR)CEO I C =-2mA,I B =0 -30V Emitter-base breakdown voltage V (BR)EBOI E =-100μA,I C =0 -5 VBC556 V CB =-70V,I E =0 -0.1 μA BC557 V CB =-45V,I E =-0.1 μA Collector cut-off currentBC558I CBO V CB =-25V,I E =-0.1 μA BC556 V CE =-60V,I B =0 -0.1 μA BC557 V CE =-40V,I B =0-0.1 μA Collector cut-off current BC558I CEO V CE =-25V,I B =-0.1 μA Emitter cut-off current I EBO V EB =-5V,I C =0 -0.1 μADC current gainh FE *V CE =-5V, I C =-2mA 120 800I C =-10mA,I B =-0.5mA -0.3 V Collector-emitter saturation voltageV CE(sat)I C =-100mA,I B =-5mA-0.65V I C =-10mA,I B =-0.5mA -0.8 V Base-emitter saturation voltageV BE(sat) I C =-100mA,I B =-5mA-1 V V CE =-5V, I C =-2mA -0.55 -0.7 V Base-emitter voltage V BE V CE =-5V, I C =-10mA-0.82V Collector output capacitance C ob V CB =-10V,I E =0, f=1MHz 6 pF BC556 150 MHz BC557 150 MHz Transition frequencyBC558f T V CE =-5V,I C =-10mA, f=100MHz 150MHzCLASSIFICATION of h FERANK A B CRANGE120-220 180-460 420-800 【南京南山半导体有限公司 — 长电三极管选型资料】 【南京南山半导体有限公司 — 长电三极管选型资料】Sponge strip2000 pcsSponge strip The top gasketLabel on the Inner BoxPlastic bagLabel on the Outer BoxInner Box: 333 mm ×162mm ×43mmOuter Box: 350 mm × 340mm × 250mmQA LabelSeal the box with the tapeStamp “EMPTY” on the empty boxInner Box: 240 mm ×165mm ×９５mmLabel on the Inner BoxOuter Box: 525 mm × 360mm × 262mmLabel on the Outer BoxQA LabelSeal the box with the tapeStamp “EMPTY” on the empty box。

sa556标准
SA556标准是一个针对DSP（数字信号处理）芯片的标准，旨在解决不同厂商的DSP芯片在互换性和兼容性方面的问题，促进DSP芯片的发展和应用。

SA556标准具有以下几个特点：
1. 互操作性：该标准确保不同厂商的DSP芯片可以在同一系统中互相替换和兼容。

这使得系统设计人员能够更加灵活地选择合适的DSP芯片，并降低了系统的开发和维护成本。

2. 可靠性：SA556标准规范了DSP芯片的设计和实施过程，包括电路设计、布线、封装、测试等方面的要求。

这有助于提高DSP芯片的可靠性和稳定性，确保其在各种应用场景中能够稳定运行。

3. 标准化：SA556标准规定了DSP芯片的接口、引脚排列、封装等标准，使得不同厂商的DSP芯片具有统一的规范和标准。

这有助于提高DSP芯片的互换性和兼容性，促进DSP芯片的产业化发展。

4. 可扩展性：SA556标准为DSP芯片的发展提供了可扩展的空间。

随着技术的不断进步和应用需求的不断变化，该标准可以不断更新和完善，以适应新的应用需求和技术发展趋势。

总之，SA556标准是一个针对DSP芯片的标准，旨在促进DSP芯片的发展和应用。

通过制定该标准，可以确保不同厂商的DSP芯片具有互换
性和兼容性，提高系统的可靠性和稳定性，降低系统的开发和维护成本。

同时，该标准也为DSP芯片的发展提供了可扩展的空间，有助于推动DSP芯片产业的持续发展。

AO4459中⽂资料SymbolTyp Max 33406275R θJL 1824Maximum Junction-to-Lead CSteady-State°C/WThermal Characteristics ParameterUnits Maximum Junction-to-AmbientAt ≤ 10s R θJA °C/W Maximum Junction-to-Ambient ASteady-State °C/W AO4459AO4459SymbolMin TypMaxUnits BV DSS -30V -1T J =55°C-5I GSS ±100nA V GS(th)-1.5-1.85-2.5V I D(ON)-30A 3846T J =125°C53685872m ?g FS 11S V SD -0.78-1V I S-3.5A C iss 668830pF C oss 126pF C rss 92pF R g69?Q g (10V)12.716nC Q g (4.5V) 6.4nC Q gs 2nC Q gd 4nC t D(on)7.7ns t r 6.8ns t D(off)20ns t f 10ns t rr 2230ns Q rr15nCTHIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.DYNAMIC PARAMETERS Maximum Body-Diode Continuous CurrentGate resistanceV GS =0V, V DS =0V, f=1MHzV GS =0V, V DS =-15V, f=1MHz Input Capacitance Output Capacitance Turn-On Rise Time Turn-Off DelayTime V GS =-10V, V DS =-15V, R L =2.5?, R GEN =3?Turn-Off Fall TimeTurn-On DelayTime SWITCHING PARAMETERSTotal Gate Charge (4.5V)Gate Source Charge Gate Drain Charge Total Gate Charge (10V)V GS =-10V, V DS =-15V, I D =-6.5Am ?V GS =-4.5V, I D =-5AI S =-1A,V GS =0V V DS =-5V, I D =-6.5AR DS(ON)Static Drain-Source On-ResistanceForward TransconductanceDiode Forward VoltageI DSS µA Gate Threshold Voltage V DS =V GS I D =-250µA V DS =-24V, V GS =0VV DS =0V, V GS =±20V Zero Gate Voltage Drain Current Gate-Body leakage current Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERS ParameterConditions Body Diode Reverse Recovery Time Body Diode Reverse Recovery ChargeI F =-6.5A, dI/dt=100A/µsDrain-Source Breakdown Voltage On state drain currentI D =-250µA, V GS =0V V GS =-10V, V DS =-5V V GS =-10V, I D =-6.5AReverse Transfer Capacitance I F =-6.5A, dI/dt=100A/µs A: The value of R θJA is measured with the device mounted on 1in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The value in any a given application depends on the user's specific board design. The current rating is based on the t ≤ 10s thermal resistance rating.B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using < 300µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating. Rev0 Sept 2006AO4459AO4459。

5.56毫米北约标准枪弹简介——————————————————————————————————————————————————————————————————————————————————5.56mm北约标准步枪弹（5.56mm NATO），民用型也称为0.223英寸雷明顿枪弹（.223 Rem），在1950年代后期研制。

当时阿玛莱特公司正在进行小口径/高速（SCHV）突击步枪的实验，当时他们使用.222雷明顿步枪弹，但这种弹药发射药量较小，初速和侵彻性能都没能满足美国大陆军团司令部（CONARC）的要求，于是阿玛莱特公司便要求雷明顿研制一种弹壳较长的新弹药，被称为.222雷明顿特种弹（.222 Remington Special）。

同时，春田兵工厂也在.222雷明顿基础上试制更长的弹壳，研制出.224春田弹（.224 Springfield）。

但大陆军团司令部没有采用春田兵工厂的枪弹，因此.224春田弹后来作为一个商业竞技用弹药，改名为.222雷明登-马格南弹（.222 Remington Magnum）。

而为了防止不同型的.222步枪弹的名称发生混乱，所以.222雷明顿特种弹被更名为.223雷明顿弹，但最后的弹壳尺寸却是改用了.224 E2温切斯特。

当阿玛莱特AR-15获得采用后，.223雷明顿弹便被正式定型为5.56×45mm步枪弹，成为世界上第一种实用的小口径步枪弹。

5.56×45mm的最初型号为M193普通弹，后来又相继研制了空包弹、曳光弹、穿甲弹等等。

下表美军手册上军用标准5.56mm NATO弹的弹型识别方法，但整个5.56家族不只是这5种弹。

弹种弹形弹尖识别标记普通弹（M193）无标记普通弹绿色（SS109/M855）空包弹紫红色曳光弹红色或橙色高压弹弹壳镀银色5.56NATO的规格5.56的前身.222 Rem军用的5.56 NATO弹与民用的.223 Rem弹也略有不同，军用弹的膛压稍高，而且坡膛直径也有差异美军5.56制式弹药类型不同型号的弹头比较5.56mm步枪弹的特点是弹头轻、初速高，近距离命中生物体目标由于弹头失稳翻滚而造成较大的创伤，但侵彻力不足。

Juli 2003Mercedes-BenzLiefervorschriftThermoplastische Elastomere(TPE)DBL 5562BQF vorhanden xWeitere DaimlerChrysler Normen sind erforderlich:DBL 5555, DBL 8585, MB Special TermsErsatz fürAusgabe: 06.98Siehe unter Abschnitt Änderungen: Seite 2Fortsetzung Seite 2 bis 6Herausgeber:DaimlerChrysler AG 70546 StuttgartNormung (EP/QIN)Fachverantwortung (Name): SchendelAbteilung: PWT/VWK Werk:010Telefon: (0711) 17-57951HPC:H120Fachliche Koordination durch Zentralwerkstofftechnik Werk 059, Abteilung PWT/VWK Name: Dr. Wittig Telefon (07031)-90-44270Vertraulich! Alle Rechte vorbehalten. Weitergabe oder Vervielfältigung ohne vorherige schriftliche Zustimmung der DaimlerChrysler AG verboten.Vertragspartner erhalten Normen nur über die zuständige Einkaufsabteilung.1Allgemeine AnforderungenWerkstoff-gruppeAbkürzung-beispiele Temperaturlage(°C)Betriebsstoff-beständigkeit Anwendungs-beispiele(AA)nach VDA 673 400Kurzzeit (< ca. 10h)Langzeit10TPE-SThermoplastisches PS/PE/PB-Elastomer TE(PEBBS+PP)TE(PBBS+PP)120100Öl : mäßig Wasser : gut Ozon : gutDichtlippen, Abdichtung, Abdeckung,Tülle, Abdeckleiste20TPE-OThermoplastischesEPDM/PP-Elastomer TE (EPDM+PP)11595Öl : mäßigWasser : befriedigend Abdeckung,Kantenschutz30TPE-VThermoplastischesEPDM/PP-Elastomer TE (EPDM-X+PP)TE (NBR-X+PP)125110Öl : mäßig Wasser : gut Ozon : gut Fenster- und Türdichtungen,Kantenschutz, Ansaugschläuche,Lenkungsmanschetten40TPE-VThermoplastische PolyurethaneTE (PEESTUR)TE (PEUR)130110Öl : befriedigend Wasser : befriedigendAnschlag Heckdeckel,Staubschutzkappen,Gelenkmanschetten 50TPE-EThermoplastisches Copolyetherester-Elastomer TE (PEEST) TEEE 145115Öl : mäßig Wasser : mäßigTülle, Verschlußdeckel, Sidebag,Schale, Anschlagpuffer Heckdeckel, Achsmanschetten60TPE-AThemoplastisches Polyether-Block-Amid-ElastomerTE (PEBA)140100Öl: befriedigend Wasser: befriedigendGeräuschkapselteileKurzbezeichnungenim Zeichnungsschriftfeld, Feld für Werkstoffz. B.: TE (EPDM + PP) DBL 5562.20Seite 2DBL 5562 : Juli 20032Es sind die allgemeinen Bedingungen nach DBL 5555 zu beachten.Ergänzend gelten: …Einkaufsbedingungen Produktionsmaterial und Ersatzteile KFZ“ und…MB Special Terms“ als Vertragsbestandteile.3Abmessungen und Toleranzen / Lieferform : Siehe Zeichnung4Technische Daten : Siehe Tabelle Seite 3 und 45Beständigkeitseigenschaften : Siehe Tabelle Seite 5 und 66Prüfungen:Die Prüfungen sind an Plattenmaterial mit einer Dicke von 2 mmdurchzuführen. Für das Plattenmaterial ist die gleiche Mischung zu verwenden,die zur Herstellung der Bauteile benutzt wird.Zusätzlich muß am Plattenmaterial die Spritzrichtung gekennzeichnet sein(z.B. mit Pfeil).Änderungen gegenüber Ausgabe 06.98:•Ausführungsart 60 hinzubefügt.•Werkstoffgruppen und Abkürzungsbeispiele geändert.•Technische Daten AA 30 dem Stand der Technik angepasst.•VDA-Normen wurden teilweise inhaltlich ähnlichen DIN-Normen gegenübergestellt, siehe auch nachfolgende NormenübersichtZitierte NormenDBL 5555EN ISO 527VDA 270 B 2DBL 8585ISO 1183VDA 675101DBL 5307.10DIN 75 201VDA 675102(entspricht DIN 53505)MB Special Terms VDA 675110VDA 675125VDA 675130(entspricht DIN EN 60)VDA 675205VDA 675211(entspricht DIN 53507)VDA 675216 BVDA 675217 BVDA 675242VDA 675310VDA675311Seite 3DBL 5562 : Juli 2003 4.TECHNISCHE DATENAusführungsarten GrenzforderungenZulässigeToleranz vom Prüfvorschrift102030405060Musterwert *)4.1Dichte g/cm³bei Bemusterung angeben±0,02ISO 1183 4.2Shore-Härte A/D Einh.Mikrohärte IRHD nach Zeichnung± 5± 5VDA 675 102VDA 675 1014.3Farbe nach Zeichnung VDA 675 110 4.4Reißfestigkeitim Härtebereich < 45 Shore A mindestens N/mm²längsquer3,03,0--1,52,5--------EN ISO 527S2- Probestäbe(DIN 53 504)im Härtebereich < 80 Shore A mindestens N/mm²längsquer5,05,05,05,05,05,07,07,0----+2/-1+2/-1Prüfgeschwindigkeit :< 80 Shore A200 mm/ minim Härtebereich ≥ 80 Shore A mindestens N/mm²längsquer9,09,08,08,010,010,015,015,015,015,02020±3±3≥ 80 Shore A50 mm/min4.5Reißdehnungim Härtebereich < 45 Shore A mindestens %längsquer400400--200200-------100-im Härtebereich < 80 Shore A mindestens %längquer400450500400200300450-----+100/-50+100/-50im Härtebereich ≥ 80 Shore A mindestens %längsquer480500400400300400500400400350350+100/-50+100/-504.6100% Spannungswertim Härtebereich < 45 Shore A mindestens N/mm²längsquer0,50,5--0,80,8--------im Härtebereich < 80 Shore Amindestens N/mm²2222--- 1 im Härtebereich ≥ 80 Shore Amindestens N/mm²465-810-2 4.7Weiterreißwiderstand < 45 ShoreAmindestens N/mm Weiterreißwiderstand < 80 Shore Amindestens N/mm Weiterreißwiderstand > 80 Shore Amindestens N/mm 41025---4810-------- 2+3 /- 4± 3VDA 675 211*) Siehe DBL 5555, Teil II, Abschnitt 3Seite 4DBL 5562 : Juli 20034.TECHNISCHE DATEN(Fortsetzung)Ausführungsarten GrenzforderungenZulässigeToleranz vom Prüfvorschrift102030405060Musterwert *)4.8Extrahierbare Anteile %nach freigegebenen Muster±0,5VDA 675 125 4.9Glührückstand %nach freigegebenen Muster±0,5VDA 675 130T = (950 ± 50)°C4.10Druckverformungsrestim Härtebereich < 45 Shore Ahöchstens %50-50----im Härtebereich < 80 Shore Ahöchstens %65656060--±3VDA 675 216 BPrüftemp. : (70±2)°C < 80 Shore A25% Verformung≥ 80 Shore A20% VerformungPrüfzeit: (22+2) him Härtebereich ≥ 80 Shore Ahöchstens %6570657070-±34.11Zugverformungsrestim Härtebereich < 45 Shore Ahöchstens %60-60----im Härtebereich < 80 Shore Ahöchstens %55606560--±3VDA 675 217 BS2-Stab , (22+ 2) h Prüftemp. : (70±2)°C < 80 Shore A50% Verformung≥ 80 Shore A25% Verformungim Härtebereich ≥ 80 Shore Ahöchstens %6570807075-±34.12Kälterichtwertnicht höher als °C-35-30-35-25-40-45-DBL 5555, Teil II, Abschnitt 4.34.13Kontaktverfärbung**Stufefestsitzend: Stufe ≥ 3abhebend: Stufe 5-VDA 675 242gilt nur für Teile imKFZ- Außenbereich4.14Wanderungsverfärbung undAuswascheffekt Stufe mindestens 5-VDA 675 242gilt nur für Teile im KFZ- Außenbereich4.15Brennprüfung mm/min< 100-DBL 5307.104.17Geruchprüfung Note Maximum 3-VDA 270,Methode B 2gilt nur für KFZ-Innenausstattung4.18FoggingprüfungMenge kondensier- mg barer Substanz max.2-DIN 75 201-Bgilt nur fürKFZ-Innen-ausstattung*) Siehe DBL 5555, Teil II, Abschnitt 3**) festsitzend: leichte Verfärbung zulässig abhebend: keine Verfärbung zulässigSeite 5DBL 5562 : Juli 2003 5.BESTÄNDIGKEITSEINGENSCHAFTENAusführungsarten Grenzforderungen Prüfvorschrift1020304050605.1Künstliche BewitterungStufe0-00-DBL 5555, Teil II,Abschnitt 6.2gilt nur für Teile imKFZ- Außenbereich5.2OzonbeständigkeitStufe0-0000VDA 675 3115.3HeißlichtalterungNote mindestens 4DBL 5555, Teil II Abschnitt 6.3gilt nur für Teile im Sichtbereich KFZ-Innenraum5.4WärmebeständigkeitHärteänderung Shore A Einh.±5VDA 675 310Prüfzeit: 42dPrüftemperaturen : AA 20: (70±2)°CMikrohärteänderung IRHD±5AA10,40 : (85±2)°C AA30,50 : (100±2)°C AA 60: (120 ±2) °CMaßänderunghöchstens %-3-3-2-2-2-Volumenänderunghöchstens %-3-3-3-2-2-Reißfestigkeitim Härtebereich < 45 Shore A mindestens N/mm²längsquer2,02,0--1.52,0------im Härtebereich < 80 Shore A mindestens N/mm²längsquer3,03,04,04,02,03,05,05,0----im Härtebereich ≥ 80 Shore A mindestens N/mm²längsquer8,08,07,07,06,07,012,012,014,014,015,015,0Reißdehnungim Härtebereich < 45 Shore A mindestens %längsquer350350--150180------im Härtebereich < 80 Shore A mindestens %längsquer350350300300150300400400----im Härtebereich ≥ 80 Shore A mindestens %längsquer400400300300300300350350350350350350Seite 6DBL 5562 : Juli 20035.BESTÄNDIGKEITSEINGENSCHAFTEN(Fortsetzung)Ausführungsarten305060Prüfvorschrift5.5Öl AlterungsbeständigkeitHärteänderunghöchstens Einh. Shore A wird-3±5Prüfzeit : 7dPrüftemperatur : (100±2)°CPrüföl : Shell Helix Plus (10W40)Maßänderunghöchstens %bei10-gilt nur für Teile im MotorraumVolumenänderunghöchstens %Bedarf715 Reißfestigkeitim Härtebereich < 80 Shore Amindestens N/mm²festgelegt--im Härtebereich ≥ 80 Shore Amindestens N/mm²längs10,00längsquer1515Reißdehnungim Härtebereich < 80 Shore Amindestens %--Im Härtebereich ≥ 80 Shore Amindestens %längs350längsquer3003005.6KühlmittelbeständigkeitHärteänderunghöchstens Einh. Shore A- 5-5±5Prüfzeit : 7dPrüftemperatur : (105±2)°C Prümittel:Wasser/Glysantin MV 1:1Maßänderunghöchstens %±101-Volumenänderunghöchstens %±101015 Reißfestigkeitim Härtebereich < 45 Shore Amindestens N/mm²1,8--im Härtebereich < 80 Shore Amindestens N/mm²3,0--im Härtebereich ≥ 80 Shore Amindestens N/mm²6,010,0längsquer1010Reißdehnungim Härtebereich < 45 Shore Amindestens %150--im Härtebereich ≥ 80 Shore Amindestens %150--im Härtebereich < 80 Shore Amindestens %250200längsquer250250。

NE556的使用1.控制电压引脚（CV）：用于控制电压的输入，通过调节CV引脚上的电压，可以改变定时器的阈值和触发电平。

2.重置引脚（RESET）：该引脚用于重置定时器，当RESET引脚接收到低电平时，定时器会立即复位。

3. 电源引脚（Vcc）：供电引脚，连接到正极电源。

4.电源引脚（GND）：地引脚，连接到负极电源。

5.第一个定时器输出引脚（OUT1）：该引脚输出第一个定时器的输出信号。

6.第二个定时器输出引脚（OUT2）：该引脚输出第二个定时器的输出信号。

7.第一个定时器触发引脚（TRIG1）：该引脚用于触发第一个定时器。

8.第二个定时器触发引脚（TRIG2）：该引脚用于触发第二个定时器。

9.第一个定时器复位引脚（RESET1）：该引脚用于重置第一个定时器。

10.第二个定时器复位引脚（RESET2）：该引脚用于重置第二个定时器。

11.第一个定时器控制电压引脚（CV1）：与CV引脚功能相同，用于控制第一个定时器的阈值和触发电平。

12.第二个定时器控制电压引脚（CV2）：与CV引脚功能相同，用于控制第二个定时器的阈值和触发电平。

13. 第一个定时器电源引脚（Vcc1）：供电引脚，连接到正极电源。

14. 第二个定时器电源引脚（Vcc2）：供电引脚，连接到正极电源。

15.第一个定时器地引脚（GND1）：地引脚，连接到负极电源。

16.第二个定时器地引脚（GND2）：地引脚，连接到负极电源。

1.脉冲发生器：NE556可以用作脉冲发生器，通过设置不同的电阻和电容值，可以产生各种不同频率和占空比的脉冲信号。

在电子设备中，脉冲发生器常用于时序控制、信号调制等应用。

2.定时器：NE556可以用作定时器，通过调节电阻和电容可以实现不同的定时功能。

定时器广泛应用于测量仪器、计时器、时钟和定时开关等领域。

3.多谐振荡器：NE556可以用作多谐振荡器，通过调节电阻和电容可以实现不同频率的输出信号。

多谐振荡器常用于音乐合成、音乐电子乐器和通信系统等领域。

一、NP550防弹钢板简介NP550防弹钢板在高硬度和硬度特种防护钢的基础上,研制的一种具有高抗弹性能,高强度高韧性的薄钢板,NP550材料可以防弹攻击,NP550可使防弹改造后整车的自重不增加,达到C级防护运钞车水
平。

3.轧制与控轧控冷：采用控轧控冷技术，将钢材轧制成所需的厚度和
形状，并通过精确控制轧制和冷却过程，将钢的马氏体板条束尺寸细化，获得超细晶组织，从而大幅度提高钢的强度和塑性。

4.切割与打磨：最后，通过切割、打磨等工艺，将钢板加工成符合要
求的防弹钢板
六、NP550防弹钢板的应用领域防弹门,防弹头盔，防弹衣，防弹盾牌；银行柜台，机要保险柜防暴车，防弹运钞车，装甲运兵车，战车潜艇，登陆艇，缉私艇，直升机等。

npd5565参数-回复什么是NPD5565参数，以及它的主要特点和应用领域。

NPD5565是一种常用的参数类型，广泛应用于不同行业和领域中。

下面将逐步介绍NPD5565的相关知识。

第一步：什么是NPD5565参数NPD5565参数是指一组具有特定功能和性能的参数，用于描述某个系统、产品或设备的特征，从而帮助人们更好地理解与使用该系统、产品或设备。

它提供了详细的信息，以指导在特定条件下的正确使用和操作。

第二步：NPD5565参数的主要特点NPD5565参数具有以下主要特点：1.准确性：NPD5565参数提供了精确的数值和描述，以反映系统、产品或设备的实际性能和特征。

这些参数经过专门的测试和验证，确保其准确性和可靠性。

2.全面性：NPD5565参数涵盖了系统、产品或设备的各个方面，包括技术规格、性能指标、功能、操作要求、安全要求等。

这使得用户能够全面了解和评估该系统、产品或设备。

3.标准化：NPD5565参数遵循一定的标准和规范，以确保在不同环境和条件下的统一性。

这为不同厂商和用户提供了一种共同的参考标准，方便相互之间的沟通和交流。

4.实用性：NPD5565参数具有实用性，它们提供了用户在实际应用中所需的相关信息，帮助用户进行正确的操作和维护。

这有助于提高工作效率和产品质量。

第三步：NPD5565参数的应用领域NPD5565参数的应用领域非常广泛，涉及多个行业和领域，如：1.电子和通信：NPD5565参数在电子产品和通信设备中的应用非常广泛。

这些参数可以包括电压、电流、频率、功率、传输速率等，用于评估设备的性能和功能。

2.机械与制造：在机械和制造行业，NPD5565参数通常用于描述机器和设备的技术规格和性能，如最大负重、工作速度、精度等。

这有助于用户选择适合自己需求的设备。

3.能源与环保：NPD5565参数在能源和环境领域的应用也非常重要。

这些参数可以包括能源消耗、排放标准、环保性能等，用于评估和监测能源使用和环境保护情况。