BL-S400E-11SG-1中文资料

STBE-1-1系列一段开/闭控制型 (主控-基本型)红外线测温、自动恒温器重要提示: (1):使用本机前,请详细阅读下面内容,(一:本机结构.有介绍各部件功能及操作方法.二:使用本机重要提示,介绍在实际工作过程中,可能出现的疑问现象.三:本机安装方法,分别介绍B功率控制模式和E开关控制模式接线方法,及相应极限参数,以免损坏.四:应用实例,介绍本机几种常用的实例,参照符合自己的工艺要求,对应安装.五:主要技术参数,六:常用疑难现象与处理方法, (2):B为闭环功率控制方式, E为上/下限开环(开关)控制方式.(3):模式键(1-蜂鸣/2-E报警/3-模式/参考本机结构-9);(4):发射率键/参考本机结构-11.(5):复位键/参考故障与排除-6; 均为机器工作重要参数,并不常态显示,如需修改,请确认符合工艺要求,操作时，需长按5秒后解锁,复位后,各默认值是: 1-1:ON(蜂鸣开),2-2:H-L(上限报警下限停),3-1:EEEE（E开关控制模式）定温定时关,时间单位为秒，发射率:为0.50(出厂值)，己设温度/时间都为0，一:本机结构※※※※※※※※※※※※※前面板后面板:笫1页1:--延时时间---数值为00时,本机默认为手动,非00为自动延时时间,且自动灯点亮,自动工作方式有两种,即定时加热及定温定时加热, 设置方法是: 按设置键进入温度设定模式,再按右下角时间+/-键调节,定温定时加热含义是:从开始加热到工件温度升到E模式上限温度或B模式恒温温度(其实设置时,是同一个温度),这段时间被忽略,也就是要达到目标温度点才开始计时,(即设定温度内恒温设定的时间), 定时加热,:即启动机加热同时开始计时.2:--目标温度---意义是:B模式工作时,为B模式恒温温度.E模式工作时,为E模式上限温度,(其实从设置的角度来看,也就是同一个温度),设置方法是:按设置键→显示no-1,E上限(B恒温)对应兰色指示灯点亮,调节左下角温度+/-键,完成后,按设置键,→no_1类似设置E下限温度(也即B预热报警温度),从设置角度看,也是同一温度,按设置键→返回保存(或自动返回保存).另外,在此过程中,如果按下右下角时间设罝+/-键,则可设定该段B/E两模式下通用的自动延时时间.3:--实测温度---显示实际测量温度4:--状态指示灯4-1→设置状态指示 , 4-2→E上限(即B恒温温度)设定指示. 4-3→E下限(即B预热报警温度)设定指示,4-4→自动工作指示(时间不为00黙认自动,为00是手动). 4-5→发射率设定指示. 4-6→工作指示, 4-7→B工作/B恒温报警指示. 4-8→E工作/E上限报警指示. 4-9→自动工作外部紧急停止指示,(控制端囗在后面板接线盒内S1,短接有效,请勿接入电压). 4-10→定温定时指示.4-11→时间单位秒指示. 4-12→时间单位分指示.5:--设置键---按此键→no-1,按左下角温度+/-键,设定E模式上限温度(也即B模式恒温温度),完成后按设置键→no_1,按左下角温度+/-键,设定E模式下限温度(也即B模式预热温度),同时相对应兰色设置指示灯点亮,按设置键→返回保存,或自动返回保存.此过程中,按右下角时间+/-键,则设定B/E两模式通用的延时时间,6:--温度设定加+.(升高设定温度,先按设置键进入设置模式后再操作),7--温度设定加-.,(降低设定温度,先按设置键进入设置模式后再操作)8:--面板启动键,按下启动机器,另一启动方式是: 本机脚踏开关. 注: (机器没有启动时，所有控制及报警功能无效, 仅能测温).9:--1-蜂鸣/2-E报警/3-模式.设置方法是〓〓〓〓〓〓〓〓〓〓〓〓◆长按1蜂鸣/2E报警/3模式键5秒→●嘀进入,1--蜂鸣开关菜单:按设置键选择. 1-1-ON(蜂鸣己开), 1-2 OFF(蜂鸣己关), 意义是:仅对1-蜂鸣E模式多功能蜂鸣报警有效, 不需要蜂鸣提示时, 请关闭, 但操作蜂鸣,及多功能报警端囗不关闭,完成后◆再按1蜂鸣-2E报警-3模式键→●●嘀-嘀进入2-E报警方式菜单: 按设置键选择,2-1/H(实测温度高于上限温度报警), →2-2/H-L (到达上限报警并自锁维持到下限温度停止),→2-3/H=L (只要温度介于上/下限设定温度之间就有报警),→进入2-4/-HL- (温度高于上限设定温度或低于下限设定温度就有报警), 完成后--------◆----再按1蜂鸣-2E报警-3模式键→●●●嘀-嘀-嘀进入3-B/E模式选择菜单,按设置键选择,3-1/EEEE(为E模式), 3-2/bbbb(为B模式),按设置键返回, 注意:E模式转为B模式时,请接好功率控制线■----复位后各默认值是: 1-1(蜂鸣开),2-2(上限报警维持到下限停),3-1(E模式).10:--面板停止键,自动工作时:按下停止工作,另一停止开关位于后面板接线盒内S1, 接通(短接)有效,，且前面板停止灯4-11点亮, 短接有效,请勿接电压.11:--发射率.长按5秒,出厂发射率为FS-0.50,由于被测物体材料不同,测量距离,及表面光洁度,表面杂质,工件大小等因素都会影响实测温度精度，如发现实际温度相差较多，可修正发射率，调整范围为: 00—0.99之间，数字越大，实测温度显示越低，反之越高,方法是,按发射率键5秒→蜂鸣一声（显示上次设定值,→马上按右下角温度+/-键调整,→完成后松开自动返回保存.一般不需修改，（出厂为：FS-0.50） 12:--定温定时键. 按此键选择定温定时工作/定时工作.意义是:定温定时工作时,面板定温定时指示灯4-12 点亮,此时, 工件温度在上升至E上限设定温度(也即B恒温温度)之前,并不计算时间.第2页只有达到该温度才计时, 意义是: 在设定的温度点保温规定的时间;定时工作意义是:启动机器同时开始计时,. 重要提示: 如仅需耍把工件加热到设定温度点立即停止,○1请打开定温定时功能,○2时间单位设为秒计时,○3时间值设为1. (即定温定时工作0.1秒) , B/E两模式都支持此功能,13:--激光开关. 按此键打开激光指示,最多维持15左右秒自动关闭.因激光指示与温度测量无关,甚至干扰测量精度所以工作时自动关闭,停止时自动点亮0.5秒关闭.14:--时间单位.按此键选择:出于加热设备安全考虑,标准机型延时时间较短，分计时(总时间为99秒) 秒计时(总时间为9.9秒).如需更长延时间请特别说明.15:--时间设定加+.(设定自动工作延时时间加,先按设置键进入设置模式后再操作)。

E21S Operation Manual(Version: V1.05)ContentsPreface (1)Chapter 1 Product Overview (2)1.1 Product introduction (2)1.2 Operation panel (2)1.3 Displayer (4)Chapter 2 Operation Instruction (5)2.1 Basic operation procedure (5)2.2 Programming (6)2.2.1 Single-step programming (6)2.2.2 Multi-step programming (8)2.3 Parameter setting (11)2.4 Manual movement (14)Chapter 3 Alarm (15)Appendix Common fault and troubleshooting (17)PrefaceThis manual describes operation of E21S numerical control device and is meant for operators who are instructed for operation of the device. Operator shall read this manual and know operation requirements before using this device.Copy right is preserved by ESTUN. It is not allowed to add or delete part or all of the manual content without ESTUN’s consent. Do not use part or all of manual content for the third party’s design.E21S device provides complete software control and has no mechanical protection device for operator or the tool machine. Therefore, in case of malfunction, machine tool must provide protection device for operator and external part of the machine tool. ESTUN is not responsible for any direct or indirect losses caused by normal or abnormal operation of the device.ESTUN preserves the right to modifying this manual in the event of function adding or print error.Chapter 1 Product Overview1.1 Product introductionThis product is equipped with the shear machine dedicated numerical control device which is applicable to various users. Based on ensuring work precision, the cost of numerical control shearing machine is reduced significantly.Features and functions of this product are as following:●Back gauge can be controlled.●Cut-angle can be controlled.●Cut-gap can be controlled.●Stroke time can be controlled.●Intelligent positioning control.●Unilateral and bidirectional positioning which eliminates spindle clearance effectively.●Retract functions.●Automatic reference searching.●One-key parameter backup and restore.●Fast position indexing.●40 programs storage space, each program has 25 steps.●Power-off protection.1.2 Operation panelOperation panel is shown in Figure 1-1.Figure 1-1 Operation panelFunctions of panel keys are described in Table 1-1.Table 1-1 Description of key functionsKey Function descriptionDelete key: delete all data in input area on left bottom ofdisplayer.Enter key: confirm the input content. If no content is input, the keyhas the similar function to direction key.Start key: automatic start-up, top left corner of the key is operationindicator LED. When operation is started, this indicator LED is on.Stop key: stop operation, top left corner of the key is Stopindicator LED. When initialize normal start-up and no operation,this indicator LED is on.Left direction key: page forward, cursor removeRight direction key: page backward, cursor removeDown direction key: select parameter downwardFunction switch: switch over different function pagesSymbolic key: user input symbol, or start diagnosis.~ Numeric key: when setting parameter, input value.Decimal point key: when set up parameter, input decimal point.Manual movement key: in case of manual adjustment, makeadjustment object move in forward direction at low speed.Manual movement key: in case of manual adjustment, makeadjustment object move in backward direction at low speed.High speed selection key: in case of manual adjustment, pressthis key and press simultaneously, make adjustment objectmove in increasing direction at high speed, then press ,make adjustment object move in decreasing direction at highspeed.1.3 DisplayerE21S numerical control device adopts 160*160 dot matrix LCD displayer. The display area is shown in Figure 1-2.Figure 1-2 Display area●Title bar: display relevant information of current page, such as its name, etc.●Parameter display area: display parameter name, parameter value and systeminformation.●Status bar: display area of input information and prompt message, etc.The paraphrases of shortening on this page are as shown in Table 1-2.Table 1-2 The paraphrases of shorteningShortening DescriptionX The current backgauge positionA The current cutting angleG The current gap distanceXP The desired backgauge positionDX Backgauge retract distanceCUT Cutting delayDLY Retracting delayF Function output valuePP Preset workpieceCP Current workpieceChapter 2 Operation Instruction2.1 Basic operation procedureBasic switch over and operation procedure of the device is shown in Figure 2-1.Figure 2-1 Basic Operational Flow2.2 ProgrammingThe device has two programming methods, which are single-step programming and multi-step programming. User can set up programming according to actual demand.2.2.1 Single-step programmingSingle-step programming is generally used for processing single step to finish work piece processing. When controller is power on, it will automatically enter single-step program page. Operation stepsStep 1 After starting up, the device will enter setting up page of single-step programautomatically, as shown in Figure 2-2.Range: 0~9999.999mmFigure 2-2 Single-step program setting pageStep 2 Click, select parameter that needs to be set up, press numerical key to inputprogram value, pressto complete input.[Note] Parameter can only be set when Stop indicator is on. Setting range of singe step parameter is shown in Table 2-1.Table 2-1 Set up range of singe step parameterParameter name Unit RangeRemarksXmm/inch-Current position of X axis, unable to be modified.A°-Current position of A axis, unable to be modified.Gmm/inch-Current position of G axis, unable to be modified.XP mm/inch 0~9999.999 Program position of X axle. DXmm/inch0~9999.999Retract distance of X axle;Parameter name Unit Range RemarksDLY s 0~9.99 In case of single step, delay time for X axleconcession.CUT s 0~9.99 There is a delay time for the cutter goes to thenext work-step, after it leaves the top deadcenter.[Note] Only the parameter CutDelay En. isset to 1, displaying this parameter.F None 0~3 Functions configure output.PP None 0~9999 Number of preset work piece.CP None 0~9999 Number of current work piece.Step 3 Press, system will execute according to this program, as shown in Figure 2-3.Figure 2-3 Single step operation page----EndOperation exampleOn single-step program page, program back gauge position to 80.00mm, retract distanceto 50mm, concession waiting time to 2s, and work piece to 10.Operation steps are shown in Table 2-2.Table 2-2 Operation steps of single step exampleOperation steps OperationStep 1 Click, select “XP” parameter.Step 2 Input 80.00 by numerical key.Step 3 Click, confirm setting of this parameter.Operation steps OperationStep 4 Click, select “DX” parameter, “DLY” parameter, “PP”parameter respectively.Step 5 Set up parameter to 50mm, 2s, 10 by numerical key.Step 6 Click, system execute according to this program.2.2.2 Multi-step programmingMulti-step program is used for processing single work piece of different processing steps, realize consecutive implementation of multi-steps, and improve processing efficiency. Operation stepStep 1 Power on, the device enters to single-step parameter set up page automatically. Step 2 Click, switch to program manage page, as shown in Figure 2-4.1253411121513146710891617201819Figure 2-4 Program management pageStep 3 Click, select program serial number, or input program number directly, such as input “1”.Step 4 Click, enter multi-step program setting page, as shown in Figure 2-5.Range: 0~25Figure 2-5 Multi-step program setting pageStep 5 Click, select multi-step programming parameter which requires set up, inputsetting up value, click, and the configuration takes effect.Step 6 In completion of set up, click, enter step parameter set page, as shown in Figure2-6.Range Figure 2-6 Step parameter set pageStep 7Click, select step parameter that needs to be set up, input program value,click, and the setup takes effect.Step 8Clickto switch over between steps. If the current step is the first step, clickto enter the last page of step parameter setting; if the current step is the last one, clickto enter the first page of step parameter setting.Multi-step parameter setting range is shown in Table 2-3.Table 2-3 Multi-step parameter setting rangeParameter name Unit Range RemarksSTNone0-25Set up total processing step number of this programPPNone0~99999Number of work piece to be processed, decreasing piece when more than zero; negative increasing count.CP None 0~99999 Number of finished work pieceDLYs0~9.99Time between retract signal and concession execution.Parameter name Unit Range RemarksCtDly s 0~9.99 There is a delay time for the cutter goes to thenext work-step, after it leaves the top deadcenter.[Note] Only the parameter CutDelay En. isset to 1, displaying this parameter.X mm/inch None Current position of X axle, can’t be modified. XP mm/inch 0~9999.999 Program position of X axle.DX mm/inch 0~9999.999 Distance of X axle concession.RP - 1~99 Repeat times required by this step.F - 0~3 F function configure outputStep 9 Click, system will operate according to this program, as shown in Figure 2-7.Figure 2-7 Multi-step programming operation page----EndOperation example[Background] One work piece requires processing 50 as shown below;●First shear: 50mm;●Second shear: 100mm;●Third shear: 300mm;[Analysis] according to work piece and technological conditions of machine tool:●First shear: X axle position is 50.0mm, concession 50mm;●The second shear: X axle position is 100.0mm, concession 50mm;●The third shear: X axle position is 300.0mm, concession 50mm;Edit processing program of this work piece on No. 2 program.Operation procedure is shown in Table 2-4.Table 2-4 Operation steps of multi-step programming exampleOperation step OperationStep 1 On single step parameter setting page, press to enterprogram selection page.Step 2 Input “2”, click, enter multi-step general parameter settingpage of program 2.Step 3 Select “Program step”, input “3”, click, the setting takeseffect.Step 4 Select “PP”, input “50”, click, the setup takes effect.Step 5 Similar to step 3 and step 4, set “DLY” to 3 respectively.Step 6 Click to enter first step setup page of step parameter.Step 7 Select “XP”, input 50, click, the setup takes effect.Step 8 Similar to step 7, set up “concession distance” and “repeattimes” to 50, 1 respectively.Step 9 Click to enter second step setup page of step parameter,the setup method is similar to that of step one.Step 10 Click again, to enter third step setup page of stepparameter, the setup method is similar to that of step one andstep two.Step11 Click, return to setup page of the first step.Step12 Click, system will operate according to this program.[Note]●In completion of multi-step programming, you should back to starting step beforelaunching the system; otherwise, the program will start position processing at currentstep.●Press left and right direction key to circulate page turning and browsing among all stepparameters.●Program can be called and revised again.●In completion of processing all work pieces (50 in the example), the system stopsautomatically. Restart directly will start another round of processing 50 work pieces.2.3 Parameter settingUser can setup all parameters required for normal operation of the system, including system parameter, X axle parameter.Step 1On program management page, clickto enter programming constant page, asshown in Figure 2-8. On this page, programming constant can be set.0:mm Figure 2-8 Programming constant pageRange of programming constant setup is shown in Table 2-5.Table 2-5Range of programming constant setupParameter name Unit Range Default RemarksX-tea. inmm0-9999.99Input current X axle position when teach enable.mm/inch-0 or 1● 0: mm ●1: inch 中文/English - 0 or 1 0● 0: 中文 ●1: EnglishX-tea. In mm 0~9999.999 10 Input current X axle position when teach enable.G-tea. In mm 0~9.99 0 Input current G axle position when teach enable.Pulse Time s 0.000~1.000 0.020 The duration of the pulse signal. Version-None-Software version information, V refers to version, 1 indicates version number, and 0 indicates version level.Step 2 Input password “1212”, clickto enter system parameter setting page, asshown in Figure 2-9.RangeFigure 2-9 System parameter setting pageStep 3 Step up parameter, parameter setup range is shown in Table 2-6.Table 2-6 System parameter descriptionParameter Unit Range Default DescriptionX-digits - 0-3 1 Decimal point displayed by X axle positionparameterX-safe mm 0-9999.999 10 X axle keeps low speed in this rangeStep delay s 0-9.99 0.5 Interval between valid change step signal andchange step operation executedCutDelay En. - 0 or 1 0 ●0: disable●1: enableMaxCutDelays 0~9.99 0 Set the maximum cut delay time.A-Enable - 0 or 1 1 ●0: disable●1: enableA-Max ° 2.50 or 3.00 3.00 The max value of the Cut-Angle. G-Enable - 0 or 1 1 ●0: disable●1: enableG-Encoder Dir. - 0 or 1 0 ●0: Decrease●1: IncreaseGMF - 1~99999999 40 Multiplication factor of G-axis, used for theconvert between pulses and mm.GDF - 1~99999999 1 Division factor of G-axis, used for the convertbetween pulses and mm.Step 4 Click, return to programming constant page.----End2.4 Manual movementIn single-step mode, axle movement can be controlled by pressing key manually. This method helps user to adjust machine tool and work piece. Step 1On single step parameter setup page, click，orto enter manualpage, as shown in Figure 2-10.Figure 2-10 Manual pageStep 2 Click, operate at low speed in increasing direction.Click , operate at low speed in decreasing direction.Click, clickat the same time, and operate at high speed in increasingdirection (this operation is valid only when using frequency converter as the drive). Click, clickat the same time, and operate at high speed in decreasingdirection (this operation is valid only when using frequency converter as the drive).Step 3 Clickreturn to single step parameter setting page.----EndChapter 3 AlarmThe device can detect internal or external abnormity automatically and send out alarm prompt. Alarm message is available on alarm list.Step 1 On programming management page, click to enter programming constant page.Step 2 On programming constant page, click to enter “Alarm history” page to view all alarm history.As shown in Figure 3-1, the latest 6 alarms, alarm number and causes can be viewed on this page.Figure 3-1 Alarm history pageAlarm history and message is shown in Table 3-1.Table 3-1 Alarm number and alarm messageAlarm number Alarm name Alarm descriptionA.01 Pieces reached Count reaches preset valueA.02 X.Pos < min. X-axis current position beyond the minimum limitA.03 X.Pos > max. X-axis current position beyond the maximum limitA.04 - The current position of the X-axis beyond the soft limitA.05 A Axis MAX A-axis current position beyond the maximum limitA.06 A Axis MIN A-axis current position beyond the minimum limitA.07 G Axis MAX G-axis current position beyond the maximum limitA.08 G Axis MIN G-axis current position beyond the minimum limitAlarm number Alarm name Alarm descriptionA.11 Finished work When count reaches preset value, system shut down automatically.A.12 Out of UDP In single step and multistep mode, slider is not on upper dead center.A.22 Encoder abnor. Encoder voltage is too lowA.24 Mach. not ready The pump signal is invalidA.25 Angle Abnormal Angle input errorA.26 X Stop Err The backgauge motor is abnormal stop.A.28 X V2 Err The speed of backgauge motor is abnormal on the Low-Speed Mode.A.29 X V3 Err The speed of backgauge motor is abnormal on the High-Speed Mode.A.32 XPos < 0 X-axis position has exceeded the zero point in manual mode, you should turn back.A.41 Para. error - A.42 Power off - A.43 System fault -Appendix Common fault and troubleshooting Fault phenomena Trouble shootingWhen power on, the device will not display. ●The electrode of power supply terminal isconnected error; please see the information of power nameplate.●Voltage is too low.●Electrical outlet is not connected.When X axle programming isoperating, back gauge motor does notmove, but Y AXIS motor moves.Two motors are reversed. Reconnect.When program is operating, motor does not move. ●Check whether mechanical part has beenlocked or slider returns to upper dead center.●Check whether the motor wiring is connectedwell.Motor can’t switch from high speed to low speed. ●Check whether high-low speed signal hasbeen sent or motor power is too small.●Check whether the parameter of distanceconversion is correct.When system is in multi-step programming, the program can’t change step. Check when slider is on upper dead center, STEP terminal is connected to +24V or not.When system is in multi-step programming, the program can’t count. Check when slider is on upper dead center, STEP terminal is connected to +24V or not.When programming is operating, the device loses control. ●Check whether encoder cable is connected ornot.●Check whether the motor-direction wiring iscorrect (X+, X-, A+,A-, G+, G-).When programming is operating, system actual position will not display or change. Check whether encoder wiring is correct or encoder cable is connected well.。

isis元件符号对照表Proteus 元件名称对照1元件名称中文名说明7407 驱动门1N914 二极管74Ls00 与非门74LS04 非门74LS08 与门74LS390 TTL 双十进制计数器7SEG 4针BCD-LED 输出从0-9 对应于4根线的BCD码7SEG 3-8译码器电路BCD-7SEG[size=+0]转换电路ALTERNATOR 交流发电机AMMETER-MILLI mA安培计AND 与门BATTERY 电池/电池组BUS 总线CAP 电容CAPACITOR 电容器CLOCK 时钟信号源CRYSTAL 晶振D-FLIPFLOP D触发器FUSE 保险丝GROUND 地LAMP 灯LED-RED 红色发光二极管LM016L 2行16列液晶可显示2行16列英文字符，有8位数据总线D0-D7，RS，R/W，EN三个控制端口（共14线），工作电压为5V。

没背光，和常用的1602B功能和引脚一样（除了调背光的二个线脚）LOGIC ANALYSER 逻辑分析器LOGICPROBE 逻辑探针LOGICPROBE[BIG] 逻辑探针用来显示连接位置的逻辑状态LOGICSTATE 逻辑状态用鼠标点击,可改变该方框连接位置的逻辑状态LOGICTOGGLE 逻辑触发MASTERSWITCH 按钮手动闭合,立即自动打开MOTOR 马达OR 或门POT-LIN 三引线可变电阻器POWER 电源RES 电阻RESISTOR 电阻器SWITCH 按钮手动按一下一个状态SWITCH-SPDT 二选通一按钮VOLTMETER 伏特计VOLTMETER-MILLI mV伏特计VTERM 串行口终端Electromechanical 电机Inductors 变压器Laplace Primitives 拉普拉斯变换Memory IcsMicroprocessor IcsMiscellaneous 各种器件 AERIAL-天线；ATAHDD；ATMEGA64；BATTERY；CELL；CRYSTAL-晶振；FUSE；METER-仪表；Modelling Primitives 各种仿真器件是典型的基本元器模拟，不表示具体型号，只用于仿真，没有PCBOptoelectronics 各种发光器件发光二极管，LED，液晶等等PLDs & FPGAsResistors 各种电阻Simulator Primitives 常用的器件Speakers & SoundersSwitches & Relays 开关，继电器，键盘Switching Devices 晶阊管Transistors 晶体管（三极管，场效应管）TTL 74 seriesTTL 74ALS seriesTTL 74AS seriesTTL 74F seriesTTL 74HC seriesTTL 74HCT seriesTTL 74LS seriesTTL 74S seriesAnalog Ics 模拟电路集成芯片Capacitors 电容集合CMOS 4000 seriesConnectors 排座，排插Data Converters ADC,DACDebugging Tools 调试工具ECL 10000 SeriesPROTEUS 元件库元件名称及中英对照AND 与门ANTENNA 天线BATTERY 直流电源BELL 铃,钟BVC 同轴电缆接插件BRIDEG 1 整流桥(二极管)BRIDEG 2 整流桥(集成块)BUFFER 缓冲器BUZZER 蜂鸣器CAP 电容CAPACITOR 电容CAPACITOR POL 有极性电容CAPVAR 可调电容CIRCUIT BREAKER 熔断丝COAX 同轴电缆CON 插口CRYSTAL 晶体整荡器DB 并行插口DIODE 二极管DIODE SCHOTTKY 稳压二极管DIODE VARACTOR 变容二极管DPY_3-SEG 3段LEDDPY_7-SEG 7段LEDDPY_7-SEG_DP 7段LED(带小数点) ELECTRO 电解电容FUSE 熔断器INDUCTOR 电感INDUCTOR IRON 带铁芯电感INDUCTOR3 可调电感JFET N N沟道场效应管JFET P P沟道场效应管LAMP 灯泡LAMP NEDN 起辉器LED 发光二极管METER 仪表MICROPHONE 麦克风MOSFET MOS管MOTOR AC 交流电机MOTOR SERVO 伺服电机NAND 与非门NOR 或非门NOT 非门NPN NPN三极管NPN-PHOTO 感光三极管OPAMP 运放OR 或门PHOTO 感光二极管PNP 三极管NPN DAR NPN三极管PNP DAR PNP三极管POT 滑线变阻器PELAY-DPDT 双刀双掷继电器RES1.2 电阻RES3.4 可变电阻RESISTOR BRIDGE ? 桥式电阻RESPACK ? 电阻SCR 晶闸管PLUG ? 插头PLUG AC FEMALE 三相交流插头SOCKET ? 插座SOURCE CURRENT 电流源SOURCE VOLTAGE 电压源SPEAKER 扬声器SW ? 开关SW-DPDY ? 双刀双掷开关SW-SPST ? 单刀单掷开关SW-PB 按钮THERMISTOR 电热调节器TRANS1 变压器TRANS2 可调变压器TRIAC ? 三端双向可控硅TRIODE ? 三极真空管VARISTOR 变阻器ZENER ? 齐纳二极管DPY_7-SEG_DP 数码管SW-PB 开关PROTEUS原理图元器件库详细说明Device.lib 包括电阻、电容、二极管、三极管和PCB的连接器符号ACTIVE.LIB 包括虚拟仪器和有源器件DIODE.LIB 包括二极管和整流桥DISPLAY.LIB 包括LCD、LEDBIPOLAR.LIB 包括三极管FET.LIB 包括场效应管ASIMMDLS.LIB 包括模拟元器件VALVES .LIB 包括电子管ANALOG.LIB 包括电源调节器、运放和数据采样IC CAPACITORS.LIB 包括电容COMS.LIB 包括 4000系列ECL.LIB 包括ECL10000系列MICRO.LIB 包括通用微处理器OPAMP.LIB 包括运算放大器RESISTORS.LIB 包括电阻FAIRCHLD .LIB 包括FAIRCHLD 半导体公司的分立器件LINTEC.LIB 包括 LINTEC公司的运算放大器NATDAC.LIB 包括国家半导体公司的数字采样器件NATOA.LIB 包括国家半导体公司的运算放大器TECOOR.LIB 包括TECOOR公司的 SCR 和TRIAC TEXOAC.LIB 包括德州仪器公司的运算放大器和比较器ZETEX .LIB 包括ZETEX 公司的分立器件。

Rev. 4.0–27.06.20181SEMITRANS ®3GBIGBT4 ModulesSKM450GB12E4Features•IGBT4 = 4th generation medium fast trench IGBT (Infineon)•CAL4 = Soft switching 4th generation CAL-diode•Insulated copper baseplate using DBC technology (Direct Bonded Copper) •Increased power cycling capability •With integrated gate resistor•For higher switching frequencies up to 12kHz•UL recognized, file no. E63532Typical Applications*•AC inverter drives •UPSRemarks•Case temperature limited to T c = 125°C max.•Recommended T op = -40 ... +150°C •Product reliability results valid for T j = 150°CAbsolute Maximum Ratings SymbolConditions Values UnitIGBT V CES T j =25°C 1200V I C T j =175°CT c =25°C 700A T c =80°C538A I Cnom 450A I CRMI CRM = 3xI Cnom 1350A V GES -20 (20)V t psc V CC =800V V GE ≤ 15V V CES ≤ 1200V T j =150°C10µs T j -40...175°C Inverse diodeV RRM T j =25°C 1200V I F T j =175°CT c =25°C 461A T c =80°C345A I Fnom 400A I FRM I FRM = 3xI Fnom1200A I FSM t p =10ms, sin 180°, T j =25°C1980A T j -40...175°C Module I t(RMS)500A T stg module without TIM -40...125°C V isolAC sinus 50 Hz, t =1min4000VCharacteristics SymbolConditionsmin.typ.max.UnitIGBT V CE(sat)I C =450A V GE =15V chiplevel T j =25°C 1.84 2.07V T j =150°C 2.23 2.42V V CE0chiplevel T j =25°C 0.800.90V T j =150°C 0.700.80V r CE V GE =15V chiplevelT j =25°C 2.3 2.6m ΩT j =150°C3.43.6m ΩV GE(th)V GE =V CE , I C =16.4mA5 5.8 6.5V I CES V GE =0V,V CE =1200V, T j =25°C 5mA C ies V CE =25V V GE =0Vf =1MHz 27.2nF C oes f =1MHz 1.76nF C res f =1MHz1.50nF Q G V GE =- 8 V...+ 15 V 2500nC R Gint T j =25°C 1.9Ωt d(on)V CC =600V I C =450AV GE =+15/-15V R G on =1ΩR G off =1Ωdi/dt on =8100A/µs di/dt off =3400A/µs T j =150°C 246ns t r T j =150°C 59ns E on T j =150°C 32mJ t d(off)T j =150°C 529ns t f T j =150°C 102ns E off T j =150°C 60mJR th(j-c)per IGBT0.062K/W R th(c-s)per IGBT (λgrease =0.81 W/(m*K))0.028K/W R th(c-s)per IGBT, pre-applied phase change material0.017K/W2Rev. 4.0–27.06.2018© by SEMIKRONSEMITRANS ®3GBIGBT4 ModulesSKM450GB12E4Features•IGBT4 = 4th generation medium fast trench IGBT (Infineon)•CAL4 = Soft switching 4th generation CAL-diode•Insulated copper baseplate using DBC technology (Direct Bonded Copper) •Increased power cycling capability •With integrated gate resistor•For higher switching frequencies up to 12kHz•UL recognized, file no. E63532Typical Applications*•AC inverter drives •UPSRemarks•Case temperature limited to T c = 125°C max.•Recommended T op = -40 ... +150°C •Product reliability results valid for T j = 150°CCharacteristics SymbolConditionsmin.typ.max.UnitInverse diodeV F = V EC I F =450AV GE =0V chiplevelT j =25°C 2.31 2.65V T j =150°C 2.31 2.64V V F0chiplevel T j =25°C 1.30 1.50V T j =150°C 0.90 1.10V r FchiplevelT j =25°C 2.3 2.6m ΩT j =150°C3.1 3.4m ΩI RRM I F =450A di/dt off =8300A/µs V GE =±15VV CC =600VT j =150°C 452A Q rr T j=150°C62µC E rr T j =150°C 28mJR th(j-c)per diode0.13K/W R th(c-s)per diode (λgrease =0.81 W/(m*K))0.038K/W R th(c-s)per diode, pre-applied phase change material0.032K/W Module L CE 15nH R CC'+EE'measured per switchT C =25°C 0.55m ΩT C =125°C0.85m ΩRth (c-s)1calculated without thermal coupling 0.008K/W Rth (c-s)2including thermal coupling, Ts underneath module (λgrease =0.81 W/(m*K))0.013K/W Rth (c-s)2including thermal coupling,Ts underneath module, pre-applied phase change material 0.009K/WM s to heat sink M635Nm M t to terminals M62.55Nm Nm w325g© by SEMIKRON Rev. 4.0–27.06.201834Rev. 4.0–27.06.2018© by SEMIKRON© by SEMIKRON Rev. 4.0–27.06.20185GBThis is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, chapter IX.*IMPORTANT INFORMATION AND WARNINGSThe specifications of SEMIKRON products may not be considered as guarantee or assurance of product characteristics ("Beschaffenheitsgarantie"). The specifications of SEMIKRON products describe only the usual characteristics of products to be expected in typical applications, which may still vary depending on the specific application. Therefore, products must be tested for the respective application in advance. Application adjustments may be necessary. The user of SEMIKRON products is responsible for the safety of their applications embedding SEMIKRON products and must take adequate safety measures to prevent the applications from causing a physical injury, fire or other problem if any of SEMIKRON products become faulty. The user is responsible to make sure that the application design is compliant with all applicable laws, regulations, norms and standards. Except as otherwise explicitly approved by SEMIKRON in a written document signed by authorized representatives of SEMIKRON, SEMIKRON products may not be used in any applications where a failure of the product or any consequences of the use thereof can reasonably be expected to result in personal injury. No representation or warranty is given and no liability is assumed with respect to the accuracy, completeness and/or use of any information herein, including without limitation, warranties of non-infringement of intellectual property rights of any third party. SEMIKRON does not assume any liability arising out of the applications or use of any product; neither does it convey any license under its patent rights, copyrights, trade secrets or other intellectual property rights, nor the rights of others. SEMIKRON makes no representation or warranty of non-infringement or alleged non-infringement of intellectual property rights of any third party which may arise from applications. Due to technical requirements our products may contain dangerous substances. For information on the types in question please contact the nearest SEMIKRON sales office. This document supersedes and replaces all information previously supplied and may be superseded by updates. SEMIKRON reserves the right to make changes.6。

二极管知识简介一、二极管的工作原理晶体二极管为一个由p型半导体和n型半导体形成的p-n结，在其界面处两侧形成空间电荷层，并建有自建电场。

当不存在外加电压时，由于p-n 结两边载流子浓度差引起的扩散电流和自建电场引起的漂移电流相等而处于电平衡状态。

当外界有正向电压偏置时，外界电场和自建电场的互相抑消作用使载流子的扩散电流增加引起了正向电流。

当外界有反向电压偏置时，外界电场和自建电场进一步加强，形成在一定反向电压范围内与反向偏置电压值无关的反向饱和电流I0。

当外加的反向电压高到一定程度时，p-n结空间电荷层中的电场强度达到临界值产生载流子的倍增过程，产生大量电子空穴对，产生了数值很大的反向击穿电流，称为二极管的击穿现象。

二、二极管的类型二极管种类有很多，按照所用的半导体材料，可分为锗二极管（Ge管）和硅二极管（Si管）。

根据其不同用途，可分为检波二极管、整流二极管、稳压二极管、开关二极管等。

按照管芯结构，又可分为点接触型二极管、面接触型二极管及平面型二极管。

点接触型二极管是用一根很细的金属丝压在光洁的半导体晶片表面，通以脉冲电流，使触丝一端与晶片牢固地烧结在一起，形成一个“PN结”。

由于是点接触，只允许通过较小的电流（不超过几十毫安），适用于高频小电流电路，如收音机的检波等。

面接触型二极管的“PN结”面积较大，允许通过较大的电流（几安到几十安），主要用于把交流电变换成直流电的“整流”电路中。

平面型二极管是一种特制的硅二极管，它不仅能通过较大的电流，而且性能稳定可靠，多用于开关、脉冲及高频电路中。

三、二极管的导电特性二极管最重要的特性就是单方向导电性。

在电路中，电流只能从二极管的正极流入，负极流出。

下面通过简单的实验说明二极管的正向特性和反向特性。

1.正向特性在电子电路中，将二极管的正极接在高电位端，负极接在低电位端，二极管就会导通，这种连接方式，称为正向偏置。

必须说明，当加在二极管两端的正向电压很小时，二极管仍然不能导通，流过二极管的正向电流十分微弱。