EV-25CP-2011-7-5-Rev02

RAC AC/DC ConverterFeaturesRegulated Converter• Wide input range 85-305VAC• Standby mode optimized (eco design Lot 6)• High efficiency over the entire load range • Operating temperature range: -40°C to +90°C • Overvoltage and overcurrent protected• EMC compliant without external components • Encapsulated module with pins or wiredDescriptionThe RAC05-K/277 series are multipurpose 5 watt AC/DC power supplies for enhanced mains input conditions from 90VAC up to 305VAC with an extra wide operating temperature range from -40°C to +90°C. These modules are designed to supply worldwide applications in automation, Industry 4.0, IoT, household and smart buildings. For worldwide use they come with international safety certifications for industrial, domestic and ITE as well as household standards. With both PCB-mount and wired packages, fully protected outputs, and EMC class B emissions compliance without any external components, these are the easiest to use modular power solutions in the industry.E224736RAC05-__ SK/277/WModel NumberingOrdering Examples:RAC05-05SK/277 5 Watt 5Vout Single Output THT version RAC05-24SK/277 5 Watt 24Vout Single Output THT version RAC05-05SK/277/W 5 Watt 5Vout Single Output Wired version RAC05-12SK/277/W5 Watt 12Vout Single Output Wired versionS inglenom. Output PowerOutput Voltage5 Watt Single OutputRAC05-K/277Selection GuidePart Input Output Output Efficiency Max. CapacitiveNumber Voltage Range Voltage Current typ (1) Load (2)[VAC] [VDC] [mA] [%] [µF]RAC05-3.3SK/277 85-305 3.3 1510 77 10000RAC05-05SK/277 85-305 5 1000 80 8000RAC05-12SK/277 85-305 12 416 83 1500RAC05-15SK/277 85-305 15 330 83 1000RAC05-24SK/277 85-305 24 210 84 330Notes:Note1: Efficiency is tested at nominal input and full load at +25°C ambient Note2: Max Cap Load is tested at nominal input and full resistive loadW ired Notes:Note3: add suffix …W“ for wired versionwithout suffix, standard THT versionUL62368-1 certified EN62368-1 certified IEC/EN60335-1 certified EN62233 certifiedIEC/EN61558-1 certified IEC/EN61558-2-16 certified EN55032 compliantEN55014-1(-2) compliant CB ReportSpecifications(measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated)Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated)REGULATIONSParameterConditionValueOutput Accuracy ±1.0% typ.Line Regulation low line to high line, full load±0.5% typ. Load Regulation (7)10% to 100% load 1.0% typ.Transient Response25% load step change4.0% max.recovery time500µs typ.PROTECTIONSParameterTypeValueInput Fuse (8)internal T1A, slow blowShort Circuit Protection (SCP)below 100m Whiccup, automatic restart Over Voltage Protection (OVP)125% - 195%, latch of modeOver Voltage Category OVC IIOver Current Protection (OCP)125% - 195%, hiccup modeClass of EquipmentClass IIIsolation Voltage (safety certified) (9)I/P to O/P1 minute4.2kVACIsolation Resistance Isolation Voltage 500VDC 1G W min.Isolation Capacitance 100pF max.Insulation Grade reinforced Leakage Current0.25mA max.continued on next pageDeviation vs. Load(at 115VAC, 230VAC, 277VAC)10.50-0.5-1D e v i a t i o n [%]102030405060708090100Output Load [%]10.5-0.5-1D e v i a t i o n [%]0102030405060708090100Output Load [%]RAC05-05SK/277RAC05-12SK/277Notes:Note8: Refer to local safety regulations if input over-current protection is also required Note9: For repeat Hi-Pot testing, reduce the time and/or the test voltageNotes:Note7: Operation below 10% load will not harm the converter, but specifications may not be metSpecifications(measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated)Specifications(measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated)SAFETY AND CERTIFICATIONSCertificate Type (Safety)Report / File Number StandardAudio/Video, information and communication technology equipment - Part 1: Safety requirements E491408-A6004-ULUL62368-1, 2nd Edition, 2014-12-01CAN/CSA-C22.2 No. 62368-1-14, 2nd Edt., 2014-12Audio/Video, information and communication technology equipment -Part 1: Safety requirements (CB Scheme)E491408-A6007-CB-1IEC62368-1:2014 2nd EditionAudio/Video, information and communication technology equipment -Part 1: Safety requirements (LVD)EN62368-1:2014 + A11:2017Household and similar electrical appliances - Safety -Part 1: General requirementsLCS190308001CS IEC60335-1:2010 + A2:2016 + C1:2016, 5th Edt.EN60335-1:2012 + A13:2017Measurement methods for electromagnetic fields of household appliances and similarapparatus with regard to human exposureEN62233:2008Safety of power transformers, power supplies, reactors and similar products for sup-ply voltages up to 1100 V (CB Scheme)50230493 001IEC61558-1:2005 2nd Edition + A1:2009Safety of power transformers, power supplies, reactors and similar products for sup-ply voltages up to 1100 V Part 2: Particular requirements (CB Scheme)IEC61558-2-16:2009 1st Edition + A1:2013 Safety of power transformers, power supplies, reactors and similar products for sup-ply voltages up to 1100 VEN61558-1:2005 + A1:2009 Safety of power transformers, power supplies, reactors and similar products for sup-ply voltages up to 1100 V Part 2: Particular requirementsEN61558-2-16:2009 + A1:2013 RoHS2RoHS-2011/65/EU + AM-2015/863 EMC Compliance Conditions Standard / Criterion Low-voltage power supplies DC output - Part 3: Electromagnetic compatibility EN61204-3: 2018, Class B Electromagnetic compatibility of multimedia equipment - Emission requirements (11)EN55032:2015, Class B Electromagnetic compatibility - Requirements for household appliances, electric toolsand similar apparatus - Part 1: EmissionEN55014-1:2006 + A2:2011 I nformation technology equipment - Immunity characteristics - Limits and methods of measurement EN55024:2010 + A1:2015 Electromagnetic compatibility - Requirements for household appliances, electric toolsand similar apparatus - Part 2: ImmunityEN55014-2:2015ESD Electrostatic discharge immunity testAir: ±2, 4, 8kVContact: ±2, 4kVEN61000-4-2: 2009, Criteria BRadiated, radio-frequency, electromagnetic field immunity test 10V/m, 80MHz-1GHz3V/m, 1.4GHz-2GHz1V/m, 2GHz-2.7GHzEN61000-4-3: 2006 + A1, 2009, Criteria AFast Transient and Burst Immunity AC and DC Port: ±2kV EN61000-4-4: 2012, Criteria BSurge Immunity AC In Port (L-N): ±1kVDC Output Port: ±0.5kVEN61000-4-5: 2014 +A1:2017, Criteria BImmunity to conducted disturbances, induced by radio-frequency fields AC and DC Port: 10V EN61000-4-6: 2014, Criteria A Power Magnetic Field Immunity50Hz, 30A/m EN61000-4-8: 2010, Criteria AVoltage Dips and InterruptionsVoltage Dips: 30%Voltage Dips: 60%Voltage Dips: 100%Interruptions: >95%EN61000-4-11:2004 + A1:2017, Criteria CEN61000-4-11:2004 + A1:2017, Criteria CEN61000-4-11:2014 + A1:2017, Criteria BEN61000-4-11: 2014 + A1:2017,Criteria CVoltage Fluctuations and Flicker in Public Low-Voltage Systems <=16A per phase EN61000-3-3: 2013 Limitations on the amount of electromagnetic interference allowed from digital and electronic devices FCC 47 CFR Part 15 Supbart B, Class B Methods of Measurement of Radio-Noise Emissions from Low-Voltage Electrical andElectronic Equipment in the Range of 9 kHz to 40 GHzANSI C63.4-2014, Class BNotes:Note11: If output is connected to GND, please contact RECOM tech support for adviceSpecifications(measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated)Specifications (measured @ Ta= 25°C, nom. Vin, full load and after warm-up unless otherwise stated)The product information and specifications may be subject to changes even without prior written notice.The product has been designed for various applications; its suitability lies in the responsibility of each customer. The products are not authorized for use in safety-critical applications without RECOM’s explicit written consent. A safety-critical application is an application where a failure may reasonably be expected to endanger or cause loss of life, inflict bodily harm or damage property. The applicant shall indemnify and hold harmless RECOM, its affiliated companies and its representatives against any damage claims in connection with the unauthorizeduse of RECOM products in such safety-critical applications.PACKAGING INFORMATIONParameterTypeValuePackaging Dimension (LxWxH)THT wiredtube tray466.0 x 30.4 x 29.3mm 468.0 x 198.0 x 46.0mmPackaging Quantity THT wired12pcs 24pcsStorage Temperature Range -40°C to +85°C Storage Humiditynon-condensing 20% to 90% RH max.。

ContentsSection Page No.Introduction1Functional Description1Contents2EV2011 Connections2EV2011 Configuration2Installing the User Interface Program3Using the EV2011 Program3Main Menu3Output Control Screen4Monitor Screen4Display Program Screen6Data Logging7Measure V OS Screen8Appendix A:AP11 User's Guide9Appendix B:Troubleshooting10Appendix C:EV2011 Schematic11 IntroductionThe bq2011Gas Gauge IC provides battery capacity monitoring in a single16-pin SOIC or DIP package.The EV2011Evaluation Board provides a useful means to test bq2011functionality and easily interface with the de-vice over the RS-232port of a PC.The bq2011features:n Battery capacity monitoring functionsn LED display of available chargen DQ serial I/O port communications functions Functional DescriptionThe EV2011provides functional evaluation of the bq2011 IC on a PCB.The actual implementation of a bq2011-based design will be significantly smaller in size.See the bq2011data sheet(July1994C or later)for bq2011 specifications.Power SourceThe bq2011derives its V CC from either an external source or from the battery connected to the BAT+(J1) and BAT–(J2)terminal blocks.Refer to Table4in Us-ing the bq2010—A Tutorial for Gas Gauging for the proper size of R16as part of the V CC regulation.The EV2011Evaluation Board is shipped with a301KΩre-sistor for R16.Current PathThe bq2011uses a sense resistor(R15)on the negative terminal of the battery to measure charge and discharge of the battery.This resistor may be changed if necessary.The system load is connected between the BAT+(J1)and RET–(J2)terminal blocks(see the schematic in AppendixC).Parameter ProgrammingThe EV2011is programmed by the MODE and PFC pro-gramming pins.The programming pins determine:n Programmed full countn Scale factorn Display mode1EV2011Gas Gauge EvaluationBoard 12/96Rev.C BoardEV2011 ContentsEach package contains the following items:1EV2011 PC BoardThis includes the bq2011sample,current regulator, programming jumpers,battery divider resistors, and the PC serial port interface.1EV2011 DQ/RS-232 Cable1EV2011 (v2.0) User Interface Program Diskette This program runs on any AT-compatible computer equipped with a standard RS-232(COM1,COM2, COM3,or COM4)serial port,and provides the user with a complete menu-driven system to control, monitor,and log data from the EV2011Evaluation Board.The User Interface Program communicates with the bq2011over the DQ serial I/O port using the RS-232interface.Please check to make sure that all items are present and in good condition.If you have any problems,please con-tact your Benchmarq representative or call Benchmarq at214-407-0011.EV2011 ConnectionsThe connections for the EV2011are described below. Please refer to the attached schematic in conjunction with these descriptions.JP1–JP8Battery cell divider.JP1-JP6are usedto divide the battery voltage by5to10.JP7and JP8are user-definable,but areconfigured for11and12cells on thisboard.JP9V CC supply.This jumper is used to se-lect the V CC supply for the bq2011.WhenJP9is on B(near Q1),the supply is takenfrom the BAT+input and is regulated bythe bq2011and Q1.When JP9is on L(near D12),the V CC supply is provided byLBAT+.If V CC is supplied by LBAT+,itmust not exceed the specified V CC voltagerange in the bq2011data sheet.JP11PFC programming pins.This jumpercan be set low,high impedance,or high.Ifthe jumper is between the middle pin andlow,PFC is set low.If the jumper is re-moved,the PFC is high impedance,or Z.If the jumper is between the middle pinand high,PFC is set high.JP10MODE selection jumper.If the jumperis between the middle pin and V CC,thedisplay mode is relative.If the jumper isbetween the middle pin and MODE,thedisplay mode is absolute.If the jumper isremoved,no display is available.DSP Display input(DISP pin).DSP is con-nected in parallel with the push-buttonswitch S1provided on the EV2011board.An external switch configuration can bemade using DSP.When the EV2011isfloating and detects charging or dis-charging,the LED outputs are active toreflect the charge state.When the DISPinput is pulled low,the LEDs reflects thecharge state.EV2011 ConfigurationThe EV2011Evaluation Board may be used with or without the DQ/RS-232Interface Program.The Evalua-tion Board should first be configured before connecting the battery or the RS-232cable.Step1Connecting the power supplyThe EV2011can operate from power pro-vided by the battery being monitored orfrom LBAT+.Set the battery divider(JP1–JP8)to the correct number of bat-tery cells prior to connecting the battery.If the bq2011will be powered from thebattery,connect JP9to B.If the bq2011will be powered from an external supply,connect JP9to L.Important:Connectthe battery ONLY after setting JP1-JP8and JP9.Step3Connecting the RS-232cableConnect the cable provided to the serialport of any PC.Please ensure no mem-ory-resident programs use this serialport.Step4Connecting the loadThe external load is connected betweenBAT+and RET-(J2)on the EV2011.Asense resistor(R15)is in series with thenegative terminal of the battery.TheEV2011board is supplied with a0.005,1%3W resistor.Please ensure that thedischarge load does not exceed the V SRspecification for the bq2011.R15may bechanged to a different-value resistor.2Rev.C Board EV2011Installing the User Interface ProgramThe User Interface Program(named“EV2011”)runs on any PC-compatible computer.The program may be run from the disk provided,or it may be installed on any di-rectory on the computer's hard disk.To run the program from the hard disk,simply copy all the files from the disk supplied to the hard disk.All the files should re-side in the same directory.The User Interface Program installs a driver to control the DQ/RS-232interface.This driver asks which COM port is connected to the EV2011Evaluation board.If communication is not established with the EV2011 board,the Main Menu does not appear.Please refer to Appendix B(Troubleshooting)if the program does not establish communication with the EV2011.The EV2011uses the PC-AT real-time clock to provide the proper bit timing for serial communication with the bq2011.The modem control lines are used as the single-wire serial interface to the bq2011.Any TSR that uses the PC real-time clock affects the operation of the EV2011.For proper operation,the EV2011should not be operated from a DOS shell program.If the PC is a notebook or portable type,it may be config-ured to save battery power by adjusting the clocks ac-cording to the activity under way.Configure the notebook to run in“High Performance”mode for reliable communication between the EV2011and the PC.The EV2011UIP terminates if communication with the EV2011board is lost.Start the User Interface Program as follows:C>EV2011Using the EV2011 ProgramEV2011is a menu-driven program.Almost all of the functions and entries are made by positioning the high-lighted cursor on the function desired and pressing the ENTER key,or by typing a value and then pressing the ENTER key.Key functions are as follows:ARROWkeysUse the arrow keys to move the high-lighted cursor around the screen.ENTERkeyPress the ENTER key to select the valuecurrently being displayed for a parameter,or to perform a function selected by thehighlighted cursor.ESCAPEkeyPress the ESCAPE key to escape from anyfunction back to the main menu,or to es-cape from any parameter value screen backto the menu displaying that parameter.F3key Press the F3key to display a help file forthe selected function or parameter. Main MenuThe Main Menu appears after the EV2011program has started.If this menu does not appear,communication with the EV2011has not been established;please refer to Appendix B(Troubleshooting)if the EV2011does not display the Main Menu.The Main Menu shows six functions that may be activated;see e the cursor keys(arrow keys)to position the highlighted cursor over the function to be activated and press the ENTER key.For help,press the F3key,and a help note about the function appears.Press the ESCAPE key to exit from the EV2011program.3EV2011Rev.C BoardBenchmarq BQ2011Evaluation Board Main Menu(v2.0)<Initialize><Monitor><Output Control><Data Log><Display Program><Measure Vos>Please enter SR value B in Display Program for Proper OperationESC to exit program F3for HelpFigure 1. Main MenuThe Main Menu functions are as follows:<Initialize>Sends a reset command to the bq2011.<Output Control>Activates a screen from which the LEDs can be controlled.<Monitor>Activates a screen from which the bq2011activity is monitored on a real-time basis. <Data Log>Allows entering a file name to whichbq2011data will be logged,and the log-ging period in seconds.When the log isactivated,the display changes to theMonitor screen with a top display of:Logging Record:xx<Display Program>Activates a screen showing the current program settings for the bq2011.<Measure V OS>This allows the user to determine the ap-parent offset voltage of the bq2011under test.A minimum of2minutes is required to complete the V OS measurement,which has a resolution of±0.15mV per2minutes.Output Control ScreenThis screen controls the bq2011LEDs;see Figure2. Press the space bar to toggle the LED OFF and ON. Pressing the push-button switch activates the display. The bq2011LED output returns to normal on exiting this screen.Monitor ScreenThis screen monitors real-time changes of the bq2011; see Figure 3.The program continually updates the monitor screen.As conditions change,the new values are displayed.Time Time of day in HH:MM:DD,24-hour nota-tion.Empty/Full This indicates the current value for GG inthe TMPGG register of the bq2011.Thecapacity value is giventh steps.Date Current date in MM/DD/YY notation.NAC NAC register values multiplied by thescale value and divided by the sense re-sistor value to give mAH.LMD Last Measured Discharge expressed interms of mAH.This is the8-bit LMD reg-ister value multiplied by the scale valuetimes256and divided by the sense resis-tor to give mAH.Sense Resis-tor ValueThis is the sense resistor value from theProgramming menu.Average V SRCurrentThis is the average battery current.TimeRemainingDuring discharge only,this is the time re-maining at the average current(NAC/Avg.V SR current)DigitalFilter SettingThis is the value of the digital magnitudefilter.Temp Step This is a display of the active tempera-ture step,which ranges from0(for tem-peratures<-30°C)to12for temperatures>80°C).Activity This indicates the charging/dischargingactivity occurring with the battery.CHARGE is displayed if the battery ischarging,while DISCHARGING is dis-played if the battery is being discharged,or if it is idle(no charging taking place).OVERLOAD is displayed if the voltagedrop across the sense resistor exceeds the 4Rev.C BoardBenchmarq BQ2011Evaluation Board Output Control ScreenOutput PinsLED Display LED1:OFF/ON LED2:OFF/ONLED Display LED3:OFF/ON LED4:OFF/ONLED Display LED5:OFF/ONESC to main menuFigure 2. Output Control ScreenEV2011V SR1threshold.Please note that the ap-dependent,and may take some time after the application of a charging current or a discharge load depending on the PFC and scale selected,and the rate of charge or discharge being applied.VSR Step This is the value of the V SR current step as defined in the bq2011data sheet.GG StepThis is the lower four bits of the TMPGG register that correspond to the current NAC value relative to either the LMD or the original programmed full count (as determined by PROG 1-4).The GG step is reported as a step number from 0to 15,with step 0available capac-ity from 0to offull,and 15represent-ing available from full to full.Charge RateIndicates whether the present charge is TRICKLE or FAST depending on thestate of the charge rate (CR)bit in FLGS2.EDVThis is the state of the EDV flag.The EDV flag latches ON if V SB drops below the EDV threshold value.It remains latched until charging is detected,at which time it is cleared.Battery RemovedThis is the state of the battery removed flag.It is set (BRM =yes)if one of the conditions indicating battery removed oc-curs.This flag is reset when the battery is replaced.ValidDischargeThis is the state of the VDQ bit in FLGS1.VDQ =yes if the bq2011is charged until NAC =LMD.VDQ =no indi-cates the present discharge is not valid for LMD update.Full CountThis value is the contents of the Full Count register.This value times 16is the5EV2011Benchmarq BQ2011Evaluation Board Real-Time Monitor ScreenTime:99:99:99EMPTY ****_____FULL Date:99/99/99NAC:99999mAHLMD:99999mAHSense Resistor Value:XXX ΩAvg Vsr Current:±9999mATime remaining:9999min.Digital Filter Setting:+0.50mV=Vsrd -0.40mV=Vsrq Temp Step:XX Activity:XXXXX Vsr Current Step:XX GG Step:XX Charge Rate:XXXX First EDV:XXX Batt.Rem'vd:XXX Valid Discharge:XXXFull Count:XXXBatt.Repl'd:XXXCapacity Inaccurate:XXX Capacity Inaccurate Count:XXXFLGS1:XX X X X _X _FLGS2:X X X X___X C B B C V N E N C D D D N N N O H R R I D /D /R R R R ///V G PM Q U VU210U U U L S1DESC to main menu F1to modify NAC F2to modify LMDFigure 3. Real-Time Monitor ScreenRev.C Boardnumber of times that NAC has counted up to LMD after a valid discharge.Battery Replaced This is the state of the battery replaced flag.It is set(BRP=yes)if the battery valid condition returns after setting the battery removed flag.The battery re-placed flag is cleared if the battery is dis-charged to the EDV1level or if it is charged to NAC=LMD.This flag is set after a EV2011initialization.Capacity Inaccurate This is the state of the capacity inaccu-rate bit in FLGS1.It is set(CI=yes)to indicate that the battery capacity has not been updated during the last64charge cycles.Capacity Inaccurate Count This is the number of charge cycles be-tween an LMD update.This counter is reset to zero when NAC=LMD after a valid LMD update.FLGS1This indicates the present state of theFLGS1resistor.FLGS2This indicates the present state of theFLGS2resistor.Modifying NAC and LMDIt is possible to change the values of the NAC and LMD parameters from the screen using the F1and F2func-tion keys as follows.Changing NAC(F1)1)Press the F1 key.The NAC field is highlighted.2)Enter the value in mAH and press the ENTERkey to store the value.Note:Changing NAC disqualifies a subsequent LMD update.Changing LMD(F2)1)Press the F2 key.The LMD field is highlighted.2)Enter the value in mAH and press the ENTERkey to store the value.Display Program ScreenThis menu is accessed by selecting the<Display Pro-gram>function on the Main Menu.The Display Pro-gram Screen represents the state of the bq2011 programming pins;see Figure4.To change the bq2011 programming,reconfigure jumpers MODE and PFC and 6Rev.C BoardBenchmarq BQ2011Programming ScreenSense Resistor:0.005ΩScale Factor:1/80Display Full:RELATIVE PFC Count:XXXXPFC(mVH):XXXX mVHSelf-Discharge Battery Capacity:9999mAHRate:1/64NAC/dayProgramming Pin ConfigurationLED Drive***PFC***ESC to main menu F3for HelpFigure 4. Programming MenuEV2011initialize the bq2011.The reset allows the bq2011to read the program pins.Sense Resistor Enter the value of sense resistor in ohms. Typical values range from0.001to 0.005Ω.The sense resistor value is used by the EV2011UIP to develop meaningful infor-mation in terms of A,mA,and mAH in re-lation to battery capacity and current. The default value is0.005.Values from 0.001to0.256are saved in the battery ID RAM byte of the bq2011.Values greater than0.256must be re-entered each time EV2011is started.Scale Factor Select the scale factor from the available scales using JP11.Like the sense resistor,the scale factor is used to develop meaningful information for the programmed full count tables,battery full,and available capacity indications.Display Full Use JP10to choose between RELATIVE and ABSOLUTE full reference for the LED display.PFC Select the programmed full count usingJP11.Note that the selected PFC and thesense resistor value are used to determinethe initial battery full capacity(mAh)rep-resented by the PFC.Battery Capacity This display indicates the battery capac-ity represented by dividing the PFC by the sense resistor.In practice,picking a PFC and sense resistor that provide a battery full value slightly lower than (within5%)the rated battery capacity is recommended.Program-ming Pin Configura-tion This indicates the display mode as either LED DRIVE by MODE or V CC.The PFC pin state is shown as L,Z,H.Please refer to the bq2011data sheet for more infor-mation.Data LoggingThe data log is activated from the Main Menu by select-ing the Data Log function.A filename to be used and the log sample period must be entered.For example: Log Data to Filename:<filename.ext>Enter Sample Period(10sec or greater):<xx>Opening Data Log FileWhen the data log is started,the Monitor Screen dis-plays the number of the current log record between thetime and date fields at the top of the screen.To termi-nate the data log,press the ESCAPE key.The file is closed and data logging is terminated.The data log record contains fields of ASCII data sepa-rated by tab characters.The field names and descrip-tions in record order follow.TIME Time record written in secondsLMD LMD value in mAHNAC NAC value in mAHAvg.DischargeCurrentAverage V SR battery currentFLAGS1Binary setting of FLAGS1flags:Bit Meaning0Not used1EDV flag state2Not used3VDQ (valid discharge)4Capacity inaccurate5Battery removed flag state6Battery replaced flag state7Charge active flag stateFLAGS2Binary setting of FLAGS2flags:Bit Meaning0Overload flag state1–3Not used4–6Discharge rate7Charge rateThe log records should be readable by most spreadsheet programs.7EV2011Rev.C BoardMeasure V OS ScreenThis screen is used to measure the V OS of the bq2011; see Figure5.A minimum of120seconds are required to perform this test.Pressing the ESC key terminates thetest in progress.Operating the test for a longer period increases the resolution of the test.A“beep”signals test completion.8Benchmarq EV2011Evaluation Board VO SMeasurementPresent DMF Setting+0.50mV=Vsrd-0.40mV=VsrqCurrent Threshold(DMF(mv)/Rsns):XXXXmADo you want to test Vos?:Y/NCalculated Vos:Vos XXXmV,over last xxxx secondsElapsed time:XXXX seconds**Note:There must be no charge/discharge activity on the bq2011for this testto be valid.Running the test for a longer period of time increasesthe Vos measurement resolution.This test requires a minimumof2minutes before any value is displayed.ESC to main menuFigure 5. VOS Measurement ScreenEV2011Rev.C BoardAppendix A:AP11 User's GuideThe AP11utility(AP11.EXE)is used to communicate with the bq2011on a register basis.AP11uses a driver to communicate with the EV2011over serial port on a PC-AT personal computer.AP11The AP11utility is started by executing AP11.EXE.After AP11is started,the following prompt is displayed: Select COM Port<1234>CommandsThe user can respond with various commands at the prompt.Pressing“Q”causes the program to terminate.–>?Pressing the?key displays following menu:These commands may be used to send or receive data from the EV2011.–>AIf A is entered in response to–>,then a break bit is sent to the EV2011.This may be used to restart the commu-nication if a problem appears.If the prompt does not re-turn immediately,then proper communication has not been established;please refer to Appendix B for trouble-shooting procedures.–>R#If R#is entered in response to–>,where#is an applica-ble address in HEX format,AP11returns the value at that location from the EV2011.The addresses are de-fined in the bq2011data sheet.For example:–>R03causes the display to show:R03=##where##is the current NAC value in HEX format.Address00is used to read and display all readable reg-isters.–>S#If S#is entered in response to–>,where#is a valid bq2011address in HEX format,AP11continuously reads and displays the value at that location.The ad-dressed are defined in the bq2011data sheet.For exam-ple:–>S03causes the display to show:Address3=##after XXX.XX sec.where##is the value at location03and XXX.XX isthe number of seconds between changes in thisvalue.–>W#=**If W#=**is entered in response to–>,where#is an ap-plicable address in HEX format and**is the value to be written,AP11writes the value to that location.The ad-dresses are defined in the bq2011data sheet.For exam-ple:–>W05=A0causes the program to write A0in location05hex(LMD register).9EV2011Rev.C BoardThe following commands are available:?This display is shown.A Send break.Q Quit and return to DOS.R#Read at address#.S#Scan at address#.W#=**Write at address#value**.Appendix B:Troubleshooting If the EV2011Main Menu does not appear after starting EV2011,then communication to the bq2011has not been established.Please check the following:1.Confirm the proper serial port is being used.2.Confirm the battery divider is properly set for thenumber of cells in the battery pack.3.Confirm JP9is properly set for either an externalsupply through LBAT+(J1)or the microregulator.JP9on B enables the microregulator,while JP9on L enables LBAT+.If the battery divider on JP1–JP8is not set properly,the bq2011will not op-erate,and the EV2011UIP or AP11will not work.4.Confirm the battery is attached between BAT+andBAT–(J1and J2).5.Push S1.SEG1LED should be on indicating thatthe bq2011is properly powered.6.If the LED is not on,check the battery voltage onpin16of the bq2011to determine if it is above3Vbut below6.5V.7.If the LED is on,and the EV2011Main Menu stilldoes not appear,try using AP11to establish com-munication.Appendix A describes AP11.8.If communication cannot be established usingAP11,the problem is either the RS-232port in thePC or the EV2011interface section.Please contactBenchmarq if the interface section is not workingproperly on the EV2011board.10Rev.C Board EV2011分销商库存信息: TIEV2011。

EVBUM2520/DNCP4306 Synchronous Rectification Evaluation Board User's ManualDescriptionThis evaluation board user’s manual describes a high efficiency synchronous rectification evaluation board that can easily replace a secondary side rectification diode in an SMPS.The NCP4306 is used as synchronous rectification controller. The evaluation board has very few external components and illustrates how small and effective such a design can be.The NCP4306 features a very precise 0 mV turn −off comparator that supports even very low current flowing through the MOSFET even when very low RDSON synchronous MOSFETs is used.NCP4306 can be used in application working in CCM without external synchronization thanks to very low propagation delay and strong driver.Key Features•Precise Turn −off Comparator •Wide Input V oltage Range •High Operation Frequency •Strong MOSFET Driver •High Efficiency•Adjustable Minimum On and Off Times •Adjustable Light Load Detection Feature•Capable to Operate in Positive and Negative Branch •Small SizeTable 1.SMPS TypeSupply VoltageReverse VoltageEffective ResistanceFlyback, QR3.5 − 35 V150 V10 m WEVAL BOARD USER’S MANUALFigure 1. Evaluation Board PhotoCONNECTION DIAGRAMFigure 2. Possible Connections into Circuita)b)The evaluation board can be connected in circuit wherethe rectification diode is in the positive or negative branch.When connection to a positive branch is used, it is necessaryto use an external power supply (or auxiliary winding withrectification) to provide power to the evaluation board. VCCshould be referenced to A1 or A2 points.EVALUATION BOARD SCHEMATICFigure 3. Schematic of the NCP4306The evaluation board was designed to support a minimal external component count implementation. C1 is decoupling capacitor that should be placed as close as possible to the VCC and GND pins. Resistors RMIN_TON and RMIN_TOFF are used to set the protection interval when the synchronous MOSFET is turned on and off. It may be needed to adjust them according to used SMPS. RLLD sets light load detection time and CLLD is optional for LLD voltage decoupling. Components CSNB, RSNB1 and RSNB2 form a snubber circuit.Transistor M1 is 150 V V DS capable with R DSON of 9.3 m W typ@10 V .CIRCUIT LAYOUTThe PCB consists of a 2 layer FR4 board with 35 m m copper cladding. All components are surface mount. Critical component such as blocking capacitor C1 has to be placed carefully near the IC. The synchronous driver path to the MOSFET was done with very low resistance and parasitic inductance to minimize emissions and minimize turn−on and turn−off times. The same is true for the CS pin. For the CS pin, a kelvin contact was done to be able to sense the voltage directly at the drain. Improper connection of the GND and CS connects can impact the turn−off process especially when a very low R DSON MOSFET is used.Figure 4. Top LayerFigure 5. Bottom LayerFigure 6. Top Side ComponentsFigure 7. Bottom Side ComponentsFigure 8. Evaluation Board PhotosBILL OF MATERIALTable 2. BILL OF MATERIAL FOR THE NCP4306 PUT−IN BOARD D2PAK 150 VDesigna-tor Qty Description Value Tolerance Footprint Manufacturer Manufacturer PartNumberSubstitutionAllowedC11Ceramic Capacitor 2.2 m F / 50 V10%1206KEMET C1206C225K5RACTU Yes CLLD1Ceramic Capacitor1n20%0805KEMET C0805C102M5RACTU YesCSNB1Ceramic Capacitor1n25%1206TDKCorporation C3216C0G2J122J085AAYesIC11Secondary SideSynchronousRectificationController NCP4306AADZZZA−SOIC−08ONSemiconductorNCP4306AADZZZADR2GNoM11N−Channel PowerMOSFET FDB110N15A−D2PAK ONSemiconductorFDB110N15A YesRVCC1Resistor SMD 2.2 W1%0805YAGEO RC0805FR−072R2L Yes RLLD1Resistor SMD91 k W1%0805YAGEO RC0805FR−0791KL Yes R MIN_TOFF1Resistor SMD27 k W1%0805YAGEO RC0805FR−0727KL Yes R MIN_TON1Resistor SMD15 k W1%0805YAGEO RC0805FR−0715KL Yes R TRIG_PD1Resistor SMD10 k W1%0805YAGEO RC0805FR−0710KL Yes RSNB11Resistor SMD15 W1%1206YAGEO RC1206FR−0715RL Yes RSNB21Resistor SMD NU−1206−−Yes NOTE:All components are Pb−Free.PUBLICATION ORDERING INFORMATIONTECHNICAL SUPPORTNorth American Technical Support:Voice Mail: 1 800−282−9855 Toll Free USA/Canada Phone: 011 421 33 790 2910LITERATURE FULFILLMENT :Email Requests to:*******************ON Semiconductor Website: Europe, Middle East and Africa Technical Support:Phone: 00421 33 790 2910For additional information, please contact your local Sales Representative。

富⼠变频器选型■电源与机型●额定输⼊交流电压输⼊电压等级容量输⼊交流电压三相200V22kW 以下200V~230V 50/60Hz 30kW 以上200V~220V/50Hz200V~230V/50Hz 200V~230V/60Hz三相400V22kW 以下380V~480V 50/60Hz 30kW 以上380V~440V/50Hz 380V~480V/60Hz●输⼊电源容许波动电压：+10% ~ －15% 频率：+5% ~ －5%电压不平衡率：2%以内(IEC61800-3(5.2.3)为标准)●容量范围三相200V ：0.2~90kW 三相400V ：0.4~400kW■输出频率范围 G11S ：0.1~400Hz■规格概要系列名称FRENIC5000G11S额定过载电流200%0.5秒 150%1分钟制动转矩再⽣制动150%以上 3%ED （0.75kw 以下） 100%以上 5~2%ED （1.5~7.5kw 以下）约20%（11~22kw）约10%~15%（30kw以上）直流制动制动开始频率0.1~60Hz（可变）制动时间0~30s（可变）制动电流0~100%（P11:0~80%）（可变）加速、减速时间0.01~3600s（可单独设定加减速时间，各4步）多步速度运转16步频率设定信号0～±5Vdc、0～±10Vdc、4～20mAdc保护功能失速防⽌、过电流、瞬时停电⽋电压、过电压、变频器过热、外部报警（外部热继电器动作等）、电机过载（电⼦热继电器）、通信异常、CPU异常、存储器异常、短路、对地短路、熔断器短路、输⼊缺相保护、输出缺相保护异常输出接点1c接点保护结构全封闭⾃冷型[IP40] （0.75kw以下）全封闭强制风冷型 [IP40 风扇部分除外] （1.5~22kw）强迫风冷型[IP00] (30kw 以上) 30kw以上封闭型[IP20]为选件型号说明FRN 0.4 G 11 S-4 CX0.4---适配电动机功率G---适⽤范围G表⽰⼀般⼯业⽤；P表⽰风机，泵⽤11---开发系列S---防护结构：标准型4---输⼊电压 2表⽰三相200V系列；4表⽰三相400V系列CX—版型 CX表⽰中，英，⽇⽂显⽰；JE表⽰西⽂，⽇⽂显⽰富⼠电机G11S系列变频器三相380V型号装置容量额定电流配接电机DC电抗器型号FRN0.4G11S-4CX 1.2KVA 1.5A 0.4KW DCR4-0.4 FRN0.75G11S-4CX1.9KVA2.5A 0.75KW DCR4-0.75 FRN1.5G11S-4CX 2.8KVA3.7A 1.5KW DCR4-1.5 FRN2.2G11S-4CX4.2KVA5.5A2.2KW DCR4-2.2 FRN3.7G11S-4CX 6.9KVA 9.0A 3.7KW DCR4-3.7 FRN5.5G11S-4CX 10KVA 13A 5.5KW DCR4-5.5 FRN7.5G11S-4CX 14KVA 18A 7.5KW DCR4-7.5 FRN11G11S-4CX 18KVA 24A 11KW DCR4-11 FRN15G11S-4CX23KVA 30A 15KW DCR4-15 FRN18.5G11S-4CX 30KVA 39A 18.5KW DCR4-18.5 FRN22G11S-4CX 34KVA 45A 22KW DCR4-22A FRN30G11S-4CX 46KVA 60A 30KW DCR4-30B FRN37G11S-4CX 57KVA 75A 37KW DCR4-37BFRN45G11S-4CX 69KVA 91A 45KW DCR4-45B FRN55G11S-4CX 85KVA 112A 55KW DCR4-55B FRN75G11S-4CX 114KVA 150A 75KW DCR4-75B FRN90G11S-4CX 134KVA 176A 90KW DCR4-90B FRN110G11S-4CX 160KVA 210A 110KW DCR4-110B FRN132G11S-4CX 193KVA 253A 132KW DCR4-132B FRN160G11S-4CX 232KVA 304A 160KW DCR4-160B FRN200G11S-4CX 287KVA 377A 200KW DCR4-200B FRN220G11S-4CX 316KVA 415A 220KW DCR4-220B FRN280G11S-4CX 396KVA 520A 280KW DCR4-280B FRN315G11S-4CX 445KVA 585A 315KW DCR4-315B FRN335G11S-4CX 495KVA 650A 355KW DCR4-355B FRN400G11S-4CX 563KVA 740A 400KW DCR4-400B富⼠电机P11S系列变频器三相380V型号装置容量额定电流配接电机DC电抗器型号FRN7.5P11S-4CX 14KVA 16.5A 7.5KW DCR4-7.5 FRN11P11S-4CX 18KVA 23A 11KW DCR4-11 FRN15P11S-4CX 23KVA 30A 15KW DCR4-15 FRN18.5P11S-4CX 30KVA 37A 18.5KW DCR4-18.5 FRN22P11S-4CX 34KVA 44A 22KW DCR4-22A FRN30P11S-4CX 46KVA 60A 30KW DCR4-30B FRN37P11S-4CX57KVA 75, A 37KW DCR4-37B FRN45P11S-4CX 69KVA 91A 45KW DCR4-45B FRN55P11S-4CX 85KVA 112A 55KW DCR4-55B FRN75P11S-4CX 114KVA 150A 75KW DCR4-75B FRN90P11S-4CX 134KVA 176A 90KW DCR4-90BFRN110P11S-4CX 160KVA 210A 110KW DCR4-110B FRN132P11S-4CX 193KVA 253A 132KW DCR4-132BFRN160P11S-4CX 232KVA 304A 160KW DCR4-160B FRN200P11S-4CX 287KVA 377A 200KW DCR4-200BFRN220P11S-4CX 316KVA 415A 220KW DCR4-220B FRN280P11S-4CX 400KVA 520A 280KW DCR4-280BFRN315P11S-4CX 445KVA 585A 315KW DCR4-315B FRN355P11S-4CX 495KVA 650A 355KW DCR4-355BFRN400P11S-4CX 563KVA 740A 400KW DCR4-400B FRN450P11S-4CX 640KVA 840A 450KW DCR4-450BFRN500P11S-4CX 731KVA 960A 500KW DCR4-500B富⼠FRN5.5G11S-4CX多功能变频器应⽤范围富⼠FRN5.5G11S-4CX多功能变频器技术参数推荐相关产品富⼠多功能变频器 FRN7.富⼠多功能变频器 FRN28富⼠多功能变频器 FRN11富⼠多功能变频器 FRN55富⼠多功能变频器 FRN37富⼠多功能变频器 FRN3.富⼠多功能变频器 FRN33。

对中纠偏型号对照表光电式我公司型号 EMG 型号 说明 LSE 480/01 LSE 770/01 LSE 1075/01 LSE 1375/01LIC 480/01 LIC 770/01 LIC 1075/01 LIC 1375/01光源LR13.01 LS13.01测量光电接收头 LR14.01 LS14.01参考光电接收头 RCT2.11.1 EVK2.11.XEVK2.12.X X 表示可选数字光电接收调节装置中的控制电路板ORAD1-CP/250 ORAD1-CP/400 ORAD1-CP/600 ORAD1-CP/800 ORAD1-CP/1000 EVK2-CP/250 EVK2-CP/400 EVK2-CP/600 EVK2-CP/800 EVK2-CP/1000 光电接收调节装置（单头对边整机） ORAD2-CP/550 ORAD2-CP/750ORAD2-CP/1000 ORAD2-CP/1300 ORAD2-CP/1650 EVM2-CP/550 EVM2-CP/750EVM2-CP/1000 EVM2-CP/1300 EVM2-CP/1650光电接收调节装置 （双头对中整机）电感式我公司型号 EMG 型号 说明ISI300S/E ISI500S/E ISI800S/E IM300S02/E01 IM500S02/E01 IM800S02/E01 普通电感式检测头（线圈）ISH300 ISH500 ISH800IMP300.01 IMP500.02 IMP800.02高精度电感式检测头（线圈） ISB/01 PIB04.0XX 表示可选数字高精度线圈驱动盒（发射）IEB/01 PIB04.04高精度线圈放大盒（接收）IEA.01BMI2.01 BMI2.02电感式信号处理电路板（模拟）IED.01 BMI2.11.XX 表示可选数字电感式信号处理电路板（数字带CANBUS ）IND2-CP BMI2-CP普通电感式整机 INDH-CP BMH-CP高精度电感式整机 IFM普通电感式框架 HFM高精度电感式框架 FRC玻璃钢盖板 框架尺寸按需要定制，价格根据尺寸定，玻璃钢盖板按米计价。

深圳市研控自动化科技有限公司目录前言 (1)1概述 (2)1.1产品介绍 (2)1.2特性 (2)1.3应用领域 (2)1.4产品命名规则 (2)2性能指标 (3)2.1电气特性 (3)2.2使用环境 (3)3安装 (4)3.1安装尺寸 (4)3.2安装方法 (4)4端口与接线 (5)4.1接线示意图 (5)4.2端口定义 (6)4.2.1状态指示灯 (6)4.2.2输入/输出端口 (6)4.2.3拨码开关 (6)4.2.4电源端口 (6)4.3输入/输出端口操作 (7)4.4拨码开关设定 (8)4.4.1终端电阻设定 (8)4.4.2地址设定 (8)5 电机规格及接线 (10)5.1技术规格 (10)6报警排除 (11)7版本修订历史 (12)8保修及售后服务 (13)8.1保修 (13)8.2售后服务 (13)前言感谢您使用本公司总线型集成式电机。

在使用本产品前，请务必仔细阅读本手册，了解必要的安全信息、注意事项以及操作方法等。

错误的操作可能引发极其严重的后果。

声明本产品的设计和制造不具备保护人身安全免受机械系统威胁的能力，请用户在机械系统设计和制造过程中考虑安全防护措施，防止因不当的操作或产品异常造成事故。

由于产品的改进，手册内容可能变更，恕不另行通知。

用户对产品的任何改装我公司将不承担任何责任。

阅读时，请注意手册中的以下标示：本用户手册所述内容仅适用于以下机型:1概述1.1产品介绍ESS257-R系列总线型集成式电机采用新一代32位DSP控制技术和功角控制技术，支持标准MODBUS-RTU协议，最高转速可达3000rmp以上，且高速力矩衰减远低于普通开环驱动器，可大幅提升步进电机的高速性能和力矩使用率，有效降低电机发热和振动，从而提升机器的加工效率和精度。

采用基于负载的电流控制技术，可有效降低电机发热，延长电机使用寿命。

驱动器内置的报警输出信号，方便上位机进行监测和控制。

位置超差报警功能保证了加工设备的安全运行。

lvcmos25电平标准-回复什么是LVCMOS电平标准？LVCMOS（Low Voltage Complementary Metal-Oxide-Semiconductor）是一种低电压互补金属-氧化物-半导体技术。

它是指CMOS电路中工作电压为3.3V以下的标准，通常被用于通信、工控、数字电路和嵌入式系统中。

而LVCMOS25是指工作电压为2.5V的LVCMOS电平标准。

为什么需要LVCMOS25电平标准？在数字电路中，不同电平标准的选择会对电路的稳定性、功耗和速度等性能产生影响。

而对于3.3V以下的低电压系统来说，如何保证电路工作的可靠性和兼容性是一个重要的问题。

LVCMOS25电平标准通过将工作电压限制在2.5V，既提供了更低功耗的电路设计方案，又保持了兼容性，使其可以与其他电路和模块进行正常通信。

LVCMOS25电平标准的特性有哪些？LVCMOS25电平标准具有以下主要特性：1. 工作电压范围：LVCMOS25标准规定工作电压为2.375V至2.625V之间，可以满足大多数低电压CMOS电路的要求。

2. 电平定义：根据LVCMOS25标准，输入电平小于0.7V被视为逻辑低电平，大于1.7V被视为逻辑高电平。

在0.7V至1.7V之间的电压被视为不确定电平。

3. 输出电流：根据LVCMOS25标准，输出驱动电流的最小值为2mA，最大值为24mA。

通过这一区间的选择，电路设计师可以根据需要选择合适的输出电流。

4. 输入电流：LVCMOS25标准规定了输入电流的最大值为1uA，这可以保证输入端的稳定性，并减少功耗。

5. 稳定性和耐噪声：LVCMOS25标准对于电路的信号稳定性和抗噪声能力也有一定规定。

例如，对于输入端的噪声抗干扰能力，LVCMOS25标准规定了电路在电压斜率达到1V/ns时的稳定性要求。

如何设计符合LVCMOS25电平标准的电路？要设计符合LVCMOS25电平标准的电路，可以参考以下步骤：1. 选择合适的器件和芯片：首先需要选择符合LVCMOS25标准的器件和芯片，这些器件和芯片应支持2.5V的工作电压和相应的电平定义。

POWER WAVE 455/R (CE)™IEC 974-1OPERATOR’S MANUALIM691Feb-2019ŒISO 9001Designed and Manufactured Under aQuality Program Certified by Copyright © 2001 Lincoln Global Inc.This manual covers equipment which is nolonger in production by The Lincoln Electric Co. Speci cations and availability of optional features may have changed.Mar ‘95Mar. ‘93for selecting a QUALITY product by Lincoln Electric. We want you to take pride in operating this Lincoln Electric Company product ••• as much pride as we have in bringing this product to you!Read this Operators Manual completely before attempting to use this equipment. Save this manual and keep it handy for quick reference. Pay particular attention to the safety instructions we have provided for your protection.The level of seriousness to be applied to each is explained below:vvFIGURE A.1 - CONNECTION DIAGRAM ON CONNECTION/INPUT ACCESS DOORNOTE: Turn main input power to the machine OFF before performing connection procedure. Failure to do so will result in damage to the machine.Excessive voltage often result ing performance.of non-standard lengths greater than 25 feet, can lead to communi-cation problems (system shutdowns), poor motor acceleration (poor EXTERNAL I/O CONNECTORThe Power Wave is equipped with a port for making simple input signal connections. The port is divided into three groups: Trigger group, Cold Inch Group and Shutdown Group. Because the Power Wave is a ‘slave’ on the DeviceNet network, the Trigger and Cold Inch Groups are disabled when the DeviceNet/Gateway is active.The shutdown group is always enabled. Shutdown 2is used for signaling low flow in the water cooler.Unused shutdowns must be jumpered. Machines from the factory come with the shutdowns already jumpered. (See Figure A.3)Shutdown 1 and shutdown 2 inputs are for weld sys-tem faults and should not be used as emergency or safety shutdowns.FIGuRE A.3FEED HEAD BOARD DIP SWITCH:switch 1 = reserved for future useswitch 2 = reserved for future useswitch 3 = reserved for future useswitch 4 = reserved for future useswitch 5 = reserved for future useswitch 6 = reserved for future useswitch 7 = negative polarity switchswitch 7electrode polarityoff positiveon negativeswitch 8 = high speed gearswitch 8wire drive gearoff low speed gearon high speed gear DEVICENET/GATEWAY BOARD DIP SWITCH,BANK (S2):switch 1,2 = configure the baud rate for DeviceNETPrior to S24958-6 softwareswitch 1switch 2 baud rate off off-------on off125Koff on250Kon on 500S24958-6 and later softwareswitch 1 switch 2 baud rate off off125Koff on250Kon off500Kon on 500Kprogrammable value. Consult local LincolnTechnical representativeswitch 5 = reserved for future useswitch 6 = reserved for future useswitch 7 = reserved for future useswitch 8 = reserved for future useSAFETY PRECUATIONSRead this entire section of operating instructions before operating the machine.ELECTRIC SHOCK can kill.• U nless using cold feed feature, whenfeeding with gun trigger, the electrodeand drive mechanism are always elec-trically energized and could remainenergized several seconds after thewelding ceases.• Do not touch electrically live parts or electrodes with your skin or wet clothing.• Insulate yourself from the work and ground.• Always wear dry insulating gloves.fumes from breathing zone.Do not weld on containers that haveheld combustibles.ARC RAYS can burn.• Wear eye, ear, and body protection.Observe additional guidelines detailed in the begin-ning of this manual.INPUT POWER ONOFFHIGH TEMPERATUREMACHINE STATUSCIRCUIT BREAKERWIRE FEEDERPOSITIVE OUTPUTNEGATIVE OUTPUT3 PHASE INVERTERINPUT POWERTHREE PHASEDIRECT CURRENTGMAWFCAWGTAWOPEN CIRCUITVOLTAGEINPUT VOLTAGEOUTPUT VOLTAGEINPUT CURRENTOUTPUT CURRENTPROTECTIVEGROUND GRAPHIC SYMBOLS THAT APPEAR ONTHIS MACHINE OR IN THIS MANUALU0U1U2I1I2SMAWWARNING ORCAUTIONRECOMMENDED EQUIPMENT•Automatic OperationAll welding programs and procedures are set through software for the robotic Power Waves. FANUC robots equipped with RJ-3 controllers may communi-cate directly to the Power Wave. Other pieces of equipment such as PLC ’s or computers can commu-nicate to the Power Wave using DeviceNET. All wire welding processes require a robotic Power Feed wire feeder.REQUIRED EQUIPMENT• PF-10/R Wire Feeder, K1780-1• Control Cables (22 pin to 22 pin), K1795-10,-25,-50,-100• Control Cables (for use on FANUC robot arm, 22 pin to 14pin, 10 ft), K1804-1• Control Cables (for use on FANUC robot arm, 22 pin to 14pin, 18 in), K1805-1• Control Cables (for use on FANUC robot arm, 22 pin to 14pin, 18 in), K1804-2LIMITATIONS• The POWER WAVE 455/R (CE) is not suitable for SMAW, CAC-A or other processes not listed.• Power Waves are not to be used in outdoor environ-ments.• Only Arc-Link Power Feed wire feeders and user interfaces may be used. Other Lincoln wire feeders or non-Lincoln wire feeders cannot be used.DUTY CYCLE AND TIME PERIODThe Power Feed wire feeders are capable of welding at a 100% duty cycle (continuous welding). The power source will be the limiting factor in determining system duty cycle capability. Note that the duty cycle is based upon a ten minute period. A 60% duty cycle repre-sents 6 minutes of welding and 4 minutes of idling in a ten minute period.GENERAL DESCRIPTIONThe Power Wave power source is designed to be a part of a modular, multi-process welding system.Depending on configuration, it can support constant current, constant voltage, Surface Tension Transfer and pulse welding modes.The Power Wave power source is designed to be used with the family of Power Feed wire feeders,operating as a system. Each component in the system has special circuitry to "talk with" the other system components, so each component (power source, wire feeder, electrical accessories) knows what the other is doing at all times. The components communicate using Arc-Link protocol.Robotic systems can communicate with other industri-al machines via DeviceNET protocol. The result is a highly intrigated and flexible welding cell.GENERAL DESCRIPTION - POWER WAVE 455/R (CE)The POWER WAVE 455/R (CE) is a high perfor-mance, digitally controlled inverter welding power source capable of complex, high-speed waveform control. Properly equipped, it can support the GMAW,GMAW-P, FCAW, GTAW and STT processes. It car-ries an output rating of either 500 amps @ 40 volts (60% duty cycle); or 400 amps @ 36 volts (100% duty cycle), depending on input voltage and frequency. The Surface Tension transfer process (STT) is supported at currents up to 325 amps, at 100% duty cycle.If the duty cycle is exceeded, a thermostat will shut off the output until the machine cools to a reasonable operating temperature.RECOMMENDED PROCESSES AND EQUIPMENTRECOMMENDED PROCESSESThe POWER WAVE 455/R (CE) can be set up in a number of configurations, some requiring optional equipment or welding programs. Each machine is fac-tory preprogrammed with multiple welding procedures,typically including GMAW, GMAW-P, FCAW, GTAW and STT for a variety of materials, including mild steel,stainless steel, cored wires, and aluminum. The STT process supports mild steel and stainless steel weld-ing.The POWER WAVE 455/R (CE) is recommended only for automatic or mechanized applications such asSAFETY PRECAUTIONSELECTRIC SHOCK can kill.• Only Qualified personnel shouldperform this maintenance.• Turn the input power OFF at thedisconnect switch or fuse boxbefore working on this equipment.•Do not touch electrically hot parts.ROUTINE MAINTENANCERoutine maintenance consists of periodically blowing out the machine, using a low pressure airstream, to remove accumulated dust and dirt from the intake and outlet louvers, and the cooling channels in the machine.This Troubleshooting Guide is provided to help you locate and repair possible machine malfunctions. Simply follow the three-step procedure listed below. Step 1.LOCATE PROBLEM(SYMPTOM).Look under the column labeled “PROBLEM (SYMP-TOMS)”. This column describes possible symptoms that the machine may exhibit. Find the listing that best describes the symptom that the machine is exhibiting.Step 2.POSSIBLE CAUSE.The second column labeled “POSSIBLE CAUSE” lists the obvious external possibilities that may contribute to the machine symptom.Step 3.RECOMMENDED COURSE OF ACTION This column provides a course of action for the Possible Cause, generally it states to contact your local Lincoln Authorized Field Service Facility.If you do not understand or are unable to perform the Recommended Course of Action safely, contact your local Lincoln Authorized Field Service Facility.Service and Repair should only be performed by Lincoln Electric Factory Trained Personnel. Unauthorized repairs performed on this equipment may result in danger to the technician and machine operator and will invalidate your factory warranty. For your safety and to avoid Electrical Shock, please observe all safety notes and precautions detailed throughout this manual.__________________________________________________________________________TROUBLESHOOT SYSTEM PROBLEMSThe Status LED on the power source case front can help diagnose problems down to the system component (power source, wire feeder, wire drive, etc.) level.If, for any reason, the system does not appear to be working properly, always check the color of the Status LED, and refer to the following chart to help you determine which system compo-nent (power source, wire feeder, wire drive, etc.) may be faulty.Replace the components identified as potentially faulty with known good components, and the system should operate normally.Status LED is solid green (no blinking). Status LED is blinking green.Status LED is blinking red and green. Status LED is blinking red.System operating normally.1.Normal condition for the first few seconds after thepower is turned on.1.If the Thermal LED is also lit, see “Yellow ThermalLED Lit” in the Main Troubleshooting Chart.2.Input voltage is too high or too low. Make certainthat input voltage is proper, according to theRating Plate located on the rear of the machine. 3.Power source is having trouble communicatingwith wire feeder or its components. Turn machine off. Disconnect control cable from the WireFeeder Receptacle. Turn power back on. IfStatus LED then blinks green, the problem is with the wire feeder. If light is still blinking red andgreen, contact an authorized Lincoln Field Service facility.1.Error code display. Contact an authroized LincolnField Service Shop.If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, con-Hard Automation, Electrode Positive, STT Configuration-+ELECTRODE LEADCONTROL CABLE K1795WATER COOLER POWERCONNECTIONDEVICENET CABLE TO PLC/CONTROLLERDEVICENET CABLE TO PLC/CONTROLLER ELECTRODE LEADCONTROL CABLE K1795WATER COOLERPOWER CONNECTIONRobotic Set Up, Electrode Positive, CV/Pulse ConfigurationJapaneseChineseKoreanArabicREAD AND UNDERSTAND THE MANUFACTURER’S INSTRUCTION FOR THIS EQUIPMENT AND THE CONSUMABLES TO BE USED AND FOLLOW YOUR EMPLOYER’S SAFETY PRACTICES.SE RECOMIENDA LEER Y ENTENDER LAS INSTRUCCIONES DEL FABRICANTE PARA EL USO DE ESTE EQUIPO Y LOS CONSUMIBLES QUE VA A UTILIZAR, SIGA LAS MEDIDAS DE SEGURIDAD DE SU SUPERVISOR.LISEZ ET COMPRENEZ LES INSTRUCTIONS DU FABRICANT EN CE QUI REGARDE CET EQUIPMENT ET LES PRODUITS A ETRE EMPLOYES ET SUIVEZ LES PROCEDURES DE SECURITE DE VOTRE EMPLOYEUR.LESEN SIE UND BEFOLGEN SIE DIE BETRIEBSANLEITUNG DER ANLAGE UND DEN ELEKTRODENEINSATZ DES HER-STELLERS. DIE UNFALLVERHÜTUNGSVORSCHRIFTEN DES ARBEITGEBERS SIND EBENFALLS ZU BEACHTEN.JapaneseChineseKoreanArabicLEIA E COMPREENDA AS INSTRUÇÕES DO FABRICANTE PARA ESTE EQUIPAMENTO E AS PARTES DE USO, E SIGA AS PRÁTICAS DE SEGURANÇA DO EMPREGADOR.。

JTAG Interface :Common Pinoutsamt_ann003 (v1.1) Application NoteOVERVIEWThis Application Note resumes the Common JTAG interfacepinouts used by the most popular manufacturers ofprocessors, FPGAs or CPLDs devices as ARM, Altera,Lattice, MIPS, Xilinx and so more …General Notes:• Amontec accepts NO responsibility for the accuracy of thefollowing information. These are the pinouts that our JTAGadapters use, but a semiconductor manufacturer maychange these specifications at any time. We stronglyrecommend that you use the BDM/ISP/JTAG headerspecified by the semiconductor manufacturer and refer tothis list before connecting to your target.• VREF pins should be the I/O voltage reference. This signalis used to determine the electrical characteristics of theother IO signals. VREF should be regulated• If you are building your own board, place the header asclose to the processor as possible, use short traces ofapproximately equal length on all clock and data signals.• Unless otherwise indicated, all headers are male dual-rowheader connectors (2.54 mm pitch).Pins are identified by number and type:• o = output from target processor to the emulator.• I = input to target processor from the emulator.• p = power pin• od = open drain driven from the JTAG emulator, eitherfloating or actively held low• nc = not connected, ie: not driven nor read by ODDinterface• k = key, pin is typically missing from the target boardPowered byALL BDM / ISP / JTAG interfacesdescribed in this dodument may beemulated by Amontec ChameleonPOD!BDM \ ISP \ JTAG CONNECTORSOverview (1)BDM \ ISP \ JTAG ConnectorS (1)ALTERA ByteBlaster MV and II 10-pin (JTAG) (2)ALTERA ByteBlaster MV and II 10-pin (PS MODE) (2)ALTERA ByteBlaster II 10-pin (AS MODE) (3)AMD – Athlon 16-pin (JTAG) (3)AMD – Èlan SC520 12-pin (JTAG) (4)AMD – Opteron 26-pin (JTAG) (4)ARM 14-pin (JTAG) (5)ARM 20-pin (JTAG) (5)ARM 20-pin with RTCK feature (JTAG) (6)ATMEL AVR STKx00 ISP Download Cable 10-pin (ISP) (6)ATMEL ATDH2081 Download Cable 10-pin (ISP) (7)CYPRESS UltraISR Download cable 10-pin (JTAG) (7)CYPRESS UltraISR Download cable 10-pin (ISR) (8)IBM / MOTOROLA PPC “COP” Interface 16-pin (JTAG) (8)IBM 4xx 16-pin (JTAG RISCWatch) (9)LATTICE ispDOWNLOAD 8-pin (JTAG and ISP) (9)LATTICE ispDOWNLOAD 10-pin (JTAG and ISP) (10)MIPS – EJTAG-2.5 14-pin (JTAG) (10)MOTOROLA Freescale Colfire 26-pin (BDM P&E) (11)MOTOROLA Freescale MPCxxx 10-pin (BDM) (11)MOTOROLA “OnCe”, On Chip Emulation 14-pin (JTAG) (12)PHILLIPS's MIPS 20-pin (JTAG) (12)ST PSD FlashLINK programmer 14-pin (JTAG) (13)TI MSP430 14-pin (JTAG) (13)TOSHIBA's MIPS 20-pin (JTAG) (14)XILINX Parallel Cable III 9-pin (Slave Serial) (14)XILINX Parallel Cable III and IV 9-pin (JTAG) (15)XILINX Parallel IV 14-pin (JTAG and Slave Serial) (15)Figure and Table index (16)Content Revisions (17)Contact Amontec (17)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.Amontec JTAG Interface: Common PinoutsALTERA BYTEBLASTER MV AND II 10-PIN (JTAG)AMONTEC REF: ALTERA10JTAGNAME: ALTERA ByteBlaster MV and II (JTAG)CATEGORY: JTAGTARGET: All ALTERA CPLDs and FPGAsCOMMENT: See ALTERA ByteBlaster MV or II datasheet for more detailsCONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualTCK i 1 2 p GNDTDO o 3 4 p VREFTMS i 5 6 nc -- nc 7 8 nc -TDI i 9 10 p gndTable 1: ALTERA ByteBlaster MV and II (JTAG) connector (target board)ALTERA BYTEBLASTER MV AND II 10-PIN (PS MODE)AMONTEC REF: ALTERA10PSNAME: ALTERA ByteBlaster MV and II (PS MODE)CATEGORY: ISPTARGET: A large part of ALTERA CPLDs and FPGAsCOMMENT: See ALTERA ByteBlaster MV or II datasheet for more detailsCONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualDCLK i 1 2 p GNDCONF_DONE o 3 4 p VREFnCONFIG i 5 6 nc -nSTATUS o 7 8 nc -DATA0 i 9 10 p gndTable 2: ALTERA ByteBlaster MV and II (PS MODE) connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.JTAG Interface: Common Pinouts AmontecALTERA BYTEBLASTER II 10-PIN (AS MODE)AMONTEC REF: ALTERA10ASNAME: ALTERA ByteBlaster MV and II (AS MODE)CATEGORY: ISPTARGET: A large part of ALTERA FPGAsCOMMENT: See ALTERA ByteBlaster II datasheet for more detailsCONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualDCLK i 1 2 p GNDCONF_DONE o 3 4 p VREFnCONFIG i 5 6 i nCONFIGnSTATUS o 7 8 i nCSDATA0 i 9 10 p gndTable 3: ALTERA ByteBlaster MV and II (AS MODE) connector (target board)AMD – ATHLON 16-PIN (JTAG)AMONTEC REF: AMD16ATHLONNAME: AMD - AthlonCATEGORY: JTAGTARGET: AMD - AthlonCOMMENT: See AMD's Athlon datasheet for more detailsCONNECTOR: 16-pin Header (1.27mm)CONNECTOR TYPE: d ualVREF p 1 2 i TCK- nc 3 4 i TMS- nc 5 6 nc -- nc 7 8 i TDI- nc 9 10 i TRST_NGND p 11 12 o TDODBREQ_N i 13 14 o DBRDYSRST_N od 15 16 i PLLTEST_NTable 4: AMD - Athlon connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.Amontec JTAG Interface: Common PinoutsAMD – ÈLAN SC520 12-PIN (JTAG)AMONTEC REF: AMD12ELANNAME: AMD – Èlan SC520CATEGORY: JTAGTARGET: AMD Èlan SC520COMMENT: See AMD's Èlan SC520 datasheet for more detailsCONNECTOR: 12-pin Header (2mm)CONNECTOR TYPE: d ualGND p 1 2 p VREFTCK i 3 4 o CMDACKTMS i 5 6 i BR/TCTDI i 7 8 o STOP/TXTDO o 9 10 o TRIG/TRACESSRST_N od 11 12 k KEYTable 5: AMD – Èlan SC520 connector (target board)AMD – OPTERON 26-PIN (JTAG)AMONTEC REF: AMD26OPTERONNAME: AMD - OpteronCATEGORY: JTAGTARGET: AMD - OpteronCOMMENT: See AMD's Opteron datasheet for more detailsCONNECTOR: 26-pin Header (1.27mm)CONNECTOR TYPE: d ualGND p 1 2 p GNDRSVD1 o 3 4 p GNDRSVD0 i 5 6 p GNDDBREQ_N i 7 8 p GNDDBRDY o 9 10 p GNDTCK i 11 12 p GNDTMS i 13 14 p GNDTDI i 15 16 p GNDTRST_N i 17 18 p GNDTDO o 19 20 p GNDVREF p 21 22 p GNDVREF p 23 24 nc -KEY k 25 26 nc –Table 6: AMD - Opteron connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.JTAG Interface: Common Pinouts AmontecARM 14-PIN (JTAG)AMONTEC REF: ARM14NAME: ARM 14-pinCATEGORY: JTAGTARGET: ARM7, ARM9, ARM10, XSCALECOMMENT: There are two standard ARM pinouts, an older 14 pin specification and a newer 20 pin specification. CONNECTOR: 14-pin Header (2.54mm)CONNECTOR TYPE: d ualVREF p 1 2 p GNDTRST_N i 3 4 p GNDTDI i 5 6 p GNDTMS i 7 8 p GNDTCK i 9 10 p GNDTDO o 11 12 od SRST_NVREF p 13 14 p GNDTable 7: ARM 14-pin connector (target board)ARM 20-PIN (JTAG)AMONTEC REF: ARM20NAME: ARM 20-pinCATEGORY: JTAGTARGET: ARM7, ARM9, ARM10, XSCALECOMMENT: There are two standard ARM pinouts, an older 14 pin specification and a newer 20 pin specification. CONNECTOR: 20-pin Header (2.54mm)CONNECTOR TYPE: d ualVREF p 1 2 nc -TRST_N i 3 4 p GNDTDI i 5 6 p GNDTMS i 7 8 p GNDTCK i 9 10 p GND- nc 11 12 p GNDTDO o 13 14 p GNDSRST_N od 15 16 p GND- nc 17 18 p GND- nc 19 20 p GNDTable 8: ARM 20-pin connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.Amontec JTAG Interface: Common PinoutsARM 20-PIN WITH RTCK FEATURE (JTAG)AMONTEC REF: ARM20RTCKNAME: ARM 20-pin with RTCK featureCATEGORY: JTAGTARGET: ARM7-s, ARM9-s, ARM10-s. ARMx-s processor series use the RTCK JTAG Baudrate feature. COMMENT:CONNECTOR: 20-pin Header (2.54mm)CONNECTOR TYPE: d ualVREF p 1 2 nc -TRST_N i 3 4 p GNDTDI i 5 6 p GNDTMS i 7 8 p GNDTCK i 9 10 p GNDRTCK o 11 12 p GNDTDO o 13 14 p GNDSRST_N od 15 16 p GND- nc 17 18 p GND- nc 19 20 p GNDTable 9: ARM 20-pin connector with RTCK feature (target board)ATMEL AVR STKX00 ISP DOWNLOAD CABLE 10-PIN (ISP)AMONTEC REF: STKx0010NAME: ATMEL AVR STKx00 ISP Download Cable (STK200 and STK300)CATEGORY: ISPTARGET: ATMEL AVR micro-processorCOMMENT: See ATMEL AVR STK200 or STK300 download cable datasheet for more details.CONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualMOSI i 1 2 p VREFLED i 3 4 p GNDRST i 5 6 p GNDSCK i 7 8 p GNDMISO o 9 10 p GNDTable 10: ATMEL AVR STKx00 ISP Download Cable connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.JTAG Interface: Common Pinouts AmontecATMEL ATDH2081 DOWNLOAD CABLE 10-PIN (ISP)AMONTEC REF: ATDH208110NAME: ATMEL ATDH2081 Download CableCATEGORY: ISPTARGET: Atmel’s ATDH2081 download cable allows designers to configure Atmel’s family of AT6K/40K Field Programmable Gate Array (FPGA) and AT94K Field Programmable System Level Integrated Circuit(FPSLIC) devices. Download CableCOMMENT: See CYPRESS UltraISR JTAG download cable datasheet for more details.CONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualDI i 1 2 i CONCI i 3 4 nc CODO nc 5 6 o ERRGND p 7 8 p VREF- nc 9 10 nc -Table 11: ATMEL ATDH2081 Download Cable connector (target board)CYPRESS ULTRAISR DOWNLOAD CABLE 10-PIN (JTAG)AMONTEC REF: ULTRAISR10NAME: CYPRESS UltraISR Download cable (JTAG)CATEGORY: JTAGTARGET: All Cypress CPLD TypesCOMMENT: See CYPRESS UltraISR JTAG download cable datasheet for more details.CONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualGND p 1 2 i TMSJTAGen i 3 4 i TCKISR i 5 6 i TDIVREF p 7 8 kTDO o 9 10 p GNDGND p 1 2 i TMSTable 12: CYPRESS UltraISR Download cable (JTAG) connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.Amontec JTAG Interface: Common PinoutsCYPRESS ULTRAISR DOWNLOAD CABLE 10-PIN (ISR)AMONTEC REF: ULTRAISR10NAME: CYPRESS UltraISR Download cable (ISR)CATEGORY: ISPTARGET: All Cypress CPLD TypesCOMMENT: See CYPRESS UltraISR JTAG download cable datasheet for more details.CONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualGND p 1 2 i SMODEISRVPP i 3 4 i SCLKISR i 5 6 i SDIVREF p 7 8 kSDO o 9 10 p GNDTable 13: CYPRESS UltraISR Download cable (ISR) connector (target board)IBM / MOTOROLA PPC “COP” INTERFACE 16-PIN (JTAG)AMONTEC REF: COP16NAME: COP InterfaceCATEGORY: JTAGTARGET: MOTOROLA Freescale PowerPC 6xx, 7xx, 8xxx and IBM PowerPC 6xx and 7xxCOMMENT: IBM also refers to this connection as RISCWatch.CONNECTOR: 16-pin Header (2.54mm)CONNECTOR TYPE: d ualTDO o 1 2 i QACK_NTDI i 3 4 i TRST_NHALTED o 5 6 p VREFTCK i 7 8 nc -TMS i 9 10 nc -SRST_N od 11 12 p GNDHRST_N od 13 14 nc -CKSTP_OUT o 15 16 p GNDTable 14: IBM / MOTOROLA “COP” Interface connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.JTAG Interface: Common Pinouts Amontec© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtmlAll other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.IBM 4XX 16-PIN (JTAG RISCWATCH)AMONTEC REF: IBM16 NAME: IBM 4xx CATEGORY: JTAG TARGET: IBM 4xxCOMMENT: IBM also calls this RISCWatch. CONNECTOR:16-pin Header (2.54mm)CONNECTOR TYPE: d ualTDO o 1 2 nc - TDI i 3 4 i TRST_N HALTED o 5 6 p VREFTCK i 7 8 nc - TMS i 9 10 nc - HALT i 11 12 p GND SRST_N od 13 14 k KEY- nc 15 16 p GND Table 15 IBM 4xx connector (target board)LATTICE ISPDOWNLOAD 8-PIN (JTAG AND ISP)AMONTEC REF: LATTICE8NAME: LATTICE ispDOWNLOAD 8-pin connector CATEGORY: JTAG ISPTARGET: All LATTICE CPLDsCOMMENT: See LATTICE ispDOWNLOAD JTAG download cable datasheet for more details. CONNECTOR:8-pin Header (2.54mm)CONNECTOR TYPE: i nlineVREF p 1SDO_TDO o 2 SDI_TDI i 3 ISPEN_N i 4- nc 5 MODE_TMS i 6GND p 7 SCLK_TCK i 8Table 16: LATTICE ispDOWNLOAD 8-pin connector (target board)Amontec JTAG Interface: Common PinoutsLATTICE ISPDOWNLOAD 10-PIN (JTAG AND ISP)AMONTEC REF: LATTICE10NAME: LATTICE ispDOWNLOAD 10-pin headerCATEGORY: JTAG ISPTARGET: All LATTICE CPLDsCOMMENT: See LATTICE ispDOWNLOAD JTAG download cable datasheet for more details.CONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualTCK i 1 2 nc -TMS i 3 4 p GNDTDI i 5 6 p VREFTDO o 7 8 p GNDTRST i 9 10 i ISPEN_NTable 17: LATTICE ispDOWNLOAD 10-pin connector (target board)MIPS – EJTAG-2.5 14-PIN (JTAG)AMONTEC REF: MIPS14NAME: MIPS - EJTAG 2.5CATEGORY: JTAGTARGET: MIPS, MIPS32, MIPS64, MIPS-32, MIPS-64,COMMENT: There are many MIPS JTAG headers in use. This is the one specified by MTI for EJTAG 2.5 CONNECTOR: 14-pin Header (2.54mm)CONNECTOR TYPE: d ualTRST_N i 1 2 p GNDTDI i 3 4 p GNDTDO o 5 6 p GNDTMS i 7 8 p GNDTCK i 9 10 p GNDSRST_N od 11 12 k KEYDINT i 13 14 p VREFTable 18: MIPS - EJTAG 2.5 connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.MOTOROLA FREESCALE COLFIRE 26-PIN (BDM P&E)AMONTEC REF: COLDFIRE26NAME: MOTOROLA Freescale Colfire BDM P&E (cable_cf)CATEGORY: BDMTARGET: MOTOROLA Freescale ColfireCOMMENT: See COLDFIRE P&E BDM debug product datasheet for more details.CONNECTOR: 26-pin Header (2.54mm)CONNECTOR TYPE: d ual- nc 1 2 i BKPT_NGND p 3 4 i DSCLKGND p 5 6 nc -SRST_N od 7 8 i DSIVREF p 9 10 o DSOGND p 11 12 o PST3PST2 o 13 14 o PST1PST0 o 15 16 nc (D3)(D2) nc 17 18 nc (D1)(D0) nc 19 20 p GND- nc 21 22 nc -GND p 23 24 o CPUCLKVREF p 25 26 i TEA_NTable 19: MOTOROLA Freescale Colfire (target board)MOTOROLA FREESCALE MPCXXX 10-PIN (BDM)AMONTEC REF: BDM10NAME: BDM for MOTOROLA FreescaleCATEGORY: BDMTARGET: MOTOROLA Freescale MPC8xx, MPC5xxCOMMENT: It is vital that pins 1 and 6 properly reflect the status of the target processor immediately following RESET. Some processors have configurable pins (MPC8xx, etc.) that are specified by a resetconfiguration word at the time of reset. These pins must be set properly and must ALWAYS reflect thestatus of the processor correctly. Check the ‘hardware reset configuration word’ in the MOTOROLAFreescale User’s manual.CONNECTOR: 10-pin Header (2.54mm)CONNECTOR TYPE: d ualFRZ_VFLS0 o 1 2 o SSRST_NGND p 3 4 i DSCKGND p 5 6 o FRZ_VFLS1SRST_N od 7 8 i DSDIVREF p 9 10 o DSDOTable 20: MOTOROLA Freescale MPCxxx BDM connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.MOTOROLA “ONCE”, ON CHIP EMULATION 14-PIN (JTAG)AMONTEC REF: ONCE14NAME: OnCe, On Chip EmulationCATEGORY: JTAGTARGET: MOTOROLA Freescale DSP, M*CORECOMMENT: -CONNECTOR: 14-pin Header (2.54mm)CONNECTOR TYPE: d ualTDI i 1 2 p GNDTDO o 3 4 p GNDTCK i 5 6 p GND- nc 7 8 nc -SRST_N od 9 10 i TMSVREF p 11 12 p GND- nc 13 14 i TRST_NTable 21: MOTOROLA “OnCe” connector (target board)PHILLIPS'S MIPS 20-PIN (JTAG)AMONTEC REF: MIPS20PHILLIPSNAME: PHILLIPS's MIPSCATEGORY: JTAGTARGET: MIPS, MIPS32, MIPS64, MIPS-32, MIPS-64COMMENT: See PHILLIPS's MIPS datasheet for more detailsCONNECTOR: 20-pin Header (2.54mm)CONNECTOR TYPE: d ualTRST_N i 1 2 p GNDTDI i 3 4 p GNDTDO o 5 6 p GNDTMS i 7 8 p GNDTCK i 9 10 p GNDSRST_N od 11 12 p GND- nc 13 14 p GND- nc 15 16 p GND- nc 17 18 p GND- nc 19 20 p GNDTable 22: PHILLIPS's MIPS connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.ST PSD FLASHLINK PROGRAMMER 14-PIN (JTAG)AMONTEC REF: PSD14NAME: ST PSD FlashLINK programmerCATEGORY: JTAGTARGET: All ST PSD Flash productsCOMMENT: See ST PSD FlashLINK JTAG cable datasheet for more details.CONNECTOR: 14-pin Header (2.54mm)CONNECTOR TYPE: d ualJEN_N od 1 2 od TRST_NGND p3 4 od i CNTLTDI i 5 6 o TSTATVREF p 7 8 i RST_NTMS i 9 10 p GNDTCK i 11 12 p GNDTDO o 13 14 o TERR_NTable 23: ST PSD FlashLINK programmer connector (target board)TI MSP430 14-PIN (JTAG)AMONTEC REF: MSP43014NAME: TI MSP430 JTAGCATEGORY: JTAGTARGET: Texas Instruments TI MSP430COMMENT: See Texas Instruments TI MSP430 JTAG interface for more details.CONNECTOR: 14-pin Header (2.54mm)CONNECTOR TYPE: d ualTDO o 1 2 p VREFTDI i 2 4 p ncTMS i 5 6 i TCLKTCK i 7 8 o TST_VPPGND p 9 10 nc -RST_NMI i 11 12 nc -- nc 13 14 nc -Table 24: TI MSP430 JTAG connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.TOSHIBA'S MIPS 20-PIN (JTAG)AMONTEC REF: MIPS20TOSHIBANAME: TOSHIBA's MIPSCATEGORY: JTAGTARGET: MIPS, MIPS32, MIPS64, MIPS-32, MIPS-64COMMENT: See TOSHIBA's MIPS datasheet for more detailsCONNECTOR: 20-pin Header (1.27mm)CONNECTOR TYPE: d ualTRST_N i 1 2 p GNDTDI i 3 4 p GNDTDO o 5 6 p GNDTMS i 7 8 p GNDTCK i 9 10 nc -VREF p 11 12 nc -SRST_N od 13 14 nc -- nc 15 16 nc -- nc 17 18 nc -- nc 19 20 nc -Table 25: TOSHIBA's MIPS connector (target board)XILINX PARALLEL CABLE III 9-PIN (SLAVE SERIAL)AMONTEC REF: XILINX9SERIALNAME: XILINX Parallel Cable III (Slave Serial)CATEGORY: ISPTARGET: A large part of XILINX FPGAs. SPARTAN, SPARTAN-XL, SPARTAN3, VIRTEX, VIRTEX-II, VIRTEX-PRO.COMMENT: See XILINX Parallel Cable III for more detailsCONNECTOR: 9-pin Header (2.54mm)CONNECTOR TYPE: i nlineVREF p 1GND p 2CCLK i 3- nc 4- nc 5DONE bod 6DIN i 7- nc 8PROG i 9Table 26: XILINX Parallel Cable III (Slave Serial) connector (target board)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtmlAll other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.XILINX PARALLEL CABLE III AND IV 9-PIN (JTAG)AMONTEC REF: XILINX9INLINENAME: XILINX Parallel Cable III and IV (JTAG) CATEGORY: JTAGTARGET: A large part of XILINX CPLDs, FPGAs and Flash. CoolRunner, CoolRunner-II, SPARTAN, SPARTAN-XL, SPARTAN3, VIRTEX, VIRTEX-II, VIRTEX-PRO. COMMENT: See XILINX Parallel Cable III or IV for more details CONNECTOR:9-pin inline Header (2.54mm)CONNECTOR TYPE: i nlineVREF p 1GND p 2- nc 3TCK (CCLK) i 4- nc 5TDO (DONE) bod 6TDI (DIN) i 7- nc 8TMS (PROG) i 9Table 27: XILINX Parallel Cable III and IV (JTAG) connector (target board)XILINX PARALLEL IV 14-PIN (JTAG AND SLAVE SERIAL)AMONTEC REF: XILINX14NAME: XILINX Parallel IV (JTAG and Slave Serial) CATEGORY: JTAG ISPTARGET: A large part of XILINX CPLDs, FPGAs and Flash. CoolRunner, CoolRunner-II, SPARTAN, SPARTAN-XL, SPARTAN3, VIRTEX, VIRTEX-II, VIRTEX-PRO. COMMENT: See XILINX USB PlatformCable for more details. CONNECTOR:14-pin Header (2mm)CONNECTOR TYPE: d ualVGND io 1 2 p VREFGND p 3 4 i TMS (PROG) GND p 5 6 i TCK (CCLK) GND p 7 8 o TDO (DONE) GND p 9 10 i TDI (DIN) GND p 11 12 nc - GND p 13 14 io NC (INIT)Table 28: XILINX Parallel IV (JTAG and Slave Serial) connector (target board)FIGURE AND TABLE INDEXTable 1: ALTERA ByteBlaster MV and II (JTAG) connector (target board) (2)Table 2: ALTERA ByteBlaster MV and II (PS MODE) connector (target board) (2)Table 3: ALTERA ByteBlaster MV and II (AS MODE) connector (target board) (3)Table 4: AMD - Athlon connector (target board) (3)Table 5: AMD – Èlan SC520 connector (target board) (4)Table 6: AMD - Opteron connector (target board) (4)Table 7: ARM 14-pin connector (target board) (5)Table 8: ARM 20-pin connector (target board) (5)Table 9: ARM 20-pin connector with RTCK feature (target board) (6)Table 10: ATMEL AVR STKx00 ISP Download Cable connector (target board) (6)Table 11: ATMEL ATDH2081 Download Cable connector (target board) (7)Table 12: CYPRESS UltraISR Download cable (JTAG) connector (target board) (7)Table 13: CYPRESS UltraISR Download cable (ISR) connector (target board) (8)Table 14: IBM / MOTOROLA “COP” Interface connector (target board) (8)Table 15 IBM 4xx connector (target board) (9)Table 16: LATTICE ispDOWNLOAD 8-pin connector (target board) (9)Table 17: LATTICE ispDOWNLOAD 10-pin connector (target board) (10)Table 18: MIPS - EJTAG 2.5 connector (target board) (10)Table 19: MOTOROLA Freescale Colfire (target board) (11)Table 20: MOTOROLA Freescale MPCxxx BDM connector (target board) (11)Table 21: MOTOROLA “OnCe” connector (target board) (12)Table 22: PHILLIPS's MIPS connector (target board) (12)Table 23: ST PSD FlashLINK programmer connector (target board) (13)Table 24: TI MSP430 JTAG connector (target board) (13)Table 25: TOSHIBA's MIPS connector (target board) (14)Table 26: XILINX Parallel Cable III (Slave Serial) connector (target board) (14)Table 27: XILINX Parallel Cable III and IV (JTAG) connector (target board) (15)Table 28: XILINX Parallel IV (JTAG and Slave Serial) connector (target board) (15)© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.CONTENT REVISIONSThis dodument contains the following changes to content, causing it to differ from previous versions:Version Date ChangesV1.0 05-FEB-2005 First version (by Laurent Gauch)V1.1 07-FEB-2006 Adding Amontec JTAG toolsCONTACT AMONTECAmontec, GauchLa Grand Fin1633 VuippensSwitzerland/mailto:info@© 2000-2006 Amontec, Inc. All rights reserved. All Amontec registered trademarks, patents, and disclaimers are as listed at /legal.shtml All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.。

Features:• RMCF – standard power ratings • RMCP – high power ratings• Nickel barrier terminations standard• Power derating from 100% at 70ºC to zero at +155ºC • AEC-Q200 Compliant (except RMCP0201) •RoHS compliant and halogen free(2) Contact factory for extended ohmic values(3) Power rating is 0.5W for ohmic values 1KΩ and belowBody Length Body Height Body Width WH(2) Contact factory for extended ohmic values0.4720.217±0.0080.110±0.0080.472±0.00812.00 5.50±0.20 2.80±0.2012.00±0.2018.0Tape WidthW A B Typical Full ReelWeight (g)The data provided are for reference only. They are typical performance for this product but are not guaranteed. The actual pulse handling of each individual resistor may vary depending on a variety of factors including resistance tolerance and resistance value. Stackpole Electronics, Inc. assumes no liability for the use of this information. Customers should validate the performance of these products in their applications. Contact Stackpole marketing to discuss specific pulse application requirements.Test method: Measure component surface temperature directly after the temperature stabilizes.Test result: As per table below:A two-digit number is assigned to each standard R-Value (E96) as shown in the chart below.This is followed by one alpha character which is used as a multiplier. Each letter “Y” – “F” represents a specific multiplier as follows:For shared E24/E96 values, 1% tolerance product may be marked with three digit marking instead of the standard four digit marking for all other E96 values. All E24 values available in 1% tolerance are also marked with three digit marking.EXAMPLE:RoHS ComplianceStackpole Electronics has joined the worldwide effort to reduce the amount of lead in electronic components and to meet the various regulatory requirements now prevalent, such as the European Union’s directive regarding “Restrictions on Hazardous Substances” (RoHS 2). As part of this ongoing program, we periodically update this document with the status regarding the availability of our compliant components. All our standard part numbers are compliant to EU Directive 2011/65/EU of the European Parliament.1234567891011121314“Conflict Metals” CommitmentWe at Stackpole Electronics, Inc. are joined with our industry in opposing the use of metals mined in the “conflict region” of the Eastern Democratic Republic of the Congo (DRC) in our products. Recognizing that the supply chain for metals used in the electronics industry is very complex, we work closely with our own suppliers to verify to the extent possible that the materials and products we supply do not contain metals sourced from this conflict region. As such, we are in compliance with the requirements of Dodd-Frank Act regarding Conflict Minerals.Compliance to “REACH”We certify that all passive components supplied by Stackpole Electronics, Inc. are SVHC (Substances of Very High Concern) free and compliant with the requirements of EU Directive 1907/2006/EC, “The Registration, Evaluation, Authorization and Restriction of Chemicals”, otherwise referred to as REACH. Contact us for complete list of REACH Substance Candidate List.Environmental PolicyIt is the policy of Stackpole Electronics, Inc. (SEI) to protect the environment in all localities in which we operate. We continually strive to improve our effect on the environment. We observe all applicable laws and regulations regarding the protection of our environment and all requests related to the environment to which we have agreed. We are committed to the prevention of all forms of pollution.1234567891011121314。

®Adaptor boardIGBT Driver CoreBoard 93 GB SKYPER 42 R Preliminary Data Features•Two output channels •Gold nickel finish •Failure managementTypical Applications*•Adaptor board for SKYPER 42 IGBT drivers in bridge circuits for industrial applications •PCB with gold plating •DC bus up to 1200VFootnotesIsolation test voltage with external high voltage diodeThe isolation test is not performed as a series test at SEMIKRONThe driver power can be expanded to 50µC with external boost capacitorsIsolation coordination in compliance with EN50178 PD2Operating temperature is real ambient temperature around the driver core Degree of protection: IP00This is an electrostatic discharge sensitive device (ESDS), international standard IEC 60747-1, Chapter IX* The specifications of our components may not be considered as an assurance of component characteristics. Components have to be tested for the respective application. Adjustments may be necessary. The use of SEMIKRON products in life support appliances and systems is subject to prior specification and written approval by SEMIKRON. We therefore strongly recommend prior consultation of our staff.Absolute Maximum Ratings SymbolConditionsValuesUnitV s Supply voltage primary 16V Iout PEAK Output peak current 30A Iout AVmax Output average current 150mA f max Max. switching frequency100kHz V CECollector emitter voltage sense across the IGBT1700V V isol IO Isolation test voltage input - output (AC, rms, 2s)4000V V isolPD Partial discharge extinction voltage, rms, Q PD ≤ 10pC1500V V isol12Isolation test voltage output 1 - output 2 (AC, rms, 2s)1500V R Gon min Minimum rating for external R Gon 0.8ΩR Goff min Minimum rating for external R Goff 0.8ΩT op Operating temperature -40...85°C T stgStorage temperature-40 (85)°CCharacteristics SymbolConditionsmin.typ.max.UnitV s Supply voltage primary side 14.41515.6V V i Input signal voltage on / off 15 / 0V V IT+Input treshold voltage HIGH 12.3V V IT-Input threshold voltage (LOW) 4.6V V G(on)Turn on output voltage 15V V G(off)Turn off output voltage-8V t d(on)IO Input-output turn-on propagation time 1.1µs t d(off)IOInput-output turn-on propagation time1.1µsAdaptor Board 93 SKYPER® 42 RTechnical ExplanationsRevision 04------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ This Technical Explanation is valid for the following parts:Related documents:Prepared by: Johannes Krapp------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------ ContentApplication and Handling Instructions (2)Further application support (2)General Description (2)Dimensions (3)PIN Array (3)Setting Dynamic Short Circuit Protection (4)Collector Series Resistance (4)Adaptation Gate Resistors (5)Boost Capacitors (6)Environmental conditions (6)Mounting Notes (6)Please note:All values in this technical explanation are typical values. Typical values are the average values expected in large quantities and are provided for information purposes only. These values can and do vary in different applications. All operating parameters should be validated by user’s technical experts for each application.Application and Handling Instructions▪Please provide for static discharge protection during handling. As long as the hybrid driver is not completely assembled, the input terminals have to be short-circuited. Persons working with devices have to wear a grounded bracelet. Any synthetic floor coverings must not be statically chargeable. Even during transportation the input terminals have to be short-circuited using, for example, conductive rubber. Worktables have to be grounded. The same safety requirements apply to MOSFET- and IGBT-modules.▪Any parasitic inductances within the DC-link have to be minimised. Over-voltages may be absorbed by C- or RCD-snubber networks between main terminals for PLUS and MINUS of the power module.▪When first operating a newly developed circuit, SEMIKRON recommends to apply low collector voltage and load current in the beginning and to increase these values gradually, observing the turn-off behaviour of the free-wheeling diode and the turn-off voltage spikes generated across the IGBT. An oscillographic control will be necessary. Additionally, the case temperature of the module has to be monitored. When the circuit works correctly under rated operation conditions, short-circuit testing may be done, starting again with low collector voltage.▪It is important to feed any errors back to the control circuit and to switch off the device immediately in failure events.Repeated turn-on of the IGBT into a short circuit with a high frequency may destroy the device.▪The inputs of the hybrid driver are sensitive to over-voltage. Voltages higher than V S +0,3V or below -0,3V may destroy these inputs. Therefore, control signal over-voltages exceeding the above values have to be avoided.▪The connecting leads between hybrid driver and the power module should be as short as possible (max. 20cm), the driver leads should be twisted.Further application supportLatest information is available at . For design support please read the SEMIKRON Application Manual Power Modules available at .General DescriptionThe Board 93 GB SKYPER® 42 is an adaptor board for the IGBT module SKiM® 93 (spring contact). The board is paralleling three channels so the SKiM module can be used in half bridge configuration. The board can be customized allowing adaptation and optimization to the used IGBT module.The switching characteristic of the IGBT can be influenced through user settings, e.g. changing turn-on and turn-off speed by variation of R Gon and R Goff. Furthermore, it is possible to adjust the monitoring level and blanking time for the DSCP (see Technical Explanations SKYPER® 42 R).Please note:This technical explanation is based on the Technical Explanations for SKYPER®42 R. Please read the Technical Explanations SKYPER® 42 R before using the Adaptor Board.Dimensions116 PIN ArraySetting Dynamic Short Circuit ProtectionThe Vce formula for the Vce monitoring is described in the technical explanation of SKYPER 42 R. Collector Series ResistanceDesignation Shape SettingR105 MiniMELF (SMD) R VCE*Factory setting: not equippedTOPR205 MiniMELF (SMD) R VCE *Factory setting: not equippedBOTAdaptation Gate ResistorsBoost CapacitorsEnvironmental conditionsPlease refer to the technical explanation of SKYPER 42 R for the environmental conditions.Mounting NotesDISCLAIMERSEMIKRON reserves the right to make changes withoutfurnished in this document is believed to be accurate and reliable. However, no representation or warranty is given and no liability is assumed with respect to the accuracy or use of such information. SEMIKRON does not assume any liability arising out of the application or use of any product or circuit described herein. Furthermore,。

Product data sheetCharacteristicsGV7RE25TeSys GV7 Manual Starter and Protector, thermal magnetic circuit protector, rocker lever, 3 P, AC-3,15...25 AProduct availability : Non-Stock - Not normally stocked in distribution facilityPrice** : 626.00 USDMainRange TeSys Product name TeSys GV7Device short name GV7R Device application Motor Poles description 3P Network type ACUtilisation category AC-3 IEC 60947-4-1Network frequency 50/60 Hz IEC 60947-4-1Breaking capacity35 kA Icu 440 V AC 50/60 Hz IEC 60947-285 kA Icu 220/240 V AC 50/60 Hz IEC 60947-236 kA Icu 380/415 V AC 50/60 Hz IEC 60947-225 kA Icu 500 V AC 50/60 Hz IEC 60947-28 kA Icu 660/690 V AC 50/60 Hz IEC 60947-2[Ics] rated service short-circuit breaking capacity100 % 440 V AC 50/60 Hz IEC 60947-2100 % 220/240 V AC 50/60 Hz IEC 60947-2100 % 380/415 V AC 50/60 Hz IEC 60947-250 % 500 V AC 50/60 Hz IEC 60947-250 % 660/690 V AC 50/60 Hz IEC 60947-2Thermal protection adjustment range 15…25 A Trip unit technologyThermal-magneticComplementaryMounting mode By clips By screwsMounting supportRailKit for fixing the switchgear FlushPanel mounting Mounting position VerticalMotor power kW11 kW 500 V AC 50/60 Hz 15 kW 660/690 V AC 50/60 Hz 9 kW 400/415 V AC 50/60 Hz 11 kW 400/415 V AC 50/60 Hz 15 kW 500 V AC 50/60 Hzi s c l a i m e r : T h i s d o c u m e n t a t i o n i s n o t i n t e n d e d a s a s u b s t i t u t e f o r a n d i s n o t t o b e u s e d f o r d e t e r m i n i n g s u i t a b i l i t y o r r e l i a b i l i t y o f t h e s e p r o d u c t s f o r s p e c i f i c u s e r a p p l i c a t i o n s18.5 kW 660/690 V AC 50/60 HzControl type Rocker lever[Ue] rated operational voltage690 V AC 50/60 Hz IEC 60947-2[Ui] rated insulation voltage750 V AC 50/60 Hz IEC 60947-225 A IEC 60947-4-1[Ith] conventional free air thermalcurrent[Uimp] rated impulse withstand voltage8 kV IEC 60947-2Power dissipation per pole 5 WPower dissipation per pole5 WMechanical durability50000 cyclesElectrical durability30000 cycles AC-3 440 V In50000 cycles AC-3 440 V In/2Maximum operating rate25 cyc/hRated duty Continuous IEC 60947-4-1Connection pitch 1.38 in (35 mm) without spreaders1.77 in (45 mm) with spreadersConnections - terminals barscable with lug 0.39 in (10 mm)screwbare cable connectors 0.00…0.15 in² (1.5…95 mm²)Tightening torque88.51 lbf.in (10 N.m) screw M6132.76 lbf.in (15 N.m) bare cable connectors 0.00…0.15 in² (1.5…95 mm²) Mechanical robustness Shocks 15 Gn for 11 ms IEC 60068-2-27Vibrations 2.5 Gn, 0...25 Hz IEC 60068-2-6Suitability for isolation Yes IEC 60947-1Phase failure sensitivity Yes IEC 60947-4-1 § 7-2-1-5-2Maximum Height 6.34 in (161 mm)Maximum Width 4.13 in (105 mm)Maximum Depth 4.37 in (111 mm)Net Weight 4.43 lb(US) (2.01 kg)EnvironmentStandards NF C 63-650VDE 0113NF C 63-120NF C 79-130VDE 0660EN/IEC 60947-2EN/IEC 60947-4-1EN/IEC 60947-1Product certifications ULDNVProtective treatment TCIP degree of protection IP405 IEC 60529 with terminal shrouds)Pollution degree3Ambient air temperature for operation-13…158 °F (-25…70 °C)Ambient air temperature for storage-67…203 °F (-55…95 °C)Fire resistance1760 °F (960 °C) IEC 60695-2-1Operating altitude6561.68 ft (2000 m)Ordering and shipping detailsCategory22366 - MAN STR PROTECTORS-GV1/GV3Discount Schedule I11GTIN00785901957355Nbr. of units in pkg.1Package weight(Lbs) 4.27 lb(US) (1.94 kg)Returnability NoCountry of origin CNPacking UnitsPackage 1 Height 5.91 in (15.000 cm)Package 1 width 4.53 in (11.500 cm)Package 1 Length 6.69 in (17.000 cm)Offer SustainabilityEU RoHS Directive Not applicable, out of EU RoHS legal scope Environmental Disclosure Product Environmental ProfileContractual warrantyWarranty18 monthsProduct data sheetGV7RE25 Dimensions DrawingsGV7RDimensions(1)126 for GV7R●220.Minimum Electrical ClearanceGV7RPanel MountingMounting on 2 Mounting Rails DZ5 MB201Flush-Mounting1 circuit breaker GV7Rn circuit breakers GV7R side by sideConnectionSmooth terminalsConnectorsProduct data sheetGV7RE25 Connections and SchemaMotor Circuit BreakersGV7 R。

161mm inch±0.2±.0083.6±0.2.142±.008FEATURES1. Highly sensitive and low on-resis-tance2. Controls various types of loads such as relays, motors, lamps and sole-noids.3. Optical coupling for extremely high isolation5,000 Vrms I/O isolation available.4. Low-level off state leakage current5. Eliminates the need for a power sup-ply to drive the power MOSFETA power supply used to drive the power MOSFET is unnecessary because of the built-in optoelectronic device. This results in easy circuit design and small PC board area.6. Low thermal electromotive force (Approx. 1 µ V)TYPICAL APPLICATIONS• High-speed inspection machines • T elephone equipment• Data communication equipmentTYPES1. I/O isolation voltage: 1,500 V AC2. I/O isolation voltage: Reinforced 5,000 V*Indicate the peak AC and DC values.Note: For space reasons, the package type indicator "X" and "Z" are omitted from the seal.Output rating*Part No.Packing quantityThrough hole terminalSurface-mount terminalLoad voltageLoad current T ube packing style Tape and reel packing style T ube Tape and reelPicked from the 1/2/3-pin side Picked from the 4/5/6-pin side 40 V 500 mA AQV251AQV251A AQV251AX AQV251AZ 1 tube contains50 pcs.1 batch contains500 pcs.1,000 pcs.60 V 400 mA AQV252AQV252A AQV252AX AQV252AZ100 V 350 mA AQV255AQV255A AQV255AX AQV255AZ 200 V 250 mA AQV257AQV257A AQV257AX AQV257AZ 250 V 200 mA AQV253AQV253A AQV253AX AQV253AZ 400 V 150 mA AQV254AQV254A AQV254AX AQV254AZ 1,000 V 30 mA AQV259AQV259A AQV259AX AQV259AZ 1,500 V20 mAAQV258AQV258AAQV258AXAQV258AZOutput rating*Part No.Packing quantityThrough hole terminalSurface-mount terminalLoad voltageLoad current T ube packing style Tape and reel packing style T ube Tape and reelPicked from the 1/2/3-pin side Picked from the 4/5/6-pin side 250 V 200 mA AQV253H AQV253HA AQV253HAX AQV253HAZ 1 tube contains50 pcs.1 batch contains500 pcs.1,000 pcs.400 V150 mAAQV254HAQV254HAAQV254HAXAQV254HAZAQV25 r162RATING1. Absolute maximum ratings (Ambient temperature: 25 ° C 77 ° F )2. Electrical characteristics (Ambient temperature: 25 ° C 77 ° F )ItemSym-bol Type ofconnec-tionAQV251(A)AQV252(A)AQV255(A)AQV257(A)AQV253(A)AQV254(A)AQV259(A)AQV258(A)AQV253H(A)AQV254H(A) RemarksI n p u tLED forward current I F 50 mA LED reverse voltage V R 3 VPeak forward current I FP 1 A f = 100 Hz,Duty factor +0.1%Power dissipation P in 75 mW O u t p u tLoad voltage (peak AC)V L40 V 60 V 100 V 200 V 250 V 400 V 1,000 V 1,500 V 250 V 400 V Continuous load currentI LA 0.5 A 0.4 A 0.35 A 0.25 A 0.2 A 0.15 A 0.03 A 0.02 A 0.2 A 0.15 A A connection: Peak AC, DCB, C connection: DC B 0.7 A 0.6 A 0.45 A 0.35 A 0.3 A 0.18 A 0.04 A 0.025 A 0.3 A 0.18 A C1.0 A 0.8 A 0.70 A 0.5 A 0.4 A 0.25 A 0.05 A 0.04 A 0.4 A 0.25 A Peak load current I peak 1.8 A1.5 A1.0 A0.75 A0.6 A0.5 A0.09 A0.06 A0.6 A0.5 AA connection: 100 ms (1 shot) V L = DCPower dissipation P out 360 mW Total power dissipation P T 410 mWI/O isolation voltage V iso 1,500 V AC5,000 V ACTemperature limitsOperating Topr –40 ° C to +85 ° C –40 ° F to +185 ° F Non-condensing at low temperaturesStorageTstg–40 ° C to +100 ° C –40 ° F to +212 ° FItemSym-bol Type ofcon-nectionAQV251(A)AQV252(A)AQV255(A)AQV257(A)AQV253(A)AQV254(A)AQV259(A)AQV258(A) AQV253H(A)AQV254H(A) Condition I n p u tLED operate current Typical IFon —0.9 mA 1.4 mAI L = Max.Maximum 3 mA LED turn off current Minimum I Foff —0.4 mAI L = Max.Typical 0.8 mA 1.3 mA LED dropout voltage Typical V F —1.14 V (1.25 V at I F = 50 mA)I F = 5 mA Maximum 1.5 VO u t p u tOn resistanceTypical R onA0.6 Ω 0.74 Ω 1.8 Ω 2.6 Ω 5.5 Ω 12.4 Ω 85 Ω 345 Ω 5.5 Ω 12.4 ΩI F = 5 mAI L = Max.Within 1 s on time Maximum 1 Ω 1.4 Ω 2.5 Ω 4 Ω 8 Ω 16 Ω 200 Ω 500 Ω 8 Ω 16 ΩTypicalR onB0.3 Ω 0.37 Ω 0.9 Ω 1.4 Ω 2.7 Ω 6.2 Ω 60 Ω 345 Ω 2.7 Ω 6.2 Ω I F = 5 mA I L = Max.Within 1 s on time Maximum 0.5 Ω 0.7 Ω 1.25 Ω 2 Ω 4 Ω 8 Ω 100 Ω 500 Ω 4 Ω 8 Ω Typical R on C 0.15 Ω 0.18 Ω 0.45 Ω 0.7 Ω 1.4 Ω 3.1 Ω 30 Ω 160 Ω 1.4 Ω 3.1 Ω I F = 5 mA I L = Max.Within 1 s on time Maximum0.25 Ω0.35 Ω0.63 Ω1 Ω2 Ω4 Ω50 Ω250 Ω2 Ω4 ΩOff state leak-age current Maximum ——1 µ A 10 µ A 1 µ A I F = 0V L = Max.T r a n s f e r c h a r a c t e r i s t i c sSwitch-ingspeed Turn ontime*Typical T on—1.7 ms1.4 ms0.9 ms 1.5 ms 0.8ms0.8ms0.6ms0.35 ms2.4ms 1.8ms I F = 5 mA I L = Max.Maximum 3 ms 2 ms 3 ms 2 ms 1 ms 4 ms 3 ms Turnoff time*Typical T off —0.07 ms0.09 ms0.1 ms0.06 ms0.05 ms0.04 ms0.06 ms0.05 ms I F = 5 mA I L = Max.Maximum 0.2 ms I/O capaci-tance Typical C iso — 1.3 pF f = 1 MHz V B = 0Maximum 3 pF Initial I/O isola-tion resistanceMinimumRiso—1,000 M Ω500 V DCFor type of connection, see Page 31.Note:Recommendable LED forward currentStandard type: 5 mAReinforced type: 5 to 10 mA *T urn on/Turn off timeInputOutputs For Dimensions, see Page 27.s For Schematic and Wiring Diagrams, see Page 31. sFor Cautions for Use, see Page 36.AQV25 r163REFERENCE DATA1.-(1) Load current vs. ambient temperature characteristicsAllowable ambient temperature:–40 ° C to +85 °C–40°F to +185°F ;T ype of connection: A1.-(2) Load current vs. ambient temperature characteristicsAllowable ambient temperature:–40°C to +85°C–40°F to +185°F ;T ype of connection: A2.-(1) On resistance vs. ambient temperature characteristicsMeasured portion: between terminals 4 and 6;LED current: 5 mA;Continuous load current: Max. (DC)0.20.4L o a d c u r r e n t ,A Ambient temperature, °C 0.60.10.30.502040L o a d c u r r e n t , mA103050Ambient temperature, °C0.40.60.81.01.20.21.61.82.01.4Ambient temperature, °CO n r e s i s t a n c e , Ω5.-(1) LED operate current vs. ambient temper-ature characteristicsSample: AQV251, AQV252, AQV253, AQV254,AQV259; Load voltage: Max. (DC);Continuous load current: Max. (DC)5.-(2) LED operate current vs. ambient temper-ature characteristicsSample: AQV253H,AQV254H; Load voltage: Max. (DC);6. -(1) LED turn off current vs. ambient temper-ature characteristicsSample: AQV251, AQV252, AQV253, AQV254, AQV259; Load voltage: Max. (DC);Continuous load current: Max. (DC)23–4040204060801–2085Ambient temperature, °CL E D o p e r a t e c u r r e n t , m A23–4002040608014–2085Ambient temperature, °CL E D t u r n o f f c u r r e n t , m AAQV25r6. -(2) LED turn off current vs. ambient temper-ature characteristicsSample: AQV251, AQV252, AQV253, AQV254, AQV259; Load voltage: Max. (DC);7. LED dropout voltage vs. ambient tempera-ture characteristicsLED current: 5 to 50 mA8.-(1) Voltage vs. current characteristics of out-put at MOS portionMeasured portion: between terminals 4 and 6;Ambient temperature: 25°C 77°FAmbient temperature, °CL E D d r o p o u t v o l t a g e , V11-(2). LED forward current vs. turn off timecharacteristicsMeasured portion: between terminals 4 and 6;Load voltage: Max. (DC); Continuous load current: Max. (DC); Ambient temperature: 25°C 77°F12.-(1) Applied voltage vs. output capacitance characteristicsMeasured portion: between terminals 4 and 6;Frequency: 1 MHz;Ambient temperature: 25°C 77°F12.-(2) Applied voltage vs. output capacitance characteristicsSample: AQV259;Measured portion: between terminals 4 and 6;Frequency: 1 MHz; Ambient temperature: 25°C 77°FLED current, mA100200600300400500Applied voltage, V O u t p u t c a p a c i t a n c e , p F 0204012010203040506080010060Applied voltage, VO u t p u t c a p a c i t a n c e , p F。