EMD40-2400L中文资料

多道荧光光谱仪MXF 2400使用说明书日本岛津公司分析与测试分公司日本.东京本手册详细描述了本仪器的原理及结构，其中包括很多我们的核心设计技术，所以用户可以轻松理解与掌握。

我们希望客户不要将本说明书传借或透露给第三者。

安全使用注意事项本仪器内部会产生对人体有害的X射线和高压。

为了安全使用本仪器请注意以下事项。

WARNING WARNING CAUTION 关于防止X射线伤害1.根据“电辐射伤害防御规定”（劳动部1998年10月1日第32号令），本仪器符合“X射线设备”的规定标准。

在使用本仪器过程中提供了本规定中所必须的预防方法。

（例如日本）2.本仪器提供了为防止X射线在正常操作情况下泄漏而设置的安全保护机构。

如果处理不当可能会导致X射线泄漏。

在使用仪器过程中不要轻易移动保护电路部分。

不要改变机械的能动部分，否则会影响安全运行。

关于防止电击伤害1.从高压柜或X射线发生器的高压部分到X光管都具有防电击构造。

但是，如果移动高压电缆会导致高压电极暴露，可能造成电击事故。

取下高压电缆时，应关掉X射线发生器的主开关，放掉所有的高压电荷。

此项工作必须由有经验的人员执行。

如果在没有供应PR气的情况下使用检测器，检测器的窗口可能会破裂。

所以在使用流气检测器时一定要连续供气。

使用高压气体钢瓶注意事项非常感谢购买岛津公司的X射线荧光光谱仪。

岛津公司为您提供以下保修项目：1.保修期自验收之日起12个月或自装船之日起18个月。

2.保修如果在保修期限内出现岛津公司应该负责的故障，我们将免费更换或维修。

3.保证项目本保证将不包括由以下原因造成的故障：1）使用不当；2）由未经岛津授权的公司对仪器进行维修或调试；3）非仪器原因在造成的故障；4）由试样带进的粉末等粘附到X光管或晶体上，而造成的损坏或性能下降；5）在高温、潮湿、腐蚀性气体、爆炸性气体、震动等的恶劣环境下使用；6）火灾、地震和其他自然灾害；7）安装完成之后运输或移动；8）消耗性备件或其他等同于消耗的部件。

多道荧光光谱仪MXF 2400使用说明书日本岛津公司分析与测试分公司日本.东京本手册详细描述了本仪器的原理及结构，其中包括很多我们的核心设计技术，所以用户可以轻松理解与掌握。

我们希望客户不要将本说明书传借或透露给第三者。

安全使用注意事项本仪器内部会产生对人体有害的X射线和高压。

为了安全使用本仪器请注意以下事项。

WARNING WARNING CAUTION 关于防止X射线伤害1.根据“电辐射伤害防御规定”（劳动部1998年10月1日第32号令），本仪器符合“X射线设备”的规定标准。

在使用本仪器过程中提供了本规定中所必须的预防方法。

（例如日本）2.本仪器提供了为防止X射线在正常操作情况下泄漏而设置的安全保护机构。

如果处理不当可能会导致X射线泄漏。

在使用仪器过程中不要轻易移动保护电路部分。

不要改变机械的能动部分，否则会影响安全运行。

关于防止电击伤害1.从高压柜或X射线发生器的高压部分到X光管都具有防电击构造。

但是，如果移动高压电缆会导致高压电极暴露，可能造成电击事故。

取下高压电缆时，应关掉X射线发生器的主开关，放掉所有的高压电荷。

此项工作必须由有经验的人员执行。

如果在没有供应PR气的情况下使用检测器，检测器的窗口可能会破裂。

所以在使用流气检测器时一定要连续供气。

使用高压气体钢瓶注意事项非常感谢购买岛津公司的X射线荧光光谱仪。

岛津公司为您提供以下保修项目：1.保修期自验收之日起12个月或自装船之日起18个月。

2.保修如果在保修期限内出现岛津公司应该负责的故障，我们将免费更换或维修。

3.保证项目本保证将不包括由以下原因造成的故障：1）使用不当；2）由未经岛津授权的公司对仪器进行维修或调试；3）非仪器原因在造成的故障；4）由试样带进的粉末等粘附到X光管或晶体上，而造成的损坏或性能下降；5）在高温、潮湿、腐蚀性气体、爆炸性气体、震动等的恶劣环境下使用；6）火灾、地震和其他自然灾害；7）安装完成之后运输或移动；8）消耗性备件或其他等同于消耗的部件。

OPERATING MANUALDV-40 |DIGITAL VACUUM GAUGE SUPERNOV A®SPECIFICATIONSVacuum Reading Range 12,000 to 10 micronsPower Supply AC adapter (included) or three AA alkaline batteries Dimensions DV-41: 13" length x 11" width x 3.5" depth Shipping Weight 2.7 lbs (1.2 kg)Warranty 12 monthsFEATURESPower Button Mode Button5-ft Cord2JB INDUSTRIES •DV-40OperatingManual•630.851.9444•***************3JB INDUSTRIES•DV-40OperatingManual•630.851.9444•***************OPERATING INSTRUCTIONSPower SettingsTo power on, press the POWER button once.To power off, press and hold the POWER button for three seconds.Main Menu SettingsTo access the main menu user settings, press and hold MODE button for four seconds.Alarm SettingsTo enable the High Limit Alarm, hold the MODE button and press SCROLL UP .To enable the Low Limit Alarm, hold the MODE button and press SCROLL DOWN.To disable alarm, press POWER button once.When alarm is sounding, press any button to turn off alarm.Display Screen Start UpPress POWER button once to power gauge on. If unit display does not light up, check for correct battery installation. Startup display will show “JB”, “JUST BETTER”, a loading menu, followed by either the micron value or the over range indicator “oooooo.”The center bars in the loading menu move to indicate the unit is in initial warm up state. It may take up to 30 seconds for the unit to go into normal operation mode.The unit will display “oooooo” when it is at atmospheric pressure, or at a pressure over 12,000 microns. This indicates an over range condition. When the pressure is at or below 12,000 microns, the gauge will display the value.Note: The DV-40 is factory calibrated, field calibration is not required.Loading Menu – Warm up mode Atmospheric Pressure –Normal operation modeBattery Status IndicatorWhen the startup sequence is complete, the BATTERY STATUS INDICATOR will show current battery life status. While the unit is on, the status is updated once every second. Battery status indicator is not visible if the DV-40 is connected to external power source (AC adapter).Battery voltage status is as follows: Array3.5v or above 3.0 ~ 3.5v 2.7 ~ 3.0v 2.4 ~ 2.7v 2.1 ~ 2.4vWhen the battery voltage drops below 2.4 volts, the battery outline will flash and the unit will beep once per minute to alert the low battery condition. When battery voltage falls below 2.1 volts, the shutdown timer is activated. If voltage stays below 2.1 volts for thirty seconds, the DV-40 will beep once and power off. If power is restored during this time, shutdown is canceled.MENU SETTINGSAccessing Main Menu and Sub Menu Settings1. Press and hold MODE button for four seconds to access main menu settings.2. Press SCROLL UP and SCROLL DOWN buttons to cycle through all available main menu options:• “UNIT”• “AL--LO”• “AL--HI”• “BEEP”• “HI RES”• “AU-OFF”• “B-LITE”• “VER ID”3. T o select a menu option, press the MODE button to access sub menu. Press the SCROLL UP and SCROLL DOWN buttons to cycle through the sub menu options.4. T o select and store a sub menu option, press and hold the MODE button. Unit will display “STORED”, save your selection and return to menu. Each time the DV-40 powers on, previously stored user settings will be retrieved.5. Press POWER button once to return to the main menu.6. To exit main menu and return to normal operation mode, press the POWER button again.Note: When scrolling through menu settings, the POWER button acts as the cancel/exit button.4JB INDUSTRIES •DV-40OperatingManual•630.851.9444•***************Unit Selection (UNIT)When the alarm menu is active, a constant pressure value equivalent to 1000 microns is displayed using the currently selected units (EG: 133.31 for Pascals). The current selection is shown at the top of the main display screen.Available unit selections are: Microns, PSIA, inHg, Pascals, Torr, mTorr and mBar.Factory default setting is “MICRONS”.To scroll the selection, use the SCROLL UP and SCROLL DOWN buttons.To cancel, press the POWER button.To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.Low Alarm Setting (AL--LO)The Low Alarm setting sets the pressure level where an alarm will be sounded. Setting a specific alarm level selection DOES NOT make the alarm active; it specifies the pressure level BELOW which the alarm will sound once the user enables the Low Limit Alarm (press MODE and SCROLL DOWN buttons to enable). Available settings are: 50, 100, 250, 500, 1000, 1250, 1500, or 2000 microns.Factory default setting is “500” microns.Default values are listed in microns, however values will be displayed in the current units selected. For example, if the user defined Unit Selection setting is Pascals, units displayed will be: 7, 14, 33, 66, 133, 166, 200, and 266 (The Pascal conversion of the 50 – 2000 micron values).The “ALARM”, “LOW” icon will be displayed to indicate you are setting up the Low Limit Alarm.To scroll the selection, use the SCROLL UP and SCROLL DOWN buttons.To cancel, press the POWER button.To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.Low Limit AlarmMODE and SCROLL DOWN buttons enable the Low Limit Alarm.Low Limit Alarm can be enabled in all cases including when the pressure is in OVER RANGE except for when the sensor is not connected.An enabled Low Limit Alarm will display the “LOW”, “ALARM” icon on the main display screen, and will disable the High Alarm setting.If Low Limit Alarm is enabled and the pressure is less than or equal to the preset, user defined Low Alarm setting limit value, the alarm will alert with a beep sound every second and “ALARM”, “LOW” icon will flash. Beeping and flashing will continue even if the pressure rises above the Low Limit Alarm setting. Press any button to turn off the alarm.High Alarm Setting (AL--HI)The High Alarm setting sets the pressure level where an alarm will be sounded. Setting a specific alarm level selection DOES NOT make the alarm active; it specifies the pressure level ABOVE which the alarm will sound once the user enables the High Limit Alarm (press MODE and SCROLL UP buttons to enable).JB INDUSTRIES •DV-40OperatingManual•630.851.9444•***************5Available settings are: 50, 100, 250, 500, 1000, 1250, 1500, or 2000 microns.Factory default setting is “2000” microns.The default values are listed in microns, however values will be displayed in the current units selected. For example, if the user defined Unit Selection setting is Pascals, units displayed will be: 7, 14, 33, 66, 133, 166, 200, and 266 (The Pascal conversion of the 50 – 2000 micron values).The “ALARM”, “HIGH” icon will be displayed to indicate you are setting up the High Limit Alarm.To scroll the selection, use the SCROLL UP and SCROLL DOWN buttons.To cancel, press the POWER button.To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.High Limit AlarmMODE and SCROLL UP buttons will enable the High Limit Alarm ONLY IF the existing pressure is below the preset, user defined High Alarm setting. If the existing pressure is higher than the preset, user defined High Alarm Limit, the High Limit Alarm cannot be enabled. If the Low Limit Alarm is currently enabled, setting the High Limit Alarm will disable the Low Limit Alarm even if the High Limit Alarm fails due to pressure readings above the High Limit Alarm setting. An enabled High Limit Alarm will display the “HIGH”, “ALARM” icon on the main display screen, and will disable the Low Alarm setting.If High Limit Alarm is enabled and the pressure is greater than or equal to the preset, user defined High Alarm setting limit value, the alarm will alert with a beep sound every second and the “ALARM”, “HIGH” icon will flash. Beeping and flashing will continue even if the pressure drops below the High Limit Alarm setting. Press any button to turn off the alarm.Button-press Feedback (BEEP)Key-press feedback determines whether an audible sound is heard each time a button is pressed. Available settings are: ON, OFF. Factory default setting is “ON”.To change the selection, use the SCROLL UP or SCROLL DOWN button. To cancel, press the POWER button. To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.Display Resolution (HI RES)The display resolution menu allows you to select whether pressure will be shown at high resolution. High resolution means that pressure is shown as-is, in one unit increments.Available settings are: ON, OFF. Factory default setting is “OFF”.When the setting is OFF, the reading display is rounded.To change the selection, use the SCROLL UP or SCROLL DOWN button.To cancel, press the POWER button.To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.Note: Even if high resolution display is ON, pressure values above 1000 microns will be rounded off according to the current display pressure.6JB INDUSTRIES •DV-40OperatingManual•630.851.9444•***************Auto Shutdown (AU-0FF)To conserve battery life, the DV-40 will power off after a period of inactivity (no button-press).Available settings are: OFF, 10, 15, 30, 45, 60, or 90 minutes. Factory default setting is “30” minutes. When Auto Shutdown is set to “OFF”, the DV-40 will not automatically power off.To change the selection, use the SCROLL UP or SCROLL DOWN button.To cancel, press the POWER button.To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.Note: Even if auto shutdown has been deactivated, a low battery condition will power off the DV-40.Back Light Persistence (B-LITE)Back Light Persistence determines the number of seconds that the back light will stay on after the last button activity.Available settings are: OFF, 10, 15, 30, 45, 60, or 90 seconds. Factory default setting is “10”.To change the selection, use the SCROLL UP and SCROLL DOWN buttons.To cancel, press the POWER button.To select and store the setting shown, press the MODE button. When a setting is stored, you will be returned to main menu selections. Press POWER to return to normal operation mode.Note: While in the menu system, the back light will remain on unless it has been disabled by selecting “OFF”.Version Information (VER ID)The VER ID menu provides details regarding serial number and product/sensor firmware release versions. The main CPU Firmware release version (EG: “Fr 1.87”) displays initially. Pressing SCROLL DOWN will display the serial number (EG: “n12345”), and sensor CPU Firmware release version (EG: “Sr 6.45”). The POWER or MODE button will return to menu selection.MAINTENANCECleaning Vacuum Sensor1. Fill brass sensor fitting with a few drops of isopropyl alcohol.2. Cover the opening with a finger and gently shake to allow alcohol to rinse the sensor.3. Pour out alcohol and allow sensor to dry for 20 minutes before using gauge.JB INDUSTRIES •DV-40OperatingManual•630.851.9444•***************78DV-40OperatingManual•630.851.9444•***************PARTS LISTRETURN FOR REPAIREvery effort has been made to provide reliable, superior quality products. However, in the event your instrument requires repair, please contact JB Customer Service Department to obtain a Return Goods Authorization (RGA) number. Ensure that all returned products are packed to avoid any damage in shipment. Paperwork should be placed in a separate plastic bag and should include JB’s assigned RGA number, a description of the problem and any customer assigned repair or purchase order number, if applicable.Contact Customer Service for RGA number: 800.323.0811 Toll 800.552.5593 Toll FaxProducts should be shipped with freight prepaid to:J B Industries RGA#_________ 601 N. Farnsworth Ave. Aurora, IL 60505 630.851.9444 Tel 630.851.9448 FaxWARRANTYDV-40 Digital Vacuum Gauges are warrantied against defects in materials and workmanship for 12 months from date of purchase. JB products are guaranteed when used in accordance with our guidelines and recommendations. Warranty is limited to the repair, replacement, or credit at invoice price, (our option) of products which in our opinion are defective due to workmanship and/or materials. In no case will we allow charges for labor, expense or consequential damage. Repairs performed on items out of warranty will be invoiced on a nominal basis; contact wholesaler for details. Additional product information available online at .Part No. DV-41-308 0917 Printed in the USA ©2017 JB Industries, Inc.PART NO.DESCRIPTIONDV-41DV-40 digital vacuum gauge with AC adapter and carrying case DV-40CAC adapter and carrying case only DV-40AC AC adapter onlyDV-40HK Hanging hook replacementA34000D 1/4" QC x 1/4" access tee w/depressorP90009O-ring replacement (10 pack)。

Honeywell Process Control, 512 Virginia Drive, Fort Washington, PA 19034Printed in U.S.A. ν © Copyright 2006-2008 — HoneywellHerculine ® 2000 Series Actuators61-86-03-14June 08Page 1 of 14SpecificationOverviewHoneywell’s HercuLine ® 2000 seriesactuators are low torque, precision electric actuators incorporating all of the easy-to-use, high quality, and reliable features of the traditional HercuLine ® actuators. Ensuring processes operate at maximum efficiency, with minimal downtime, and lowest lifetime cost requires precision and high reliability Herculine ®actuators. They are industrial rated and engineered for very precise positioning of dampers and valves. They perform especially well in extremely demanding environmentsrequiring continuous duty, high reliability, and low maintenance. HercuLine ® 2000 actuators are used inon/off power to open/close or positionproportional with 135 or 1000 ohmfeedback applications.HercuLine ® 2001 and 2002 Smart actuators are used in current proportional or digital control applications. Access to all actuator parameters for real-time business and maintenance decisions isstandard through Modbus RTU, localdisplay, or via HercuLink ® Palm PDAsoftware.HercuLine ® 2002 actuators have additional standard features such as non-contact position sensing and slidewire emulation output. HercuLink ® software enables calibration, configuration, and access to maintenance data using your Palm PDA.Smart Features – HercuLine ® 2001 & 2002 RS485/Modbus RTU Communication -Modbus RTU communication is standard allowing seamless networking of Honeywell control productsAlarm Functions – Alarms may be assigned to relay outputs or may be accessed through the Modbus network. Alarms can be triggered from stall,temperature limits, motor cycle count, out of automatic mode, digital input, position, input failure, position sensor failure,power up failure, and more. Characterization – Programmable linear, equal percentage, quick opening, or user configured 20-point characterizationFailsafe – the actuator can beprogrammed to drive open, closed, remain in-place, or drive to a userspecified position on loss of input signal or position sensor.Split range operation –programmable and infinitely adjustable.Factory Calibration – stored in non-volatile memory and can be restored at any time.Digital Input Override – A digital input is provided that can be programmed to drive the actuator open, closed, remain in-place, or to a user specified position oncontact closure for emergency situations. Health Monitoring – A standard feature on all HercuLine ® Smart actuators accumulates information about actuatoroperation. The information then can be used to evaluate and determine predicted or scheduled maintenance periods. Parameters monitored are accumulated stall time, exceeded thermal operatingrating of the actuator, and number of motor starts in a region of travel, total travel and current actuator travel.Input Filter Setting – Fourprogrammable combinations - none,spike, low pass, or spike + low pass filter.Configuration security – Passwordprotection is provided to prevent tampering, allowing users to lock out some, all, or no groups of setup parameters. Direction of rotation – programmable. Input Signals – 0/4 to 20 mA, 0/1 to 5 Vdc, 0 to 10 Vdc, Digital RS485 Modbus RTU protocol, or Series 90 control. Output Signals – 0/4 to 20 mA, 0/1 to 5 Vdc or slidewire emulation. Accurate Positioning – Motor/gear train provides accurate positioning with almost instantaneous start/stop characteristics. Stall Alarm – provides alarm output in theevent of actuator stall due to overload. Smart OptionsHercuLink ® Software – loaded onto theusers Palm PDA, laptop PC or desktop computer. This software allows you to configure or calibrate the actuator. Inaddition, maintenance information may be read, stored and later loaded in CSV format to the user’s computer for maintenance tracking.Hart ™ Communication – For HART user’s optional HART communications provides access to calibration,configuration, and maintenance data. In addition, the HART communicationsoption is structured to work with the HART Asset Management Features.Local HMI Configuration – Optional keypad and high intensity display isavailable (Figure 1). The display may be rotated in 90° increments for actuator mounting orientations other than horizontal.Non-contact position sensing (NCS) – Herculine ® 2002 only. See description next page.Slidewire Emulation (SEC) – Herculine ®2001 and 2002 only. See text next page.Auxiliary Relay Outputs –Programmable relay outputs can be used in place of auxiliary switch outputs to provideadditional functionality such as indication of alarm status, control of other equipment, or to indicate position. Battery Powered 232/485 converter and cable – used to connect the Palm PDA to the HercuLine ® actuator for communication.61-86-03-14 Page 2Non-Contact Position SensingAvailable in the HercuLine ®2002actuator. The technology is a variableinductance, non-contact position sensor mounted directly to the actuator outputshaft providing precision position sensing from 0 to 150 degrees (Figure 3). Thistechnology eliminates maintenance item such as wipers, bearings, as well asstatic friction, hysteresis and electricalnoise over a wide range of demandingenvironmental conditions. Typically use in very demanding applicati s dons wheredowntime is not an option.Slidewire EmulationAvailable in the HercuLine ® 2001/2002 actuator. The Slidewire EmulationCircuit (SEC) emulates the proportiona voltage output of a typical slidewire through a high impedance circuit. Th voltage output is proportional to the supply voltage and shaft position. If ordered on the 2002 model, a non-contact position sensor is used todetermine shaft position in place o slidewire. Typically used in very demanding applications wher l e f the e downtime is not an option.Potentiometer SensingAn advanced high cycle filmpotentiometer for position sensing for true position feedback is available as option on the Herculine an ndard on Herculine ®2001 EEU model.® 2000 BMUmodel and sta Self-locking/releasingGear TrainThe worm gear output combination is self-locking and self-releasing and maintains position upon loss of power. It is designed to hold greater than two times the rated output torque in a back-driving condition. This design provides superior reliability without themaintenance associated with other self-locking and brake mechanisms. General Features • e thout • ycle – Continuous duty•y out degrading •Hz, single phase <Motor - no burn out motor can b stalled up to 100 hours wi damage to the actuator.Duty C cycle Any position mounting – the actuator may be mounted in an orientation with performance.Power Requirements – Low power consumption 120/240 Vac, 50/60 0.6/0.3 Amp.•X industrial •-•culine ® 2000 series •ification – CSA (pending), UL, CE Enclosure – Rugged, Die cast aluminum NEMA 4grade enclosure.Low Maintenance – Simple proven design means high reliability/low maintenance. Limit Switches – Two end-of-travel electric limit switches are supplied as standard equipment with all Her actuators.• Warranty – Exceptional warranty CertGeneral Options•r PDT switches are •tuator when power is • vailable •s to r ndis & Staefa) •or valve or damper connection.Auxiliary Switches – up to fou additional S available.Manual Operation – a manual hand wheel is optional and used to operate the ac not available.Auto-Manual – electric hand switch with auxiliary contacts indicating an "Out-of-Auto" position is a for local electric control.Competitive Mounting Plates – to adapt the HercuLine ® actuator Invensys (Barber-Colman) o Siemens (La mountings.Linkage assemblies – Pushrod assemblies f61-86-03-14Page 3Optional Local Display and Keypad for HercuLine ® 2001 and 2002A local display and keypad is optional for configuration and set-up (Figure 2). A high intensity 10-character LED display and simple push buttons provide quick access for actuator set up and status information. If relay outputs are specified, all configuration can be done through either the local HMI interface or the HercuLink ® configurator. HercuLink ® Palm PDA software or HART ™ communications is available for those ordering units without the display and keypad.Lower Control Arm RotationPushbuttons (Fou (Six Cha to Access Set Up, Status Calibration Para meters.Figure 1 Local HMI (Display and Keypad)61-86-03-14 Page 4Non-Contact Sensor NCS Spoiler (shown at full150 degree travel CCW)NCS PWA NCS setscrewRelay PWA card guides (relay PWAs removed)Figure 2 Non-Contact Sensor Assembly (HercuLine® 2002)61-86-03-14Page 5HercuLink® Computer InterfaceHercuLink® Computer software enables access to programming and communication functions available as standard with the HercuLine® 2001 and 2002 actuators without the added expense of the keypad & display HMI. Using a Palm™ PDA, laptop PC or desktop computer, HercuLink® software, and a RS232/485 converter users may configure, calibrate, and access maintenance information locally or remotely to the actuator.Using HercuLink® software the computer may be used as a master device over a Modbus network to access information to/from the actuators and to control the device. Set-up configurations may also be stored on the computer for download to other HercuLine®devices. Information may be stored on the users PC in CSV format for use in preventative maintenance programs.•Certified on Palm™ m125, m130, and m505.•Compatible with Palm OS3.5 or higher.•Compatible with Windows 2000 or XP operating systems•Minimum system requirements:•Windows 2000 (w/service pack 2), Windows NT (w/service pack 5), Windows ME, Windows XP•200 MHz Pentium with 64 Megs RamPalm™ is a trademark of Palm, Inc.HotSync® is a registered trademark of Palm Computing, Inc.HercuLink® is a trademark of HoneywellFigure 3 PDA connection61-86-03-14Page 6Set Up/Configuration Parameters for Keypad & Display or HercuLink® SoftwareConfiguration parameters are logically grouped and accessed using the local HMI. Actuator calibration is also accomplished through a simple procedure using the keypad. By pressing the SETUP button on the HMI, you can step through the set up groups that contain all of the configuration parameters. The table below summarizes the configuration parameters available within the various set up groups. Full details of all configuration parameters are found in the HercuLine® 2000 Series Actuator Installation, Operation and Maintenance Manual, document number 62-86-25-10.Set Up Group Configuration Parameter Selections/SettingsSET INPUT⎯Selects various parameters that define actuator operation.IN TYP – Input Actuation TypeINP HI – Input High Range ValueINP LO – Input Low Range ValueFILTYP – Input Filter TypeLPFILT – Low Pass Filter Time ConstantDirect – Actuator RotationDband – Input DeadbandFSFTYPH – FailsafeHI TypeFsFVALH – FailsafeHI ValueFSFTYPL – FailsafeLO TypeFsFVALL – FailsafeLO ValueCHAR – Input Characterization TypeCUST – Custom Characterization TypeSET RELAY⎯When the actuator is equipped with optional relays, this set up group allows you to set relay action for various actuator operating conditions. Contact closure can be wired to external annunciators or alarm points to indicate conditions for any of the Relay Types. RTYPnn – Relay TypeInput RangePosition RangeDeviationUpper or Lower Limit TravelTemperature High or LowCycle CountMotor StalledManual ModePower Up Test FailureInput Signal FailurePosition Sensor Signal FailureDigital Input ClosureTotal Degrees TraveledRnnVAL – Relay ValueRnn HL – Relay High/LowRLYnHY – Relay HysteresisSET CUROUT⎯Selects the current (or voltage) output range of the actuator.CUROUT - Output Signal Range4 – 20 mA 0 – 20 mA1 – 5 V 0 – 5 VOr SWESET COMM⎯Actuator can be defined as a master or slave device on a Modbus RTU RS-485 loop. Operating setpoint can be transmitted to the actuator and operating status can be read when connected to supervisory control M – Communications Parameters ADDRES – Device AddressBAUD – Baud RateXmtDLY – Response DelayDBLBYT – Floating Point Data FormatSET DIGINP⎯Selects digital input action upon contact closure. DIGINP – Digital Input State Endpos – End Position ValueSET DISPLA⎯Selects desired decimal places and engineering units for local display DECMAL – Decimal Point Location EUNITS – Units DisplayUNITS – Display UnitsCAL INPUT, MTR, CURENT⎯If needed, field calibration of the actuator input, motor position and actuator output can be performed using the local keypad and display.61-86-03-14Page 7 Set Up Group Configuration Parameter Selections/SettingsSET LOCK⎯Enables lock out or access to selected set up group parameters and calibration values.LOCKID – Set Security Password LOCK – Lock OutMAENAB – Mode button lockoutREAD STATUS⎯Displays failsafe condition and the results of various diagnostics performed during power up.FAILSF – FailsafeRAMTST – RAM Test DiagnosticSEETST – Serial EEPROM TestDiagnosticCFGTST – Configuration Test DiagnosticCALTST – Calibration Test DiagnosticSET DRVINF⎯Allows access to actuator device information.VERSON – Firmware VersionSPEED – Stroke SpeedPOWER – Power Input Voltage and LineFrequencyTAG – Tag NameDMFG – Manufacturing DateLREP – Date of Last RepairLCAL – Date of Last Field CalibrationREPTYP – Repair TypeSET MAINT⎯Allows access to parameters that monitor operating conditions.TEMP – Actuator TemperatureTEMPHI – High Temperature LimitTEMPLO – Low Temperature LimitACSTA – Accumulated Stall TimeSTARTS – Accumulated Motor StartsRLnCNTS – Relay Cycle CountsREGNn – Accumulated Motor StartsTOTDEG – Total degrees traveledMANRST – Reset Maintenance StatisticsLD CAL – Restore CalibrationLD CFG – Restore ConfigurationSYSRST – System RestartSpecifications – GeneralPhysicalWeight 2000: 25 lb. (11.36 kg)2001,2002: 27 lbs. (12.27 kg)Enclosure Precision-machined die cast aluminum housing, finished in light gray powder coat epoxy. Gear Train Alloy steel, high efficiency steel spur gear primary train. Precision ground, self-locking/selfreleasing worm gear final mesh.Mechanical Stops Factory set at 90° or 150° (+/-5°).Storage Temperature –40 °C to +93 °C (–40 °C to +200 °F)Relative Humidity 0 % to 99 % R.H. non-condensing over the full operating temperature range.Scale 0 % to 100 % corresponding to full crank arm travel.Crank Arm Adjustable radii 1.0 in (25.4mm) to a maximum of 2.8 in (71.1mm). Position adjustablethrough 360° rotation.Output Shaft 0.625+/-.005 in (15.88 +/-.13mm) diameter (round)Rotation 90° or 150° degrees between 0 % and 100 % on scale, limited by mechanical stops. Manual Hand wheel(option)Provides a means of positioning the actuator in the event of a power failure or set-up. Lubrication Texaco Starplex 2 EP GreaseOutput Torque/Full Travel Stroking Time Torque lb-in (N M)50 / (6.0)100 / (11.5)200 / (22.5)400 / (45.0)400 / (45.0)50 Hz (90°/150°)4.5 / 7.59 / 1518 / 3036 / 6054 / 9060 Hz (90°/150°)4 / 67 / 1215/2530/5045/7561-86-03-14Page 8ElectricalMains Supply 100-130 Vac single phase, 50 Hz or 60 Hz200-240 Vac single phase, 50 Hz or 60 HzMotor Instant start/stop, non-coasting, non-burnout, continuous duty, permanent magnet,synchronous induction motor. Can be stalled up to 100 hours without damage.Motor Current = No load = full load = locked rotor = 0.4 amp for 120Vac, 0.2 amp for 240 VacLoss of Power Stays in place on loss of powerLocal Auto/Manual Switch Optional – Allows local and automatic operation of the actuator.End of travel Limit Switches Standard – adjustable to limit actuator travel to less than 90 or 150 degrees respectively Auxiliary Switches/Relays Optional – Up to 4 additional SPDT switches rated at (10 A at 125 Vac, 5 A at 250 Vac). CertificationsApprovals CSA/UL (Standard)CE Compliant (optional)Enclosure Rating Type 4 (NEMA 4), IP66 (standard)Torque Settings of Crank Arm BoltsClamp Bolt 88 lb-in (10 N-m)Electrical and Performance SpecificationsHercuLine® 2000 SeriesHercuLine® 2002 HercuLine® 2001 Herculine® 2000Input Signals Analog:•0/4 to 20 mA (With CPUPWA jumper in currentposition)•0/1 to 5 Vdc•0 to 10 VdcDigital:•Modbus RTU (RS485) Analog:•0/4 to 20 mA (With CPUPWA jumper in currentposition)•0/1 to 5 Vdc•0 to 10 Vdc•Series 90 controlDigital:•Modbus RTU (RS485)120 Vac drive open/120 Vacdrive close240 Vac drive open/240 Vacdrive closeIsolation Input signal, output signal and power are isolated from eachother.NA Load Requirement (4-20) Current Out — 0 to 1000 ohms NAInput Impedance 0/4 to 20 mA0/1 to 5 Vdc0-10 Vdc 250 ohms10 K ohmsNA0 to 20 mA, 4 to 20 mA0 to 5 Vdc & 1 to 5 Vdc with 250 ohm resistor, (0 to 16 Vdc with 800 ohm resistor) Dual output 1000 ohms over 90 degrees (135 ohms with 158 resistor)Dual output 1000 ohms over 150 degrees (135 ohms with 158 resistor)FeedbackSlidewire emulation - Provides output voltage ratiometric toshaft position and potentiometric to supply voltage(1 Vdc to 18 Vdc) without a slidewire. Emulates a 100 ohm to1000 ohm slidewire. 10 mA output maximum.61-86-03-14Page 9HercuLine® 2002 HercuLine® 2001 Herculine® 2000 Communications Modbus RTU or optional HART™NAOperating Temperature –40°C to +75 °C (–40°F to +170 °F) -40°C to +85 °C (-40°F to+185 °F)Position sensing Non-contact position sensor 1000 ohm film potentiometer Optional dual 1000 ohm filmpotentiometersSensitivity 0.2 % to 5 % of 90° span, proportional to deadband NAHysteresis Less than 0.4 % of full scale NADeadband 0.2 % to 5 % of 90° span, programmable. Shipped at 0.5 %NARepeatability 0.2 % of 90° span NARepositions(minimum @ 90 or 150degree stroke)Table 1 option –050- Table 1 option –100- Table 1 option –200- Table 1 option –400- Table 1 option –600- 160290450700900120250400400400500Voltage/ SupplyStability0.25 % of span with +10/–15 % voltage change NATemperature Coefficient Less than ± 0.030 % of span per degree C for 0 °C to 50 °CLess than ± 0.05 % of span per degree C for –40 °C to 75 °CNAZero Suppression 90 % of span.NA Input Filters Selectable spike and low pass filters.NASolid State Motor Control Two triac switches for clockwise or anti-clockwise motoroperation. Transient voltage protection provided.NAFailsafe operation If input signal exceeds configured input range. Selectable andadjustable.NA Direction of Rotation Field programmable Wire swap Duty Cycle ContinuousProgrammableFunctionsSelectable and configurable operating parameters:NA• Inputrange• Inputfiltering• Inputcharacterization• Security•Digital Input action• Deadband•Failsafe on loss of input signal•Failsafe on loss of position sensor•Direction of rotation•Relay closure action• Communicationparameters•Split range operation• Outputrange• Alarms61-86-03-14Page 10Actuator Crank ArmThe HercuLine® 2000 Series Actuators come standard with a 2.8 inch (71.12mm) crank arm (Figure 4). The crank arm uses linkage kits (above). Adjustable radius (1.0 in (25.4mm) to 2.80 in (71.12mm)). Position adjustable through 360° rotation.Figure 4 Standard 2.8” (71.12mm) Crank ArmFigure 5 Crank Arm with optional ball joint and push rodModel Selection GuidecontinuedOutline Dimension DrawingsmminchesActionator M640A, M740A, and M940A replacementSee Honeywell SalesNet at /salesnet/supporting_docs/sales_tools/actionator_to_hl_xover.xlsWarranty/RemedyHoneywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Contact your local sales office for warranty information. If warranted goods are returned to Honeywell during the period ofcoverage, Honeywell will repair or replace without charge those items it finds defective. The foregoing is Buyer's sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability andfitness for a particular purpose. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use.While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application.For more information, contact Honeywell sales at (800) 343-0228.Honeywell Process ControlHoneywell512 Virginia DriveFort Washington, PA 1903461-86-03-14 June 08 Printed in USA /ps。

DEL/DEM 型定量给料机使用说明书（INTECONT PLUS 403仪表）承德市联创计控设备有限公司目录第一章概述┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄（1）第二章技术参数和功能┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄（2）第三章工作原理┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄（4）第四章结构┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄（7）第五章操作与显示┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄（9）第六章参数说明┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(17) 第七章故障信息┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(34) 第八章安装与调试┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(36) 第九章维护与保养┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(38) 附图说明┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(39) 附图1 示意图┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(40) 附图2 接线端子图┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(41) 附图3 电缆线图┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄┄(42)第一章概述DEL/DEM型定量给料机是我公司引进德国申克（SCHENCK）公司的控制仪表进行生产的、具有先进水平的连续称量给料设备。

DEL/DEM型定量给料机能自动按照预定的程序，依照设定的给料量自动调节流量使之跟踪设定值，以恒定的给料速率连续不断地输送散状物料，实现定量给料、自动计量和累计等功能。

DEL/DEM型定量给料机精度高、适应能力强、长期稳定性好、可靠性高，尤其在条件恶劣的环境下能正常工作。

TEL: +81 (42) 662-6003193-8550, Japa2009年3月19日低功耗的40Gbps 光通信用EML 驱动IC 产品化～世界最小级的低功耗、以对XLMD-MSA 市场占有率50％以上为目标～OKI SEMICONDUCTOR 此次新开发了40Gbps 光通信用EML *1驱动IC 「KGA8205」。

该产品实现了世界最小级的低功耗1.1W （振幅2.3Vpp)，且是可以集成于XLMD-MSA *2规格的光调制器模块中的单芯片EML 驱动。

期望在40Gbps 光通信市场的占有率达到50％以上。

本产品自本日起开始样片出货，预定2009年6月开始量产出货。

随着40Gbps 光通信用收发器的逐渐小型化、实装面积的缩小、以及发热密度的增大，对构成零件的小型、低功耗方面的要求越来越高。

以XLMD-MSA 的規格（40Gbps 光模块的通用规格）为基准、令光调制器集成半导体激光与驱动IC 集成在同一个封装里的驱动IC 内置型EML 模块，将会使用在短距离用收发器的发射部分。

本次发售的「KGA8205」以Die 形态提供，外部不附加输出偏压电路零件，而是能够直接与EML 连接，因此是最适于驱动内置EML 模块的产品。

芯片大小以及pad 排列依照XLMD-MSA 的规格。

本产品的基本元件中使用有优越的快速特性的InP HEMT *3，实现了在43Gbps 工作时功耗1.1W(输出振幅2.3Vpp)的快速工作与世界最小级的低功耗。

使用本IC ，在40Gbps 光通信用EML 模块中不仅可形成高质量的光波形，还能实现小型化・低功耗化。

OKI SEMICONDUCTOR 充分发挥快速・低功耗的优势，为迅速成长的光通信用IC 市场，提供高性能、高质量的光通信用驱动IC 。

今年3月22日（周日）～26日（周四）、于美国加利福尼亚州San Diego 市召开的the Optical Fiber Communication Conference & Exposition and the National Fiber Optic Engineers Conference (OFC/NFOEC2009)（/）的展示会场的OKI SEMICONDUCTOR 摊位（# ２４３１）中，将对40Gbps 光通信用光调制器驱动进行展示与说明。

Data SheetADuM1400/ADuM1401/ADuM1402 Rev. L | Page 21 of 31ABSOLUTE MAXIMUM RATINGSAmbient temperature = 25°C, unless otherwise noted. Table 13.ParameterRating Storage Temperature (T ST )−65°C to +150°C Ambient Operating Temperature (T A )1−40°C to +105°C Ambient Operating Temperature (T A )2−40°C to +125°C Supply Voltages (V DD1, V DD2)3−0.5 V to +7.0 V Input Voltage (V IA , V IB , V IC , V ID , V E1, V E2)3, 4−0.5 V to V DDI + 0.5 V Output Voltage (V OA , V OB , V OC , V OD )3, 4−0.5 V to V DDO + 0.5 V Average Output Current per Pin 5Side 1 (I O1)−18 mA to +18 mA Side 2 (I O2)−22 mA to +22 mA Common-Mode Transients 6−100 kV/µs to +100 kV/µs 1 Does not apply to ADuM1400W , ADuM1401W , and ADuM1402W automotive grade versions.2 Applies to ADuM1400W , ADuM1401W , and ADuM1402W automotive grade versions.3 All voltages are relative to their respective ground.4 V DDI and V DDO refer to the supply voltages on the input and output sides of a given channel, respectively. See the PC Board Layout section.5 See Figure 4 for maximum rated current values for various temperatures.6 This refers to common-mode transients across the insulation barrier. Common-mode transients exceeding the Absolute Maximum Ratings may cause latch-up or permanent damage.Stresses at or above those listed under Absolute Maximum Ratings may cause permanent damage to the product. This is a stress rating only; functional operation of the product at these or any other conditions above those indicated in the operational section of this specification is not implied. Operation beyond the maximum operating conditions for extended periods may affect product reliability. ESD CAUTION Table 14. Maximum Continuous Working Voltage 1ParameterMax Unit Constraint AC Voltage, Bipolar Waveform565 V peak 50-year minimum lifetime AC Voltage, Unipolar WaveformBasic Insulation1131 V peak Maximum approved working voltage per IEC 60950-1 Reinforced Insulation560 V peak Maximum approved working voltage per IEC 60950-1 and VDE V 0884-10 DC VoltageBasic Insulation1131 V peak Maximum approved working voltage per IEC 60950-1 Reinforced Insulation560 V peak Maximum approved working voltage per IEC 60950-1 and VDE V 0884-10 1 Refers to continuous voltage magnitude imposed across the isolation barrier. See the Insulation Lifetime section for more details. Table 15. Truth Table (Positive Logic)V Ix Input 1V Ex Input 1, 2 V DDI State 1 V DDO State 1 V Ox Output 1 Notes HH or NC Powered Powered H LH or NC Powered Powered L XL Powered Powered Z XH or NC Unpowered Powered H Outputs return to the input state within 1 µs of V DDI power restoration. XL Unpowered Powered Z X X Powered Unpowered Indeterminate Outputs return to the input state within 1 µs of V DDO power restoration if the V Ex state is H or NC. Outputs return to a high impedance statewithin 8 ns of V DDO power restoration if the V Ex state is L.1V Ix and V Ox refer to the input and output signals of a given channel (A, B, C, or D). V Ex refers to the output enable signal on the same side as the V Ox outputs. V DDI and V DDO refer to the supply voltages on the input and output sides of the given channel, respectively.2 In noisy environments, connecting V Ex to an external logic high or low is recommended.Data SheetADuM1400/ADuM1401/ADuM1402 Rev. L | Page 27 of 31 APPLICATIONS INFORMATION PC BOARD LAYOUTThe ADuM1400/ADuM1401/ADuM1402 digital isolators require no external interface circuitry for the logic interfaces. Power supply bypassing is strongly recommended at the input and output supply pins (see Figure 17). Bypass capacitors are most conveniently connected between Pin 1 and Pin 2 for V DD1 and between Pin 15 and Pin 16 for V DD2. The capacitor value should be between 0.01 µF and 0.1 µF. The total lead length between both ends of the capacitor and the input power supply pin should not exceed 20 mm. Bypassing between Pin 1 and Pin 8 and between Pin 9 and Pin 16 should also be considered, unless the ground pair on each package side is connected close to the package.VGND V V V IC /V V ID/V NC/V GND DD22OA OB OC/V IC OD/V ID E2203786-017Figure 17. Recommended Printed Circuit Board Layout In applications involving high common-mode transients, care should be taken to ensure that board coupling across the isolation barrier is minimized. Furthermore, the board layout should be designed such that any coupling that does occur equally affects all pins on a given component side. Failure to ensure this could cause voltage differentials between pins exceeding the Absolute Maximum Ratings of the device, thereby leading to latch-up or permanent damage. See the AN-1109 Application Note for board layout guidelines. PROPAGATION DELAY-RELATED PARAMETERS Propagation delay is a parameter that describes the time it takes a logic signal to propagate through a component. The propagation delay to a Logic 0 output may differ from the propagation delay to a Logic 1 output. 03786-018Figure 18. Propagation Delay Parameters Pulse width distortion is the maximum difference between these two propagation delay values and is an indication of how accurately the timing of the input signal is preserved. Channel-to-channel matching refers to the maximum amount the propagation delay differs between channels within a single ADuM1400/ADuM1401/ADuM1402 component.Propagation delay skew refers to the maximum amount the propagation delay differs between multiple ADuM1400/ ADuM1401/ADuM1402 components operating under the same conditions. DC CORRECTNESS AND MAGNETIC FIELD IMMUNITY Positive and negative logic transitions at the isolator input cause narrow (~1 ns) pulses to be sent to the decoder via the transformer. The decoder is bistable and is, therefore, either set or reset by the pulses, indicating input logic transitions. In the absence of logic transitions at the input for more than ~1 µs, a periodic set of refresh pulses indicative of the correct input state are sent to ensure dc correctness at the output. If the decoder receives no internal pulses of more than about 5 µs, the input side is assumed to be unpowered or nonfunctional, in which case the isolator output is forced to a default state (see Table 15) by the watchdog timer circuit. The limitation on the magnetic field immunity of the ADuM1400/ ADuM1401/ADuM1402 is set by the condition in which induced voltage in the receiving coil of the transformer is sufficiently large enough to either falsely set or reset the decoder. The following analysis defines the conditions under which this may occur. The 3 V operating condition of the ADuM1400/ADuM1401/ADuM1402 is examined because it represents the most susceptible mode of operation.The pulses at the transformer output have an amplitude greater than 1.0 V . The decoder has a sensing threshold at about 0.5 V , thus establishing a 0.5 V margin in which induced voltages can be tolerated. The voltage induced across the receiving coil is given by V = (−dβ/dt )∑∏r n 2; n = 1, 2, … , Nwhere: β is magnetic flux density (gauss).N is the number of turns in the receiving coil. r n is the radius of the n th turn in the receiving coil (cm). Given the geometry of the receiving coil in the ADuM1400/ ADuM1401/ADuM1402 and an imposed requirement that the induced voltage be 50% at most of the 0.5 V margin at the decoder, a maximum allowable magnetic field is calculated as shown in Figure 19.MAGNETIC FIELD FREQUENCY (Hz)100M A X I M U M A L LO W A B L E M A G N E T I C F L U X D E N S I T Y (k g a u s s )0.0011M 100.011k10k 10M 0.11100M100k 03786-019Figure 19. Maximum Allowable External Magnetic Flux Density。

PROP R O D U C T S P E C I F I C A T I O N S H E E TM I X E R STYPE:L SERIESPRODUCTDESCRIPTIONL24004-BUS MIXING CONSOLESERIESCATEGORYL SERIESMIXERSoperator can record and playback digital audio from virtually any computer running recording software. Theflexible routing option also lets a user assign the USB output to send the signal from the main stereo mix, or use the aux sends to record a completely independent mix. The USB input can be routed to the main LR mix or to channel 23 and 24.The L2400 will provide clean, clear sound reproduction thanks to advanced circuit topology, high-qualitycomponents, low noise microphone preamps and a low impedance mix bus design. Perfectly suited for recording, live sound reinforcement and commercial installations, the L2400 combines comprehensive features and intuitive ©2008 Samson v1.0 6/08L2400 LIVE 24-CHANNEL SPECIFICATIONSMaximum Output Level (0.5% THD at 1 kHz) .........................................+24 dB (MAIN L/R) @ 10kΩ .........................................+20 dB (INSERT) @10kΩ .........................................+20 dB (GROUP, AUX/EFX, CTRL ROOM) @10kΩ .........................................More than100mW (HEADPHONES) @ 33ΩFrequency Response ......................... 20 Hz~20 kHz, +1/-2 dB(MIX L/R, GROUP, AUX/EFX SEND) @ 10kΩHum and Noise .................................-128 dBu: Equivalent input noise (Rs = 150Ω) .........................................-95 dBu: Residual noise (MAIN L/R, MONO, MAIN B, GROUP, AUX/EFX OUT) .........................................-83 dBu: MAIN, MONO, GROUP Master fader at nominal level and all channel fader minimum .........................................-76 dBu: AUX Master control at nominal level and all channel control minimum Crosstalk (at 1 kHz) ..........................-70 dB between input channels .........................................-70 dB between input/output channels (CH INPUT)Gain Control (Mono Input Channel)...... 44 dB Variable (-50 dB ~ -6 dB),(-30 dB ~ +14 dB)Gain (Stereo Input Channel) ...............40 dB Variable (-20 dB ~ +20 dB)High-Pass Filter ...............................75 Hz, 18 dB/OctaveInput Channel Equalization (Mono) ......HIGH: 12 kHz shelving ± 15 dB .........................................MID: 100~8 kHz peaking ± 15 dB” .........................................LOW: 80 Hz shelving ± 15 dB Input Channel Equalization (Stereo) .........................................HIGH: 12 kHz shelving ± 15 dB .........................................HI-MID: 3 kHz peaking ± 15 dB .........................................LO-MID: 500 Hz peaking ± 15 dB .........................................LOW: 80 Hz shelving ± 15 dB LED Meters ...................................... 12-point LED x 2 MAIN L/R,PFL/AFL, GROUP (1~4)Internal Digital Effects ......................2 × 24-BIT DSP, 100 selectable presets .........................................FOOT switch (ON/OFF)Channel Indicators ........................... P eak: An indicator for each channelturns on when the pre-channel fader signal is 5 dB below clipping.Phantom Power ................................+48V DCUSB Bus Power ................................+5V DC 0.5A max USB A-TYPE FEMALE Power Source / Power Consumption ....AC 120V/230V/240V, 50/60Hz .........................................L2400: 60W Dimensions (W × D × H) .................... 31.5˝ × 6.25˝ × 21˝798mm × 159mm × 533mm Weight .........................................35.6 lbs (16.2 kg)ARCHITECT’S & ENGINEER’S SPECIFICATIONSThe Samson L2400 shall be a tabletop audio mixer. It shall be a 24-channel design with 16 channels having XLR mic inputs and 4 channels being stereo channels, two with XLR’s included. The XLR Mic channels are equipped with 3 band EQ withsweepable mids, line input, insert point, mic/line trim control, 75Hz low cut filter, aux 1 and 2 send pre-fader, aux 3 and 4 send with pre/post switch, EFX 1 and 2 send to the 2 internal 24 bit DSP effects units with EFX bypass switch to send to aux 5 and 6 outputs, pan, solo, lighted mute, 60mm fader, buss 1-2 switch, bus 3-4 switch and main mix routing switch. Two of the stereo channels shall have 4 band fixed frequency EQ, line input on 2 – 1⁄4 inch jacks, mic/line trim control, XLR mic inputs, aux 1 and 2 send pre-fader, aux 3 and 4 send with pre/post switch, EFX 1 and 2 send to the 2 internal 24 bit DSP effects units with EFX bypass switch to send to aux 5 and 6 outputs, pan, solo, lighted mute, 60mm fader, buss 1-2 switch, bus 3-4 switch and main mix routing switch. The other two stereo channels have stereo RCA inputs instead of the added mic inputs. The main section shall have 6-1⁄4 inch outputs for the 6 aux sends with level controls and PFL switches plus EFX out 1 and 2 on 1⁄4 inch jacks with level controls and PFL switches. Aux return 1 and 2 shall be stereo returns on 1⁄4 inch jacks with level controls, PFL, and level controls to send to aux 1, 2, and a shift button to send to aux 3,4. The L2400 shall have a stereo CD/Tape in on RCA jacks with level control and PFL. It shall have a record out on RCA jacks. There shall be 4 group outputs on 1⁄4 inch jacks with 4 inserts on TRS 1⁄4 inch jacks controlled by 100mm faders, AFL, pan controls and assign buttons to main mix. The L2400 shall have a mono XLR output with insert, AFL, and 100mm fader that can also be used as a sub-woofer output via a Sub-woofer on/off button with variable frequency control from 20Hz to 200Hz. TheL2400 shall have 2 internal DSP units with LED indicators for the 100 presets, routing to aux 1, 2, 3, and 4, bus 1-2, 3-4, and main mix, lighted effect on buttons, PFL and 100mm effect return faders. There shall be a rear panel 1⁄4 inch jack for a footswitch that bypasses the second DSP unit. The main mix shall have balanced XLR outputs and 1⁄4 inch inserts controlled by a stereo 100mm fader with AFL switch. There shall also be a main B rotary control that sends the main mix to a mix B output on 2- 1⁄4 inch jacks. The L2400 shall have a front panel headphone output with rotary volume control. There shall be a global 48V phantom power switch, an LED power indicator and 12V lamp socket on the top panel. There shall be 2 stereo LED ladders. One to indicate left and right mix or bus 1 and 2 via a push switch, the other indicating PFL and AFL or bus 3 and 4 via the same push switch. The L2400 shall have provisions for a talkback mic on an XLR jack with 48V phantom power. It shall have a level control and routing on switches to aux 1-2, 3-4, group 1-2, 3-4 and main mix. The L2400 shall have a USB interface. It shall stream a stereo mix either from the main mix or from aux 1-2 via a top panel switch. The USB can signal can be returned to either the main mix or to channel 23-24 via a top panel switch. The USB signal coming back to the mixer can also be routed to the headphone section via a top panel switch. The mixer shall have an internal power supply and a rear panel IEC connector.。

1FeaturesInputs/Outputs •Accepts differential or single-ended input •LVPECL, LVDS, CML, HCSL, LVCMOS •Four precision LVPECL outputs •Operating frequency up to 750 MHzPower •Option for 2.5 V or 3.3 V power supply •Core current consumption of 62 mA•On-chip Low Drop Out (LDO) Regulator for superior power supply noise rejectionPerformance •Ultra low additive jitter of 39 fs RMSApplications•General purpose clock distribution •Low jitter clock trees •Logic translation•Clock and data signal restoration•Wired communications: OTN, SONET/SDH, GE, 10 GE, FC and 10G FC•PCI Express generation 1/2/3 clock distribution •Wireless communications•High performance microprocessor clock distributionApril 2014Figure 1 - Functional Block DiagramZL40202Precision 1:4 LVPECL Fanout BufferData SheetOrdering InformationZL40202LDG1 16 Pin QFN TraysZL40202LDF116 Pin QFN Tape and ReelMatte TinPackage size: 3 x 3 mm-40o C to +85o CTable of ContentsFeatures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Change Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41.0 Package Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .52.0 Pin Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53.0 Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .63.1 Clock Inputs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .63.2 Clock Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .113.3 Device Additive Jitter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .153.4 Power Supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.4.1 Sensitivity to power supply noise. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.4.2 Power supply filtering. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .163.4.3 PCB layout considerations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .164.0 AC and DC Electrical Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .175.0 Performance Characterization . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .206.0 Typical Behavior . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .217.0 Package Thermal Characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .238.0 Mechanical Drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24List of FiguresFigure 1 - Functional Block Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Figure 2 - Pin Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Figure 3 - LVPECL Input DC Coupled Thevenin Equivalent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 Figure 4 - LVPECL Input DC Coupled Parallel Termination. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Figure 5 - LVPECL Input AC Coupled Termination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 Figure 6 - LVDS Input DC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 7 - LVDS Input AC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 Figure 8 - CML Input AC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Figure 9 - HCSL Input AC Coupled . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Figure 10 - CMOS Input DC Coupled Referenced to VDD/2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Figure 11 - CMOS Input DC Coupled Referenced to Ground . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Figure 12 - Simplified Output Driver. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Figure 13 - LVPECL Basic Output Termination . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 Figure 14 - LVPECL Parallel Output Termination. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Figure 15 - LVPECL Parallel Thevenin-Equivalent Output Termination. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 Figure 16 - LVPECL AC Output Termination for Externally Terminated LVPECL Inputs . . . . . . . . . . . . . . . . . . . . 13 Figure 17 - LVPECL AC Output Termination for Internally Terminated LVPECL Inputs. . . . . . . . . . . . . . . . . . . . . 13 Figure 18 - LVPECL AC Output Termination for CML Inputs. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 Figure 19 - Additive Jitter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 Figure 20 - Decoupling Connections for Power Pins. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Figure 21 - Differential Voltage Parameter. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 Figure 22 - Input To Output Timing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19Change SummaryPage ItemChange1Applications Added PCI Express clock distribution.5Pin Description Added exposed pad to Pin Description.6, 7Figure 3 and Figure 413Figure 16Corrected LVPECL interface circuit.18Figure 21Clarification of V ID and V OD .Below are the changes from the February 2013 to the April 2014 issue:Page Item Change7Figure 4Changed text to indicate the circuit is not recommended for VDD_driver=2.5V.7Figure 5Changed pull-up and pull-down resistors from 2kOhm to 100 Ohm.Below are the changes from the November 2012 issue to the February 2013 issue:Removed 22 Ohm series resistors from Figure 3 and 4.These resistors are not required; however there is no impact to performance if the resistors are included.The device is packaged in a 16 pin QFN1416642out3_nvddout3_pN Cc l k _pvddgndout0_no u t 2_no u t 2_po u t 1_n81210o u t 1_pc l k _nN Cout0_pgndFigure 2 - Pin Connections2.0 Pin DescriptionPin # Name Description1, 4clk_p, clk_n,Differential Input (Analog Input). Differential (or singled ended) input signals. For all input signal configuration see “Clock Inputs” on page 615,14, 12, 11, 10, 9, 7, 6out0_p, out0_n out1_p, out1_n out2_p, out2_n out3_p, out3_nDifferential Output (Analog Output). Differential outputs.8, 13vdd Positive Supply Voltage. 2.5 V DC or 3.3 V DC nominal.5, 16gnd Ground. 0 V.2, 3NCNo Connection. Leave unconnected.Exposed PadDevice GND .The ZL40202 is an LVPECL clock fanout buffer with four identical output clock drivers capable of operating at frequencies up to 750MHz.Inputs to the ZL40202 are externally terminated to allow use of precision termination components and to allow full flexibility of input termination. The ZL40202 can accept DC coupled LVPECL or LVDS and AC coupled LVPECL, LVDS, CML or HCSL input signals; single ended input signals can also be accepted. A pin compatible device with internal termination is also available.The ZL40202 is designed to fan out low-jitter reference clocks for wired or optical communications applications while adding minimal jitter to the clock signal. An internal linear power supply regulator and bulk capacitors minimize additive jitter due to power supply noise. The device operates from 2.5V+/-5% or 3.3V+/-5% supply. Its operation is guaranteed over the industrial temperature range -40°C to +85°C.The device block diagram is shown in Figure 1; its operation is described in the following sections.3.1 Clock InputsThe ZL40202 is adaptable to support different types of differential and singled-ended input signals depending on the passive components used in the input termination. The application diagrams in the following figures allow the ZL40202 to accept LVPECL, LVDS, CML, HCSL and single-ended inputs.Figure 3 - LVPECL Input DC Coupled Thevenin EquivalentFigure 4 - LVPECL Input DC Coupled Parallel TerminationFigure 5 - LVPECL Input AC Coupled TerminationFigure 6 - LVDS Input DC CoupledFigure 7 - LVDS Input AC CoupledFigure 8 - CML Input AC CoupledFigure 9 - HCSL Input AC CoupledFigure 11 - CMOS Input DC Coupled Referenced to GroundVDD_driver R1 (kΩ)R2 (kΩ)R3 (kΩ)RA (kΩ) C (pF) 1.5 1.25 3.075open10101.81 3.8open10102.50.33 4.2open10103.30.75open4.21010Table 1 - Component Values for Single Ended Input Reference to Ground* For frequencies below 100 MHz, increase C to avoid signal integrity issues.3.2 Clock OutputsLVPECL has a very low output impedance and a differential signal swing between 1V and 1.6 V. A simplified diagram for the output stage is shown in Figure 12.The LVPECL to LVDS output termination is not shown since there is a separate device that has the same input and LVDS outputs.out_pout_nFigure 12 - Simplified Output DriverThe methods to terminate the ZL40202 LVPECL drivers are shown in the following figures.Figure 15 - LVPECL Parallel Thevenin-Equivalent Output TerminationF igure 16 - LVPECL AC Output Termination for Externally Terminated LVPECL InputsFigure 17 - LVPECL AC Output Termination for Internally Terminated LVPECL InputsFigure 18 - LVPECL AC Output Termination for CML Inputs3.3 Device Additive JitterThe ZL40202 clock fan out buffer is not intended to filter clock jitter. The jitter performance of this type of device is characterized by its additive jitter. Additive jitter is the jitter the device would add to a hypothetical jitter-free clock as it passes through the device. The additive jitter of the ZL40202 is random and as such it is not correlated to the jitter of the input clock signal.The square of the resultant random RMS jitter at the output of the ZL40202 is equal to the sum of the squares of the various random RMS jitter sources including: input clock jitter; additive jitter of the buffer; and additive jitter due to power supply noise. There may be additional deterministic jitter sources that are not shown in Figure 19.Figure 19 - Additive Jitter3.4 Power SupplyThis device operates with either a 2.5V supply or 3.3V supply.3.4.1 Sensitivity to power supply noisePower supply noise from sources such as switching power supplies and high-power digital components such as FPGAs can induce additive jitter on clock buffer outputs. The ZL40202 is equipped with a low drop out (LDO) power regulator and on-chip bulk capacitors to minimize additive jitter due to power supply noise. The LDO regulator on the ZL40202 allows this device to have superior performance even in the presence of external noise sources. The on-chip regulation, recommended power supply filtering, and good PCB layout all work together to minimize the additive jitter from power supply noise.The performance of these clock buffers in the presence of power supply noise is detailed in ZLAN-403, “Power Supply Rejection in Clock Buffers” which is available from Applications Engineering.3.4.2 Power supply filteringFor optimal jitter performance, the device should be isolated from the power planes connected to its power supply pins as shown in Figure 20.•10 µF capacitors should be size 0603 or size 0805 X5R or X7R ceramic, 6.3 V minimum rating•0.1 µF capacitors should be size 0402 X5R ceramic, 6.3 V minimum rating•Capacitors should be placed next to the connected device power pins• a 0.3 ohm resistor is recommended for the filter shown in Figure 20Figure 20 - Decoupling Connections for Power Pins3.4.3 PCB layout considerationsThe power nets in Figure 20 can be implemented either as a plane island or routed power topology without changing the overall jitter performance of the device.Absolute Maximum Ratings*Parameter Sym.Min.Max.Units 1Supply voltage V DD_R-0.5 4.6V 2Voltage on any digital pin V PIN-0.5V DD V 3LVPECL output current I out30mA 4Soldering temperature T260 °C 5Storage temperature T ST-55125 °C 6Junction temperature T j125 °C 7Voltage on input pin V input V DD V 8Input capacitance each pin C p500fF 4.0 AC and DC Electrical Characteristics* Exceeding these values may cause permanent damage. Functional operation under these conditions is not implied.* Voltages are with respect to ground (GND) unless otherwise statedRecommended Operating Conditions*Characteristics Sym.Min.Typ.Max.Units1Supply voltage 2.5 V mode V DD25 2.375 2.5 2.625V2Supply voltage 3.3 V mode V DD33 3.135 3.3 3.465V3Operating temperature T A-402585°C* Voltages are with respect to ground (GND) unless otherwise statedDC Electrical Characteristics - Current ConsumptionCharacteristics Sym.Min.Typ.Max.Units Notes 1Supply current LVPECL drivers -unloadedI dd_unload62mA Unloaded2Supply current LVPECL drivers - loaded (all outputs are active)I dd_load140mA Including powerto R L = 50DC Electrical Characteristics - Inputs and Outputs - for 3.3 V SupplyCharacteristics Sym.Min.Typ.Max.Units Notes 1Differential input common modevoltageV CM 1.1 2.0V2Differential input voltage difference V ID0.251V3LVPECL output high voltage V OH V DD-1.40V* This parameter is measured from 125 MHz to 750 MHz* This parameter is measured from 125 MHz to 750 MHzFigure 21 - Differential Voltage Parameter* Supply voltage and operating temperature are as per Recommended Operating Conditions4LVPECL output low voltage V OL V DD -1.62V 5LVPECL output differential voltage*V OD0.50.9VDC Electrical Characteristics - Inputs and Outputs - for 2.5 V SupplyCharacteristicsSym.Min.Typ.Max.Units Notes1Differential input common mode voltageV CM 1.1 1.6V 2Differential input voltage difference V ID 0.251V 3LVPECL output high voltage V OH V DD -1.40V 4LVPECL output low voltage V OL V DD -1.62V 5LVPECL output differential voltage*V OD0.40.9VAC Electrical Characteristics* - Inputs and Outputs (see Figure 22) - for 2.5 and 3.3 V supplies.CharacteristicsSym.Min.Typ.Max.Units Notes1Maximum Operating Frequency 1/t p 750MHz 2Input to output clock propagation delay t pd 012ns 3Output to output skew t out2out 50100ps 4Part to part output skewt part2part 80300ps 5Output clock Duty Cycle degradation t PWH / t PWL-2%0%2%Duty Cycle 6LVPECL Output slew rater sl0.75 1.2V/nsDC Electrical Characteristics - Inputs and Outputs - for 3.3 V SupplyCharacteristicsSym.Min.Typ.Max.Units NotesInputt Pt PWL t pdt PWHOutputFigure 22 - Input To Output TimingAdditive Jitter at 2.5 V*Output Frequency (MHz)Jitter MeasurementFilterTypical RMS (fs)Notes112512 kHz - 20 MHz 1122212.512 kHz - 20 MHz 803311.0412 kHz - 20 MHz 70442512 kHz - 20 MHz 65550012 kHz - 20 MHz 566622.0812 kHz - 20 MHz 46775012 kHz - 20 MHz44Additive Jitter at 3.3 V*Output Frequency (MHz)Jitter MeasurementFilterTypical RMS (fs)Notes112512 kHz - 20 MHz 1122212.512 kHz - 20 MHz 823311.0412 kHz - 20 MHz 72442512 kHz - 20 MHz 63550012 kHz - 20 MHz 526622.0812 kHz - 20 MHz 43775012 kHz - 20 MHz395.0 Performance Characterization*The values in this table were taken with an approximate input slew rate of 0.8 V/ns*The values in this table were taken with an approximate input slew rate of 0.8 V/nsAdditive Jitter from a Power Supply Tone*Carrier frequencyParameterTypicalUnitsNotes125MHz 25 mV at 100 kHz 159fs RMS 750MHz25 mV at 100 kHz82fs RMS* The values in this table are the additive periodic jitter caused by an interfering tone typically caused by a switching power supply. For this test, measurements were taken over the full temperature and voltage range for V DD = 3.3 V. The magnitude of the interfering tone is measured at the DUT.6.0 Typical BehaviorTypical Phase Noise at 622.08 MHzTypical Waveform at 155.52 MHzInput Slew Rate versus Additive Jitter Propagation Delay versus TemperatureNote:This is for a single device. For more details see thecharacterization section.V ODversus FrequencyPower Supply Tone Magnitude versus PSRR (at 100 kHz) at 125 MHz Power Supply Tone Magnitude versus Additive Jitter (at 100 kHz) at 125 MHzPower Supply Tone Frequency (at 25 mV) versus PSRR at 125 MHz Power Supply Tone Frequency (at 25 mV) versus Additive Jitter at 125 MHz7.0 Package Thermal Characteristics*Proper thermal management must be practiced to ensure that T jmax is not exceeded.Thermal DataParameterSymbolTest ConditionValue UnitJunction to Ambient Thermal ResistanceΘJAStill Air 1 m/s 2 m/s 67.961.658.1oC/WJunction to Case Thermal Resistance ΘJC Still Air 44.1o C/W Junction to Board Thermal Resistance ΘJB Still Air23.2oC/WMaximum Junction Temperature*T jmax 125o C Maximum Ambient TemperatureT A85oC© 2014 Microsemi Corporation. All rights reserved. Microsemi and the Microsemi logo are trademarks of Microsemi Corporation. All other trademarks and service marks are the property of their respective owners.Microsemi Corporation (NASDAQ: MSCC) offers a comprehensive portfolio of semiconductor and system solutions for communications, defense and security, aerospace and industrial markets. Products include high-performance and radiation-hardened analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization devices and precise time solutions, setting the world’s standard for time; voice processing devices; RF solutions; discrete components; security technologies and scalable anti-tamper products; Power-over-Ethernet ICs and midspans; as well as custom design capabilities and services. Microsemi is headquartered in Aliso Viejo, Calif. and has approximately 3,400 employees globally. Learn more at .Microsemi Corporate Headquarters One One Enterprise, Aliso Viejo CA 92656 USA Within the USA: +1 (800) 713-4113Outside the USA: +1 (949) 380-6100Sales: +1 (949) 380-6136Fax: +1 (949) 215-4996E-mail: ***************************Information relating to products and services furnished herein by Microsemi Corporation or its subsidiaries (collectively “Microsemi”) is believed to be reliable. However, Microsemi assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Microsemi or licensed from third parties by Microsemi, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Microsemi, or non-Microsemi furnished goods or services may infringe patents or other intellectual property rights owned by Microsemi.This publication is issued to provide information only and (unless agreed by Microsemi in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Microsemi without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user’s responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical and other products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Microsemi’s conditions of sale which are available on request.For more information about all Microsemi productsvisit our website at TECHNICAL DOCUMENTATION – NOT FOR RESALE。

2400快速显示器／报警单元主要应用• 压出生产线和注塑成型压机• 装料机• 食物加工设备• 压力测量和断路点（直接／差值）• 位移测量和断路点• 运用信号中继对快速变量定位，一般情况下自动操作主要特征• 对于应变仪、电位计、线性信号、热电偶、电阻式温度检测器双向可组态输入• 两个辅助模拟输入• 差值测量　• 准确度高：０．１％ｆ．ｓ．±１• 高速流畅• ６线应变仪自动校准• 变送器供电和应变仪探针供电• 储存：最小峰值、最大峰值、峰间值• ３个可组态报警器，故障保护功能• ２个数字输入• 多达４个继电器逻辑输出• ５位数字显示• 连续通讯界面：ＲＳ４８５　ＭＯＤＢＵＳ　ＲＴＵ协议（可选）• 隔离模拟中继输出（可选）概述快速微处理器显示器／报警单元，运用ＳＭＴ技术安装，提供完全操作接口，面板保护等级达到ＩＰ５４　（ＩＰ６５具有保护盖）。

面板上有一个轻触按键键盘，它有６个按键和一个５位数字的ＬＥＤ，用来显示过程变量及其它参数。

２４００是为了获取快速变化的信号而设计的。

它有两种逻辑输入，可被组态为不同功能，包括微差测量。

键盘输入组态，接受标准线性信号（和习惯线性信号），以及压力探针、测压仪、电位计、热电偶、电阻式温度检还有两个附加的线性信号模拟输出和两个数字输入，用于选择报警锁存重置、峰值锁存重置、校准检测、储存、报警值设定。

继电器或逻辑输出（多达４个）可组态。

仪表拥有诸如最大峰值、最小峰值、峰间值储存这些功能。

报警器４（１０）完全可组态设点。

＂故障保护＂ＭＤ８扩展单元，８个辅助设定点取代数字通讯仪表提供可选择串行界面：ＲＳ４８５　２／４线／ＲＳ２３２，使用ＭＯＤＢＵＳ　ＲＴＵ协议，可以读测器的信号。

组态使用一个具有不同层次的菜单结构使得数据被容易而快速地找到，因此简化了编技术数据操作界面从－１９９９９至９９９９９用十进制小数点可组态５位数字二色的（Ｒ／Ｖ）１３ｍｍ２位数字（Ｖ）７ｍｍn.14 redn.6模拟输入２毫秒从每２毫秒１００００点到每１００毫秒１０００００点习惯线性：•固定间距：６４段•变动间距：最大为３２段•自学350Ω灵敏度：1,5...4mV/V跳线供电：5/10Vdc 200mA≥100Ω, Ri > 10MΩ @ 2,5Vdc±50mV ... ±10V, Ri > 1MΩ0/4...20mA, Ri = 50ΩJ 0...1000°C / 32...1832°FK 0...1300°C / 32...2372°F规格９６×４８（１／８ＤＩＮ）。

•实时的流体特性o粘度o密度o介电常数o温度•数据记录o取样频率可编程o长达30天以上•主接口o RS-232 或者标准CANo Modbus32 协议•牢固的结构o防护等级IP-68•运行电压o12V描述FPA是一种创新的流体特性分析仪，它可以直接并同时测量流体的粘度、密度、介电常数和温度。

依靠专利的音叉技术，传感器可以检测到诸如发动机润滑油、燃油、传动油、刹车液、液压油和齿轮油、冷冻液和溶剂等的流体的多个物理属性间的直接和动态的关系，从而来确定这些流体的滞留、状态和污染情况。

这种多参数的分析能力改善了流体特性的运算法则。

FPA可为广大OEM和终端用户提供流体的在线检测功能，可广泛用于运输车辆、特种作业车辆、冷冻循环、采暖通风空调、压缩机、油和气体的精炼、通用化工及精细化工加工（例如，蒸馏液）、工业设备和涡轮机等领域的流体贮存、加工线、加压高速导管（例如，化学品供应、加工环路）等方面。

FPA是一款适用于实验室和远程领域便携式测试仪器。

根据不同的应用，FPA拥有多样化的配置，不同的螺纹类型，线长和通讯模式。

FPA支持主流的通讯界面（例如，数字CAN J1939,基于 RS-485协议的Modbus32），可以很容易地与主机、DCS（分散控制系统）和SCADA（数据采集与监视控制系统）等进行“即插即用”的连接。

数据存储功能是一个非常理想的测试仪器，在一些关键数据采集领域，甚至于当电脑关机的时候，也能自动存储数据。

FPA也能直接跟电脑相连通过我们提供的FPA软件。

特征应用o同时检测温度、粘度、密度和介电常数o动态的、混合状态的流体 (例如, 工艺流体、发动机润滑油、燃油的品质)o数据记录,以每2分钟采集一个样品检测，可收集长达30天的数据o风力涡轮机o取样频率可编程, at x-min./sample o工业和制造领域o防过热保护： (+125ºC) 自动关闭o变速箱和传动装置o实时计时，电池充电o航海，铁路和航空o基于RS-232的Modbus32 Interface o变压器o对于加压和流动系统的应用，可选用螺纹流体接口o压缩机，油和制冷剂o额外的连线长度选择，适用于远程测量应用领域o液压系统o主机应用软件o润滑油，燃油性能指标最大额定值探针额定值标志数值单位贮存温度T s-50 to +150 °C冲击力（峰值）S peak20 G振动限制V vol50 Grms流体压力适应性P Vacuum to 50 bars爆炸压力P 450 barsSCU 额定值标志数值单位最大电源电压V cc+32 V dc输入电流 @ 24 VdC (峰值) I in rush< 400 mA输入电流 @5-32 Vdc I max170 mA贮存温度T s-50 to +105 °C振动限制V vol45 Grms冲击力（峰值）S peak10 G*贮存温度: 传感器存储没有危险的温度特有指标数值探针额定值标志最小值典型值最大值单位工作环境温度** T a-40 +125 °C工作压力P 0 25 Bar液体温度T f-40 +150 °CSCU额定值标志最小值典型值最大值单位工作环境温度** T a-40 +85 °C供电电压V supply 5 +12/24 +32 V dc输入电流@ 5-32 Vdc I avg100 mA**工作环境温度: 传感器电子元件部分能够工作时候的环境温度计量学特征多参数测量值标志最小值典型值最大值单位粘度（动力）µ0.5 15.0 75* mPa-s (cP)粘度（动力）精度（ 10 <µ< 50 mPa-s(cP) 范围内）-5 +/-2 +5 % Value粘度（动力）精度（< 10 mPa-s (cP) 范围内）+/-0.2mPa-s(cP)密度ρ 0.65 0.85 1.50 gm/cc密度精确度-3 +/-1 +3 % Value介电常数ε 1.0 2.0 6.0 -介电常数精确度-3 +/-1 +3 % Value温度T -40 150 °C温度精确度T 0.1 °C获取特性标志最小值典型值最大值单位输出刷新率t 30 Second*粘度大于 75 cP 也能测量通过FPA，需要看具体的应用传输信号信号输出标准: RS-232 和 CAN.RS-485 可选USB 也是能够提供用于连接，可选。

Model:40EOZD (60Hz)33EFOZD (50Hz)Generator FeaturesD Engine is Environmental Protection Agency (EPA)Tier II compliantD Superior Kohler Fast-Response t PMG generator endsD Remote control connector D Class H insulationD Reconnectable voltageD One-or three-phase reconnectable alternator D Voltage regulation of 2%D Frequency regulation of 5%Optional AccessoriesD Sound shieldD Power takeoff (PTO)D Isolated ground system (12-or 24-volt)DParalleling governor provides frequency regulation of 0.5%D Circuit breakersOptional Agency Type ApprovalsD Lloyd’s RegisterD Det Norske Veritas (DNV)D American Bureau of Shipping (ABS)Marine GeneratorSetGenerator Weights and DimensionsWithout Sound ShieldWithSound Shield Weight,kg (lb.)Wet Dry 917(2022)890(1962)994(2192)967(2132)Length,mm (in.)*1625(63.96)1743(68.62)Width,mm (in.)767(30.20)767(30.20)Height,mm (in.)956(37.63)1035(40.75)*Add 181mm (7.14in.)to the unit’s length if the unit has the 12/24-volt electric clutch PTO option.See the drawings on the last page for detailed dimensions.Generator Ratings (Prime 90_C/50_C)Model SeriesVoltage Hz Amps Rated kW/kVA Ph 40EOZD120/2086013940.0/50.03120/2406012040.0/50.03120/2406015036.0/36.01127/2206013140.0/50.03139/2406012040.0/50.03277/480606040.0/50.0333EFOZD110/1905012533.0/41.33110/2205010833.0/41.33220/380506333.0/41.33230/400506033.0/41.33240/416505733.0/41.33Standby 125_C/25_C33EFOZD115/2305014333.0/33.01RATINGS:Ratings per ISO 3046,ISO 8528-1,and Kohler ISO rating guideline 2.14.Obtain technical information bulletin (TIB-101)on ratings guidelines for complete ratings definitions.Availability is subject to change without notice.Kohler Co.reserves the right to change the design or specifications without notice and without any obligation or liability whatsoever.Contact your local Kohler generator set distributor for availability.10%overload capacity one hour in twelve hours.Application DataEngineEngine Specifications60Hz50Hz Type Inline,4-cycle Number of cylinders4Firing order1-3-4-2 Aspiration Natural Displacement,L(cu.in.) 4.5(275)Bore and stroke,mm(in.)106x127(4.19x5.00) Compression ratio17.6:1 Combustion system Direct injection Rated rpm18001500 Maximum power at rated rpm,HP6254 Cylinder block material Cast iron Cylinder head material Cast ironPiston rings2compression/1oil Crankshaft material Forged steel Connecting rod material Forged steel Governor type MechanicalEngine ElectricalEngine Electrical System60Hz50Hz Battery,voltage12-or24-volt spec Battery,charging(12volt)65amp Battery,charging(24volt)40amp Battery,recommendation(minimum,12volt)640CCAStarter motor Gear-reduction typeCoolingCooling System60Hz50Hz Capacity,L(U.S.qt.)(approx.)12(13)Cooling type Heat exchanger Seawater pump type John Deere gear driven Seawater pump suction lift,maximum,m(ft.) 3.0(10.0)Heat rejected to cooling water at ratedkW,wet exhaust,kW(Btu/min.)42(2391)31.5(1793) Engine water pump flow,Lpm(gpm)125(32)116(30) Seawater pump flow,Lpm(gpm)84(22)70(18)FuelFuel System60Hz50Hz Fuel recommendation Diesel fuel specified toEN590or ASTM D975 Fuel shutoff solenoid ElectricFuel injection pump Stanadyne DB4,mechanical Fuel pump priming Manual Maximum recommended fuel lift,m(ft.) 3.0(10.0)LubricationLubricating System60Hz50HzOil pan capacity with filter,L(U.S.qt.)7.5(8)Type PressureOperation RequirementsAir Requirements60Hz50Hz Engine combustion air requirements,m3/min.(cfm) 3.6(127) 2.4(85) Max.air intake restriction,kPa(in.H2O) 6.25(25) 6.25(25) Cooling air required for generator set at50_C(122_F)ambient,m3/min.(cfm)18.3(600)15.2(500) Exhaust flow,m3/min.(cfm)10.4(367)7.0(237) Exhaust temp.,_C(_F)587(1089)565(1049) Max.allowed exhaust backpressure,kPa(in.H2O)7.5(30)7.5(30) Fuel Consumption60Hz50Hz Diesel,Lph(gph)at%load100%12.5(3.3)10.1(2.7)75%9.9(2.6)7.8(2.1)50%7.1(1.9) 5.5(1.5)25% 4.3(1.1) 3.4(0.9)Engine FeaturesD One-side serviceability of fuel system,lubrication system,and aircleanerD Low oil pressure cutoutD High water temperature cutoutD Loss of coolant cutoutD Overcrank cutoutD Belt guardD Optional oil pressure gauge,water temperature gauge,and batteryvoltage gaugeD Disposable oil filterD Extended oil drainD PTO options:12-or24-volt electric clutchController FeaturesD Rubber mounted to isolate vibrationD Safety shutdownsd Engine overheatingd Low oil pressured Overcrankd Low seawater pressureD Safety shutdown lampD Shutdown reset switchD Terminal strip connection for remote panel harnessD Hourmeter for scheduling maintenanceD4--20mA or0--5VDC voltage biasing inputD Start/stop switchController Options Decision-Maker t1Standard Controller See the Decision-Maker t1spec sheet for controller features. Decision-Maker t550ControllerSee the Decision-Maker t550spec sheet for controller features. Decision-Maker t3+ControllerFeaturesD Type:16-light microprocessor(NFPA110,level1)D Power source,with circuit protection:12-volt DCD Panel lamps(2)D Analog Meters:d AC meters,89mm(3.5in.)2%full-scale accuracy onvoltmeter and ammeter,0.5%full-scale accuracy onfrequency meterd DC meters,51mm(2in.),volts,engine water temperature,oil pressured Running time meterD Switches and Controls:d Alarm horn and silencing switchd Cyclic crankingd Engine cooldown timer,0minute(5minute selectable)d Front-mounted voltage-adjusting rheostat±5%d Lamp-test switchd Local emergency stop button switch(optional)d Meter-phase selector switch,7-positiond Overvoltage protection shutdownd Prime power moded Run/off-reset/auto switch(engine start),local/remote two-wire D Fault and Condition Lamps:d Auxiliary fault(red)d Auxiliary prealarm(yellow)*d Battery charger fault(red)*d Emergency stop(red)*d Generator switch not-in-auto(red)d High engine temperature safety shutdown(red)d Low battery voltage(red)*d Low coolant level shutdown(auxiliary)d Low fuel(red)*d Low oil pressure safety shutdown(red)d Low water temperature(red)*d Overcrank safety shutdown(red)d Overspeed safety shutdown(red)d Prealarm high engine temperature(yellow)*d Prealarm low oil pressure(yellow)*d System ready(green)*Requires an optional kit or a user-provided device for lamp to function.Alternator Specifications Alternator SpecificationsSpecificationsFast-Response tGenerator Manufacturer KohlerType4-pole,rotating-field Exciter type Brushless,permanent-magnet,Fast-Response t Number of leads12,reconnectable Voltage regulator Solid state,volts/Hz Insulation:NEMA MG1-1.66Material Class HTemperature rise90_CBearing:number,type1,sealedCoupling Flexible disc Amortisseur windings FullVoltage regulation,no load to full load2%One-step load acceptance per NFPA110Peak motor starting kVA—4P7B100%of rating175(60Hz),125(50Hz)Alternator FeaturesD The generator complies with NEMA,IEEE,and ANSI standardsfor temperature rise.D The alternator uses a permanent-magnet,Fast-Response texcitation system.D The alternator has a two-thirds pitch stator and skewed rotor.D The generator has a solid-state,volts-per-hertz voltage regulator.D The brushless,synchronous generator is broadrange andreconnectable.D The windings are vacuum-impregnated with fungus-resistantepoxy varnish.D The generator sustains short-circuit current up to300%of therated current for up to10seconds.Accessories/OptionsD Fluid-filled isolation mountsD Electric front clutch PTO(12-or24-volt)D Line circuit breakerD Decision-Maker t1standard controllerD Decision-Maker t3+controllerD Decision-Maker t550controllerD Sound shieldD Remote control panelD Siphon breakD Isolated ground system(12-or24-volt)D Remote connection/extension harnessD Safeguard breakerD Oil level indicator(high/low)D Low coolant level indicatorKOHLER CO.,Kohler,Wisconsin 53044USA Phone 920-565-3381,Fax 920-459-1646For the nearest sales and service outlet in the US and Canada,phone 1-800-544-2444。

IHM-B 模块 采用第四代沟槽栅/场终止IGBT4和第四代发射极控制二极管特性•电气特性-V CES = 3300 V-I C nom = 2400 A / I CRM = 4800 A -高电流密度-高直流电压稳定性-高短路能力-低开关损耗-低 V CEsat-T vj op = 150°C -沟槽栅IGBT4-无与伦比的坚固性-V CEsat 带正温度系数-低 Q g 和 C res•机械特性-碳化硅铝 (AlSiC) 基板提供更高的温度循环能力-高功率密度-绝缘的基板-封装的 CTI > 600-符合RoHS可选应用•大功率变流器•中压变流器•电机传动•牵引变流器•UPS 系统•有源前级（能量回馈）•商业性农用车辆产品认证•根据 IEC 60747、60749 和 60068标准的相关测试，符合工业应用的要求。

描述FZ2400R33HE4IHM-B 模块内容描述 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1特性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1可选应用 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1产品认证 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .1内容 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2 1封装 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 2IGBT, 逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3 3二极管,逆变器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5 4特征参数图表 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7 5电路拓扑图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 6封装尺寸 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11 7模块标签代码 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12修订历史 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13免责声明 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .141封装表 1绝缘参数特征参数代号标注或测试条件数值单位绝缘测试电压V ISOL RMS, f = 50 Hz 6.0kV 局部放电熄弧电压V isol RMS, f = 50 Hz, Q PD≤ 10 pC 2.6kV DC 稳定性V CE(D)T vj=25°C, 100 Fit2100V 模块基板材料AlSiC爬电距离d Creep端子至散热器32.2mm 电气间隙d Clear端子至散热器19.1mm 相对电痕指数CTI > 600表 2特征值特征参数代号标注或测试条件数值单位最小值典型值最大值杂散电感,模块L sCE6nH 模块引线电阻,端子-芯片R AA'+CC'T C=25°C, 每个开关0.08mΩ模块引线电阻,端子-芯片R CC'+EE'T C=25°C, 每个开关0.095mΩ储存温度T stg-40150°C 模块安装的安装扭距M根据相应的应用手册进行安装M6, 螺丝 4.25 5.75Nm端子安装扭矩M根据相应的应用手册进行安装M4, 螺丝 1.8 2.1Nm M8, 螺丝810重量G1200g 2IGBT, 逆变器表 3最大标定值特征参数代号标注或测试条件数值单位集电极－发射极电压V CES T vj = -40 °C3300VT vj = 150 °C3300连续集电极直流电流I CDC T vj max = 150 °C T C = 105 °C2400A 集电极重复峰值电流I CRM t p受限于 T vj op4800A 栅极－发射极峰值电压V GES±20V表 4特征值特征参数代号标注或测试条件数值单位最小值典型值最大值集电极－发射极饱和电压V CE sat I C = 2400 A, V GE = 15 V T vj = 25 °C 2.40 2.65VT vj = 125 °C 2.95T vj = 150 °C 3.10 3.25栅极阈值电压V GEth I C = 94 mA, V CE = V GE, T vj = 25 °C 5.20 5.80 6.40V 栅极电荷Q G V GE = ±15 V, V CE = 1800 V40µC 内部栅极电阻R Gint T vj = 25 °C0.5Ω输入电容C ies f = 1000 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V280nF 反向传输电容C res f = 1000 kHz, T vj = 25 °C, V CE = 25 V, V GE = 0 V8nF 集电极-发射极截止电流I CES V CE = 3300 V, V GE = 0 V T vj = 25 °C5mA 栅极-发射极漏电流I GES V CE = 0 V, V GE = 20 V, T vj = 25 °C400nA开通延迟时间(感性负载)t don I C = 2400 A, V CE = 1800 V,V GE = ±15 V, R Gon = 0.5 ΩT vj = 25 °C0.560µs T vj = 125 °C0.660T vj = 150 °C0.670上升时间(感性负载)t r I C = 2400 A, V CE = 1800 V,V GE = ±15 V, R Gon = 0.5 ΩT vj = 25 °C0.250µs T vj = 125 °C0.270T vj = 150 °C0.290关断延迟时间(感性负载)t doff I C = 2400 A, V CE = 1800 V,V GE = ±15 V, R Goff = 3.3 ΩT vj = 25 °C 4.000µs T vj = 125 °C 4.300T vj = 150 °C 4.300下降时间(感性负载)t f I C = 2400 A, V CE = 1800 V,V GE = ±15 V, R Goff = 3.3 ΩT vj = 25 °C0.540µs T vj = 125 °C 1.180T vj = 150 °C 1.400开通时间（阻性负载）t on_R I C = 500 A, V CE = 2000 V,V GE = ±15 V, R Gon = 0.5 ΩT vj = 25 °C 1.19µs开通损耗能量 (每脉冲)E on I C = 2400 A, V CE = 1800 V,Lσ = 85 nH, V GE = ±15 V,R Gon = 0.5 Ω, di/dt =7600 A/µs (T vj = 150 °C)T vj = 25 °C2000mJ T vj = 125 °C3400T vj = 150 °C3900关断损耗能量 (每脉冲）E off I C = 2400 A, V CE = 1800 V,Lσ = 85 nH, V GE = ±15 V,R Goff = 3.3 Ω, dv/dt =1500 V/µs (T vj = 150 °C)T vj = 25 °C3500mJ T vj = 125 °C4600T vj = 150 °C4950(待续)表 4(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值短路数据I SC V GE≤ 15 V, V CC = 2400 V,V CEmax=V CES-L sCE*di/dt t P≤ 10 µs,T vj≤ 150 °C9600A结－外壳热阻R thJC每个 IGBT 5.50K/kW 外壳－散热器热阻R thCH每个 IGBT 4.30K/kW 允许开关的温度范围T vj op-40150°C3二极管,逆变器表 5最大标定值特征参数代号标注或测试条件数值单位反向重复峰值电压V RRM T vj = -40 °C3300VT vj = 150 °C3300连续正向直流电流I F2400A 正向重复峰值电流I FRM t P = 1 ms4800A I2t-值I2t t P = 10 ms, V R = 0 V T vj = 125 °C1230kA²sT vj = 150 °C1110最大损耗功率P RQM T vj = 150 °C5400kW 最小开通时间t onmin10µs表 6特征值特征参数代号标注或测试条件数值单位最小值典型值最大值正向电压V F I F = 2400 A, V GE = 0 V T vj = 25 °C 2.90 3.30VT vj = 125 °C 2.60T vj = 150 °C 2.50 2.80反向恢复峰值电流I RM V R = 1800 V, I F = 2400 A,V GE = -15 V, -di F/dt =7600 A/µs (T vj = 150 °C)T vj = 25 °C2440A T vj = 125 °C2820T vj = 150 °C2880恢复电荷Q r V R = 1800 V, I F = 2400 A,V GE = -15 V, -di F/dt =7600 A/µs (T vj = 150 °C)T vj = 25 °C1100µC T vj = 125 °C2100T vj = 150 °C2500(待续)表 6(续) 特征值特征参数代号标注或测试条件数值单位最小值典型值最大值反向恢复损耗（每脉冲）E rec V R = 1800 V, I F = 2400 A,V GE = -15 V, -di F/dt =7600 A/µs (T vj = 150 °C)T vj = 25 °C1480mJ T vj = 125 °C2750T vj = 150 °C3200结－外壳热阻R thJC每个二极管10.6K/kW 外壳－散热器热阻R thCH每个二极管 5.10K/kW 允许开关的温度范围T vj op-40150°C5电路拓扑图图 16封装尺寸图 27模块标签代码图 3修订历史修订历史修订版本发布日期变更说明1.002021-03-251.102021-10-15Final datasheet 1.202022-04-27Final datasheetTrademarksAll referenced product or service names and trademarks are the property of their respective owners.Edition 2022-04-27Published byInfineon Technologies AG 81726 Munich, Germany© 2022 Infineon Technologies AG All Rights Reserved.Do you have a question about any aspect of this document? Email: ********************Document referenceIFX-ABA409-003重要提示本文档所提供的任何信息绝不应当被视为针对任何条件或者品质而做出的保证（质量保证）。

第一章机组常识1.概述SDMO法国西电集团公司始创于1966年，专注于发电机组的研究及制造，尤其注重产品的市场竞争力和服务质量。

SDMO专业水准得到其客户的认可。

如今SDMO在全球发电机组市场上，特别是静音型机组，处于领先地位，承诺为用户提供优质产品。

作为专门制造发电机组的专业化公司，年产机组超过100,000台。

SDMO能供应功率范围从1~2250KVA 的发电机组。

并拥有4个生产基地，采用国际领先的技术和制造工艺，配合电脑数据库处理标准配套产品，以提高效率。

SDMO愿为你提供可靠、创新和高质量的电力产品。

为保证产品可靠，SDMO已成功推行产品质量认证。

严格遵照和执行ISO9001证书，保证准时交货，确保产品规格符合用户要求。

在全球树立服务质量声誉是SDMO不断改进的结果。

现机组广泛应用于邮电通讯、工矿企业、宾馆大厦、油田等作为主电源或应急备用电源。

公司可根据用户要求配备自动化功能和计算机远程监控系统。

机组具有功能齐全、性能可靠、使用方便等特点。

2.技术规格A、机组型号解释以GS250K为例（其他型号请参考随机文件）GS 250 K排放认证发电机组功率（KVA）发电机组系列B、发动机型号解释以瑞典VOLVO发动机为例T W D 16 3 0 G E排放控制驱动发电机用变型顺序号：0为基本型设计序号指示总工作容积柴油机W：水—空中冷型式A：空—空废气涡轮增压C、技术指标工作转速：1500R/mim额定频率：50Hz接线方式：3相4线制额定电压：400/230V功率因素：0.8（滞后）励磁方式：无刷励磁冷却方式：闭式水循环启动方式：DC24V电启动电压：稳定调整率：≤±1%瞬态调整率：≤+20，-15稳定时间：≤1S波动率：≤0.5%频率：稳定调整率：装电子调速器1%（0~5%可调），装机械速器5%。

瞬态调整率：≤±10%稳定时间：≤5S波动率：≤0.5%无线电干扰：符合BS800/2及VDE0875G标准TIF：〈50 THF：〈2%机组保护功能：润滑油油压过高、过低、水温过高，发动机超速，机组过压，过流，短路等保护功能。