ZXMN7A11G中文资料

SUMMARYV (BR)DSS = 30V;R DS(ON)= 0.035;I D = 6.2ADESCRIPTIONThis new generation of TRENCH MOSFETs from Zetex utilizes a unique structure that combines the benefits of low on-resistance with fast switching speed.This makes them ideal for high efficiency,low voltage,power management applications.FEATURES•Low on-resistance •Fast switching speed •Low threshold •Low gate drive•Low profile SOIC packageAPPLICATIONS•DC - DC Converters•Power Management Functions •Disconnect switches •Motor controlDEVICE MARKINGZXMN 3A06DZXMN3A06DN8ISSUE 2 - OCTOBER 20021DUAL 30V N-CHANNEL ENHANCEMENT MODE MOSFETDEVICEREEL TAPE WIDTH QUANTITY PER REEL ZXMN3A06DN8TA 7’‘12mm 500 units ZXMN3A06DN8TC13’‘12mm2500 unitsORDERING INFORMATIONSO8Top viewPINOUTZXMN3A06DN8ISSUE 2 - OCTOBER 20022PARAMETERSYMBOL LIMIT UNIT Drain-Source Voltage V DSS 30V Gate Source VoltageV GS Ϯ20V Continuous Drain Current (V GS =10V;T A =25°C)(b)(d)(V GS =10V;T A =70°C)(b)(d)(V GS =10V;T A =25°C)(a)(d)I D6.25.04.9APulsed Drain Current (c)I DM 30A Continuous Source Current (Body Diode)(b)I S 3.7A Pulsed Source Current (Body Diode)(c)I SM 30A Power Dissipation at T A =25°C (a)(d)Linear Derating FactorP D 1.2510W mW/°C Power Dissipation at T A =25°C (a)(e)Linear Derating FactorP D 1.8014.5W mW/°C Power Dissipation at T A =25°C (b)(d)Linear Derating FactorP D 2.117.3W mW/°C Operating and Storage Temperature RangeT j :T stg-55 to +150°CABSOLUTE MAXIMUM RATINGS.PARAMETERSYMBOL VALUE UNIT Junction to Ambient (a)(d)R θJA 100°C/W Junction to Ambient (a)(e)R θJA 69°C/W Junction to Ambient (b)(d)R θJA58°C/WNOTES(a) For a device surface mounted on 25mm x 25mm FR4 PCB with high coverage of single sided 1oz copper, in still air conditions (b) For a device surface mounted on FR4 PCB measured at t р10 secs.(c) Repetitive rating 25mm x 25mm FR4 PCB, D=0.02 pulse width=300µs - pulse width limited by maximum junction temperature. Refer to Transient Thermal Impedance graph.(d) For device with one active die(e) For device with two active die running at equal power.THERMAL RESISTANCEZXMN3A06DN8ISSUE 2 - OCTOBER 20023ZXMN3A06DN8ISSUE 2 - OCTOBER 20024PARAMETER SYMBOL MIN.TYP.MAX.UNIT CONDITIONS.STATICDrain-Source Breakdown Voltage V (BR)DSS 30V I D =250µA,V GS =0V Zero Gate Voltage Drain Current I DSS 0.5␮A V DS =30V,V GS =0V Gate-Body LeakageI GSS 100nA V GS =±20V,V DS =0V Gate-Source Threshold VoltageV GS(th)1V I D=250␮A,V DS =V GSStatic Drain-Source On-State Resistance (1)R DS(on)0.0350.050⍀⍀V GS =10V,I D =9A V GS =4.5V,I D =7.4A Forward Transconductance (1)(3)g fs 13.5S V DS =15V,I D =9ADYNAMIC (3)Input Capacitance C iss 796pF V DS =25V,V GS =0V,f=1MHzOutput CapacitanceC oss 137pF Reverse Transfer Capacitance C rss 83.5pF SWITCHING (2)(3)Turn-On Delay Time t d(on) 3.0ns V DD =15V,I D =3.5A R G =6.0⍀,V GS =10V Rise Timet r 6.4ns Turn-Off Delay Time t d(off)21.6ns Fall Time t f 9.4ns Gate Charge Q g 9.2nC V DS =15V,V GS =5V,I D =3.5ATotal Gate Charge Q g 17.5nC V DS =15V,V GS =10V,I D =3.5AGate-Source Charge Q gs 2.3nC Gate-Drain Charge Q gd 3.1nC SOURCE-DRAIN DIODE Diode Forward Voltage (1)V SD 0.850.95V T J =25°C,I S =5.1A,V GS =0VReverse Recovery Time (3)t rr 17.8ns T J =25°C,I F =3.5A,di/dt=100A/µsReverse Recovery Charge (3)Q rr11.6nCELECTRICAL CHARACTERISTICS (at T amb = 25°C unless otherwise stated).NOTES(1) Measured under pulsed conditions. Width ≤300µs. Duty cycle ≤2% .(2) Switching characteristics are independent of operating junction temperature.(3) For design aid only, not subject to production testing.ZXMN3A06DN8 TYPICAL CHARACTERISTICSZXMN3A06DN8TYPICAL CHARACTERISTICSISSUE 2 - OCTOBER 20026Zetex plcFields New Road ChaddertonOldham, OL9 8NP United KingdomTelephone (44) 161 622 4422Fax: (44) 161 622 4420Zetex GmbHStreitfeldstraße 19D-81673 München GermanyTelefon: (49) 89 45 49 49 0Fax: (49) 89 45 49 49 49Zetex Inc700 Veterans Memorial Hwy Hauppauge, NY11788USATelephone: (631) 360 2222Fax: (631) 360 8222Zetex (Asia) Ltd3701-04Metroplaza, Tower 1Hing Fong Road Kwai Fong Hong KongTelephone: (852) 26100 611Fax: (852) 24250 494These offices are supported by agents and distributors in major countries world-wide.This publication is issued to provide outline information only which (unless agreed by the Company in writing)may not be used,applied or reproduced for any purpose or form part of any order or contract or be regarded as a representation relating to the products or services concerned.The Company reserves the right to alter without notice the specification,design,price or conditions of supply of any product or service.For the latest product information,log on to©Zetex plc 2002ZXMN3A06DN8ISSUE 2 - OCTOBER 20027DIMINCHESMILLIMETRESMINMAX MIN MAX A 0.0530.069 1.35 1.75A10.0040.0100.100.25D 0.1890.197 4.80 5.00H 0.2280.244 5.80 6.20E 0.1500.157 3.80 4.00L 0.0160.0500.401.27e 0.050 BSC 1.27 BSC b 0.0130.0200.330.51c0.0080.0100.190.25⍜0Њ8Њ0Њ8Њh0.0100.0200.250.50PACKAGE DIMENSIONSPACKAGE OUTLINECONTROLLING DIMENSIONS ARE IN INCHESAPPROX IN MILLIMETRES分销商库存信息:DIODESZXMN3A06DN8TA ZXMN3A06DN8TC。

PRODUCT SUMMARYSKY77807 Quad-Band Power Amplifier Module for FDD/TDD LTE (Tx Bands 7, 38, 40, 41)Applications•Multi-band 4G handsets •Long Term Evolution (LTE)-Up to 20 MHz bandwidth/ 100resource blocks Features•Envelope Tracking(ET)FDD band•Average Power Tracking (APT) for TDD/FDD bands•50 ohm input/output impedance with internal DC-blocking •Fully programmable Mobile Industry Processor Interface digital control •Continuous bias control for3G/4G PA High Power Mode via MIPI/RFFE interface•Low Supply voltage•Low voltage support (0.6 V) for APT/SMPS applications •Low Leakage current in power-down mode •Temperature Sensor •Integrated TDD TX-Rx switch for single SAW architecture •Low voltage support forAPT/SMPS applications •Small, low profile package-4.0x 3.0x 1.0 (Max.) mm-24-pad configurationDescriptionThe SKY77807Quad-Band Power Amplifier Module (PAM) is a fully matched, 24-pad surface mount module developed for 4G LTE applications. The PAM consists of PA blocks, input and output matching, and a MIPI standard logic control block for multiple power control levels, output input switch control in a single 4.0mm x 3.0mm x 1.0 (Max.)mm package.The SKY77807uses an enhanced architecture to cover multiple bands and meet the spectral linearity requirements of LTE QPSK and 16QAM modulations with up to 20 MHz bandwidth and up to 100 resource block allocations. Output power is controlled by varying the input power and VCC is adjusted using an ET modulator or DCDC converter to maximize efficiency for each power level. Extremely low leakage current maximizes handset standby time.Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100•*********************•203049C• Skyworks Proprietary Information. • Products and product information are subject to change without notice. • January 13, 20141Ordering InformationProduct Name Order Number Evaluation Board Part NumberSKY77807SKY77807© 2013,Skyworks Solutions, Inc. All Rights Reserved.Information in this document is provided in connection with Skyworks Solutions, Inc. (“Skyworks”) products or services. These materials, including the information contained herein, are provided by Skyworks as a service to its customers and may be used for informational purposes only by the customer. Skyworks assumes no responsibility for errors or omissions in these materials or the information contained herein. Skyworks may change its documentation, products, services, specifications or product descriptions at any time, without notice. Skyworks makes no commitment to update the materials or information and shall have no responsibility whatsoever for conflicts, incompatibilities, or other difficulties arising from any future changes.No license, whether express, implied, by estoppel or otherwise, is granted to any intellectual property rights by this document. Skyworks assumes no liability for any materials, products or information provided hereunder, including the sale, distribution, reproduction or use of Skyworks products, information or materials, except as may be provided in Skyworks Terms and Conditions of Sale.THE MATERIALS, PRODUCTS AND INFORMATION ARE PROVIDED “AS IS” WITHOUT WARRANTY OF ANY KIND, WHETHER EXPRESS, IMPLIED, STATUTORY, OR OTHERWISE, INCLUDING FITNESS FOR A PARTICULAR PURPOSE OR USE, MERCHANTABILITY, PERFORMANCE, QUALITY OR NON-INFRINGEMENT OF ANY INTELLECTUAL PROPERTY RIGHT; ALL SUCH WARRANTIES ARE HEREBY EXPRESSLY DISCLAIMED. SKYWORKS DOES NOT WARRANT THE ACCURACY OR COMPLETENESS OF THE INFORMATION, TEXT, GRAPHICS OR OTHER ITEMS CONTAINED WITHIN THESE MATERIALS. SKYWORKS SHALL NOT BE LIABLE FOR ANY DAMAGES, INCLUDING BUT NOT LIMITED TO ANY SPECIAL, INDIRECT, INCIDENTAL, STATUTORY, OR CONSEQUENTIAL DAMAGES, INCLUDING WITHOUT LIMITATION, LOST REVENUES OR LOST PROFITS THAT MAY RESULT FROM THE USE OF THE MATERIALS OR INFORMATION, WHETHER OR NOT THE RECIPIENT OF MATERIALS HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.Skyworks products are not intended for use in medical, lifesaving or life-sustaining applications, or other equipment in which the failure of the Skyworks products could lead to personal injury, death, physical or environmental damage. Skyworks customers using or selling Skyworks products for use in such applications do so at their own risk and agree to fully indemnify Skyworks for any damages resulting from such improper use or sale.Customers are responsible for their products and applications using Skyworks products, which may deviate from published specifications as a result of design defects,errors, or operation of products outside of published parameters or design specifications. Customers should include design and operating safeguards to minimize these and other risks. Skyworks assumes no liability for applications assistance, customer product design, or damage to any equipment resulting from the use of Skyworks products outside of stated published specifications or parameters. Skyworks, the Skyworks symbol, and “Breakthrough Simplicity” are trademarks or registered trademarks of Skyworks Solutions, Inc., in the United States and other countries. Third-party brands and names are for identification purposes only, and are the property of their respective owners. Additional information, including relevant terms and conditions, posted at , are incorporated by reference.。

常用稳压型号参数查询DZ是稳压管的电器编号,1N4148就是一个0.6V的稳压管,下面是稳压管上的编号对应的稳压值,有些小的稳压管也会在管体上直接标稳压电压,如5V6就是5.6V的稳压管;美标稳压二极管型号：HITACHI日立：HITACHI日立0.5W稳压二极管型号参数稳压HZ3A1 2.5~2.7VHZ3A2 2.6~2.8VHZ3A3 2.6~2.9VHZ3B1 2.8~3.0VHZ3B2 2.9~3.1VHZ3B3 3.0~3.2V线性稳压器件输入输出电流相等,压降3V以上型号稳压V 最大输出电流可替代型号79L05 -5V 100mA79L06 -6V 100mA79L08 -8V 100mALM7805 5V 1A L7805,LM340T5 LM7806 6V 1A L7806LM7808 8V 1A L7808LM7809 9V 1A L7809LM7812 12V 1A L7812,LM340T12 LM7815 15V 1A L7815,LM340T15 LM7818 18V 1A L7815LM7824 24V 1A L7824LM7905 -5V 1A L7905LM7906 -6V 1A L7906,KA7906 LM7908 -8V 1A L7908LM7909 -9V 1A L7909LM7912 -12V 1A L7912LM7915 -15V 1A L7915LM7918 -18V 1A L7918LM7924 -24V 1A L792478L05 5V 100mA78L06 6V 100mA78L08 8V 100ma78L09 9V 100ma78L12 12V 100ma78L15 15V 100ma78L18 18V 100ma78L24 24V 100ma开关稳压器件电压转换效率高型号说明最大输出电流LM1575T-3.3 3.3V简易开关电源稳压器 1ALM1575T-5.0 5V简易开关电源稳压器 1A LM1575T-12 12V简易开关电源稳压器 1A LM1575T-15 15V简易开关电源稳压器 1A LM1575T-ADJ 简易开关电源稳压器可调1.23V~37V 1ALM1575HVT-3.3 3.3V简易开关电源稳压器 1A LM1575HVT-5.0 5V简易开关电源稳压器 1A LM1575HVT-12 12V简易开关电源稳压器 1ALM1575HVT-15 15V简易开关电源稳压器 1ALM1575HVT-ADJ 简易开关电源稳压器可调1.23V~37V 1ALM2575T-3.3 3.3V简易开关电源稳压器 1A LM2575T-5.0 5V简易开关电源稳压器 1A LM2575T-12 12V简易开关电源稳压器 1A LM2575T-15 15V简易开关电源稳压器 1A LM2575T-ADJ 简易开关电源稳压器可调1.23V~ 37V 1ALM2575HVT-3.3 3.3V简易开关电源稳压器 1A LM2575HVT-5.0 5V简易开关电源稳压器 1A LM2575HVT-12 12V简易开关电源稳压器 1A LM2575HVT-15 15V简易开关电源稳压器 1A LM2575HVT-ADJ 简易开关电源稳压器可调1.23V~37V 1ALM2576T-3.3 3.3V简易开关电源稳压器 3A LM2576T-5.0 5.0V简易开关电源稳压器 3A LM2576T-12 12V简易开关电源稳压器 3A LM2576T-15 15V简易开关电源稳压器 3A LM2576T-ADJ 简易开关电源稳压器可调1.23V~37V 3ALM2576HVT-3.3 3.3V简易开关电源稳压器 3A LM2576HVT-5.0 5.0V简易开关电源稳压器 3ALM2576HVT-12 12V简易开关电源稳压器 3ALM2576HVT-15 15V简易开关电源稳压器 3ALM2576HVT-ADJ 简易开关电源稳压器可调1.23V~37V 3A。

ParameterSymbol Typ Max t ≤ 10s 3240Steady State 6075Steady State R θJL 1724Maximum Junction-to-Lead C °C/WThermal CharacteristicsUnits Maximum Junction-to-Ambient A°C/W Maximum Junction-to-Ambient A°C/W R θJA AO4407AP-Channel Enhancement Mode Field Effect TransistorAO4407A Symbol Min Typ Max Units BV DSS -30V -10T J = 55°C -50I GSS±100nA V GS(th)-1.7-2.3-3V I D(ON)-60A 8.511T J =125°C11.51510132738g FS21S V SD-0.7-1V I S -3A C iss 20602600pF C oss 370pF C rss 295pF R g 2.43.6ΩQ g 3039nC Q gs 4.6nC Q gd 10nC t D(on)11ns t r 9.4ns t D(off)24ns t f 12ns t rr 3040ns Q rr 22nC THIS PRODUCT HAS BEEN DESIGNED AND QUALIFIED FOR THE CONSUMER MARKET. APPLICATIONS OR USES AS CRITICALCOMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS ARE NOT AUTHORIZED. AOS DOES NOT ASSUME ANY LIABILITY ARISING OUT OF SUCH APPLICATIONS OR USES OF ITS PRODUCTS. AOS RESERVES THE RIGHT TO IMPROVE PRODUCT DESIGN,FUNCTIONS AND RELIABILITY WITHOUT NOTICE.V GS =0V, V DS =-15V, f=1MHzInput Capacitance Output Capacitance Turn-On Rise Time Turn-Off DelayTime V GS =-10V, V DS =-15V, R L =1.25Ω,R GEN =3ΩTurn-Off Fall Time Turn-On DelayTime m ΩSWITCHING PARAMETERS Gate Source Charge Gate Drain Charge Total Gate Charge V GS =-10V, V DS =-15V, I D =-12A DYNAMIC PARAMETERS Maximum Body-Diode Continuous Current Gate resistance V GS =0V, V DS =0V, f=1MHz V GS = -5V, I D = -10AI S = -1A,V GS = 0V V DS = -5V, I D = -10A V GS = -10V, I D = -12AR DS(ON)Static Drain-Source On-Resistance Forward Transconductance Diode Forward Voltage I DSSµA Gate Threshold Voltage V DS = V GS I D = -250µAV DS = -30V, V GS = 0V V DS = 0V, V GS = ±25V Zero Gate Voltage Drain Current Gate-Body leakage current Electrical Characteristics (T J =25°C unless otherwise noted)STATIC PARAMETERSParameter Conditions Body Diode Reverse Recovery Time Body Diode Reverse Recovery Charge I F =-12A, dI/dt=100A/µsDrain-Source Breakdown VoltageOn state drain current I D = -250µA, V GS = 0V V GS = -10V, V DS = -5VV GS = -20V, I D = -12AReverse Transfer Capacitance I F =-12A, dI/dt=100A/µs A: The value of R θJA is measured with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A = 25°C. The value in any given application depends on the user's specific board design. The current rating is based on the t ≤ 10s thermal resistance rating.B: Repetitive rating, pulse width limited by junction temperature.C. The R θJA is the sum of the thermal impedence from junction to lead R θJL and lead to ambient.D. The static characteristics in Figures 1 to 6 are obtained using < 300µs pulses, duty cycle 0.5% max.E. These tests are performed with the device mounted on 1 in 2 FR-4 board with 2oz. Copper, in a still air environment with T A =25°C. The SOA curve provides a single pulse rating.F. The current rating is based on the t ≤ 10s thermal resistance rating.G. E AR and I AR ratings are based on low frequency and duty cycles to keep T j =25C.Rev3: Jan 2008AO4407AAO4407A。

ＮＥＯ－７Ｍｕｂｌｏｘ模块系列V 3.0深圳市鹏城润发电子有限公司2013-12-23目 录1.产品描述.................................................................................................................-2- 2.产品型号编码规则..................................................................................................-3- 3.产品用应用范围及优点...........................................................................................-4- 4.技术特性................................................................................................................-5- 5.模块工作原理.........................................................................................................-6- 6.模块信号测试图和模块RF 射频图............................................................................-7- 6.1模块信号测试图...........................................................................................-7- 6.2模块RF 射频图...........................................................................................-7- 7.模块管脚分配........................................................................................................-8- 8.推荐应用电路.......................................................................................................-10- 9.模块设计注意事项................................................................................................-11- 10.模块焊盘尺寸.....................................................................................................-12- 11.NMEA 0183 协议. (13)11.1 GGA................................................................................................-14- 11.2 GLL.................................................................................................-15- 11.3 GSA ...............................................................................................-15- 11.4 GSV................................................................................................-16- 11.5 RMC...............................................................................................-17- 11.6 VTG. (17)12.经纬度转换....................................................................................................-18- 13-19- 14.产品包装.......................................................................................................-20- .SMT 温度曲线图.. (21)15.贴片注意事项................................................................................................NEO-7MGPS 产品名称1. 产品描述:模块是一个低功耗主芯片的超小外型GPS 接收模组，该产品采用了新一代U-blox 芯片，超高灵敏度，具备全方位功能，能满足专业定位的严格要求。

DATA VIEWERINSTRUCTION MANUALFOR VM7000APAPERLESS RECORDER.WXPVM70mnA0101EOctober, 2009(Rev.2)All Rights Reserved, Copyright © 2009, Ohkura Electric Co.,Ltd.＜CONTENTS＞1. OUTLINE -------------------------------------------------------------- 1-11.1 Foreword --------------------------------------------------------------------------------- 1-11.2 Data viewer ------------------------------------------------------------------------------ 1-11.3 Contents of package ------------------------------------------------------------------- 1-11.4 Recommended operating environment -------------------------------------------- 1-11.5 Install ------------------------------------------------------------------------------------- 1-21.6 Uninstall ---------------------------------------------------------------------------------- 1-22. BASIC OPERATION ------------------------------------------------ 2-12.1 Start --------------------------------------------------------------------------------------- 2-12.2 Open the file ----------------------------------------------------------------------------- 2-22.3 Save the file ------------------------------------------------------------------------------ 2-43. BASIC COMPOSITION OF TREND DISPLAY -------------- 3-13.1 Trend display --------------------------------------------------------------------------- 3-13.2 Instantaneous value ------------------------------------------------------------------- 3-33.3 Event Summary ------------------------------------------------------------------------ 3-44. OPERATION METHOD ------------------------------------------- 4-14.1 File ---------------------------------------------------------------------------------------- 4-14.2 View -------------------------------------------------------------------------------------- 4-14.3 Zoom ------------------------------------------------------------------------------------- 4-24.4 Event/Comment ------------------------------------------------------------------------ 4-24.5 Language -------------------------------------------------------------------------------- 4-24.6 Window ---------------------------------------------------------------------------------- 4-34.7 Help --------------------------------------------------------------------------------------- 4-35. OTHERS --------------------------------------------------------------- 5-15.1 Save CSV -------------------------------------------------------------------------------- 5-15.2 Unites file -------------------------------------------------------------------------------- 5-25.3 Download from Network ------------------------------------------------------------- 5-35.4 Realtime Trend ------------------------------------------------------------------------- 5-41．O UTLINE1.1 ForewordThis instruction manual describes installation and operation for the Data Viewer of the Paperless Recorder. Read it carefully before use.1.2 Data viewerThis Data Viewer refers to the SD card set in a Paperless Recorder and recorded data can be referred to with the personal computer by the adaptor or the FTP.1.3 Contents of packageThe following items are packaged with the product.●CD-ROM for installation: 1●Instruction Manual which is installed above CD-ROM1.4 Recommended operating environment●Microsoft Windows XP or Vista.The Viewer is not run on Windows 95, 98, 2000, NT or Me.●Hard disk with a free capacity of 500MB or more●Capacity of RAM necessary so that OS may operate normally●Memory card. (SD card)(Panasonic company 1～32GB or Sandisk company 1～32GB is recommended)●Printer driver●PC made of maker1.5 Install1)If other application software programs are open, terminate all of them.2)It the data viewer has been already installed, delete it from “Add/Remove Programs” on ControlPanel.3)Set CD-ROM in the personal computer drive.4)Start “Setup.exe” in the CD-ROM disk.Please open index.htm when not starting automatically.The Data Viewer and the Parameter Loader are installed at the same time.5)Follow the instructions displayed on the screen.6)A message is displayed, prompting you to verify that “Data display setup is complete”.Now, the Data Viewer installation is completed.1.6 UninstallPlease uninstall the Data Viewer by the following operations, and delete it according to the instruction of Windows (Notes are included).The Data Viewer and the Parameter Loader are uninstalled at the same time.“START of Windows”⇒“Control Panel”⇒“Add/Remove Programs”⇒“VM7000A”When you install the differing version, before installing the upcoming version, please uninstall the software that is now by the above-mentioned method.There is a possibility of not operating normally.2．B ASIC OPERATION2.1 StartSelect “Programs”⇒“VM7000A”⇒“Data Viewer” from the Start menu.2.2 Open the fileTo open the file of recorded data, the following operation is done.1)The file is copied from the SD card to the personal computer.When you insert the SD card in the main body of a Paperless Recorder, the folder of “Recorder”is automatically made in the SD card.The SD card where the file is preserved is connected with the personal computer, an arbitrary file is selected from “Recorder”⇒“Data”, and it copies it to the personal computer.The SD card reader might become necessary.2)Select “File”⇒“Open file”.The same operation can be done even by the “Open” of tool bar.Refer to item 4.1 for the tool bar.3)Please select “Open” that chooses the file of recorded data in the folder copied to the personalcomputer and opens.If data file is normal, following display is appeared.Data Viewer is composed of three (Trend screen, Instantaneous value, and Event Summary). Instantaneous value and Event Summary can only be changed “Display / Non-display” from “View” of menu. And, Layout can be changed from same Item.Refer to item 4 for the composition of display, and refer to item 5.2 for the “View” of menu.2.3 Save the fileTo save the file of recorded data, the following operation is done.1) Select “File”⇒“Save display state” or “Save As”.The same operation can be done even by the “Save” of tool bar.Refer to item 4.1 for the tool bar.2)The currently screen displayed to select “Save display state” is preserved in former open file inthe superscription by viewer link file format (*.dlk).It preserves it specifying the file name and preserving ahead of new when “Save as” is selected.3． B ASIC COMPOSITION OF TREND DISPLAY3.1 Trend display⑪Alarm occurred /cleared mark① Group tabThe group display can be changed by selecting “①Group tab”. ② Channel tabSelected “②Channel tab” moves at the right of the channel, and displays the corresponding width of the scale in “③Trend display area”. ③ Trend display areaThe trend data recorded can be displayed. ④ Scale displayThe scale width set each channel can be displayed. ⑤ UnitThe unit set each channel can be displayed. ⑥ CursorThis date of line for measured value is displayed on the “⑧Measured value display”. ⑦ Cursor dateThe date that the “⑥Cursor” indicates is displayed. ⑧ Measured value displayMeasured values at the position selected by “③Trend display area” are displayed. And, “Display/non-display” of the trend and the width of the scale in “④Scale display” is switched by selecting the check box.〆display ：Display the trend and scale width. ■display ：Display the trend.□display ：No display the trend and scale width.①Group tab ②Channel tab⑩Comment mark⑫Message mark④Scale display⑭Time (H : M : S) （24-hour display ）⑨Tool barThe function often used is displayed as a shortcut key.The set of tool bar cannot be changing.⑩Comment markThe comment set while recording and the comment set in the Data Viewer are marked and displayed.Refer to item 5.4 for the comment setting.⑪Alarm occurred / cleared markThe alarm occurred or cleared while recording is marked and displayed.⑫Message markThe message occurred while recording is marked and displayed.⑬Scroll barWhen the display of the trend overflows with the setting change etc. of the time axis and Y axis of “⑨Tool bar” in the margin, the display can be changed by sliding “⑬Scroll bar”.Refer to item 5.3 for the time axis and Y axis.⑭TimeThe recorded time is displayed.3.2 Instantaneous value①Measured value area④Time①Measured value areaThe recorded data of each channel is listed and the batch display is done.②Page switchThe number of recorded data that can be viewed on a single Instant value Viewer screen is up to 1000.To view data in excess of 1000, select the “②Page switch”.③Scroll barMeasured values that overflow in the margin can be displayed by doing “③Scroll bar” in the slide.④TimeMeasured values are recorded at the cycle set with the main body.3.3 Event Summary②Event display area①Event tab① Event tab The event occurred while recording is changed.② Event display areaThe event occurred while recording is displayed.③ TimeThe occurred event is displayed.4．O PERATION METHOD［View］contents Item Setting Realtime Trend Display the Realtime Trend. ※Instant View Select the “Display/non-display” of instantaneous view.Event summary Select the “Display/non-display” of event summary.Layout Select the layout of trend display.ToolBar Select the “Display/non-display” of tool bar.Option Display the option.※Refer to item 5 for details.［Language］Item Settingcontents Japanese Change the Japanese. ※English Change the English. ※※ It is necessary to reactivate the Data Viewer to apply the change.［Help］contents Item SettingAbout Display the version of Data Viewer.5．O THERS5.1 Save CSVWhen you select “File”⇒“Save CSV” of the menu bar of the data viewer, the recorded data can be converted into the CSV file.The CSV file can be referred to by Excel.When you convert the folder into the CSV file, the following three files are made.● ***dmt.csv file：Trend file● ***dmc.csv file：Comment file● ***dme.csv file：Event file※The record date is written in the part of “***”.5.2 Unites file“dmt file” can be brought together by selecting “File”⇒“Unites file” of menu bar.The same operation can be done even by the “Pre.” and “Next” of tool bar.Refer to item 4.1 for the tool bar.①Unites Previous dataPrevious “dmt file” is united from one file that is opening now, and displays it as a file of one.②Unites Next dataNext “dmt file” is united from one file that is opening now, and displays it as a file of one.※Only when “dmt file” is one, files cannot be united. To make two or more “dmt file”,5.3 Download from NetworkThe record file can be downloaded directly by connecting a Paperless Recorder to the personal computer.When you select “File”⇒“Download from Network”⇒“Connection” of the menu bar of the Data Viewer, the connection with a Paperless Recorder begins.※ Please match “IP Address” of Data Viewer and “IP Address” of Paperless Recorder from “Option”⇒“Communication” of the menu bar before it connects.（IP Address of a Paperless Recorder can be set from “System”⇒“Comm.”⇒“Ethernet1”.)In this case, the file can be downloaded by selecting the “dm file” in the “Data” folder, and pushing “Download”.5.4 Realtime TrendWhen the Paperless Recorder connects to the personal computer, the “Realtime trend” display recording with a Paperless Recorder can be displayed by the Data Viewer.When you select “View”⇒“Realtime Trend” of the menu bar of the Data Viewer, the connection with a Paperless Recorder begins.※ Please match “IP Address” of Data Viewer and “IP Address” of Paperless Recorder from “Option”⇒“Communication” of the menu bar before it connects.（IP Address of a Paperless Recorder can be set from “System”⇒“Comm.”⇒“Ethernet1”. )Aspar s.cul. Kapitańska 981-331 Gdyniatel. +48 58 351 39 89+48 58 732 71 73fax +48 58 732 71 74 email: ***************.pl.pl。

| 7AM SERIESLighting, Electrical, Thermal, Battery, Motor ProtectionIntroductionThe Klixon® 7AM delivers the maximum protection in the smallest package at an excellent price. It’s the most reliable on the market, backed by the leading innovators in protection technology.Each 7AM temperature rating has a bimetal disc specifically manufactured for that rating. Each device is then calibrated and checked for opening temperature. This results in optimum snap–acting open and reset characteristics necessary to achieve consistent performance over the required cycle life.The Klixon® bimetal disc welded in a steel can provides excellent thermal sensitivity and maximum protection properties.Features• Over 3 billion sold• Compact, miniature size• UL, CSA, DEKRA (ENEC) approvals• Individually temperature checked on modern, custom-designedequipment• Positive make and break with Klixon® snap–action disc• Repeatable temperature performance over life• Gasketed steel case suitable for most impregnation processes• Current and temperature sensitivity for maximum design flexibilityand application• Wide selection of leads and insulating sleevesPERFORMANCE CHARACTERISTICSMAXIMUM CONTACT RATINGS (10,000 CYCLES)ULTIMATE TRIP CURRENT VS. DELTA TEMPERATUREApproximation, to be used only for selecting samples for verification tests.Note: Delta T is the difference between the zero current calibrated opening temperature (T cal) and ambient temperature (T ambient) at the protector location.AVERAGE FIRST CYCLE TRIPPING TIME VS. CURRENT (25°C AMBIENT)ORDERING OPTIONS5 = High Seal / WhiteSome ratings may not have UL listing. Please consult agency file listings.Page 5CONTACT USAmericas+1 (508) 236-2551electrical-protection-sales@Europe, Middle East & Africa +31743578156*********************.com Asia Pacific***************************.comChina +86 (21) 2306 1651Japan +81 (45) 277 7104Korea +82 (53) 644 9685India +91 (40) 4033 9611Rest of Asia +65 (6478) 6860Sensata Technologies, Inc. (“Sensata”) data sheets are solely intended to assist designers (“Buyers”) who are developing systems that incorporate Sensata products (also referred to herein as “components”). Buyer understands and agrees that Buyer remains responsible for using its independent analysis, evaluation and judgment in designing Buyer’s systems and products. Sensata data sheets have been created using standard laboratory conditions and engineering practices. Sensata has not conducted any testing other than that specifically described in the published documentation for a particular data sheet. Sensata may make corrections, enhancements, improvements and other changes to its data sheets or components without notice.Buyers are authorized to use Sensata data sheets with the Sensata component(s) identified in each particular data sheet. HOWEVER, NO OTHER LICENSE, EXPRESS OR IMPLIED, BY ESTOPPEL OR OTHERWISE TO ANY OTHER SENSATA INTELLECTUAL PROPERTY RIGHT, AND NO LICENSE TO ANY THIRD PARTY TECHNOLOGY OR INTELLECTUAL PROPERTY RIGHT, IS GRANTED HEREIN. SENSATA DATA SHEETS ARE PROVIDED “AS IS”. SENSATA MAKES NO WARRANTIES OR REPRESENTATIONS WITH REGARD TO THE DATA SHEETS OR USE OF THE DATA SHEETS, EXPRESS, IMPLIED OR STATUTORY, INCLUDING ACCURACY OR COMPLETENESS. SENSATA DISCLAIMS ANY WARRANTY OF TITLE AND ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT, QUIET POSSESSION, AND NON-INFRINGEMENT OF ANY THIRD PARTY INTELLECTUAL PROPERTY RIGHTS WITH REGARD TO SENSATA DATA SHEETS OR USE THEREOF.All products are sold subject to Sensata’s terms and conditions of sale supplied at SENSATA ASSUMES NO LIABILITY FOR APPLICATIONS ASSISTANCE OR THE DESIGN OF BUYERS’ PRODUCTS. BUYER ACKNOWLEDGES AND AGREES THAT IT IS SOLELY RESPONSIBLE FOR COMPLIANCE WITH ALL LEGAL, REGULATORY AND SAFETY-RELATED REQUIREMENTS CONCERNING ITS PRODUCTS, AND ANY USE OF SENSATA COMPONENTS IN ITS APPLICATIONS, NOTWITHSTANDING ANY APPLICATIONS-RELATED INFORMATIONAGENCY APPROVALS & CERTIFICATIONS。

MODEL: MD7LWA Lightning Surge Protectors forElectronics Equipment M-RESTERLIGHTNING SURGE PROTECTOR FORLonWorksMODEL: MD7LWA–[1][2]Specify a code from below for each of [1] and [2].(e.g. MD7LWA-FF/Q)•Specify the specification for option code /Q(e.g. /C01)[1]SHIELD TERMINAL (to earth)FF: FloatingFG: Grounding[2]OPTIONSblank: none/Q: Options other than the above (specify the specification)/C01: Silicone coating/C02: Polyurethane coatingThis unit is not applicable to LonWorks Link Power network.Degree of protection: IP20Connection: Euro terminal block (torque 0.3 N·m)Applicable wire size: 0.2 – 2.5 mm2, stripped length 8 mmGrounding: DIN RailHousing material: Flame-resistant resin (black)Operating humidity: 30 to 90 %RH (non-condensing)Mounting: DIN Rail (TH35-7.5, 1-mm-thick)Oxide film on the surface of an aluminium DIN rail maylower the electric conductivity between this module and theground. Use a steel or copper rail.Weight: 70 g (2.5 oz)LINE TOLINELINE TOEARTHSHLD TOEARTHMax. continuousoperating voltage (Uc)±1.5V±100V±160V*1Voltage protection level(Up) @4kV (1.2 / 50 µs)±30V±370V±800V*1Leakage current @Uc≤ 5µA≤ 20µA≤ 5µA*1Response time≤ 4 nsec.≤ 20 nsec.≤ 20 nsec.*1Approx. capacitance@10 kHz100 pF100 pF 5 pF*1Max. discharge current(Imax)20kA (8 / 20 µs)1.0kA (10 / 350 µs)Nominal current (I N)100mAInternal series resistance≤ 3.3Ω including returnInsertion loss-0.5 dB max. @DC...5 MHz, Z0 = 100ΩSurge protection IEC 61643-21 Categories C1, C2, D1*1. V alues for the oating type (FF). Shortcircuited for the ground-ing type (FG).EMC DirectiveEMI EN 61000-6-4EMS EN 61000-6-2RoHS Directive056 222 38 18SEN TRONICAG8–M3 EURO*1. Be sure to use twisted-pair cables.*2. Choose the M-RESTER – FG when the shield wire is to be grounded.*3. When the twisted-pair cable is with a shield, connect it to the surge protector’s terminal 8, and follow instructions given by the protecteddevice for the terminal 7. When SHLD is not isolated from NET A / B, DO NOT connect the terminal 7 to SHLD.*4. Oxide film on the surface of an aluminium rail may lower the electric conductivity between this module and the ground. Use a steel or copper rail.*5. Be sure to ground the DIN rail. Recommended grounding resistance max. 100 ohms.*6. Cross-wire from the DIN rail to the metal housing of the protected device to equalize the ground potential.Ground only the surge protector when the protected device has no grounding terminal.Protected Devices (Nodes)Protected Devices (Nodes)• T he M-RESTER is applicable to networks which consist only of FTT-10A. Not applicable to the ones connected to Link Power network.• The maximum number of nodes connectable to the network segment is reduced by one when one unit of M-RESTER is added.• When the distance between nodes are relatively long (e.g. grouped and separated by cabinets),install the M-RESTER by each group of devices. Insert the M-RESTER at the surge side of the network.• For detailed information on the network, refer to L ON W ORKS FTT-10A Free Topology Transceiver User’s Guide provided by Echelon.。

现货库存、技术资料、百科信息、热点资讯，精彩尽在鼎好!_______________General DescriptionThe MAX710/MAX711 integrate a step-up DC-DC con-verter with a linear regulator to provide step-up/down voltage conversion. They are optimized for battery applications where the input varies above and below the regulated output voltage. They have an input range from +1.8V to +11V. Typical efficiency when boosting battery inputs is 85%.The MAX710/MAX711 can be configured for minimum noise or optimum efficiency. Shutdown control turns off the part completely, disconnecting the input from the output (I SHDN = 0.2µA). Standby control turns off only the step-up converter and leaves the low-power linear regulator active (I Q = 7µA).The MAX710 has a preset 3.3V or 5V output voltage.The MAX711 has an adjustable output that can be set from +2.7V to +5.5V with two resistors. Both devices come in 16-pin narrow SO packages.________________________ApplicationsSingle-Cell, Lithium-Powered Portable Devices Digital Cameras2- to 4-Cell AA Alkaline Hand-Held Equipment 3.3V and Other Low-Voltage Systems2-, 3-, and 4-Cell Battery-Powered Equipment Battery-Powered Devices with AC Input Adapters____________________________Featureso Step-Up/Down Voltage Conversion o +1.8V to +11V Input Range o Output:5V/250mA at V IN = 1.8V 5V/500mA at V IN = 3.6V o No External FETs Requiredo Load Disconnected from Input in Shutdown o Battery Drain:200µA No-Load (V IN = 4V)7µA in Standby 0.2µA when Offo Low-Noise and High-Efficiency ModesMAX710/MAX7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters________________________________________________________________Maxim Integrated Products 1__________________Pin Configuration__________Typical Operating CircuitFor free samples & the latest literature: , or phone 1-800-998-8800.For small orders, phone 408-737-7600 ext. 3468.M A X 710/M A X 7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V PS = 5.6V, STBY = PS, C REF = 0.1µF, C OUT = 4.7µF, T A = -40°C to +85°C, unless otherwise noted. Typical values are at T A = +25°C.) (Note 1)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.PS, LX, OUT to GND............................................-0.3V to +11.5V ILIM, SHDN , STBY , FB, 3/5, N/E , LBO,LBI-, LBI+, REF to GND...........................-0.3V to (V PS + 0.3V)PGND to GND .......................................................-0.3V to +0.3V REF Short Circuit to GND...........................................Continuous I OUT ...................................................................................700mAContinuous Power Dissipation (T A = +70°C)SO (derate 8.70mW/°C above +70°C)..........................696mW Operating Temperature Range ...........................-40°C to +85°C Storage Temperature Range.............................-65°C to +160°C Junction Temperature......................................................+150°C Lead Temperature (soldering, 10sec).............................+300°CMAX710/MAX7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS (continued)(V PS = 5.6V, STBY = PS, C REF = 0.1µF, C OUT = 4.7µF, T A = -40°C to +85°C, unless otherwise noted. Typical values are at T A = +25°C.) (Note 1)Note 1:Specifications at -40°C are guaranteed by design, not production tested.Note 2:Guaranteed by design (see Table 1).Note 3:The LBO comparator provides the correct result as long as one input is within the specified input range.__________________________________________Typical Operating Characteristics(T A = +25°C, unless otherwise noted.)M A X 710/M A X 7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters 4_______________________________________________________________________________________90500.11010001100EFFICIENCY vs. LOAD CURRENT—HIGH-EFFICIENCY AND LOW-NOISE MODES(V OUT = 5V)60LOAD CURRENT (mA)E F F I C I E N C Y (%)708060100.0110110000.1100LINEAR-REGULATOR POWER-SUPPLY REJECTION RATIO vs. FREQUENCY20M A X 710/711 T O C 08FREQUENCY (kHz)P S R R (d B )304050551525354590500.11010001100EFFICIENCY vs. LOAD CURRENT—HIGH-EFFICIENCY AND LOW-NOISE MODES(V OUT = 3.3V)60LOAD CURRENT (mA)E F F I C I E N C Y (%)7080200600800400120014001000160042681012NO-LOAD BATTERY CURRENTvs. INPUT VOLTAGEINPUT VOLTAGE (V)S U P P L Y C U R R E N T (µA )00.20.60.40.81.01345268791011SHUTDOWN CURRENT vs. INPUT VOLTAGEM A X 710/711 T O C 09INPUT VOLTAGE (V)S H U T D O W N C U R R E NT (µA )1000101.01.42.22.6MAXIMUM OUTPUT CURRENTvs. INPUT VOLTAGE100INPUT VOLTAGE (V)M A X I M U M O U T P U T C U R R E N T (m A )1.81.22.01.62.490500.11010001100EFFICIENCY vs. OUTPUT CURRENT—HIGH-EFFICIENCY MODE(V OUT = 5V)60OUTPUT CURRENT (mA)E F F I C I E N C Y (%)708090500.11010001100EFFICIENCY vs. OUTPUT CURRENT—HIGH-EFFICIENCY MODE(V OUT = 3.3V)60OUTPUT CURRENT (mA)E F F I C I E N C Y (%)708000.60.40.20.81.01.21.41.61.82.010050150200250MINIMUM START-UP INPUT VOLTAGEvs. LOAD CURRENTLOAD CURRENT (mA)I N P U T V O L T A G E (V )MAX710/MAX7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters_______________________________________________________________________________________5LINE-TRANSIENT RESPONSEABMAX710/711 TOC10A: V OUT = 3.3V (100mV/div, AC COUPLED), N/E = GND B: V IN = 2V TO 4V, I OUT = 100mA2ms/divA: V OUT = 3.3V (50mV/div, AC COUPLED), N/E = PS B: I OUT = 10mA TO 100mALOAD-TRANSIENT RESPONSEABMAX710/711 TOC111ms/divV IN = 2.5V, I OUT = 20mA, N/E = GNDV OUT = 5V (20mV/div, AC COUPLED), I OUT = 20mA200µs/divOUTPUT RIPPLE (HIGH-EFFICIENCY MODE)MAX710/711 TOC12V IN = 2.5V, I OUT = 20mA, N/E = PSV OUT = 5V (20mV/div, AC COUPLED), I OUT = 20mAOUTPUT RIPPLE (LOW-NOISE MODE)MAX710/711 TOC13200µs/divA: V OUT (2V/div), I OUT = 100mA B: V SHDN (2V/div)START-UP DELAYA B MAX710/711 TOC1420µs/divA: V OUT (2V/div), I OUT = 100mA B: V SHDN (2V/div)TURN-OFF DELAYABMAX710/711 TOC15200µs/div____________________________Typical Operating Characteristics (continued)(T A = +25°C, unless otherwise noted.)_______________Detailed DescriptionThe MAX710/MAX711 integrate a step-up DC-DC con-verter with a linear regulator to provide step-up/down voltage conversion. The step-up switch-mode regulator contains an N-channel power MOSFET switch. It also shares a precision voltage reference with a linear regu-lator that contains a P-channel MOSFET pass element (Figure 1).Step-Up OperationA pulse-frequency-modulation (PFM) control scheme with a constant 1µs off-time and variable on-time con-trols the N-channel MOSFET switch. The N-channel switch turns off when the part reaches the peak current limit or the 4µs maximum on-time. The ripple frequency is a function of load current and input voltage.Step-Down OperationThe low-dropout linear regulator consists of a refer-ence, an error amplifier, and a P-channel MOSFET. The reference is connected to the error amplifier’s invertinginput. The error amplifier compares this reference with the selected feedback voltage and amplifies the differ-ence. The difference is conditioned and applied to the P-channel pass transistor’s gate.Operating ConfigurationsThe MAX710/MAX711 have several operating configu-rations to minimize noise and optimize efficiency for dif-ferent input voltage ranges. These configurations are accomplished via the N/E input, which controls opera-tion of the on-chip linear regulator.With N/E low, the linear regulator behaves as a 0.7Ω(at 5V output) PFET switch when the IC is boosting, and as a conventional linear regulator when V IN > V OUT . This provides optimum boost efficiency, but the PFET does little to reject boost-converter output ripple. With N/E high, boost ripple rejection is optimized by maintaining headroom (V FV , typically 0.5V at 5V output) across the linear regulator. Boost mode efficiency is then about 10% lower than with N/E high.M A X 710/M A X 7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters 6_____________________________________________________________________________________________________________________________________________________Pin DescriptionMAX710/MAX7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters_______________________________________________________________________________________7Figure 1. Functional DiagramM A X 710/M A X 7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters 8_______________________________________________________________________________________Figure 2a. High-Efficiency Operating Configuration for V BATT < V OUT Figure 2b. High-Efficiency Operating Configuration for V BATT < 6.5VIn high-efficiency mode (N/E = low), the maximum input voltage is limited to 7V.This voltage limitation is easily overcome, however, by configuring the LBO out-put to change modes based on input voltage, allowing an 11V maximum input with high-efficiency configura-tions. Four operating configurations are described in Table 1 and in the following subsections.Configuration 1: High Efficiency, 7V Max V INWith N/E connected to GND, when the IC boosts, the linear regulator operates only as a switch, with mini-mum forward drop, until V IN > V OUT (where linear regu-lation begins). This configuration is limited to no more than 7V input, but provides best efficiency for battery-only operation or low-voltage AC adapter usage.Configuration 2: High Efficiency, V BATT < V OUTIn this configuration, N/E is driven high by LBO when V IN > V OUT (Figure 2a). When V IN < V OUT , the IC boosts, and the linear regulator operates as a switch,with minimum forward drop. When V IN > V OUT , the lin-ear regulator operates with V FV forward drop, while V PS increases by V FV so that OUT maintains regulation. V FV is set inside the IC to approximately 0.5V (at 5V V OUT ).When V IN is only slightly higher than V OUT , conversion efficiency is poorer than in configuration 1, so configu-ration 2 is most suitable when the battery voltage is less than V OUT , but the AC adapter output is greater than V OUT .Table 1. Operating ConfigurationsMAX710/MAX7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters_______________________________________________________________________________________9Configuration 3: High Efficiency, 11V, V BATT < 6.5V In this configuration, N/E is driven high by LBO when V IN > 6.5V (Figure 2b). When V IN < V OUT , the IC boosts, and the linear regulator operates as a switch,with minimum forward drop. When V IN > V OUT , linear regulation begins. When V IN > 6.5V (set by R5 and R6),the linear regulator forces a minimum forward drop of V FV (typically 0.5V at 5V V OUT ) as LBO drives N/E high.This transition is not seen at the output, since the linear regulator already has an input-output voltage difference of 6.5V - 5V. Efficiency with V IN slightly higher than V OUT is equal to that of configuration 1, so configura-tion 3 is most suitable when the battery voltage may be near V OUT . This hookup has no functional shortcomings compared with configuration 2, except that two addi-tional resistors (R5 and R6) are needed.Configuration 4: Low NoiseWith N/E connected to PS, when the IC is boosting, the linear regulator operates with V FV forward voltage (typi-cally 0.5V at 5V V OUT ) for optimum noise rejection.Linear regulation occurs when V IN > V OUT + V FV . The V FV voltage differential results in boost efficiency typi-cally 10% lower than with the high-efficiency configura-tions.ILIMThe current-limit-select input, ILIM, selects between the two peak current limits: 1.5A (ILIM = GND) and 0.8A (ILIM = PS). If the application requires 200mA or less from the MAX710/MAX711, select 0.8A. The lower peak current limit permits the use of smaller, low-cost induc-tors. The ILIM input is internally diode clamped to GND and PS, and should not be connected to signals out-side this range.Shutdown and Standby ModesGrounding SHDN turns off the MAX710/MAX711 com-pletely, disconnecting the input from the output. Tie SHDN to PS for normal operation.The MAX710/MAX711 have a standby mode that shuts down the step-up converter. The linear regulator remains on with a 7µA (typ) LDO quiescent current.Connect STBY to ground to enter standby mode; other-wise, connect STBY to PS.__________________Design ProcedureOutput Voltage SelectionFor the MAX710, you can obtain a 3.3V or 5V output voltage by tying 3/5to GND or PS. Efficiency is typically 85% over a 2mA to 250mA load range. The device is bootstrapped, with power derived from the step-up voltage output (at PS). Under all load conditions, theMAX710/MAX711 typically start up with a 1V input. If the battery voltage exceeds the programmed output voltage, the output will linear regulate down to the selected output voltage.The MAX711’s adjustable output voltage is set by two resistors, R1 and R2 (Figure 3), which form a voltage divider between the output and FB. Use the following equation to determine the resistor values:R1 = R2 [(V OUT /V REF ) - 1]where V REF = 1.25V.Since the input bias current at FB has a maximum value of 50nA, R1 and R2 can be large with no significant accuracy loss. Choose R2 in the 100k Ωto 1M Ωrange and calculate R1 using the formula above. For 1%error, the current through R1 should be at least 100times FB’s bias current.Low-Battery ComparatorThe MAX710/MAX711 contain a comparator for low-battery detection. If the voltage at LBI+ falls below that at LBI- (typically connected to REF), LBO goes low.Hysteresis is typically 50mV. Set the low-battery moni-tor’s threshold with two resistors, R3 and R4 (Figure 2),using the following equation:R3 = R4 [(V LBT / V LBI -) - 1]Figure 3. MAX711 Adjustable Output VoltageM A X 710/M A X 7113.3V/5V or Adjustable,Step-Up/Down DC-DC Converters 10______________________________________________________________________________________where V LBT is the desired threshold of the low-battery detector and V LBI-is the voltage applied to the invert-ing input of the low-battery comparator. Since LBI cur-rent is less than 50nA, R3 and R4 can be large (typically 100k Ωto 1M Ω), minimizing input supply load-ing. If the low-battery comparator is not used, connect LBI+ to PS and LBI- to REF, leaving LBO unconnected.Inductor SelectionA 22µH inductor value performs well in most MAX710/MAX711 applications. The inductance value is not critical, however, since the MAX710/MAX711 work with inductors in the 18µH to 100µH range. Smaller inductance values typically offer a smaller size for a given series resistance, allowing the smallest overall circuit dimensions. Circuits using larger inductance val-ues exhibit higher output current capability and larger physical dimensions for a given series resistance. The inductor’s incremental saturation current rating should be greater than the peak switch-current limit, which is 1.5A for ILIM = GND and 0.8A for ILIM = PS. However,it is generally acceptable to bias most inductors into saturation by as much as 20%, although this slightly reduces efficiency. The inductor’s DC resistance signif-icantly affects efficiency. See Tables 2 and 3 for a list of suggested inductors and suppliers.Capacitor SelectionA 100µF, 16V, 0.1Ωequivalent series resistance (ESR),surface-mount tantalum (SMT) output filter capacitor,C2, typically exhibits 50mV output ripple when stepping up from 2V to 5V at 100mA. Smaller capacitors (down to 10µF with higher ESRs) are acceptable for light loads or in applications that can tolerate higher output ripple.The ESR of both bypass and filter capacitors affects efficiency and output ripple. Output voltage ripple is the product of the peak inductor current and the output capacitor’s ESR. Use low-ESR capacitors for best per-formance, or connect two or more filter capacitors in parallel. Low-ESR, SMT capacitors are currently avail-able from Sprague (595D series) and AVX (TPS series).Sanyo OS-CON organic-semiconductor through-hole capacitors also exhibit very low ESR and are especiallyuseful for operation at cold temperatures. The output capacitor, C3, needs to be only 4.7µF to maintain linear regulator stability. See Tables 2 and 3 for a list of sug-gested capacitors and suppliers.Rectifier DiodeFor optimum performance, use a switching Schottky diode. Refer to Tables 2 and 3 for the suggested diode and supplier.__________Applications InformationThe MAX710/MAX711 high-frequency operation makes PC layout important for minimizing ground bounce and noise. Keep the IC’s GND pin and the ground leads of C1 and C2 (Figure 1) less than 0.2in. (5mm) apart. Also keep all connections to the FB and LX pins as short as possible. To maximize output power and efficiency and minimize output ripple voltage, use a ground plane and solder the IC’s GND pin directly to the ground plane.Table 2. Component Selection___________________Chip InformationTRANSISTOR COUNT: 661SUBSTRATE CONNECTED TO GNDMAX710/MAX7113.3V/5V or Adjustable, Step-Up/Down DC-DC Converters______________________________________________________________________________________11________________________________________________________Package InformationM A X 710/M A X 711 3.3V/5V or Adjustable, Step-Up/Down DC-DC Converters 12______________________________________________________________________________________NOTES。

26.10.2016 ­ 06:39:33hDatasheet ­ AZM 170SK­11/02ZRK­2197AZM 170SK­11/02ZRK­219724VAC/DCSolenoid interlock / AZM 170(Minor differences between the printed image and the originalproduct may exist!)• Thermoplastic enclosure • Double­insulated • Compact design• 90 mm x 84 mm x 30 mm • 1 Cable entry M 20 x 1.5• Interlock with protection against incorrect locking.• Long life• High holding force• Manual release from side • Screw connectionOrdering detailsProduct type descriptionAZM 170SK­11/02ZRK­2197 24VAC/DC Article number 101183249EAN code 4030661319049eCl@ss 27­27­26­03ApprovalApprovalBG USA/CAN CCCClassificationStandards EN ISO 13849­1B 10d Opener (NC) 2.000.000Mission time 20 Y earsnoticeGlobal PropertiesProduct name AZM 170StandardsEN 60947­5­1, BG­GS­ET­19Compliance with the Directives (Y/N)Y esNumber of actuating directions2 pieceActive principle electromechanicalDuty cycle Magnet 100 %Materials­ Material of the housings Plastic, glass­fibre reinforced thermoplastic, self­extinguishing ­ Material of the contacts SilverHousing coating NoneWeight320 gMechanical dataDesign of electrical connection Screw connectionCable section­ Min. Cable section1 x 0,25 mm²­ Max. Cable section1 x 1.5 mm², flexibleMechanical life> 1.000.000 operationsEmergency unlocking device (Y/N)NoManual release (Y/N)Y es­ rightEmergency release (Y/N)NoLatching force30 NPositive break force17 Npositive break travel11 mmClamping force F1000 NMax. Actuating speed2 m/sAmbient conditionsAmbient temperature­ Min. environmental temperature−25 °C­ Max. environmental temperature+60 °CProtection class IP67 to IEC/EN 60529Electrical dataDesign of control element Normally open contact (NO), Opener (NC)notice change­over contact with double break, type Zb or 2 NC contacts,with galvanically separated contact bridgesSwitching principle Creep circuit elementNumber of auxiliary contacts1 pieceNumber of safety contacts3 piecePower to unlock Y esPower to lock NoRated control voltage U s24 VAC/DCPower consumption max. 10 WRated impulse withstand voltage U imp4 kVRated insulation voltage U i250 VThermal test current I the10 AUtilisation category AC­15: 230 V / 4 ADC­13: 24 V / 4 AMax. fuse rating6 A gG D­fuseATEXExplosion protection categories for gases NoneExplosion protected category for dusts NoneMiscellaneous dataApplicationssliding safety guard,removable guard,hinged safety guardDimensionsDimensions of the sensor­ Width of sensor108 mm­ Height of sensor100.5 mm­ Length of sensor30 mmnoticeIndividual coding available on requestManual release from side• For manual release using M5 triangular key, available as accessory• Additional manual release on sideDiagramNote Diagrampositive break NC contactactiveno activeNormally­open contactNormally­closed contactOrdering suffixThe applicable ordering suffix is added at the end of the part number of the safety switch.Order example: AZM 170SK­11/02ZRK­2197 24VAC/DC­1637...­16370,3 µm gold­plated contacts...ST­2431connector M12 , Individual solenoid monitoringOrdering codeAZM 170(1)­(2)Z(3)K(4)­(5)­(6)­(7)(1)without IDC method of terminationSK Screw connection(2)111 Normally open contact (NO) / 1 Opener (NC)022 Opener (NC)12/0.01 Normally open contact (NO), 2 Opener (NC) / ­(3)without Latching force 5 NR Latching force 30 NI Individual coding(4)without Power to unlockA Power to lock(5)without cable glandST Connector M12 x 1ST­2431Connector M12 x 1, Individual solenoid monitoring(6)24VAC/DC U s 24 VAC/DC110VAC U s 110 VAC230VAC U s 230 VAC(7)without Manual release2197Manual release from side (Power to unlock) 1637gold­plated contactsAZM 170ST and AZM 170SKAZM 170ST­(1)Z(2)K(3)­(4)­(5)­024AZM 170SK­(1)Z(2)K(3)­(4)­(5)­024(1)11/111 Normally open contact (NO), 1 Opener (NC) / 1Normally open contact (NO), 1 Opener (NC) 11/021 Normally open contact (NO), 1 Opener (NC) / 2Opener (NC)12/001 Normally open contact (NO), 2 Opener (NC) / ­12/111 Normally open contact (NO), 2 Opener (NC) / 1Normally open contact (NO), 1 Opener (NC) 12/021 Normally open contact (NO), 2 Opener (NC) / 2Opener (NC)02/012 Opener (NC), ­ / 1 Opener (NC), ­02/102 Opener (NC), ­ / 1 Normally open contact (NO), ­(2)without Latching force 5 NR Latching force 30 N(3)without Power to unlockA Power to lock(4)1637gold­plated contacts(5)2197Manual release for Power to unlockDocumentsOperating instructions and Declaration of conformity (en) 509 kB, 21.04.2016Code: mrl_azm170­xx­xx_enOperating instructions and Declaration of conformity (da) 509 kB, 24.11.2015Code: mrl_azm170­xx­xx_daOperating instructions and Declaration of conformity (it) 509 kB, 22.04.2016Code: mrl_azm170­xx­xx_itOperating instructions and Declaration of conformity (nl) 511 kB, 24.11.2015Code: mrl_azm170­xx­xx_nlOperating instructions and Declaration of conformity (de) 494 kB, 21.04.2016Code: mrl_azm170­xx­xx_deOperating instructions and Declaration of conformity (cs) 546 kB, 24.11.2015Code: mrl_azm170­xx­xx_csOperating instructions and Declaration of conformity (pt) 384 kB, 26.06.2012Code: mrl_azm170­xx­xx_ptOperating instructions and Declaration of conformity (jp) 601 kB, 07.09.2016Code: mrl_azm170­xx­xx_jpOperating instructions and Declaration of conformity (fr) 511 kB, 28.04.2016Code: mrl_azm170­xx­xx_frOperating instructions and Declaration of conformity (es) 512 kB, 24.11.2015Code: mrl_azm170­xx­xx_esOperating instructions and Declaration of conformity (pl) 543 kB, 10.09.2015Code: mrl_azm170­xx­xx_plBG­test certificate (en) 260 kB, 09.12.2015Code: z_m17p02BG­test certificate (de) 257 kB, 09.12.2015Code: z_m17p01CCC certification (en) 933 kB, 16.08.2016Code: q_371p02CCC certification (cn) 932 kB, 16.08.2016Code: q_371p03EAC certification (ru) 809 kB, 05.10.2015Code: q_6040p17_ruImagesDimensional drawing (basic component)Detail photoSystem componentsActuator101122893 ­ AZ 17/170­B1• Particularly suitable for sliding doors101137406 ­ AZ 17/170­B1­2245• Particularly suitable for sliding doors • Damps vibration on guard device101122895 ­ AZ 17/170­B5• Particularly suitable for sliding doors101139788 ­ AZ 17/170­B11• Particularly suitable for sliding doors101139789 ­ AZ 17/170­B15• Particularly suitable for sliding doors101123391 ­ AZM 170­B6• Particularly suitable for hinged guards • For very smal actuating radii• The direction of actuation can be selected by applicable insertion of the insertAccessories101208493 ­ AZM 170­B CENTERING GUIDE• for AZ 17 and AZM 170101100887 ­ TRIANGULAR KEY TK­M5• For manual release using M5 triangular key, available asaccessory• For maintenance, installation, etc.ConnectorA­K4M12• Pre­wired cable• 4­poleS­K4M12• Connector without cable• 4­poleK.A. Schmersal GmbH & Co. KG, Möddinghofe 30, D­42279 WuppertalThe data and values have been checked throroughly. Technical modifications and errors excepted.Generiert am 26.10.2016 ­ 06:39:33h Kasbase 3.2.5.F.64I。

ZX7逆变直流手工电焊机一、电焊机的分类电焊机是利用正负两极在瞬间短路时产生的高温电弧来熔化电焊条上的焊料和被焊材料，来达到使它们结合的目的。

结构十分简单，就是一个大功率的变压器，电焊机一般按输出电源种类可分为两种，一种是交流电源的；一种是直流电的。

是利用电感的原理做成的，电感量在接通和断开时会产生巨大的电压变化，利用正负两极在瞬间短路时产生的高压电弧来熔化电焊条上的焊料，来达到使它们达到原子结合的目的。

电焊机的种类有很多（详见附录一），常见的有，手工交流弧焊机，逆变直流手工弧焊机，逆变直流氩弧焊机，逆变气体保护焊机。

二、产品简介逆变式直流弧焊机是以大功率开关电子元件（晶闸管SCR、晶体管GTR、场效应管MOSFET或IGBT）作为开关元件的逆变式焊条电弧焊机。

首先，将50Hz的工频输入电压经整流滤波成为直流电压，然后通过功率电子开关转换成高频的交流电压，再通过变压器将此交流电压变为适合焊接工艺要求的交流电压，最后经整流滤波变为直流焊接电压。

通过脉冲宽度调节控制技术（PWM），对输出电流进行控制并调节。

由于采用了开关电源逆变技术，焊机重量和体积大幅度下降，效率提高，同时节约了电能消耗。

三、产品特点与传统的手工交流弧焊机比较，主要特点如下：1、体积小、重量轻，节省材料，携带、移动方便。

2、高效节能，效率可达到80%～90%，比传统焊机节电1/3以上。

3、动特性好，引弧容易，电弧稳定，溶池容易控制，焊缝成形美观，飞溅小。

4、较高的空载电压和较好的能量推力补偿。

5、适合于与机器人结合，组成自动焊接生产系统。

6、可一机多用，完成多种焊接和切割过程。

四、用途可用于高空作业，野外作业，室内外装修等。

焊接不锈钢、合金钢、碳钢、铜和其他有色金属。

五、工作条件及环境1、环境条件：海拔不超过1000m环境温度范围：工作状态：－10～＋40℃运输和贮存状态：－25～＋55℃相对湿度：在40℃时≤50% 在20℃时≤90%周围空气中灰尘、酸、腐蚀性气体或物质应不超过正常含量，由于焊接过程而产生的除外应放臵于干燥通风处，并防止阳光直射和雨淋2、供电品质：供电电源：3～380V/50Hz电压波动范围＜±15%频率波动范围＜±1%三相电压不平衡率＜±5%使用引擎发电机时：要求发电机输出功率大于焊接电源额定输入功率两倍以上，并具备补偿线圈六、工作原理逆变电焊机主要是逆变器产生的逆变式弧焊电源，又称弧焊逆变器。

13.06.2016 ­ 05:25:05hDatasheet ­ AZM 161SK­12/12RI­024­B6L AZM 161SK­12/12RI­024­B6LSolenoid interlock / AZM 161I / AZM 161I­B6L(Minor differences between the printed image and the original product may exist!)• left­hand model• Compact design• Interlock with protection against incorrect locking.• For very smal actuating radii in line with or at 90° to the plane of the actuator• Individual coding• Coding level "High" according to ISO 14119• Double­insulated • High holding force • Long life• 130 mm x 90 mm x 30 mm • 1 Cable entry M 20 x 1.5• Screw connection• Manual release, lateralOrdering detailsProduct type description AZM 161SK­12/12RI­024­B6L Article number101215900EAN code 4030661405001eCl@ss 27­27­26­03ApprovalApprovalBG USA/CAN CCCClassificationStandardsEN ISO 13849­1B 10d Normally­closed contact (NC) 2.000.000Mission time 20 Y earsnoticeGlobal PropertiesProduct name AZM 161IStandards EN 60947­5­1, BG­GS­ET­19Compliance with the Directives (Y/N) Y esNumber of actuating directions3 pieceActive principle electromechanical­ Individual coding­ Coding level "High" according to ISO 14119Duty cycle Magnet 100 %Materials­ Material of the housings glass­fibre reinforced thermoplastic, Plastic self­extinguishing,­ Material of the actuator Stainless steel­ Material of the contacts SilverHousing coating NoneWeight465 gMechanical dataDesign of electrical connection Screw connectionCable section­ Min. Cable section1 x 0,25 mm²­ Max. Cable section1 x 1.5 mm², flexibleMechanical life> 1.000.000 operationsnotice All indications about the cable section are including the conductorferrules.Emergency unlocking device (Y/N)NoManual release (Y/N)Y esEmergency release (Y/N)NoLatching force30 NPositive break force20 Npositive break travel10 mmClamping force F2000 NMax. Actuating speed2 m/sMinimum actuating radius95 mmActuating frequency max. 1000 / hAmbient conditionsAmbient temperature­ Min. environmental temperature−25 °C­ Max. environmental temperature+60 °CProtection class IP67 to IEC/EN 60529Electrical dataDesign of control element Normally open contact (NO), Opener (NC)Switching principle Creep circuit elementNumber of auxiliary contacts2 pieceNumber of safety contacts4 piecePower to unlock Y esPower to lock NoRated control voltage U s24 VAC/DCPower consumption max. 10 WRated impulse withstand voltage U imp4 kVRated insulation voltage U i250 VThermal test current I the6 AUtilisation category AC­15: 230 V / 4 ADC­13: 24 V / 2,5 AMax. fuse rating6 A gG D­fuse To DIN EN 60269­1ATEXExplosion protection categories for gases NoneExplosion protected category for dusts NoneMiscellaneous dataApplicationssliding safety guard,removable guard,hinged safety guardDimensionsDimensions of the sensor­ Width of sensor130 mm­ Height of sensor90 mm­ Length of sensor30 mmnoticeActuating radius adjustable, minimum 95 mm, using an hexagonal key wrench 2 mm A/F (a)The actuator is not available separately.The axis of the hinge should be 11 mm above the top edge of the safety switch and in the same plane Manual release• For maintenance, installation, etc.• For manual release using M5 triangular key, available as accessoryIncluded in deliveryIncluded in delivery• Individually coded actuator• tamperproof screws• Slot sealing plugsDiagramNote Diagrampositive break NC contactactiveno activeNormally­open contactNormally­closed contactSwitch travel diagramNotes Switch travel diagramContact closedContact openSetting rangeBreak pointPositive opening sequence/­ angleVS adjustable range of NO contactVÖ adjustable range of NC contactN after travelOrdering suffixThe applicable ordering suffix is added at the end of the part number of the safety switch. Order example: AZM 161SK­12/12RI­024­B6L­1637...­16370,3 µm gold­plated contactsDocumentsOperating instructions and Declaration of conformity (en) 562 kB, 20.01.2016Code: mrl_azm161i_enOperating instructions and Declaration of conformity (jp) 767 kB, 12.04.2016Code: mrl_azm161i_jpOperating instructions and Declaration of conformity (nl) 511 kB, 15.08.2012Code: mrl_azm161i_nlOperating instructions and Declaration of conformity (da) 504 kB, 27.08.2012Code: mrl_azm161i_daOperating instructions and Declaration of conformity (de) 565 kB, 20.01.2016Code: mrl_azm161i_deOperating instructions and Declaration of conformity (pl) 589 kB, 06.04.2016Code: mrl_azm161i_plOperating instructions and Declaration of conformity (es) 444 kB, 09.03.2016Code: mrl_azm161i_esOperating instructions and Declaration of conformity (pt) 510 kB, 27.08.2012Code: mrl_azm161i_ptOperating instructions and Declaration of conformity (sv) 498 kB, 27.08.2012Code: mrl_azm161i_svOperating instructions and Declaration of conformity(cs) 586 kB, 19.04.2016Code: mrl_azm161i_csOperating instructions and Declaration of conformity (it) 562 kB, 19.04.2016Code: mrl_azm161i_itOperating instructions and Declaration of conformity (fr) 567 kB, 28.04.2016Code: mrl_azm161i_frEAC certification (ru) 809 kB, 05.10.2015Code: q_6040p17_ruImagesProduct photoDimensional drawing (actuator)Actuating radiusActuating radiusK.A. Schmersal GmbH & Co. KG, Möddinghofe 30, D­42279 WuppertalThe data and values have been checked throroughly. Technical modifications and errors excepted. Generiert am 13.06.2016 ­ 05:25:05h Kasbase 3.2.2.F.64I。

NX701-Z700Sysmac NX7 AI Controller, 80MB memory, built-in EtherCAT (256 servo axes, in total 512 EtherCAT nodes) and 2 EtherNet/IPportsIndustrial AutomationController functionality AI control, Motion control, Sequence control Primary task cycle time0.125 msProgram memory80 MBVariables memory260 MBMax. number of synchronous axes256Max. number of axes (incl. virtual)256Communication port(s)EtherCAT Master, EtherNet/IP, Ethernet TCP/IP Communication option(s)NoneMax. number of remote I/O nodes512I/O system NX I/O BusMax. number of expansion units0Product Height (unpacked)100 mmProduct Width (unpacked)132 mmProduct Depth (unpacked)100 mmGX-JC033-port EtherCAT Junction module, 24 VDC power supplyGX-JC066-port EtherCAT Junction module, 24 VDC power supplyGX-JC06-H6-port EtherCAT Junction module, 24 VDC power supply, with node switchesHMC-SD492 4 GB SD memory cardNX-PA9001Sysmac NX power supply unit, 100 to 240 VAC, 90 W, "RUN" output relayNX-PD7001Sysmac NX power supply unit, 24 VDC, 70 W, "RUN" output relayW4S1-05D 5-port enhanced Ethernet switchCJ1W-BAT01Battery for CJ1M PLCsNX-END01Replacement end cover for NX I/O seriesAI Controller Standard SoftwareOperation ManualENPDF 6.07 MBAI Machine Automation Controller BrochureEN PDF 5.18 MBAI PredictiveMaintenance Library Users ManualEN PDF 2.13 MBArtificial Intelligence Machine Automation Controller Users ManualENPDF 6.87 MBData validity check BrochureEN PDF 202 KBFDK CR14250SE Battery Safety DatasheetEN PDF 147 KBHigh-speed inspection BrochureEN PDF 319 KBMachine Safety Solution BrochureEN PDF 2.86 MBNJ/NX Series BrochureEN PDF 4.18 MBNJ/NX-series -[EtherCAT]- CKD ABSODEX driver (AX9000TS/TH-U5)Connection GuideENPDF 1.73 MBNJ/NX-series -[EtherCAT]- Hitachi ADV-Series AC Servo DrivesConnection GuideEN ZIP 4.29 MBNJ/NX-series -[EtherCAT]- Inficon gauge (BPG402-SE)Connection GuideEN PDF 1.22 MBNJ/NX-series -[EtherCAT]- Kashiyama Dry Vacuum Pump (E-CAT01 1ch)Connection GuideEN PDF 1.59 MBNJ/NX-series -[EtherCAT]- NX-ECC 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24VDC(JXCL1)Connection GuideEN PDF 2.23 MBNJ/NX-series -[EtherCAT]- NX-ECC +NX-ILM400 -[IO-Link]-Schmalz Ejector (SCPSi)Connection GuideEN PDF 2.4 MBNJ/NX-series -[EtherCAT]- NX-ECC +NX-ILM400 -[IO-Link]-ifm (O5D10x/O5D15x)Connection GuideEN PDF 2.42 MBNJ/NX-series -[EtherCAT]- NX-ECC +NX-ILM400 -[IO-Link]-ifm (PN7x94)Connection GuideEN PDF 2.72 MBNJ/NX-series -[EtherCAT]- NX-ECC +NX-ILM400 -[IO-Link]-ifm (TN24xx)Connection GuideEN PDF 2.74 MBNJ/NX-series -[EtherCAT]- NX-ECC +NX-ILM400 -[IO-Link]-ifm TR7439 Pt100/1000Connection GuideEN PDF 2.43 MBNJ/NX-series -[EtherCAT]- NidecSankyo S-FLAG II SeriesAC Servo (DB6xx41)Connection GuideEN PDF 2.65 MBNJ/NX-series -[EtherCAT]- SANYODENKI AC ServoSANMOTION R 3EMODEL TYPE SConnection GuideEN PDF 3.08 MBNJ/NX-series -[EtherCAT]- SANYODENKI AC ServoSANMOTION RADVANCED MODELTYPE FConnection GuideEN PDF 3.61 MBNJ/NX-series -[EtherCAT]- SHIMADZUPower Unit for TurboMolecular Pump (TMP)Connection GuideEN PDF 1.29 MBNJ/NX-series -[EtherCAT]- 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焊接设备类-I
006逆变式直流电焊机 系列焊机是一种高效、节能直流焊接电源，具有特有的静特性及良好的动特性，具有动态响应
快、性能可靠、焊接电弧稳定、成型美观、飞溅小、噪音低、节能等特性。

该机可广泛适用于油气管道、钻井平台、船坞、铁路、桥梁、矿山、建筑施工及设备维修等需要频繁移动的场合。

手工直流电焊机适应各种焊条，用于不锈钢、低、中碳钢及普通低合金钢结构的焊接。

ZX7
额定输入电源额定输入容量(kVA)电流调节范围(A)额定负载持续率(%)额定空载电压(V)额定焊接电流(A)绝缘等级防护等级冷却方式单相220V±10%, 50Hz 3.6~51606095160F IP21单相220V±10%, 50Hz 4.55~2006095200F IP21三相380V±10%, 50Hz 10.520~2506065~75250F IP2113.520~3156065~75315F IP21三相380V±10%, 50Hz 17.1~204006065~75400F IP21三相380V±10%, 50Hz 21.7~4050060~6575500F IP21三相380V±10%,
50Hz
强迫风冷ZX7系列Z X 7-□
额定焊接电流(A)
变频式
下降特性
弧焊整流器
订货单位须注明的型式特征，电压等级，电流等级，极数，操作方式及数量等，特殊订货请咨询我公司技术部门。

例如：ZX7-500 380V 10台
焊机1 适用范围2 型号及含义
3 主要参数及技术性能
4 订货须知
强迫风冷强迫风冷强迫风冷强迫风冷强迫风冷。

The Model MN307 is the latest in compact AC current probes. It is designed to meet the most stringent demands in industry and electrical contracting. Model MN307 meetsEN 61010, 600V, Cat. III safety standards and is CE Marked andUL approved for Canada and United States.The Model MN307 has a 0.78" (20mm) jaw opening and accommodate conductors up to 250MCM. The unique hooked jaw design facilitates clamping and hooking onto conductors. Polycarbonate materials and ultrasonic welding are used throughout to ensure ruggedness and overall lasting reliability.The Model MN307 is a high perform-ance model and uses a custom nickel core to improve accuracy and phase shift on the low end of the measure-ment range. The Model MN307 is an excellent probe to be used in power and low level current measurement applications.Features•Small, compact size•Measurement range of0.01 to 12A•Large jaw opening accommodatesconductors up to 250MCM•Designed for DMMs, loggers,recorders and oscilloscopes•40Hz to 10kHz response•100mV/A output signal•Designed to EN 61010, 600V,Cat. III safety standard•UL approved for Canada andUnited States•Double Insulation•CE MarkApplications•Measuring in breaker panels•Industrial loads•HVAC•Residential and commercial sites•Data logging/recordingAC Current ProbeModel MN307SpecificationsMODEL MN307Nominal Range10AMeasurement Range0.01 to 12ATransformation Ratio Voltage outputOutput Signal100mV/A (1V @ 10A)Accuracy (10A Range)0.1 to 0.5A≤2.5% of Reading ±0.1mV0.5 to 1A≤2.5% of Reading1 to 12A≤1.0% of ReadingPhase Shift (10A Range)0.01 to 0.1A Not Specified0.1 to 1A≤5.0°1 to 5A≤3.0°5 to 12A≤2.5°Overload12A for ContinuousFrequency Range40 to 10kHzLimit Operating200A permanently to 3kHz;Conditions Derating above 3kHz: 200A x (1/0.333F), F in kHzCrest Factor 3 @ 10Arms with an error (due to CF) of 3%Working/Common600VrmsMode VoltageOutput Termination 5 ft LeadOperating Temperature14°to 131°F (-10°to 55°C)Storage Temperature-40°to 158°F (-40°to 70°C)Operating Relative10 to 35°C 85% RH (without roll-off above 35°C)HumidityJaw Opening0.83" (21mm)Maximum Conductor Size0.78" (20mm)Dimensions 5.47 x 2.00 x 1.18" (139 x 51 x 30mm)Weight 6.5 oz (180g)Polycarbonate Material Polycarbonate with fiberglass charge, UL94 V0Electrical EN 61010-2-32UL Approval Yes – Canada and United StatesDouble Insulation YesCE Mark YesNote:Reference conditions:20 to 26°C, 20 to 75% RH, external magnetic field <40A/m, 48 to 65Hz sine wave, distortion factor less than 1%, no DC component, no external current carrying conductor, test sample centered.Load impedance >1ΩCATALOG NO.AC Current Probe Model MN307 (Lead – 100mV/A – 12A max). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cat.#2116.23Includes a user manual Accessories (Optional)Banana plug adaptor (Safety Leads to nonrecessed plug). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cat. #1017.45Banana (Female) – BNC (Male) Adaptor. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Cat. #2118.46Leads:Double/reinforced 5 ft (1.5m) lead with safety 4mm banana plugContact UsUnited States and Canada:Chauvin Arnoux®, Inc.d.b.a. AEMC®Instruments200 Foxborough Blvd.Foxborough, MA02035 USA(508) 698-2115 • Fax (508) 698-2118Customer Support – for placing an order, obtaining price and delivery:************************Sales Department – for general sales information:**************Repair and Calibration Service – for information on repair and calibration, obtaining a user manual: ***************Technical and Product Application Support – for technical and application support:*****************Webmaster – for information regarding :******************South America, Central America, Mexico, Caribbean, Australia and New Zealand:Chauvin Arnoux®, Inc.d.b.a. AEMC®Instruments15 Faraday DriveDover, NH 03820 USA(978) 526-7667 • Fax (978) 526-7605***************All other countries:Chauvin Arnoux SCA190, rue Championnet75876 Paris Cedex 18, France33 1 44 85 45 28 • Fax 33 1 46 27 73 89***********************。