HA7-5127A-5中文资料

美标稳压二极管型号: 500mW部分: 1N4614 1.8V 1N4615 2V 1N4616 2.2V 1N4617 2.4V 1N4618 2.7V 1N4619 3V 1N4620 3.3V 1N4621 3.6V 1N4622 3.9V 1N4623 4.3V 1N4624 4.7V 1N4625 5.1V 1N4626 5.6V 1N4627 6.2V1N4099 6.8V 1N4100 7.5V 1N4101 8.2V 1N4102 8.7V 1N4103 9.1V 1N4104 10V 1N4105 11V 1N4106 12V 1N4107 13V 1N4108 14V 1N4109 15V 1N4110 16V 1N4111 17V 1N4112 18V 1N4113 19V 1N4114 20V 1N4115 22V 1N4116 24V 1N4117 25V 1N4118 27V 1N4119 28V 1N4120 30V 1N4121 33V 1N4122 36V 1N4123 39V 1N4124 43V 1N4125 47V 1N4126 51V 1N4127 56V 1N4128 60V 1N4129 62V 1N4130 68V 1N4131 75V 1N4132 82V 1N4133 87V 1N4134 91V 1N4135 100V1W稳压部分: 1N4727 3V0 1N4728 3V3 1N4729 3V61N4730 3V9 1N4731 4V3 1N4732 4V7 1N4733 5V11N4734 5V6 1N4735 6V2 1N4736 6V8 1N4737 7V51N4738 8V2 1N4739 9V1 1N4740 10V 1N4741 11V1N4742 12V 1N4743 13V 1N4744 15V 1N4745 16V1N4746 18V 1N4747 20V 1N4748 22V 1N4749 24V1N4750 27V 1N4751 30V 1N4752 33V 1N4753 36V1N4754 39V 1N4755 43V 1N4756 47V 1N4757 51V1N4758 56V 1N4759 62V 1N4760 68V 1N4761 75V 1N4762 82V 1N4763 91V 1N4764 100VHITACHI(日立)0.5W稳压二极管型号参数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 100mA 79L06 -6V 100mA 79L08 -8V100mA LM7805 5V 1A L7805,LM340T5LM7806 6V 1A L7806 LM7808 8V 1A L7808 LM7809 9V 1A L7809 LM781212V 1A L7812,LM340T12 LM7815 15V1A L7815,LM340T15 LM7818 18V 1A L7815 LM7824 24V 1A L7824 LM7905 -5V 1A L7905 LM7906 -6V 1A L7906,KA7906 LM7908 -8V 1A L7908LM7909 -9V 1A L7909 LM7912 -12V 1A L7912 LM7915 -15V 1A L7915 LM7918 -18V 1A L7918 LM7924 -24V 1A L7924 78L05 5V 100mA 78L06 6V 100mA78L08 8V 100ma 78L09 9V 100ma 78L1212V 100ma 78L15 15V 100ma 78L18 18V 100ma 78L24 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 1A LM1575T-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) 1A LM1575HVT-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 1A LM1575HVT-15 15V简易开关电源稳压器 1A LM1575HVT-ADJ 简易开关电源稳压器(可调1.23V~37V) 1A LM2575T-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) 1A LM2575HVT-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) 1A LM2576T-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) 3A LM2576HVT-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3A LM2576HVT-12 12V简易开关电源稳压器3A LM2576HVT-15 15V简易开关电源稳压器3A LM2576HVT-ADJ 简易开关电源稳压器(可调1.23V~37V) 3A。

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.。

集成运算放大器资料①提示：可按Ctrl+F键进行查找通用运放(130种)返回ALD1704 XALD1722 XALD2704 XALD2722 XALD4704 XAPA4558 APC558 BA10358 XBA14741 XBA4558X ELM842 AELM854x AFAN4272G1211G1212HA17301PHA17324XHA17358XHA17741XHA17747XKA1458XKA201AKA224KA248KA258KA2902KA2904KA301AKA324KA3303KA3403KA348KA358KA4558XKA5532KA741XKF347XKF351KF353KF442XKIA324XKIA358XLM258LM2904XLM358LM6142LM6144LMH6645LMH6646LMH6647LS404MAX4352MAX4353MAX4354MAX4452MAX4453MAX4454MB3614MB3615MB47358MC3405MM3002NCV2904NE5230NJM12902NJM12904NJM13403NJM13404NJM14558NJM1458NJM2058NJM2059NJM206NJM210NJM2107NJM2112NJM2115NJM2119NJM2120NJM2123NJM2125NJM2143NJM2172NJM2902NJM324NJM3403ANJM3404ANJM353NJM4558NJM4559NJM4560NJM4562NJM4565NJM458NJM4741NJM741OP02OP04OP09OP11OP14SA5230TA74358PTA75060PTA75061PTA75062XTA75064XTA75070PTA75071XTA75072XTA75074XTA75254PTA75324XTA75358XTA75458XTA75557XTA75558XTA75559XTA75902XTA75S01FTA75W01FUTLC252XTLC254XTS274XTS902TS912TS914TSH24UA741UTCM210宽频带运放(21种)返回AD840AD841BB3554 MC33071X MC33072X M C33074XMC34071XMC34072XMC34074XMC4558M X3554NJM2116NJM2136TS612TS613T S634TSH110TSH111TSH112TSH113T SH114精密运放(含低漂移、零漂移、低偏流、低偏压、低失调运放和仪器运放)(75种)返回AD70 4AD70 5AD70 6AD70 7AD70 8AD82 4AD84 5AD84 6ALD1702XALD1703ALD1712XALD2702XALD2711XALD4702XLMV301LT1006LT1013LT1014LT1152LT1250LT1884LT1885LTC1051LTC1053LTC2050XLTC2051LTC2052MAX400MAX480MM1278MM6558MXL1001MXL1013MXL1014MXL1178MXL1179NJM062NJM064NJM072XNJM074NJM082XNJM084NJM2097NJMOP-07NJU7042NJU7051NJU7052NJU7054NJU7061NJU7062NJU7064OP07-1OP07-2OP07COP-10OP-12OP-15OP-16OP-17OP177OP193OP20OP293OP493OP-80OP90OP-90OP-97PM-1012PM-155APM-156APM-157ATS27M4XTS512XUA748低电压运放(63种)返回AD8517 AD8527 AD8631 AD8632 CMC7101A CMV7101 CMV7106 DS4802 FAN4113 FAN4114 LMV921 LMV922 LMV924L MV981LT1884LT1885MAX4240MAX4241MAX4242MAX4243MAX4244MAX4289MAX4291MAX4292MAX4294MAX4464M AX4470MAX4471MAX4472MAX4474MC33501MC33502MC33503MIC7111NCS2001NCS7101NE5230NE5234NJU7001N JU7002NJU7004NJU7007NJU7008NJU7017NJU7018NJU7019NJU7021NJU7022NJU7024NJU7031NJU7032NJU7034S A5230SA5234TS1851TS1852TS1854TS1871TS1872TS1874UTCLMV358XC221A1100MRXC221A1200MR比较器(7种)返回ALD2301X ALD2302X ALD2303X ALD4302X MB4204SA58603TA75W393FU 低功率微功耗运放(90种) 返回ALD1701 XALD1706 XALD1721 XALD1726 XALD2701 XALD2706 XALD2721 XALD2726 XALD4701 X ALD4706XCMC7106CMV1010CMV1016CMV1020CMV1026CMV1030CMV1036ELM832ALM124LM158LM158xLM224-1LM224-2LM258-1LM258-2LM258xLM2902LM2902XLM2904-1LM2904-2LM2904XLM324X-1LM324X-2LM358LM358x-1LM358x-2LMC6442LMH6642LMH6643LMH6644MAX433MAX4331MAX4332MAX4333MAX4334MC3303MC33171MC33172MC3403MC3503MC35171MC35172MCP606MCP607MCP608MCP609MIC861MIC91MIC911MIC912MIC913MIC914MIC915MIC916MIC918MIC919NCV2902NCV2904NE532NJM022NJM022BNJM213NJU7011NJU7012NJU7013NJU7014NJU7015NJU7016NJU7091ANJU7092ANJU7093ANJU7094NJU7095NJU7096SA532SA534SE532TS931TS932TS934低噪声运放(45种)返回HA-5127XHA-5137HA-5137AHA-5147HS-5104ARH HS-5104ARH-T KIA4558XKIA4559XLM381X L M387XLM833LMH6654LMH6655LT1792LT1793MC33077MC33078MC33079-1M C33079-2MXL1007NE5532X-1NE5532X-2NE5534X-1NE5534X-2NJM2041NJM2043NJM2068N JM2114NJM2122NJM5532NJM5534OP113OP213OP27OP37OP413R F2304RF2314SA5534XSE5532XSE5534X-1SE5534X-2TC7652TS522TS524高速运放(29种) 返回AD711A D848B A15532X N JM2716T LV2781XAD712 AD713 AD843 AD844 AD847AD849ALD1502ALD2502ALD4501BA15218XBA4510XBA4560XFAN4230NJM2121NJM2710NJM318TL3X071XTL3X072XTL3X074XTLV2780XTLV2782XTLV2783XTLV2784XTLV2785X低失真运放(5种)返回INA103I NA163L T1115L T1806L T1807高输出电流高驱动能力运放(12种) 返回A D842 LMH6672 MAX4230M AX4231MAX4232MAX4233M AX4234MC33076NJM3414AN JM4556AOP176OP279可编程运放(5种)返回LC7972X L T1167T LC251X T S271X T S652其他特殊运放(18种)返回B A10324X BA3131FS CA3160X ICL7650X ICL7652X I CL7653XLM10LM201ALM301ALT1794M AX420MAX421MAX422MAX423MM1462XN JM13600NJM13700NJM2140第二部分模拟电路实验实验2.9 集成运算放大器的测试[要点提示]一、实验目的二、实验预习要求三、实验原理四、实验仪器设备五、练习内容及方法六、实验报告[内容简介]一、实验目的掌握集成运算放大器主要参数的测试方法。

铝合金ha7化学成分全文共四篇示例，供读者参考第一篇示例：铝合金HA7是一种高性能铝合金材料，具有优异的力学性能和耐腐蚀性能。

其化学成分主要包括铝、镁、锌、铜等元素。

铝作为基础元素，具有轻便、耐腐蚀、导电性能良好等特点，而镁、锌、铜等合金元素则能够提高材料的强度和硬度。

铝合金HA7的铝含量一般达到90%以上，是其主要成分。

铝是一种轻金属，密度小、耐腐蚀、具有优良的导热和导电性能，所以铝合金HA7材料具有较轻的重量和良好的耐腐蚀性能。

镁是铝合金HA7中的重要合金元素之一。

镁的添加能够有效提高合金的强度和硬度，同时还能提高合金的耐热性能。

锌是铝合金HA7中的另一种常见合金元素。

锌的加入能够有效提高合金的强度和耐腐蚀性能，同时还具有一定的硬化作用。

铜也是铝合金HA7中的常见合金元素之一。

铜能够有效增加合金的强度和硬度，同时还能提高铝合金的耐热性。

铝合金HA7是一种优质的铝合金材料，具有良好的力学性能和耐腐蚀性能。

其化学成分包括铝、镁、锌、铜等元素，使其具有较高的强度和硬度。

在工程领域中，铝合金HA7被广泛应用于航空航天、汽车制造、建筑工程等领域。

随着科技的不断发展，铝合金HA7将会更加广泛地应用于各个领域，为人们的生活和工作提供更好的支持和保障。

第二篇示例：铝合金是一种重要的工业材料，具有优异的性能和广泛的应用领域。

铝合金HA7是一种常见的铝合金材料，其化学成分对其性能和用途有着重要影响。

本文将从铝合金HA7的化学成分、性能特点、应用领域等方面进行详细介绍。

铝合金HA7的化学成分通常包括铝、锰、镁、铜、矽和锆等元素。

铝是铝合金的基本成分，占比最大，通常在85%以上。

锰主要用于增强硬度和强度，一般含量在0.5%~1.2%之间。

镁是一种常见的合金元素，可提高铝合金的强度和耐热性，含量一般在0.3%~0.9%之间。

铜和矽主要用于提高合金的强度和耐腐蚀性能，含量分别在0.1%~0.5%和0.2%~0.8%之间。

SAE Technical Standards Board Rules provide that: “This report is published by SAE to advance the state of technical and engineering sciences. The use of this report is entirely voluntary, and its applicability and suitability for any particular use, including any patent infringement arising therefrom, is the sole responsibility of the user.”SAE reviews each technical report at least every five years at which time it may be reaffirmed, revised, or cancelled. SAE invites your written comments and suggestions.Copyright 2002 Society of Automotive Engineers, Inc.All rights reserved.Printed in U.S.A.TO PLACE A DOCUMENT ORDER: (724) 776-4970 FAX: (724) 776-0790 SAE WEB ADDRESS: 400 Commonwealth Drive, Warrendale, PA 15096-0001AEROSPACE STANDARD AS5127REV.AIssued1997-05Revised 2002-03Superseding AS5127Methods for Testing Aerospace SealantsTABLE OF CONTENTS1.SCOPE (3)1.1Form.............................................................................................................................................31.2Application....................................................................................................................................31.3Safety – Hazardous Materials (3)2.APPLICABLE DOCUMENTS (3)2.1SAE Publications..........................................................................................................................32.2ASTM Publications.......................................................................................................................42.3U.S. Government Publications.....................................................................................................52.4NAS Publications . (5)3.STANDARD TOLERANCES (5)3.1Standard Tolerances (5)4.STANDARD TEST CONDITIONS (6)4.1Test Conditions (6)5.STANDARD HEAT CYCLES (6)5.1Standard Heat Cycle (6)6.PREPARATION OF TEST SPECIMENS............................................................................................66.1Chemical Conversion Coating Application...................................................................................66.1.1Preparation of Aluminum Panel Test Surfaces.............................................................................66.1.2Chemical Conversion Coating......................................................................................................6--`-`-`,,`,,`,`,,`---SAE AS5127 Revision ATABLE OF CONTENTS (Continued)6.2Organic Coatings (7)6.2.1Polyurethane Fuel Tank Coating (7)6.2.2High Solids Fuel Tank Primer (8)6.2.3High Solids Polyurethane Coating (8)6.2.4VOC Compliant Epoxy Primer Coating (9)6.3Preparation of AMS 5511 and AMS 5516 Stainless Steel Panel Test Surfaces (9)6.4Preparation of AMS 4901 and AMS 4911 Titanium Panel Test Surfaces (9)6.5Preparation of Organic Composite Test Surfaces (9)6.5.1Cleaning of AS4/3501-6, IM7/5250-4 and Other Composite Surfaces (10)6.6Preparation of Aircraft Transparent Surfaces (10)6.7Application of Adhesion Promoter (10)6.8Application of Sealing Compounds (10)6.9Curing of Sealing Compounds (11)7.STANDARD TEST FLUIDS (11)7.1Jet Reference Test Fluid (11)7.2Petroleum Base Hydraulic Fluid (11)7.3Engine Oil (11)8.TEST METHODS (11)8.1Specific Test Methods................................................................................................................11--` -` -` , , ` , , ` , ` , , ` -----`-`-`,,`,,`,`,,`---SAE AS5127 Revision A1. SCOPE:1.1Form:This standard describes the accepted methods used for testing aerospace sealants for qualification and for quality conformance or acceptance testing.1.2Application:This standard is intended to be used with AMS specifications or other materials specifications which govern the procurement of aerospace sealants.NOTE:All test procedures and associated test materials designated in this standard were adopted from current military and consensus material specifications for sealing compounds. Cross-references for equivalent test materials may be obtained using documents such as the SAEAMS Index or the ASTM Metals & Alloys in the Unified Numbering Systems referencemanuals.1.3Safety - Hazardous Materials:While the materials, methods, applications, and processes described or referenced in this standard may involve the use of hazardous materials, this standard does not address the hazards which may be involved in such use. It is the sole responsibility of the user to ensure familiarity with the safe and proper use of any hazardous materials and to take necessary precautionary measures to ensure the health and safety of all personnel involved.2.APPLICABLE DOCUMENTS:The issue of the following documents in effect on the date of the purchase order form a part of this standard to the extent specified herein. The supplier may work to a subsequent revision of a document unless a specific document issue is specified. When the referenced document has been cancelled and no superceding document has been specified, the last published issue of that document shall apply. In the event of conflict between the text of this document and references cited herein, the text of this document takes precedence. Nothing in this document, however, supersedes applicable laws and regulations unless a specific exemption has been obtained.2.1SAE Publications:Available from SAE, 400 Commonwealth Drive, Warrendale, PA 15096-0001.AMS 1640Corrosion Removing Compound, For Aircraft SurfacesAMS 2471Anodic Treatment of Aluminum Alloy, Sulfuric Acid Process, Undyed Coating AMS 2629Fluid, Jet ReferenceAMS 3020Oil, Reference, for "L" Stock Rubber TestingAMS 3021Fluid, Reference, for Testing Di-Ester (polyol) Resistant Material2.1 (Continued):AMS 3100Adhesion Promoter for Polysulfide Sealing CompoundsAMS 3166Solvents, Cleaning, Cleaning Prior to Application of Sealing CompoundsAMS 3803Wipes, Cotton, Loosely WovenAMS 3819Cloths, Cleaning, for Aircraft Primary and Secondary Structural SurfacesAMS 4037Aluminum Alloy Sheet and Plate, 4.4Cu 1.5Mg 0.60Mn, (2024; -T3 Flat Sheet,-T351 Plate) Solution Heat TreatedAMS 4045Aluminum Alloy Sheet and Plate, 5.6Zn - 2.5Mg - 1.6Cu - 0.23Cr, (7075; -T6Sheet, -T651 Plate), Solution and Precipitation Heat Treated AMS 4377Magnesium Alloy, Sheet and Plate, 3.0 Al 1.0 Zn 0.20 Mn, Cold Rolled, Partially AnnealedAMS 4049Aluminum Alloy Sheet and Plate, Alclad, 5.6Zn - 2.5Mg - 1.6Cu - 0.23Cr,(Alclad 7075-T6 Sheet, -T651 Plate), Solution and Precipitation Heat Treated AMS 4901Titanium Sheet, Strip and Plate, Commercially Pure, Annealed, 70.0 ksi (485MPa)AMS 4911Titanium Alloy Strip, Sheet and Plate, 6Al 4V, AnnealedAMS 5511Steel, Corrosion Resistant, Sheet, Strip, and Plate, 19Cr - 9.5Ni (407L),Solution Heat TreatedAMS 5516Steel, Corrosion Resistant, Sheet, Strip, and Plate, 18Cr - 9.0Ni (SAE 30302),Solution Heat TreatedAMS-C-27725Coating, Corrosion Preventive, for Aircraft Integral Fuel TanksAMS-G-25667Glass, Monolithic, Aircraft GlazingAMS-P-83310Plastic Sheet, Polycarbonate, TransparentAMS-QQ-A-250/4Aluminum Alloy 2024, Plate and SheetAIR4069Sealing Integral Fuel TanksAS4491Plastic Disposable Cartridge, Plunger, Nozzles, and Cartridge Assembly2.2ASTM Publications:Available from ASTM, 100 Barr Harbor, West Conshohocken, PA 19428-2959.ASTM B 117Operating Salt Spray (Fog) ApparatusASTM D 329Acetone, Spec. forASTM D 412Vulcanized Rubber and Thermoplastic Rubbers and Thermoplastic Elastomers - TensionASTM D 740Methyl Ethyl KetoneASTM D 792Specific Gravity (Relative Density) and Density of Plastics by Displacement ASTM D 836Industrial Grade Benzene, Spec. forASTM D 1007Secondary Butyl Alcohol, Spec forASTM D 1125Tests for Electrical Conductivity and Resistivity of WaterASTM D 1475Density of Paint, Varnish, Lacquer, and Related ProductsASTM D 2240Rubber Property - Durometer HardnessASTM D 4976Polyethylene Plastics and Extrusion MaterialsASTM E 1742Radiographic Inspection --` -` -` , , ` , , ` , ` , , ` ---2.3U.S. Government Publications:Available from DODSSP, Subscription Services Desk, Building 4D, 700 Robbins Avenue,Philadelphia, PA 19111-5094.A-A-55820Class1 Orthophosphoric (Phosphoric) Acid, TechnicalA-A-58054Abrasive Mats, Non-woven, Non-metallicA-A-59281 Cleaning Compound, Solvent MixturesPPP-C-96 Cans, Metal, 28 Gage and LighterTT-I-735 IsopropylAlcoholMIL-DTL-81706Chemical Conversion Materials for Coating Aluminum and Aluminum Alloys MIL-PRF-5425 Plastic Sheet, Acrylic, Heat ResistantMIL-PRF-23377Primer Coatings, Epoxy Polyamide, Chemical and Solvent ResistantMIL-PRF-25690Plastic, Sheets and Parts, Modified, Acrylic Base, Monolithic, Crack Propagation ResistantMIL-PRF-85285Coating, Polyurethane, High Solids, for Aerospace ApplicationsMIL-PRF-85582Primer Coatings: Epoxy, VOC Compliant, Chemical and Solvent ResistantMIL-PRF-87937Cleaning Compound, Aerospace EquipmentMIL-S-38714Sealant Cartridge for Two Component Materials2.4 NAS Publications:Available from Aerospace Industries Association, Inc., 1250 Eye Street NW, Washington, DC 33126.NAS 679 Nut, Self-locking, Hexagon - Low HeightNAS 1154Screw, Machine - Flat, 100 Degrees Head, Close Tolerance, Short Thread, Torque SetNASM7839 Screws Structural, Aircraft3. STANDARD TOLERANCES:3.1Standard Tolerances:Unless otherwise specified, standard tolerances shown in Table 1 shall apply:TABLE 1 - Standard TolerancesMeasurement Units ToleranceTemperature±2 °F (±1 °C)Day±2 hoursHour±5 minutesMinute±10 secondsInches (mm)±0.010 inch (±0.20 mm)--` -` -` , , ` , , ` , ` , , ` ---4. STANDARD TEST CONDITIONS:4.1Test Conditions:Standard laboratory test conditions shall be 77 °F (25 °C) and 50% ± 5% relative humidity. Except as otherwise stated, all test specimens shall be prepared and cured at these conditions and all tests shall be performed at 77 °F ± 5 °F and 50% ± 10% RH.5. STANDARD HEAT CYCLES:5.1Standard Heat Cycle:Heat cycles to which sealants shall be environmentally exposed prior to testing shall be identified in each material specification.6. PREPARATION OF TEST SPECIMENS:6.1Chemical Conversion Coating Application:6.1.1Preparation of Aluminum Panel Test Surfaces:Aluminum panel test surfaces, both bare (AMS4037 and AMS 4045) and Alclad (AMS 4049) shall be cleaned by flooding the surface with clean solvent conforming to AMS 3166 or A-A-59281 followed by scrubbing with clean AMS 3819 GradeA cloth wipes. After scrubbing, the panel surface shall again be flooded with solvent, thenimmediately wiped dry using clean, dry AMS 3819 Grade A wipes. DO NOT allow solvent toevaporate from surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.1.2Chemical Conversion Coating:When aluminum panel test surfaces require chemical conversioncoating, MIL-DTL-81706, Class 1A, Form 11, Method C shall be followed. The chemical conversion coating shall be prepared according to the manufacturer’s instructions.6.1.2.1Panel Preparation:Degrease aluminum test panels using a suitable organic solvent, followed byalkaline detergent cleaning using MIL-C-87937 Type I material or an equivalent commerciallyavailable alkaline cleaner. The cleaning may be accomplished by brushing, swabbing or soaking the panels in the detergent solution or by a combination of the above techniques. Rinse thecleaned panels in warm flowing tap water 60 to 100 °F (16 to 38 °C), and check for cleanliness by observing for a waterbreak free surface. If a waterbreak occurs on the panel surfaces, returnthem to the detergent solution and repeat the cleaning procedure until a waterbreak free surface is obtained. Immediately transfer the cleaned panels to a deoxidizing solution consisting of thefollowing:a.Butyl alcohol - 35% by weight (ASTM D 1007)b.Distilled or deionized water - 22% by weight (ASTM D 1125)c.Isopropol alcohol - 25% by weight (TT-I-735)d.H3PO4 (85% by weight) - 18% by weight (A-A-55820)Acid deoxidizer conforming to AMS 1640 may also be used. Allow the panels to remain in theabove solution for 3 to 5 minutes. Rinse the panels thoroughly under flowing tap water.6.1.2.2Coating Application (Immersion):Transfer the deoxidized panels immediately to the chemicalconversion coating solution conforming to MIL-DTL-81706. Immerse the panels in the solution at standard temperature for 3 to 5 minutes or until a light straw color develops. (Color development time will vary with the aluminum alloy being conversion coated). After removal from theconversion coating solution, immediately rinse thoroughly in flowing distilled or deionized water.Arrange the panels in an upright position to permit them to drain dry. Apply the test materials to the conversion coated surfaces within 48 hours.NOTE:Mix the conversion coating solution in either 18-8 stainless steel, polyethylene or other compatible plastic containers. DO NOT MIX IN GLASS CONTAINERS.--`-`-`,,`,,`,`,,`---6.2Organic Coatings:When organic coatings are specified for panel test surfaces, the coatings shall be fully cured as defined by the applicable coating specification. The applied coatings shall be at least 14 days old and not more than six months old when stored at ambient indoor temperatures.6.2.1Polyurethane Fuel Tank Coating:Bare aluminum (AMS 4045) test panels shall be sulfuric acidanodized in accordance with AMS 2471. One surface of the anodized aluminum panels shall then be coated with polyurethane according to AMS-C-27725.NOTE:When organic coatings are specified for the test panels, the coatings shall be fully cured as defined by the applicable coating specification before cleaning.6.2.1.1Cleaning of AMS-C-27725 Surface for Sealing:The AMS-C-27725 test surface shall be cleanedby flooding the surface with clean solvent conforming to AMS 3166 or A-A-59281 followed byscrubbing with clean AMS 3819 Grade A cloth wipes. After scrubbing, the test surface shall again be flooded with solvent, then immediately wiped dry using clean, dry AMS 3819 Grade A wipes.DO NOT allow solvent to evaporate from the surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.2.2High Solids Fuel Tank Primer:Bare aluminum (AMS 4045) test panels shall be sulfuric acidanodized in accordance with AMS 2471. One surface of the anodized aluminum panels shall then be primed with epoxy primer according to MIL-PRF-23377.NOTE:When organic coatings are specified for the test panels, the coatings shall be fully cured as defined by the applicable coating specification before cleaning.6.2.2.1Cleaning of MIL-PRF-23377 Surface for Sealing:The MIL-PRF-23377 test surface shall becleaned by flooding the surface with clean solvent conforming to AMS 3166 or A-A-59281 --`-`-`,,`,,`,`,,`---followed by scrubbing with clean AMS 3819 Grade A cloth wipes. After scrubbing, the testsurface shall again be flooded with solvent, then immediately wiped dry using clean, dry AMS3819 Grade A wipes. DO NOT allow the solvent to evaporate from the surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.2.3High Solids Polyurethane Coating:The primed surfaces of aluminum test panels prepared inaccordance with 6.2.2 shall be coated according to the requirements of MIL-PRF-85285.NOTE:When organic coatings are specified for the test panels, the coatings shall be fully cured as defined by the applicable coating specification.6.2.3.1Cleaning of MIL-PRF-85285 Surface for Sealing:The MIL-PRF-85285 test surface shall becleaned by flooding the surface with clean solvent conforming to AMS 3166 or A-A-59281followed by scrubbing with clean AMS 3819 Grade A cloth wipes. After scrubbing, the testsurface shall again be flooded with solvent, then immediately wiped dry using clean, dry AMS3819 Grade A wipes. DO NOT allow the solvent to evaporate from the surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.2.4VOC Compliant Epoxy Primer Coating:Bare aluminum (AMS 4045) test panels shall be sulfuricacid anodized in accordance with AMS 2471. One surface of the anodized aluminum panels shall then be coated with VOC compliant epoxy primer according to MIL-PRF-85582.NOTE:When organic coatings are specified for the test panels, the coatings shall be fully cured as defined by the applicable coating specification.6.2.4.1Cleaning of MIL-PRF-85582 Surface for Sealing:The MIL-PRF-85582 test surface shallbecleaned by flooding the surface with clean solvent conforming to AMS 3166 or A-A-59281followed by scrubbing with clean AMS 3819 Grade A cloth wipes. After scrubbing, the testsurface shall again be flooded with solvent, then immediately wiped dry using clean AMS 3819Grade A wipes. DO NOT allow solvent to evaporate from the surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.3Preparation of AMS 5511 and AMS 5516 Stainless Steel Panel Test Surfaces:Corrosion resistant steel (e.g. AMS 5516) test surfaces shall be cleaned by flooding the surface to be cleaned with clean solvent conforming to AMS 3166 or A-A-59281 followed by scrubbing using A-A---`-`-`,,`,,`,`,,`---58054, Type I, Class 1 nylon, aluminum oxide abrasive mats. After scrubbing, the panel surface shall be rinsed and flooded with solvent and immediately wiped dry using clean, dry AMS 3819 Grade A cloth wipes. DO NOT allow solvent to evaporate from the cleaned surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.4Preparation of AMS 4901 and AMS 4911 Titanium Panel Test Surfaces:Commercially pure titanium (e.g. AMS 4901) and AMS 4911 titanium test surfaces shall be cleaned by flooding the side to be cleaned with clean solvent conforming to A-A-59281 followed by scrubbing using A-A-58054, Type III, Class 1, Grade A nylon, silicon carbide abrasive mats. After scrubbing, the panel surface shall be rinsed and flooded with solvent, then immediately wiped dry using clean, dry AMS 3819 Grade A cloth wipes. DO NOT allow solvent to evaporate from the cleaned surface.NOTE:Panel cleaning shall be accomplished just prior to application of sealing compound.6.5Preparation of Organic Composite Test Surfaces:Graphite/epoxy (AS4/3501-6), Graphite/Bismaleimide (IM7/5250-4), and other designated composite materials shall have a quasi-isotropic laminated construction. Eight plies of uni-directional tape shall be prepared in a [(0°, 45°, 90°, 135°)] symmetrical layup to provide a finished laminate thickness of0.040 inch (1.02 mm). A peel ply (nylon is acceptable) shall be applied to one surface for thecomposite curing process.6.5 (Continued):For fabrication of AS4/3501-6 graphite/epoxy laminates, the following autoclave cure cycle shall be maintained;Apply a minimum vacuum of 28 inches (711 mm) of Mercury and a minimum pressure of 85 psig (587 KPa). Heat to 225 °F (107 °C) at a rate of 2 to 4 °F (1 to 2 °C) per minute. Hold at 225 °F(107 °C) for one hour. Heat to 350 °F (177 °C) at 2 to 4 °F (1 to 2 °C) per minute. Hold at 350 °F (177°C) for two hours. Cool to 150 °F (66 °C). Release pressure and vacuum. Remove peel ply.The cured composites can be machined to the required test panel dimensions.6.5.1Cleaning of AS4/3501-6, IM7/5250-4 and Other Composite Surfaces:Composite panel testsurfaces (peel ply or tool side) shall be cleaned by flooding the surface to be cleaned with clean solvent conforming to AMS 3166 or A-A-59281 followed immediately by scrubbing using A-A-58054, Type I, Class I nylon, aluminum oxide abrasive mats. After scrubbing, the panel test surface shall be rinsed and flooded with solvent, then immediately wiped dry using clean AMS 3819 GradeA cloth wipes. DO NOT allow the solvent to evaporate from the surface.NOTE:Panel cleaning should be accomplished just prior to application of sealing compound.6.6Preparation of Aircraft Transparent Surfaces:Aircraft transparencies (MIL-PRF-5425, AMS-G-25667, MIL-PRF-25690 and AMS-P-83310) shall be cleaned by flooding the test surface with a 50% solution of isopropyl alcohol (TT-I-735) and water, followed by scrubbing with clean AMS 3803 cloth wipes which are free of sizing or any othercontaminants. After scrubbing, the test surface shall again be flooded with clean50% solution and immediately wiped dry using clean AMS 3803 cloth wipes.6.7Application of Adhesion Promoter:When adhesion promoter is required for testing of sealing compounds, panel test surfaces shall be treated with adhesion promoter conforming to AMS 3100 or with the manufacturer's recommended adhesion promoter. This shall be done immediately after the panel is cleaned and by wetting a clean AMS 3819 Grade A cloth with adhesion promoter and wiping the surface. Allow adhesion promoter to air dry at least 30 minutes, but no more than 2 hours, before applying the sealant. If more than 2 hours has elapsed, reclean and reapply the adhesion promoter before applying the sealant.6.8Application of Sealing Compounds:Sealing compounds shall be mixed and applied to required test panel surfaces according to the procedures provided in the AS5127 slash sheets.SAE AS5127 Revision A- 11 -6.9Curing of Sealing Compounds:Sealing compound shall be fully cured at standard conditions according to 4.1, for the time specified in the material specification for the sealing compound under test. Testing of the cured sealing compound shall commence not more than 2 days after the completion of the specified cure.NOTE:Sealing compounds have different classes and different application times such as ClassA-1/6 or Class B-2. Class C sealants contain both application time and assembly timedesignations (Class C-48/168). These sealing compounds may have special requirementsconcerning standard curing times or accelerated cure conditions, which shall be defined inthe material specification for the sealing compound under test.7.STANDARD TEST FLUIDS:7.1Jet Reference Test Fluid:The jet reference fluid (JRF) required for conducting fluid immersion tests shall conform to AMS2629. AMS 2629 Type I fluid shall be used for all tests requiring jet reference fluid immersions except chalking; AMS 2629 Type II fluid shall be used for sealing compound chalking evaluations.7.2Petroleum Base Hydraulic Fluid:The hydraulic fluid required for conducting hydraulic fluid immersion tests shall conform to AMS 3020 (ARM 201).7.3Engine Oil:The engine oil required for conducting oil immersion tests shall conform to AMS 3021 (ARM 200).8.TEST METHODS:8.1Specific Test Methods:Test methods specific to type of sealing compound are contained in AS5127 slash sheets.PREPARED UNDER THE JURISDICTION OF AMS COMMITTEE "G-9"Copyright SAE InternationalProvided by IHS under license with SAENot for Resale No reproduction or networking permitted without license from IHS --`-`-`,,`,,`,`,,`---。

T I常用运放芯片型号集团标准化小组：[VVOPPT-JOPP28-JPPTL98-LOPPNN]C A3130?高输入阻抗运算放大器?I n t e r s i l[D A T A] C A3140?高输入阻抗运算放大器C D4573?四可编程运算放大器?M C1457 3 I C L7650?斩波稳零放大器L F347(N S[D A T A])?带宽四运算放大器?K A347 L F351?B I-FE T单运算放大器?N S[D A T A] L F353?B I-F E T双运算放大器?N S[D A T A] L F356?B I-F E T单运算放大器?N S[D A T A] L F357?B I-F E T单运算放大器?N S[D A T A] L F398?采样保持放大器?N S[D A T A] L F411?B I-F E T单运算放大器?N S[D A T A] L F412?B I-F E T双运放大器?N S[D A T A] L M124?低功耗四运算放大器(军用档)?N S[D A T A]/T I[D A T A] L M1458?双运算放大器?N S[D A T A] L M148?四运算放大器?N S[D A T A] L M224J?低功耗四运算放大器(工业档)?N S[D A T A]/T I[D A T A] L M2902?四运算放大器?N S[D A T A]/T I[D A T A] L M2904?双运放大器?N S[D A T A]/T I[D A T A]L M301?运算放大器?N S[D A T A] L M308?运算放大器?N S[D A T A] L M308H?运算放大器（金属封装）?N S[D A T A] L M318?高速运算放大器?N S[D A T A] L M324(N S[D A T A])?四运算放大器?H A17324,/L M324N(T I) L M348?四运算放大器?N S[D A T A] L M358?N S[D A T A]?通用型双运算放大器?H A17358/L M358P(T I) L M380?音频功率放大器?N S[D A T A] L M386-1?N S[D A T A]?音频放大器?N J M386D,U T C38 6 L M386-3?音频放大器?N S[D A T A] L M386-4?音频放大器?N S[D A T A] L M3886?音频大功率放大器?N S[D A T A] L M3900?四运算放大器L M725?高精度运算放大器?N S[D A T A] L M733?带宽运算放大器L M741?N S[D A T A]?通用型运算放大器?H A1774 1 M C34119?小功率音频放大器N E5532?高速低噪声双运算放大器?T I[D A T A]N E5534?高速低噪声单运算放大器?T I[D A T A] N E592?视频放大器O P07-C P?精密运算放大器?T I[D A T A] O P07-D P?精密运算放大器?T I[D A T A] T B A820M?小功率音频放大器?S T[D A T A] T L061?B I-F E T单运算放大器?T I[D A T A] T L062?B I-F E T双运算放大器?T I[D A T A] T L064?B I-F E T四运算放大器?T I[D A T A] T L072?B I-F E T双运算放大器?T I[D A T A] T L074?B I-F E T四运算放大器?T I[D A T A] T L081?B I-F E T单运算放大器?T I[D A T A] T L082?B I-F E T双运算放大器?T I[D A T A] T L084?B I-F E T四运算放大器?T I[D A T A] A D824?J F E T输入,单电源,低电压,低功耗,精密四运算放大器?M C33171?单电源,低电压,低功耗运算放大器A D826?低功耗,宽带,高速双运算放大器?M C33172?单电源,低电压,低功耗双运算放大器A D827?低功耗,高速双运算放大器?M C33174?单电源,低电压,低功耗四运算放大器A D828?低功耗,宽带,高速双运算放大器?M C33178?大电流,低功耗,低噪音双运算放大器A D844?电流反馈型,宽带,高速运算放大器?M C33179?大电流,低功耗,低噪音四运算放大器A D846?电流反馈型,高速,精密运算放大器?M C33181?J F E T输入,低功耗运算放大器A D847?低功耗,高速运算放大器?M C33182?J F E T输入,低功耗双运算放大器A D8531?C O M S单电源,低功耗,高速运算放大器?M C33184?J F E T输入,低功耗四运算放大器A D8532?C O M S单电源,低功耗,高速双运算放大器?M C33201?单电源,大电流,低电压运算放大器A D8534?C O M S单电源,低功耗,高速四运算放大器?M C33202?单电源,大电流,低电压双运算放大器A D9617?低失真，电流反馈型,宽带,高速,精密运算放大器?M C33204?单电源,大电流,低电压四运算放大器A D9631?低失真，宽带,高速运算放大器?M C33272?单电源,低电压,高速双运算放大器A D9632?低失真，宽带,高速运算放大器?M C33274?单电源,低电压,高速四运算放大器A N6550?低电压双运算放大器?M C33282?J F E T输入,宽带,高速双运算放大器A N6567?大电流,单电源双运算放大器?M C33284?J F E T输入,宽带,高速四运算放大器A N6568?大电流,单电源双运算放大器?M C33502?B I M O S,单电源,大电流,低电压,双运算放大器B A718?单电源,低功耗双运算放大器?M C34071A?单电源,高速运算放大器B A728?单电源,低功耗双运算放大器?M C34072A?单电源,高速双运算放大器C A5160?B I M O S,单电源,低功耗运算放大器?M C34074A?单电源,高速四运算放大器C A5260?B I M O S,单电源双运算放大器?M C34081?J F E T输入,宽带,高速运算放大器C A5420?B I M O S,单电源,低电压,低功耗运算放大器?M C34082?J F E T输入,宽带,高速双运算放大器C A5470?B I M O S单电源四运算放大器?M C34084?J F E T输入,宽带,高速四运算放大器C L C400?电流反馈型,宽带,高速运算放大器?M C34181?J F E T输入,低功耗运算放大器C L C406?电流反馈型,低功耗,宽带,高速运算放大器?M C34182?J F E T输入,低功耗双运算放大器C L C410?电流反馈型,高速运算放大器?M C34184?J F E T输入,低功耗四运算放大器C L C415?电流反馈型,宽带,高速四运算放大器?M C35071A?单电源,高速运算放大器C L C449?电流反馈型,宽带,高速运算放大器?M C35072A?单电源,高速双运算放大器C L C450?电流反馈型,单电源,低功耗,宽带,高速运算放大器?M C35074A?单电源,高速四运算放大器C L C452?单电源,电流反馈型,大电流,低功耗,宽带,高速运算放大器?M C35081?J F E T输入,宽带,高速运算放大器C L C505?电流反馈型,高速运算放大器?M C35082?J F E T输入,宽带,高速双运算放大器E L2030?电流反馈型,宽带,高速运算放大器?M C35084?J F E T输入,宽带,高速四运算放大器E L2030C?电流反馈型,宽带,高速运算放大器?M C35171?单电源,低电压,低功耗运算放大器E L2044C?单电源,低功耗,高速运算放大器?M C35172?单电源,低电压,低功耗双运算放大器E L2070?电流反馈型,宽带,高速运算放大器?M C35174?单电源,低电压,低功耗四运算放大器E L2070C?电流反馈型,宽带,高速运算放大器?M C35181?J F E T输入,低功耗运算放大器E L2071C?电流反馈型,宽带,高速运算放大器?M C35182?JF E T输入,低功耗双运算放大器E L2073?宽带,高速运算放大器?M C35184?J F E T输入,低功耗四运算放大器E L2073C?宽带,高速运算放大器?M M6558?低电压,低失调电压,精密双运算放大器E L2130C?电流反馈型,宽带,高速运算放大器?M M6559?低电压,低失调电压,精密双运算放大器E L2150C?单电源,宽带,高速运算放大器?M M6560?低电压,低失调电压,精密双运算放大器E L2160C?电流反馈型,宽带,高速运算放大器?M M6561?低功耗,低电压,低失调电压,精密双运算放大器E L2165C?电流反馈型,宽带,高速,精密运算放大器?M M6564?单电源,低电压,低功耗,低失调电压,精密双运算放大器E L2170C?单电源,电流反馈型,低功耗,宽带,高速运算放大器?M M6572?低噪音,低电压,低失调电压,精密双运算放大器E L2175C?电流反馈型,宽带,高速,精密运算放大器?N E5230?单电源,低电压运算放大器E L2180C?单电源,电流反馈型,低功耗,宽带,高速运算放大器?N E5512?通用双运算放大器E L2224?宽带,高速双运算放大器?N E5514?通用四运算放大器E L2224C?宽带,高速双运算放大器?N E5532?低噪音,高速双运算放大器E L2232?电流反馈型,宽带,高速双运算放大器?N E5534?低噪音,高速运算放大器E L2232C?电流反馈型,宽带,高速双运算放大器?N J M2059?通用四运算放大器E L2250C?单电源,宽带,高速双运算放大器?N J M2082?J F E T输入,高速双运算放大器E L2260C?电流反馈型,宽带,高速双运算放大器?N J M2107?低电压,通用运算放大器E L2270C?单电源,电流反馈型,低功耗,宽带,高速双运算放大器?N J M2112?低电压,通用四运算放大器E L2280C?单电源,电流反馈型,低功耗,宽带,高速双运算放大器?N J M2114?低噪音双运算放大器E L2424?宽带,高速四运算放大器?N J M2115?低电压,通用双运算放大器E L2424C?宽带,高速四运算放大器?N J M2119?单电源,精密双运算放大器E L2444C?单电源,低功耗,高速四运算放大器?N J M2122?低电压,低噪音双运算放大器E L2450C?单电源,宽带,高速四运算放大器?N J M2130F?低功耗运算放大器E L2460C?电流反馈型,宽带,高速四运算放大器?N J M2132?单电源,低电压,低功耗双运算放大器E L2470C?单电源,电流反馈型,低功耗,宽带,高速四运算放大器?N J M2136?低电压,低功耗,宽带,高速运算放大器E L2480C?单电源,电流反馈型,低功耗,宽带,高速四运算放大器?N J M2137?低电压,低功耗,宽带,高速双运算放大器H A-2640?高耐压运算放大器?N J M2138?低电压,低功耗,宽带,高速四运算放大器H A-2645?高耐压运算放大器?N J M2140?低电压双运算放大器H A-2839?宽带,高速运算放大器?N J M2141?大电流,低电压双运算放大器H A-2840?宽带,高速运算放大器?N J M2147?高耐压,低功耗双运算放大器H A-2841?宽带,高速运算放大器?N J M2162?J F E T输入,低功耗,高速双运算放大器H A-2842?宽带,高速运算放大器?N J M2164?J F E T输入,低功耗,高速四运算放大器H A-4741?通用四运算放大器?N J M3404A?单电源,通用双运算放大器H A-5020?电流反馈型,宽带,高速运算放大器?N J M3414?单电源,大电流双运算放大器H A-5127?低噪音,低失调电压,精密运算放大器?N J M3415?单电源,大电流双运算放大器H A-5134?低失调电压,精密四运算放大器?N J M3416?单电源,大电流双运算放大器H A-5137?低噪音,低失调电压,高速,精密运算放大器?N J M4556A?大电流双运算放大器H A-5142?单电源,低功耗双运算放大器?N J M4580?低噪音双运算放大器H A-5144?单电源,低功耗四运算放大器?N J U7051?C M O S单电源,低功耗,低电压,低失调电压运算放大器H A-5177?低失调电压,精密运算放大器?N J U7052?C M O S单电源,低功耗,低电压,低失调电压双运算放大器H A-5221?低噪音,精密运算放大器?N J U7054?C M O S单电源,低功耗,低电压,低失调电压四运算放大器H A-5222?低噪音,精密双运算放大器?N J U7061?C M O S单电源,低功耗,低电压,低失调电压运算放大器H A-7712?B I M O S,单电源,低功耗,精密运算放大器?N J U7062?C M O S单电源,低功耗,低电压,低失调电压双运算放大器H A-7713?B I M O S,单电源,低功耗,精密运算放大器?N J U7064?C M O S单电源,低功耗,低电压,低失调电压四运算放大器H A16118?C M O S单电源,低电压,低功耗双运算放大器?N J U7071?C M O S单电源,低功耗,低电压,低失调电压运算放大器A D704?低偏置电流,低功耗,低失调电压,精密四运算放大器?M A X430?C M O S单电源运算放大器A D705?低偏置电流,低功耗,低失调电压,精密运算放大器?M A X432?C M O S单电源运算放大器A D706?低偏置电流,低功耗,低失调电压,精密双运算放大器?M A X4330?单电源,低电压,低功耗运算放大器A D707?低失调电压,精密运算放大器?M A X4332?单电源,低电压,低功耗双运算放大器A D708?低失调电压,精密双运算放大器?M A X4334?单电源,低电压,低功耗四运算放大器A D711?J F E T输入,高速,精密运算放大器?M A X473?单电源,低电压,宽带,高速运算放大器A D712?J F E T输入,高速,精密双运算放大器?M A X474?单电源,低电压,宽带,高速双运算放大器A D713?J F E T输入,高速,精密四运算放大器?M A X475?单电源,低电压,宽带,高速四运算放大器A D744?J F E T输入,高速,精密运算放大器?M A X477?宽带,高速运算放大器A D745?J F E T输入,低噪音,高速运算放大器?M A X478?单电源,低功耗,精密双运算放大器A D746?J F E T输入,高速,精密双运算放大器?M A X478A?单电源,低功耗,精密双运算放大器A D795?J F E T输入,低噪音,低功耗,精密运算放大器?M A X479?单电源,低功耗,精密四运算放大器A D797?低噪音运算放大器?M A X479A?单电源,低功耗,精密四运算放大器A D8002?电流反馈型,低功耗,宽带,高速双运算放大器?M A X480?单电源,低功耗,低电压,低失调电压,精密运算放大器A D8005?电流反馈型,低功耗,宽带,高速双运算放大器?M A X492C?单电源,低功耗,低电压,精密双运算放大器A D8011?电流反馈型,低功耗,宽带,高速运算放大器?M A X492E?单电源,低功耗,低电压,精密双运算放大器A D8031?单电源,低功耗,高速运算放大器?M A X492M?单电源,低功耗,低电压,精密双运算放大器A D8032?单电源,低功耗,高速双运算放大器?M A X494C?单电源,低功耗,低电压,精密四运算放大器A D8041?单电源,宽带,高速运算放大器?M A X494E?单电源,低功耗,低电压,精密四运算放大器A D8042?单电源,宽带,高速双运算放大器?M A X494M?单电源,低功耗,低电压,精密四运算放大器A D8044?单电源,宽带,高速四运算放大器?M A X495C?单电源,低功耗,低电压,精密运算放大器A D8047?宽带,高速运算放大器?M A X495E?单电源,低功耗,低电压,精密运算放大器A D8055?低功耗,宽带,高速运算放大器?M A X495M?单电源,低功耗,低电压,精密运算放大器A D8056?低功耗,宽带,高速双运算放大器?M C1458?通用双运算放大器A D8072?电流反馈型,宽带,高速双运算放大器?M C1458C?通用双运算放大器A D812?电流反馈型,低电压,低功耗,高速双运算放大器?M C33071A?单电源,高速运算放大器A D817?低功耗,宽带,高速运算放大器?M C33072A?单电源,高速双运算放大器A D818?低功耗,宽带,高速运算放大器?M C33074A?单电源,高速四运算放大器A D820?J F E T输入,单电源,低电压,低功耗,精密运算放大器?M C33078?低噪音双运算放大器A D822?J F E T输入,单电源,低电压,低功耗,精密双运算放大器?M C33079?低噪音四运算放大器A D823?J F E T输入,单电源,低电压,低功耗,精密,高速双运算放大器?M C33102?低功耗双运算放大器H A16119?C M O S单电源,低电压,低功耗双运算放大器?N J U7072?C M O S单电源,低功耗,低电压,低失调电压双运算放大器H F A1100?电流反馈型,宽带,高速运算放大器?N J U7074?C M O S单电源,低功耗,低电压,低失调电压四运算放大器H F A1120?电流反馈型,宽带,高速运算放大器?O P-07?低漂移,精密运算放大器H F A1205?电流反馈型,低功耗,宽带,高速双运算放大器?O P-113?B IC M O S单电源,低噪音,低失调电压,精密运算放大器H F A1245?电流反馈型,低功耗,宽带,高速双运算放大器?O P-150?C O M S,单电源,低电压,低功耗I C L7611?C M O S低电压,低功耗运算放大器?O P-160?电流反馈型,高速运算放大器I C L7612?C M O S低电压,低功耗运算放大器?O P-162?单电源,低电压,低功耗,高速,精密运算放大器I C L7621?C M O S低电压,低功耗双运算放大器?O P-177?低失调电压,精密运算放大器I C L7641?C M O S低电压四运算放大器?O P-183?单电源,宽带运算放大器I C L7642?C M O S低电压,低功耗四运算放大器?O P-184?单电源,低电压,高速,精密运算放大器I C L7650S?稳压器?O P-191?单电源,低电压,低功耗运算放大器L A6500?单电源，功率O P放大器?O P-193?单电源,低电压,低功耗,精密运算放大器L A6501?单电源，功率O P放大器?O P-196?单电源,低电压,低功耗运算放大器L A6510?2回路单电源功率O P放大器?O P-200?低功耗,低失调电压,精密双运算放大器" L A6512?高压,功率O P放大器双运算放大器?O P-213?B I C M O S单电源,低噪音,低失调电压,精密双运算放大器L A6513?高压,功率O P放大器双运算放大器?O P-250?C O M S,单电源,低电压,低功耗双运算放大器L A6520?单电源,功率O P放大器三运算放大器?O P-260?电流反馈型,高速双运算放大器L F356?J F E T输入，高速运算放大器?O P-262?单电源,低电压,低功耗,高速,精密双运算放大器L F356A?J F E T输入，高速运算放大器?O P-27?低噪音,低失调电压,精密运算放大器L F411?J F E T输入，高速运算放大器?O P-270?低噪声,低失调电压,精密双运算放大器L F411A?J F E T输入，高速运算放大器?O P-271?精密双运算放大器L F412?J F E T输入，高速双运算放大器?O P-275?高速双运算放大器L F412A?J F E T输入，高速双运算放大器?O P-279?单电源,大电流双运算放大器L F441?低功耗，J F E T输入运算放大器?O P-282?J F E T输入,低功耗双运算放大器L F441A?低功耗，J F E T输入运算放大器?O P-283?单电源,宽带双运算放大器L F442?低功耗，J F E T输入双运算放大器?O P-284?单电源,低电压,高速,精密双运算放大器L F442A?低功耗，J F E T输入双运算放大器?O P-290?单电源,低功耗,精密双运算放大器L F444?低功耗，J F E T输入四运算放大器?O P-291?单电源,低电压,低功耗双运算放大器L F444A?低功耗，J F E T输入四运算放大器?O P-292?B I C M O S单电源,通用双运算放大器L M2902?单电源四运算放大器?O P-293?单电源,低电压,低功耗,精密双运算放大器L M2904?单电源双运算放大器?O P-295?B I C M O S低功耗,精密双运算放大器L M324?单电源四运算放大器?O P-296?单电源,低电压,低功耗双运算放大器L M358?单电源双运算放大器?O P-297?低电压,低功耗,低漂移,精密双运算放大器L M4250?单程控、低功耗运算放大器?O P-37?低噪音,低失调电压,高速,精密运算放大器L M607?低失调电压,精密运算放大器?O P-400?低功耗,低失调电压,精密四运算放大器L M6118?宽带,高速双运算放大器?O P-413?B I C M O S单电源,低噪音,低失调电压,精密四运算放大器。

常用稳压管型号2009-12-06 22:56美标稳压二极管型号TLV4732运算放大器，可饱和输出。

当单电源供电时，可作为0V和5V的稳压器。

其他的如LM358等放大器，输出均不能达到0V或者5V，一般为4V。

1N4727 3V01N4728 3V31N4729 3V61N4730 3V91N4731 4V31N4732 4V71N4733 5V11N4734 5V61N4735 6V21N4736 6V81N4737 7V51N4738 8V21N4739 9V11N4740 10V1N4741 11V1N4742 12V1N4743 13V1N4744 15V1N4745 16V1N4746 18V1N4747 20V1N4748 22V1N4753 36V1N4754 39V1N4755 43V1N4756 47V1N4757 51V需要规格书请到以下地址下载，/products/Rectifiers/Diode/Zener/经常看到很多板子上有M记的铁壳封装的稳压管，都是以美标的1N系列型号标识的，没有具体的电压值，刚才翻手册查了以下3V至51V的型号与电压的对照值，希望对大家有用1N4727 3V01N4728 3V31N4729 3V61N4730 3V91N4731 4V31N4732 4V71N4733 5V11N4734 5V61N4735 6V21N4736 6V81N4737 7V51N4738 8V21N4739 9V11N4740 10V1N4745 16V1N4746 18V1N4747 20V1N4748 22V1N4749 24V1N4750 27V1N4751 30V1N4752 33V1N4753 36V1N4754 39V1N4755 43V1N4756 47V1N4757 51VDZ是稳压管的电器编号，是和1N4148和相近的，其实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。