TL99-0032-044中文资料

§1.音色(Tone)PIANO 钢琴ELECPIANO 电子钢琴HARPSICHORD 古钢琴CELESTA 钢琴片ORGAN 风琴ELEC ORGAN 电子风琴PIPE ORGAN 管风琴JAZZ ORGAN 爵士风琴ACCORDION 手风琴SYNTHORGAN 合成风琴ORCHESTRA 管弦乐STRING 弦乐VIOLIN 小提琴CELLO 大提琴PICCOLO 短笛FLUTE 长笛JAZZFLUTE 爵士长笛CLARINET 单簧管OBOE 双簧管BASSOON 大管SAXPHONE 萨克管BRASS 铜管乐TRUMPET 小号HORN 圆号TROMBONE 长号TUBA 大号WAH BRASS 哇声铜管乐GUITAR 吉他BASS 倍大提琴BAGPIPE 风笛BASS GUITAR 低音吉他MANDOLIN 曼陀林BANJO 班卓VIRES 振琴VIBRAPHONE 电颤振铁琴HARP 竖琴FANTASY 幻想音WAH 哇音FUNNY 滑稽音COSMIC TONE 宇宙音ELECSYNTHE 电子合成音乐FUNNYSYNTH 合成滑稽音ELECGUITAR 电吉他JAZZ GUITAR 爵士吉他XYLOPHONE 木琴GLOCKENSPIEL 钟琴HARMONICA 口琴MUSIC 百音盒SYMPHONIC 交响乐CHORUS 合唱队VOICES 人声RHYTHNIC 律动性音乐拨钮DIAPASON 管风琴音栓VIBES 颤动的声音RERCUSSION 打击乐SYNTHETIC合成打击乐PERCUSSION§ 2.音色添加效果(EFFECT)以下这些功能主要是用来修饰音色VIBRATO颤音SUSTAIN持续音CRESCENDO VIBRATO 渐强REVERBERATION混响§3节奏(RHYTHM)WALTZ 华尔兹RHUMBA 伦巴SAMBA 桑巴MAMBO 曼波舞CHA－CHA 恰恰SWING 摇摆舞DISCO 迪斯科LATIN SWING 拉丁摇摆POLKA 波尔卡MARCH POLKA 波尔卡进行曲BOLONASE 波罗涅兹BEGUINE 贝圭英HABANERA 哈巴涅拉MARCH 进行曲MARCH SPEED 快速进行BOSSA NOVA 博萨诺瓦SHUFFLE 曳步舞SLOW ROCK 慢摇滚JAZZ ROCK 爵士摇滚LATIN ROCK 拉丁摇滚JAZZ MARCH 爵士进行曲JAZZ WALTZ 爵士华尔兹POPS 波普BIG BAND 爵士大乐团REGGAE 雷盖BALLAD 叙事曲COUNTRY 乡土音乐16BEAT 十六步舞TANGO 探戈ROCK 摇滚乐§4.节奏的辅助功能指自动节奏的开始与停止,节奏同步,节奏填充等功能.START 开始STOP 停止SYNCHRO 节奏同步FILL IN 节奏填充§5.和弦(CHORD)SINGLE FINGER 单指和弦FINGDERED CHORD 多指和弦§6.其他ACCOMP VARITION 伴奏花样选择ACCOMPANIMENT伴奏音量选择MAIN VOLUME 总音量控制RHYTHM VOLUME 节奏音量控制CHORD VOLUME 和弦音量控制TEMPO 速度控制POWER(ON开)(OFF关) 电源开关RECORD 录音功能装置ONE KEY PLAY 录音播放装置(以下标记在琴的背后处) DC 9V 电源插孔PHONES 外接耳孔插孔LINE OUT 输出插孔FOOT VOLUME 表情踏板插孔SUSTAIN 持续音踏板插孔TUNE 音调节装置XGlite音色/XGlite可选音色*一览表(Piano &E. Piano钢琴和电钢琴)001. Grand Piano 大钢琴002. Grand Piano KSP 大钢琴ksp003. Piano Strings 钢琴弦乐004. Dream 梦幻般美妙005. Bright Piano 明亮钢琴006. Bright Piano KSP 明亮钢琴ksp007. Electric Grand Piano电子大钢琴008. Electric Grand PianoKSP 电子大钢琴ksp009. Detuned CP80 简化击弦电拾音钢琴010. Honky-tonk Piano 夜总会钢琴011. Honky-tonk Piano KSP夜总会钢琴ksp012. Electric Piano 1 电钢琴013. Electric Piano 1 KSP电钢琴ksp014. Chorus ElectricPiano 1 叠奏电钢琴015. Electric Piano 2 电钢琴2016. Electric Piano 2 KSP电钢琴ksp017. Chorus ElectricPiano 2 叠奏电钢琴2018. DX + Analog ElectricPiano dx+模拟电钢琴019. Harpsichord 拨弦古钢琴020. Harpsichord KSP 拨弦古钢琴ksp021. Harpsichord 2 拨弦古钢琴2022. Clavi 翼琴023. Clavi KSP 翼琴ksp024. Celesta 钢片琴025. Glockenspiel 钟琴026. Music Box 音乐盒（Orgel风琴）027. Orgel 风琴028. Vibraphone 电颤琴029. Vibraphone KSP 电颤琴ksp030. Marimba 马林巴琴031. Marimba KSP 马林巴琴ksp032. Sine Marimba 正弦马林巴033. Balimba 巴林巴琴034. Log Drums 木鼓035. Xylophone 木琴036. Tubular Bells 管钟037. Church Bells 教堂钟038. Carillon 大钟琴039. Dulcimer 杜西码琴040. Dulcimer 2 杜西码琴2041. Cimbalom 钦巴龙琴042. Santur 山特琴043. Drawbar Organ 拉杆风琴044. Detuned DrawbarOrgan 简化拉杆风琴045. 60's Drawbar Organ 160年代拉杆风琴1046. 60's Drawbar Organ 260年代拉杆风琴2047. 70's Drawbar Organ 170年代拉杆风琴1048. 60's Drawbar Organ 360年代拉杆风琴3049. 16+2'2/3050. Organ Bass 低音风琴051. 70's Drawbar Organ 270年代拉杆风琴2052. Cheezy Organ 尺泽风琴053 Drawbar Organ 2 拉杆风琴2054. Percussive Organ 打击风琴055. 70's Percussive Organ 70年代打击风琴056. Percussive Organ 简化打击风琴057. Light Organ 亮音风琴058. Percussive Organ 2 打击风琴2059. Rock Organ 摇滚风琴060. Rotary Organ 转风琴061. Slow Rotary 慢转风琴062. Fast Rotary 快转风琴063. Church Organ 教堂风琴064. Church Organ 3 教堂风琴3065. Church Organ 2 教堂风琴2066. Notre Dame 圣母玛丽亚067. Organ Flute 长笛风琴068. Tremolo Organ Flute 颤音长笛风琴069. Reed Organ 簧片风琴070. Puff Organ 吹气风琴070. Accordion 手风琴072. Harmonica 口琴073. Harmonica 2 口琴2 074. Tango Accordion 探戈手风琴075. Tango Accordion 2 探戈手风琴2（Guitar吉他）076. Nylon Guitar 尼龙弦吉他077.Velocity Guitar Harmonics 力度吉他和声078. Ukulele 尤克里里四弦琴079. Steel Guitar 钢弦吉他080. 12-string Guitar 12弦吉他081. Nylon & Steel Guitar尼龙弦和钢弦吉他082. Steel Guitar withBody Sound 主音钢弦吉他083 Mandolin 曼陀林琴084 Jazz Guitar 爵士吉他085 Jazz Amp 爵士电吉他086 Clean Guitar 纯音吉他087 Chorus Guitar 叠奏吉他088 Muted Guitar 弱音吉他089 Funk Guitar 抑郁吉他090 Muted Steel Guitar 弱音钢弦吉他091 Jazz Man 爵士音乐家092. Overdriven Guitar夸张吉他093. Guitar Pinch 吉他基音094. Distortion Guitar失真吉他095. Feedback Guitar 回音吉他1096. Feedback Guitar 2 回音吉他2097. Guitar Harmonics 吉他和声098 .Guitar Feedback 吉他回声099. Guitar Harmonics 2吉他和声2（Bass贝司）100. Acoustic Bass 原音贝司101. Jazz Rhythm 爵士韵律102. Velocity CrossfadeUpright Bass力度垂直转换贝司103. Finger Bass 指弹贝司104. Finger Dark 指弹沉音105. Bass & DistortedElectric Guitar贝司和失真电吉他106. Finger Slap Bass 指弹击弦贝司107. Finger Bass 2 指弹贝司2108. Modulated Bass 移调贝司109. Pick Bass 拨片贝司110. Muted Pick Bass 弱音拨片贝司111. Fretless Bass 无品贝司112. Fretless Bass 2 无品贝司2113. Fretless Bass 3 无品贝司3114. Fretless Bass 4 无品贝司4115. Slap Bass 1 击弦贝司1116. Punch Thumb Bass 拇指弹拨贝司117. Slap Bass 2 击弦贝司2118. Velocity Switch Slap 快速掌击119. Synth Bass 1 合成贝司1120. Techno Synth Bass 电子合成贝司121. Synth Bass 2 合成贝司2122. Mellow Synth Bass 圆润合成贝司123. Sequenced Bass 时序贝司124. Click Synth Bass 融洽的合成贝司125. Synth Bass 2 Dark 深沉的合成贝司*126. Modular Synth Bass 标准合成贝司127. DX Bass DX贝司(Strings 弦乐)128. Violin 小提琴129. Slow Violin 慢速小提琴130. Viola 中提琴131. Cello 大提琴132. Contrabass 低音大提琴133. Tremolo Strings 颤音弦乐134. Slow Tremolo Strings 慢速颤音弦乐135. 45 Suspense Strings含糊的弦乐136. Pizzicato Strings拨奏弦乐137. Orchestral Harp 竖琴弦乐138. Yang Chin 扬琴139. Timpani 定音鼓140. Strings 1 弦乐1141. Stereo Strings 立体声弦乐142. Slow Strings 慢速弦乐143. 60's Strings 60年代弦乐144. Orchestra 管弦乐队145. Orchestra 2 管弦乐队2146. Tremolo Orchestra颤音管弦乐147. Velocity Strings 力度弦乐148. Strings 2 弦乐2149. Stereo Slow Strings立体声慢速弦乐150. Legato Strings 弦乐联奏151. Warm Strings 温和的弦乐152. Kingdom 极品153. Synth Strings 1 合成弦乐1154. Synth Strings 2 合成弦乐2(Choral) 合唱155. Choir Aahs 啊唱音156. Stereo Choir 立体声唱乐157. Mellow Choir 圆润的唱乐158. Choir Strings 唱音弦乐159. Voice Oohs 嗓音160. Synth Voice 合成嗓音161. Synth Voice 2 合成嗓音2162. Choral 合唱163. Analog Voice 模拟嗓音(Brass 铜管乐)164. Orchestra Hit 管弦乐齐奏165. Orchestra Hit 2 管弦乐齐奏2166. Impact 冲击167. Trumpet小号168. Warm Trumpet 温暖的小号169. Trombone 长号170. Trombone 2 长号2171. Tuba 大号172. Muted Trumpet 弱音小号173. French Horn 法国号174. French Horn Solo 独奏法国号175. French Horn 2 法国号2176. Horn Orchestra 号角管弦乐队177. Brass Section 铜管乐器组合178. Trumpet & TromboneSection 小号长号组合179. Synth Brass 1 合成铜管乐1180. Resonant Synth Brass共鸣合成铜管乐181. Synth Brass 2 合成铜管乐2182. Soft Brass 轻柔的铜管乐183. Choir Brass 教堂铜管乐(Saxophone 萨克斯) 184. Soprano Sax高音萨克斯185. Alto.Sax 中音萨克斯186. Sax Section 组合萨克斯187. Tenor Sax 次中音萨克斯188. Breathy Tenor Sax 喘息次中音萨克斯189. Baritone Sax 中音萨克斯(Clarine 管乐)190. Oboe 双簧管191. English Horn 英国号192. Bassoon 巴松管193. Clarinet 单簧管194. Piccolo 短笛195. Flute 长笛196. Recorder 竖笛197. Pan Flute 排萧198. Blown Bottle 吹瓶199. Shakuhachi 尺八200. Whistle 口哨201. Ocarina 奥卡里那埙(Synth 合成器)202. Square Lead 方波主奏203. Square Lead 2 方波主奏2204. LM Square LM方波205. Hollow 空洞音206. Shroud 恐怖笼罩音207. Mellow 柔和音208. Solo Sine 正弦独奏209. Sine Lead 正弦主奏210. Sawtooth Lead 锯齿波主奏211. Sawtooth Lead 2 锯齿波主奏2212. Thick Sawtooth 厚重的锯齿波213. Dynamic Sawtooth 动态锯齿波214. Digital Sawtooth 数字锯齿波215. Big Lead 大主奏216. Sequenced Analog 音序模拟器217. Calliope Lead 汽笛风琴主奏218. Pure Lead 纯拍击主奏219. Chiff Lead 雪纺主奏220. Charang Lead 沙朗主奏221. Distorted Lead 失真主奏222. Voice Lead 嗓音223. Fifths Lead 五度音224. Big Five 大五度225. Bass & Lead 低音和主音226. Big & Low 高音和低音227. Fat & Perky 丰满活泼228. Soft Whirl 轻柔委婉229. New Age Pad新世纪长音230. Fantasy 幻觉231. Warm Pad 温暖长音232. Poly Synth Pad 多合成长音233. Choir Pad 唱音234. Itopia 埃特皮亚235. Bowed Pad 弯曲长音236. Metallic Pad 金属长音237. Halo Pad 光环长音238. Sweep Pad 掠过长音(Analog 模拟音)239. Rain 雨240. African Wind 非洲风241. Carib 加勒比242. Sound Track 脚步声243. Prologue 序幕244. Crystal 水晶245. Synth Drum Comp 合成排鼓246. Popcorn 爆玉米花247. Tiny Bells 小铃248. Round Glockenspiel钟琴249. Glockenspiel Chimes编钟250. Clear Bells 响亮的钟251. Chorus Bells 叠奏钟252. Soft Crystal 悦耳的水晶253. Air Bells 悠扬的钟声254. Bell Harp 竖琴和铃255. Gamelimba 木琴256. Atmosphere 大气层257. Warm Atmosphere 温暖的大气258 .Hollow Release 沉闷的虚空259. Nylon Electric Piano 尼龙弦钢琴260. Nylon Harp 尼龙弦竖琴261. Harp Vox 竖琴声262. Atmosphere Pad 大气长音263. Brightness 明亮264. Goblins 小妖265. Goblins Synth 合成小妖266. Creeper 曼草267. Ritual 宗教仪式268. To Heaven 向往天堂269. Night 黄昏270. Glisten 闪光271. Bell Choir 教堂钟272. Echoes 回声273. Sci-Fi 科幻274. Sitar 西塔琴275. Detuned Sitar 消音西塔琴276. Sitar 2 西塔琴2 277. Tamboura 鼓278. Banjo 斑鸠琴279. Muted Banjo 弱音斑鸠琴280. Rabab 拉博281. Gopichant 歌尚282. Oud 乌德琴283. Shamisen 沙玛什284. Koto 日本筝285. Taisho-kin 小泰首286. Kanoon 卡农琴287. Kalimba 卡林巴琴288. Bagpipe 苏格兰风笛289. Fiddle 小提琴290. Shanai 山奈291. Tinkle Bell 电话铃292. Bonang 波南293. Altair 祈祷294. Gamelan Gongs 加麦兰锣295. Stereo Gamelan Gongs立体声加麦兰锣296. Rama Cymbal 罗摩钹297. Agogo 阿果果298. Steel Drums 钢鼓299. Glass Percussion 玻璃打击乐300. Thai Bells 泰国钟301. Woodblock 木鱼302. Castanets 响板303. Taiko Drum 泰柯鼓304. Gran Cassa 葛兰卡萨305. Melodic Tom 旋律鼓306. Melodic Tom 2 旋律鼓2307. Real Tom 实心鼓308. Rock Tom 摇滚鼓309. Synth Drum 合成鼓310. Analog Tom 模拟鼓311. ElectronicPercussion 电子打击乐器312. Reverse Cymbal 背钹313. Fret Noise 急促的噪声314. Breath Noise 呼吸音315. Seashore 海滨316. Bird Tweet 鸟鸣317. Telephone Ring 电话铃318. Helicopter 直升机319. Applause 鼓掌320. Gunshot 枪声321. Cutting Noise 切割声322. Cutting Noise 2切割声323. String Slap 击弦324. Flute Key Click 鸣笛325. Shower 阵雨326. Thunder 雷鸣327. Wind 风声328. Stream 河流329. Bubble 冒水泡330. Feed 输送331. Dog 犬332. Horse 马333. Bird Tweet 2 鸟鸣2334. Maou 猫335. Phone Call 大声打电话336. Door Squeak 门轴吱嘎声337. Door Slam 关门声338. Scratch Cut 刮擦声339. Scratch Split 劈裂声340. Wind Chime 风铃341. Telephone Ring 2 电话2342. Car Engine Ignition发动汽车343. Car Tires Squeal 尖厉的车胎噪音344. Car Passing 汽车经过345. Car Crash 撞车346. Siren 警报器347. Train 火车348. Jet Plane 喷气式飞机349. Starship 宇宙飞船350. Burst 爆炸351. Roller Coaster 船轴352. Submarine 潜水艇353. Laugh 笑声354. Scream 尖叫声355. Punch 冲压机356. Heartbeat 心跳357. Footsteps 脚步358. Machine Gun 机关枪359. Laser Gun 雷射枪360. Explosion 爆破361. Firework 焰火带星号(*)的音色编号是XGlite可选音色。

GEHO PUMPS®隔膜泵安装、操作、维护手册A部分Weir Netherlands b.v.P.O. Box249，5900 AE Venlo，the Netherlands Egtenrayseweg 9, NL-5928 PH Venlo注册号：电话：+31（0）77 3895200 传真：+31（0）77 3824844 电子信箱：************ www.weir.nl安装、操作和维护手册泵的型号项目P.O.号：ZPM 1700 ：：资料号：版权® Weir Netherlands b.v. 2003Weir Netherlands是本手册中说明书和图纸版权的所有者。

本手册中的所有材料都受荷兰版权法、国际贸易条例和使用国的适用法律的保护。

事先未经Weir Netherlands书面许可，不得以任何手段将其部分或者全部机密内容使用、复制或者拷贝，也不得向任何人公开。

还不可以出租、租用、颁发从属证书或者借出手册和内容。

手册已经用快件寄达，只能用于提供的特定目的，其使用不得直接或者间接损坏Weir Netherlands或其他相关公司。

免责禁止对法定内容以外作担保，Weir Netherlands对图纸和说明中明确或者隐含的所有担保免责，这包括无限定的任何适用商务担保，特定用途的适用性、和其他任何系统的兼容性或者数据完整性，用户对使用系统软件负责。

前言本ZPM1700型活塞隔膜泵由Weir Netherlands b.v. 开发，符合特定要求并且完全适合于用户的应用。

本操作与维护手册经仔细编排，可以方便了解泵的工作原理和泵的各个部件与系统以及正确操作与维护。

这还使用户个人能够用最安全和有经验的方法来操作泵。

手册的下一页列出了所有章节的详细内容。

各章节的页面都有对应的页码因而方便继续添加。

在开始泵的工作之前，最为重要的就是要仔细阅读本手册，尤其是本手册下一页的产品安全说明。

如需产品安装、维护或支持信息，请参考文档末的信息。

4 – 8英寸/DN100 – DN20010英寸/DN250及以上尺寸专利设计1.0 产品描述供货尺寸• 4 – 8英寸/DN100 – DN200（感温泡长度为6英寸/150毫米）• 10英寸/DN250及以上尺寸（感温泡长度为6英寸/150毫米）最大工作压力• 300 psi/2068 kPa/21 bar功能• 兼具温度计套管和无环扣机械接口的特点，可提供方便快捷的连接• 配备 NPT （标准）、UNEF （可选）或BSPP （可选）出口连接 • 非常适用于感温泡长度为6英寸/150毫米的各种工业玻璃温度计• 采用流线型探头，可减小主管内部的摩擦损失• 插入流体内部的长度为3英寸/80毫米• 允许2 ½英寸/73毫米的隔热保温套层出口连接：（请指定选择） 配备¾英寸内螺纹NPT 连接配备1 ¼英寸 – 18 UNEF 内螺纹连接配备¾英寸内螺纹BSPP 连接（仅用于欧洲地区）2.0 认证/列名产品的设计和制造依照Victaulic （唯特利）质量管理体系进行（根据ISO-9001:2008获得LPCB 认证）。

Victaulic （唯特利）无环扣温度计接口 924型11.06-CHI系统编号位置提交人日期规格部分段落批准人日期3.0 规格 – 材料本体和螺母：符合ASTM A536之65-45-12等级要求的球墨铸铁。

本体和螺母涂层：黑色醇酸树脂瓷漆。

套环：ASTM A569热轧、酸洗及油处理钢，按照ASTM B633 FE/ZN 5, finish Type III进行电镀锌。

底座/衬垫：（请指定选择1）“E”级EPDM（三元乙丙橡胶）EPDM（三元乙丙橡胶）（绿色条纹色码）。

温度范围：–30°F至+230°F/–34°C至+110°C。

可用于指定温度范围内的热水系统，以及多种稀酸、无油空气和众多化工应用场合。

Ultra Fast FET-Input Operational AmplifierLH0032 / LH0032CFEATURES•500V/µs Slew Rate •70MHz Bandwidth •1012Ω Input Impedance •As Low as 2mV Max Input Offset Voltage •FET Input•Offset Null with Single Pot•No Compensation for Gains Above 50•Peak Output Current to 100mAGENERAL DESCRIPTIONThe LH0032 is a FET input, high slew rate amplifier capable of driving up to 100mA current.With wide bandwidth, high slew rate, high input impedance and high current drive capability, LH0032 is an ideal choice for many applications that includes high speed integrator, video amplifier, summing amplifier, high speed D/A converters, etc.ORDERING INFORMATION Part Package Temperature Range LH0032G H12A (TO8-12 Lead)-55C to +125C LH0032CGH12A (TO8-12 Lead)-25o C to +85o CABSOLUTE MAXIMUM RATINGSSupply Voltage, V S . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±18V Input Voltage, V IN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±V S Differential Input Voltage . . . . . . . . . . . . . . . . . . ±30V or ± 2V S Power Dissipation, P DT A = 25o C. . . . . . . . . . . . . 1.5W, derate 100o C/W to 125o C T C = 25o C. . . . . . . . . . . . . 2.2W, derate 70o C/W to 125o COperating T emperature Range, T ALH0032G . . . . . . . . . . . . . . . . . . . . . . . . . -55o C to +125o C LH0032CG. . . . . . . . . . . . . . . . . . . . . . . . . -25o C to +85o C Operating Junction T emperature, T J . . . . . . . . . . . . . . 175o C Storage T emperature Range. . . . . . . . . . . . -65o C to +150o C Lead Temp. (Soldering, 10 seconds). . . . . . . . . . . . . . 300o CDC ELECTRICAL CHARACTERISTICS V S = ±15V, T MIN ≤ T A ≤ T MAX unless otherwise noted (Note 1) (T A = T j )AC ELECTRICAL CHARACTERISTICS V S = ±15V, R L = 1kΩ, T J = 25o C (Note 5)Note 1. LH0032G/CG are 100% production tested as specified at 25o C, Specifications at temperature extremes are verified by testing, periodic characterization, or correlation.Note 2. Specification is at 25o C junction temperature due to requirements of high-speed automatic testing. Actual values at operating temperature will exceed the value at T J = 25o C. When supply voltages are ±15V, no-load operating junction temperature may rise 40-60o C above ambient, and more under load conditions. Accordingly, V OS may change one to several mV, and I B and I OS will change significantly duringwarm-up. Refer to I B and I OS vs. temperature graph for expected values.Note 3. Measured in still air 7 minutes after application of power. Guaranteed thru correlated automatic pulse testing.Note 4.∆V OS/∆T is the average value calculated from measurements at 25o C and T MAX, specifications at temperature are verified by testing, periodic characterization, or correlation.Note 5. Not 100% production tested; verified by testing, periodic characterization, or correlation.Note 6. Guaranteed by CMRR test condition.Note 7. Guaranteed thru correlated pulse testing at T j = 25o C.TYPICAL APPLICATIONSAPPLICATION INFORMATION:Power Supply DecouplingThe LH0032, like most high speed circuits, is sensitive to layout and stray capacitance. Power supplies should be bypassed as near to pins 10 and 12 as practicable with low inductance capacitors such as 0.01µF disc pensation components should also be located close to the appropriate pins to minimize stray reactances.Input CurrentBecause the input devices are FETs, the input bias current may be expected to double for each 11o C junction temperature rise. This characteristic is plotted in the typical performance characteristics graphs. The device will self-heat due to internal power dissipation after application of power thus raising the FET junction temperature 40-60o C above free-air ambient temperature when supplies are ±15V. The device temperature will stabilize within 5-10 minutes after application of power, and the input bias currents measured at that time will be indicative of normal operating currents. Anadditional rise would occur as power is delivered to a load due to additional internal power dissipation.There is an additional effect on input bias current as the input voltage is changed. The effect, common to all FET s, is an avalanche-like increase in gate current as the FET gate-to-drain voltage is increased above a critical value depending on FET geometry and doping levels. This effect will be noted as the input voltage of the LH0032 is taken below ground potential when the supplies are ±15V. All of the effects described here may be minimized by operating the device with V S ≤ ±15V.These effects are indicated in the typical performance curves.Input CapacitanceThe input capacitance to the LH0032/LH0032C is typically 5pF and thus may form a significant time constant with high value resistors. For optimum performance, the inputTYPICAL APPLICATIONS (Continued)capacitance to the inverting input should be compensated by a small capacitor across the feedback resistor. The value is strongly dependent on layout and closed loop gain, but will typically be in the neighborhood of several picofarads.In the non-inverting configuration, it may be advantageous to bootstrap the case and/or a guard conductor to the inverting input. This serves both to divert leakage currents away from the non-inverting input and to reduce the effective input capacitance. A unity gain follower so treated will have an input capacitance under a pensationTwo compensation schemes may be used, depending on the designer’s specific needs.The first technique is shown in Figure 1. It offers the best 0.1% settling time for a ±10V square wave input. The compensation capacitors C C and C A should be selected from Figure 2 for various closed-loop gains. Figure 3 shows how the LH0032 frequency response is modified for different value compensation capacitors.Although this approach offers the shortest settling time, the falling edge exhibits overshoot up to 30% lasting 200 to 300ns. Figure 4 shows the typical pulse response.If obtaining minimum ringing at the falling edge is the primary objective, a slight modification to the above is recommended. It is based on the same circuit as that of Figure 1.The values of the unity gain compensation capacitors C C and C A should be modified to 5pF and 1000pF, respectively. Figure 5 shows the suitable capacitance to use for variousclosed-loop gains. The resulting unity gain pulse response waveform is shown in Figure 6. The settling time to 1% final value is actually superior to the first method of compensation. However, the LH0032 suffers slow settling thereafter to 0.1% accuracy at the falling edge, and nearly four times as much at the rising edge, compared to the previous scheme. Note, however, that the falling edge ringing is considerably reduced. Furthermore, the slew rate is consistently superior using this compensation because of the smaller value of Miller capacitance C C required.The second compensation scheme works well with both inverting or non-inverting modes. Figure 7 shows the circuit schematic, in which a 270ohm resistor and a 0.01µF capacitor are shunted across the inputs of the device. This lag compensation introduces a zero in the loop modifying the response such that adequate phase margin is preserved at unity gain crossover frequency. Note that the circuit requires no additional compensation.Heat SinkingWhile the LH0032 is specified for operation without any explicit heat sink, internal power dissipation does cause a significant temperature rise. Improved bias current performance can thus be obtained by limiting this temperature rise with a small heat sink such as the Thermalloy No. 2241 or equivalent. The case of the device has no internal connection, so it may be electrically connected to the sink if this is advantageous. However, that this will affect the stray capacitance to all pins and may thus require adjustment of circuit compensation values.。

Confidential. All rights reserved. No part of this document may be transmitted or reproduced without the prior written permission of a Standards Department of the Volkswagen Group.Parties to a contract can only obtain this standard via the responsible procurement department.© VOLKSWAGEN AGT h e E n g l i s h t r a n s l a t i o n i s b e l i e v e d t o b e a c c u r a t e . I n c a s e o f d i s c r e p a n c i e s t h e G e r m a n v e r s i o n s h a l l g o v e r n .Page 2TL 521 32: 2004-083.3 TypeWater-dispersed synthetic polymers (PE suspension) that, after application and drying, produce a friction film/layer that is resistant to handling (commercial products include, for example, Microgleit DF 911/DF 921 produced by the Microgleit company, Gleitmo 605/625 from Fuchs Lubritec or Torque’N’Tension Control Fluid from the MacDermid company).Note: The properties of the products differ in part and must be tested for the relevant application with respect to the friction coefficients to be achieved. Special influences such as threading speeds, counter layers and operational temperatures of the joining elements in contact must be taken into consideration.Thus, for example, Microgleit DF 911, Gleitmo 605 and T’N’T Control Fluid are particularly suited for coating galvanized joining elements. Gleitmo 625 and Microgleit DF 921 are preferred for stainless steel joining elements; the coefficient-of-friction-reducing effect is particularly strong here. The coating medium must be silicone-free and must not contain any substances that would require it to be labeled as hazardous to health (X n) according to the Hazardous Substances Regulation.3.4 Requirements for the lubricant coating processIt must be ensured that no residues of chromic acid, chromic solutions or other acid residues can enter into the lubricant coating bath.A process-sure, even wetting of the surface with lubricant shall be guaranteed.Before the lubricant is applied, the parts to be coated should be dry and warmed slightly (approx. 40 °C to 50 °C; not above 75 °C). The temperature of the coating medium must not drop below 20 °C during the coating process (optimal: 25 °C to 35 °C; not above 75 °C).The coating medium is generally supplied as a concentrate. The mixing ratio of the coating medium concentrate and water must be selected such that the required friction coefficients are achieved and maintained. Empirical standard value: 1 part coating medium to 3 parts water(e.g., for Microgleit DF 911, Gleitmo 605 or Torque’N’Tension Control Fluid).The bath concentration shall be tested by determining the dry residue or using a refractometer, and documented.The bath must be checked (pH value) in accordance with the specifications of the coating medium manufacturer (frequency: minimum 1 x per shift/day, taking into consideration the specified limit values).Coated threaded parts should preferably be dried in a through-type system, but a centrifugal system is also possible. Drying must be performed at a speed suited to the parts spectrum and with the application of heat. The exact settings (speed, temperature, filling quantity) are to be determined by the coating operator in cooperation with the coating medium manufacturer, and documented. Here, the maximum permitted temperature for the coating system must be observed, e.g., max. 90 °C for Cr(VI)-free passivation treatments.In order to avoid the risk of condensation, the parts shall be packed in a dry state and only after reaching ambient (room) temperature.The efficacy of the lubricant coating with respect to the friction coefficients of the threaded fastening elements is to be checked in coordination with the accepting factory.Note: If elements that have already been coated with lubricant are coated once again, this can yield different friction coefficients than for the first coating.Page 3TL 521 32: 2004-084 Referenced standards*)VW 011 29 Limit Values for Coefficients of Friction; Mechanical Joining Elements with Metric ISO ThreadVW 011 55 Vehicle Supply Parts; Approval of First Supply and ChangesVW 137 50 Surface Protection of Metal Parts; Degrees of Protection, Codes, Requirements VW 911 01 Environmental Standard for Vehicles; Vehicle Parts, Materials, Operating Fluids;Avoidance of Hazardous Substances*)In this section, terminological inconsistencies may occur as the original titles are used.。

1.4阀门及小型设备代号解释1.4.1闸阀（GATE VALVE）、截止阀（GLOBE VALVE）止回阀（CHECK VALVE）、针型阀（NEEDLE GLOBE VALVE） －  / 特殊代码（3位）见表1.4.1-8阀芯材质，见表1.4.1－7阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.1－3压力等级，见表1.4.1－2阀门类别，见表1.4.1－1 注*：只有“连接型式”中为BW时才有此项✷对CL900.1500.2500三个等级的阀门，一般采用压力密封阀盖，此时“阀盖垫片”和“阀盖螺栓”项缺省。

✹等级1a、2a、3a、4a、5a适用于JB标准阀门。

注：✶如果阀门的结构型式为“2”、“8”和“9”，即阀盖为压力密封阀盖，则该表中的“阀盖垫片材料”和“阀盖螺栓材料”栏缺省。

✷如果阀门的结构型式为“5”，则该表中的“阀杆填料”栏缺省。

表1.4.1－8，特殊代码1.4.2球阀（BALL VALVE）特殊代码（3位）见表1.4.1-8阀芯材质，见表1.4.2－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.2－1压力等级，见表1.4.1－2阀门类别：球阀/BALL VALVE，代号－Q1.4.3 旋塞阀(PLUG VALVE)阀芯材质，见表1.4.3－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.3－1压力等级，见表1.4.1－2阀门类别：旋塞阀/PLUG VALVE，代号－P1.4.4 蝶阀(BUTTERFLY VALVE)阀芯材质，见表1.4.4－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*传动机构，见表1.4.1－4结构型式，见表1.4.4－1压力等级，见表1.4.1－2阀门类别：蝶阀/BUTTERFLY VALVE，代号－D1.4.5 疏水阀(STEAM TRAP VALVE)阀芯材质，见表1.4.5－2阀体材质，见表1.4.1－6连接型式，见表1.4.1－5结构型式，见表1.4.5－1压力等级，见表1.4.1－2阀门类别：疏水阀/STEAM TRAP VALVE，代号－S1.4.6 过滤器(STRAINER)阀体材质，见表1.2.1－3连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*结构型式，见表1.4.6－1压力等级，见表1.3.1－2阀门类别：过滤器(STRAINER)，代号－T1.4.7视镜（SIGHT GLASS）阀体材质，见表1.2.1－3连接型式，见表1.4.1－5接管壁厚，见表1.2.1－2*结构型式，见表1.4.7－1压力等级，见表1.3.1－2阀门类别：视镜（SIGHT GLASS），代号－G1.4.8仪表测压阀（Y）接管材质，见表1.4.8-3阀芯材质，见表1.4.1阀体材质，见表1.2.1－3近主管接管长度，见表1.4.8－2接管壁厚，见表1.2.1－2压力等级，见表1.3.1－2主阀类型，见表1.4.8－1阀门类别：仪表测压阀，代号－Y。

产品目录套筒F E R R U L E 00TF0铁氟龙套筒00018SAE 100 R7软管套管00110-ASAE 100R1AT/EN 853 1SN软管套管00210SAE 100 R2AT/DIN20022 2SN 软管套筒004004SP、4SH/12-16、R12/06-16软管套筒004014 SH、R12/32软管套筒00402SAE 100R9AT-R12, EN856-4SP/04-16软管套筒00403EN 856-4SP软管套筒00500SAE 100 R5 胶管套筒00621GB/T 10544 R13/SAE 100R13/EN856 R13软管剥内外胶套筒03310SAE 100 R2AT/EN 853 2SN 软管套筒扣压式软管接头S W A G E D H O S E F I T T I N G 10411公制外螺纹24°内锥面轻系列10511公制外螺纹24°内锥面重系列10611公制外螺纹60°内锥面10711国标公制外螺纹74°外锥面10811公制外螺纹90°外锥面12211英管外螺纹O形圈密封12611英管外锥面60°内锥面12611A英管外螺纹60°内锥面或六角端面用组合垫密封的双用接头13011-SP英锥管外螺纹15611布锥管外螺纹16011美制SAE外螺纹带O形圈ISO11932-SAE J192617811美制SAE 外螺纹90°外锥面20111公制内螺纹球面2014145°公制内螺纹球面2019190°公制内螺纹球面20211公制内螺纹平面2023130°公制内螺纹平面2024145°公制内螺纹平面2029190°公制内螺纹平面20411公制内螺纹24°锥带O形圈轻型系列2044145°公制内螺纹24°锥带O形圈轻系列2049190°公制内螺纹24°锥带O形圈轻系列20511公制内螺纹24°锥带O形圈重系列2054145°公制内螺纹24°锥带O形圈重系列2059190°公制内螺纹24°锥带O形圈重系列20611公制内螺纹60°外锥面2064145°公制内螺纹 60°外锥面2069190°公制内螺纹 60°外锥面20711国际公制内螺纹74°内锥面GB METRIC FEMALE 74°CONE SEAT 2074145°国际公制内螺纹74°内锥面2079190°国标公制内螺纹74°内锥面22111公制内螺纹平面2023130°公制内螺纹平面2024145°公制内螺纹平面2029190°公制内螺纹平面20411公制内螺纹24°锥带O形圈轻型系列2049190°公制内螺纹24°锥带O形圈轻系列20511公制内螺纹24°锥带O形圈重系列2054145°公制内螺纹24°锥带O形圈重系列2059190°公制内螺纹24°锥带O形圈重系列20611公制内螺纹60°外锥面2064145°公制内螺纹 60°外锥面2069190°公制内螺纹 60°外锥面20711国际公制内螺纹74°内锥面2074145°国际公制内螺纹74°内锥面2079190°国标公制内螺纹74°内锥面22111英管内螺纹球面2214145°英管内螺纹球面2219190°英管内螺纹球面22211英管内螺纹平面2224145°英管内螺纹平面2229190°英管内螺纹平面22611英管内螺纹60°外锥面22611-D英管内螺纹60°外锥面双六角22611-SM英管内螺纹60°外锥面双六角2264145°英管内螺纹60°外锥面2269190°英管内螺纹60°外锥面22691-T90°英管内螺纹60°外锥面24211美制ORFS 内螺纹平面ISO 12151-1-SAE J5162424145°美制ORFS 内螺纹平面2429190°美制ORFS内螺纹平面26711美制JIC内螺纹74°内锥面2674145°美制JIC 内螺纹74°内锥面2679190°美制JIC内螺纹74°内锥面8739190°SAE 法兰 3000 PSI87611SAE 法兰6000 PSI8764145° SAE 法兰6000PSI88111日制法兰8814145°日制法兰8819190°日制法兰法兰夹FLANGE CLAMPS FLISO 6162-1—SAE J518轻系列对开法兰夹FSISO 6162-2—SAE J518重系列对开法兰夹。