STT553-24

Alpha Wire | 711 Lidgerwood Avenue, Elizabeth, NJ 07207Tel: 1-800-52 ALPHA (25742), Web: Customer SpecificationPART NO. 5535ConstructionDiameters (In)1) Component 1 5 X 1 CONDa) Conductor16 (19/.0117) AWG TC0.059b) Insulation0.032" Wall, Nom. PVC0.123(1) Color Code Alpha Wire Color Code ECond Color Cond Color Cond Color1BLACK3RED5YELLOW 2BROWN4ORANGE2) Cable Assembly 5 Components Cableda) Twists: 3.0 Twists/foot (min)b) Core Wrap Nonwoven Polyester Tape, 25% Overlap, Min.3) Shield:A/P/A Tape, 25% Overlap, Min.a) Drain Wire16 (19/.0117) AWG TCb) Braid TC,70% Coverage, Min.4) Jacket0.063" Wall, Nom.,PVC0.492 (0.514 Max.)a) Color(s)Slate, Black, Yellow, Orange, Blue, Green, Red, Sand Beige, Whiteb) Ripcord 1 End 810 Denier Nylonc) Print ALPHA WIRE-* P/N 5535 5C 16 AWGXTRAGUARD(R) 1 (UL) MTW 600V OR AWM 2501 VW-1 ---LLXXXXXX CSA AWM I/II A/B 105C 600VOLTS FT4 CE ROHS (SEQ FOOTAGE)* = Factory Code[Note: Product may have c(UL) or CSA markings depending upon plant of manufacture.]Applicable Specifications1) ULa) Component 1AWM/STYLE 1015105°C / 600 V RMSMTW90°C Dry / 60°C Wet / 600 V RMSb) Overall MTW90°C Dry / 60°C Wet / 600 V RMSAWM/STYLE 2501105°C / 600 V RMSVW-12) CSA Internationala) Component 1TEW105°C / 600 V RMSb) Overall AWM I/II A/B105°C / 600 V RMSFT43) CE:EU Low Voltage Directive 2006/95/ECEnvironmental1) EU Directive 2002/95/EC(RoHS):All materials used in the manufacture of this part are in compliance with EU Directive2002/95/EU regarding the restriction of use of certain hazardous substances in electrical andelectronic equipment. Consult Alpha Wire's web site for compliance Date of Manufacture.2) REACH Regulation (EC 1907/2006):This product does not contain Substances of Very High Concern (SVHC) listed on the EuropeanUnion's REACH candidate list in excess of 0.1% mass of the item. For up-to-date information,please see Alpha's REACH SVHC Declaration.3) California Proposition 65:The outer surface materials used in the manufacture of this part meet the requirements of California Proposition 65.PropertiesPhysical & Mechanical Properties1) Temperature Range-30 to 105°C2) Bend Radius10X Cable Diameter3) Pull Tension129 Lbs, Maximum4) Sunlight Resistance YesElectrical Properties(For Engineering purposes only)1) Voltage Rating600 V RMS2) Capacitance40 pf/ft @1 kHz, Nominal Conductor to Conductor3) Ground Capacitance72 pf/ft @1 kHz, Nominal4) Inductance0.2 µH/ft, Nominal5) Conductor DCR 4.4 /1000ft @20°C, Nominal6) OA Shield DCR 1.73 /1000ft @20°C, NominalOtherPackaging Flange x Traverse x Barrel (inches)a) 1000 FT24 x 14 x 12 Continuous lengthb) 500 FT18 x 12 x 8 Continuous lengthc) 100 FT16 x 11 x 8 Continuous lengthd) Bulk(Made-to-order)[Spool dimensions may vary slightly]Alpha Wire | 711 Lidgerwood Avenue, Elizabeth, NJ 07207Tel: 1-800-52 ALPHA (25742)Although Alpha Wire (“Alpha”) makes every reasonable effort to ensure there accuracy at the time of publication, information and specifications described herein are subject to errors or omissions and to changes without notice, and the listing of such information and specifications does not ensure product availability.Alpha provides the information and specifications herein on an “AS IS” basis, with no representations or warranties, whether express, statutory or implied. In no event will Alpha be liable for any damages (including consequential, indirect, incidental, special, punitive, or exemplary) whatsoever, even if Alpha had been advised of the possibility of such damages, whether in an action under contract, negligence or any other theory, arising out of or in connection with the use, or inability to use, the information or specifications described herein.Alpha Wire | 711 Lidgerwood Avenue, Elizabeth, NJ 07207Tel: 1-800-52 ALPHA (25742), Web: RoHS CERTIFICATE OF COMPLIANCETo Whom It May Concern:Alpha Wire Part Number:55355535 , RoHS-Compliant Commencing With8/1/2005ProductionThis document certifies that the Alpha part numbers cited above are manufactured in accordancewith Directive 2002/95/EC of the European Parliament and of the Council of 27 January 2003,better known as the RoHS Directives, with regards to restrictions of the use of certain hazardoussubstances used in the manufacture of electrical and electronic equipment. The reader is referredto these Directives for the specific definitions and extents of these Directives. No Exemptions arerequired for RoHS Compliance on this item.Substance Maximum Control ValueLead0.1% by weight (1000 ppm)Mercury0.1% by weight (1000 ppm)Cadmium0.01% by weight (100 ppm)Hexavalent Chromium0.1% by weight (1000 ppm)Polybrominated Biphenyls (PBB)0.1% by weight (1000 ppm)Polybrominated Diphenyl Ethers (PBDE)Including Deca-BDE0.1% by weight (1000 ppm)The information provided in this document and disclosure is correct to the best of Alpha Wire'sknowledge, information and belief at the date of its release. The information provided is designedonly as a general guide for the safe handling, storage, and any other operation of the productitself or the one that it will become part of. The intent of this document is not to be considered awarranty or quality specification. Regulatory information is for guidance purposes only. Productusers are responsible for determining the applicability of legislation and regulations based ontheir individual usage of the product.Authorized Signatory for the Alpha Wire Company:Dave Watson, Director of Engineering & QA11/1/2012。

局部大型建筑机械简介目录M1280D (2)M600D (3)M440D (4)M125/75 (5)STT553 (7)L50/40A (10)TC7052〔QTZ400〕 (12)C7050 (13)K50/50 (16)STT293 (18)C7022 (21)ST70/27 (22)K40/21 (25)JT 300-16 (27)MC 320 (29)HK7030 (30)ST70/30 (32)K30/30 (35)256HC (37)K30/21 (40)H3/36B (44)E6026/B12 (47)G3/28B (49)QTZ6021 (51)TC6020A〔QTZ160〕 (52)ST60/14 (54)ST60/15 (56)FH6015 (59)F0/23B (C) (62)G25/15C (64)ST50/15A (67)MC 120A (69)ST55/10 (71)TC5613-6 (73)TC5610 (75)E15.15 (76)QT5013 (78)M1280D内爬式受力：臂长米时最大垂直力为445吨，最大水平力为136吨；臂长米时最大垂直力为442吨，最大水平力为161吨。

固定式受力：臂长米时根底受力M=28877吨米；自重V=445吨，剪力S=48吨，压力T=619吨，拉力U=398吨；臂长米时根底受力M=28877吨米；自重V=442吨，剪力S=48吨，压力T=619吨，拉力U=398吨。

M1280单绳吊重表：臂长幅度10 20 30 40 50 60 65 70 75 80 最大半径吊重最小半径85.5°50t 84.2°5077.2°5069.9°67.3°5062.3°58.5°5054.1°45.0°39.8°34.0°27.1°17.9°13米米吨吨最小半径85.5°50t 83.5°5075.5°5048.7°37.2°30.3°20.8°米吨最小半径85.5°50t 82.5°5073.4°5063.8°5053.3°5041.0°24.2°米吨最小半径85.5°50t 81.3°5070.5°5058.9°5045.7°5028.0°米吨最小半径85.5°50t 79.5°5066.4°5051.7°5032.8°50米吨最小半径85.5°50t 76.8°5059.9°5038.9°50 50M1280双绳吊重表：臂长幅度10 20 30 40 50 60 65 70 75 80 最大半径吊重50t 84.2°5077.2°5069.9°67.2°7262.3°58.4°53.2°45.5°32.4°5754.1°45.0°39.6°33.8°26.8°17.3°13米米吨吨80t 83.5°8075.5°8048.6°37.0°29.8°20.3°米吨100t 82.5°10073.4°10063.7°7940.8°23.7°米吨100t 81.3°10070.5°10058.9°51.5°38.6°27.6°米吨100t 79.5°10066.3°100米吨100t 76.8°10059.8°100M1280D塔吊主要构造件重量表：名称 起重臂 数量 1 高〔长〕度〔m 〕单件重量〔kg 〕3400022000 7000 72 4 爬升节 1 标准节 12 1 11 平衡臂 14535 13000 21000 20000 14000 12000 9000 下回转 1 上回转 1 A 架1 发动机组及卷扬机组机械平台加强节 1 1 4 2 操作室 11600 主卷扬筒及钢索123000塔吊机构参数： 回转机构：/mM600D受力情况：固定式〔无附着塔身重量及根底受力〕爬升框在内部没有爬升框爬升框在外部单位 Tower 441 36 442 48 392 36 441 36 442 44 392 36 441 32 442 44 392 36 H M V S m mT T 884 174 24 1031 190 29 886 176 24 884 189 24 947 201 28 886 191 24 883 185 28 1099 201 33 920 191 29 T T 304 217344 263344 256308 213329 229 348 252306 214367 281359 264UT内爬式塔吊种类391 392 441 442 单位 m G J 两个爬升框最小距离 最后一个附着上的最大距离最大水平载荷 12 16 12 24 12 24 12 32 m K L H67 72 72 77 T 总体垂直载荷 180 28191 36189 36201 44T 最大自由高度mM600D 塔吊起重性能表：最小 50t 最 臂长 大幅 幅度度 (m)(m)50T — (m)(m) (m) (m) (m)(m) (m) (m) (m) (m)(m)(m)(m)(m)(m)—— —M600D 塔吊主要构造件重量表：高〔长〕度 单件重量 〔kg 〕 15000 12500 15000 5000 名称 数量 备注 〔m 〕 55 含滑轮组，拉索等 起重臂 1 4 不含变幅滑轮组，拉索等含油缸等爬升节标准节 1 12 1 4下回转 13000 11000 12000 11000 10000 6500 含回转齿圈 上回转 1 A 架 1 主卷扬筒及钢索机械平台加强节 1 1 1 4 操作室 11200 发动机及卷扬机组11000塔吊机构参数： 回转机构：/m行走机构：18m/minM440D固定式〔无附着塔身重量及根底受力〕爬升框在内部没有爬升框爬升框在外部单位 Tower 441 40442 48392 40441 40442 48392 40441 36442 44392 36HmM V S 885 176 26 1122 188 29 877 178 25 885 191 26 1122 203 29 877 193 25 930 187 29 1191 199 33 923 189 29 mT T T T 301 225369 292341 261305 222373 288 345 257312 236392 310351 273UT内爬式塔吊种类391 392 441 442 单位 m G J 两个爬升框最小距离 最后一个附着上最大距离最大水平载荷 98 12 28 12 28 12 36 m K L H71 71 90 T 总体垂直载荷 156 44193 40191 40203 48T 最大自由高度mM440D 塔吊起重性能：50吨最小 幅度 吊重最大幅度 50T - 臂长(m) 55 (m) 6 (m) 25 (m) 41 (m) 23 (m) 20 (m) 15 (m) (m) 12 (m) 10 (m)(m)(m)(m) (m)- 32 19 -23 - 44 3212 50 42135024 50 5050塔吊机构参数： 回转机构：/m行走机构：18m/minM125/75塔身截面：4×4米底架：10×10米〔行走式〕塔身节主要构件重量：固定脚〔预埋节〕：米〔吨×4〕；标准节：米〔吨〕；加强节：米〔吨〕； 平衡臂：24米〔吨〕； 过渡节：6米〔吨〕； 套架总成：〔吨〕；回转总成：〔吨〕；最大自由高度根底受力〔吨〕：起重性能：塔头：〔吨〕。

目录M1280D (2)M600D (3)M440D (4)M125/75 (5)STT553 (7)L50/40A (8)TC7052（QTZ400） (10)C7050 (11)K50/50 (13)STT293 (15)C7022 (17)ST70/27 (1)K40/21 (2)JT 300-16 (4)MC 320 (6)HK7030 (7)ST70/30 (8)K30/30 (10)256HC (11)K30/21 (14)H3/36B (15)E6026/B12 (18)G3/28B (19)QTZ6021 (21)TC6020A(QTZ160) (22)ST60/14 (23)ST60/15 (25)FH6015 (27)F0/23B (C) (29)G25/15C (31)ST50/15A (33)MC 120A (34)ST55/10 (36)TC5613-6 (37)TC5610 (38)E15.15 (40)QT5013 (41)设备型号众多，恕不一一列举，时间仓促，如有疏漏之处望告知，以便改正，在此谢过，‘助’贵公司，业绩蒸蒸日上，财源广进，北京中建正和建筑机械施工有限公司――项目管理部M1280D内爬式受力：臂长82.6米时最大垂直力为445吨，最大水平力为136吨；臂长73.4米时最大垂直力为442吨，最大水平力为161吨；固定式受力：臂长82.6米时基础受力M=28877吨米；自重V=445吨，剪力S=48吨，压力T=619吨，拉力U=398吨臂长73.4米时基础受力M=28877吨米；自重V=442吨，剪力S=48吨，压力T=619吨，拉力U=398吨M1280单绳吊重表：臂长幅度10 20 30 40 50 60 65 70 75 80 最大半径吊重82.6 最小半径85.5°84.2°77.2°69.9°62.3°54.1°45.0°39.8° 34.0°27.1°17.9°米吨8.2m 50t 50 50 48.4 41.2 34.2 27.0 23.5 20.0 16.5 13 81.1 12.373.4 最小半径85.5°83.5°75.5°67.3°58.5°48.7°37.2°30.3° 20.8°米吨7.4m 50t 50 50 50 50 40.8 30.0 25.0 20.9 72.3 18.964.2 最小半径85.5°82.5°73.4°63.8°53.3°41.0°24.2°米吨6.7m 50t 50 50 50 50 41.8 31.0 63.4 27.255.0 最小半径85.5°81.3°70.5°58.9°45.7°28.0°米吨6.0m 50t 50 50 50 50 42.5 54.5 34.445.8 最小半径85.5°79.5°66.4°51.7°32.8°米吨5.3m 50t 50 50 50 50 45.6 45.836.6 最小半径85.5°76.8°59.9°38.9°米吨4.5m 50t 50 50 50 36.7 50 M1280双绳吊重表：臂长幅度10 20 30 40 50 60 65 70 75 80 最大半径吊重82.67.9m~27.5m 84.2°77.2°69.9°62.3°54.1°45.0°39.6°33.8°26.8°17.3°米吨50t 50 50 48.4 41.2 34.2 27.0 23.5 20.0 16.5 13 80.8 12.573.4 7.9m~27.5m 83.5°75.5°67.2°58.4°48.6°37.0°29.8°20.3°米吨80t 80 80 72 54.5 40.8 30.0 25.0 20.9 71.9 19.364.2 6.5m~24.5m 82.5°73.4°63.7°53.2°40.8°23.7°米吨100t 100 100 79 55.5 41.8 31.0 63.0 27.755.0 5.8m~24.7m 81.3°70.5°58.9°45.5°27.6°米吨100t 100 100 80.2 56.8 42.5 54.2 35.045.8 5.1m~24.9m 79.5°66.3°51.5°32.4°米吨100t 100 100 81.2 57 45.3 46.436.64.3m~25.0m 76.8°59.8°38.6°米吨100t 100 100 81.9 36.4 60.3 M1280D塔吊主要结构件重量表名称数量高（长）度（m）单件重量（Kg）起重臂 1 72 34000爬升节 1 4 22000标准节12 11 7000平衡臂 1 11.4 14535下回转 1 2.51 13000上回转 1 6.2 21000A架 1 15.91 20000 发动机组及卷扬机组1 14000 机械平台 1 7.5 12000 加强节2 4 9000 操作室 1 2.1 1600 主卷扬筒及钢索 1 4.45 23000 塔吊机构参数：回转机构：0～0.75RPMM600D受力情况：固定式（无附着塔身重量及基础受力）No Climbing Frame （没有爬升框）Internal ClimbingFrame（爬升框在内部）External ClimbingFrame（爬升框在外部）Units(单位)Tower 441 442 392 441 442 392 441 442 392H 36 48 36 36 44 36 32 44 36 (m)M 884 1031 886 884 947 886 883 1099 920 (mT) V 174 190 176 189 201 191 185 201 191 (T) S 24 29 24 24 28 24 28 33 29 (T) T 304 344 344 308 329 348 306 367 359U 217 263 256 213 229 252 214 281 264 (T)内爬式Tower Types (塔吊种类) 391 392 441 442 Units(单位) G 两个爬升框最小距离12 12 12 12 (m)J 最后一个附着上的最大距离16 24 24 32 (m)K 最大水平载荷67 72 72 77 (T)L 总体垂直载荷180 191 189 201 (T)H 最大自由高度28 36 36 44 (m)M600D塔吊起重性能表臂长最小幅度50t最大幅度10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 60.0 62.5 65.0 67.5 70.0(m) (m) 50T (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) 73.4 6.2 _ 25.0 21.3 17.8 15.8 13.8 12.2 10.8 9.4 7.8 6.6 5.2 4.6 4.0 3.5 3.0 68.8 6.0 _ 29.7 25.5 21.7 19.1 16.5 14.4 12.6 10.8 9.0 7.5 6.1 5.5 4.864.2 5.3 _ 36.0 30.2 26.0 22.3 18.9 15.9 13.6 11.7 9.9 8.5 7.159.6 5.0 _ 42.0 35.3 29.4 24.1 20.2 16.7 14.1 12.0 10.3 8.855.0 4.4 8.5 46.2 39.2 32.7 26.7 21.6 17.5 14.7 12.5 11.050.4 4.2 13.8 50.0 46.9 34.9 27.8 22.1 17.9 15.1 12.9 45.8 3.9 15.0 50.0 50.0 37.0 28.9 22.7 18.4 15.4 41.2 3.7 15.5 50.0 50.0 38.0 29.5 23.1 18.8 15.8 36.6 3.3 16.0 50.0 50.0 38.9 30.2 23.4 19.4M600D塔吊主要结构件重量表名称数量高（长）度（m）单件重量（Kg）备注起重臂15515000 含滑轮组，拉索等45.8 12500 不含变幅滑轮组，拉索等爬升节 1 4 15000 含油缸等标准节12 4 5000下回转 1 2.51 13000 含回转齿圈上回转 1 10.2 11000A架 1 14.1 12000主卷扬筒及钢索 1 11000机械平台 1 10000加强节 1 4 6500操作室 1 2.1 1200发动机及卷扬机组11000塔吊机构参数：回转机构：0～0.8RPM行走机构：18m/minM440D固定式（无附着塔身重量及基础受力）No Climbing Frame （没有爬升框）Internal ClimbingFrame（爬升框在内部）External ClimbingFrame（爬升框在外部）Units(单位)Tower 441 442 392 441 442 392 441 442 392H 40 48 40 40 48 40 36 44 36 (m)M 885 1122 877 885 1122 877 930 1191 923 (mT) V 176 188 178 191 203 193 187 199 189 (T) S 26 29 25 26 29 25 29 33 29 (T) T 301 369 341 305 373 345 312 392 351U 225 292 261 222 288 257 236 310 273 (T)内爬式Tower Types (塔吊种类) 391 392 441 442 Units(单位)G 两个爬升框最小距离10.5 12 12 12 (m) J 最后一个附着上的最大距离33.5 28 28 36 (m) K 最大水平载荷98 71 71 90 (T) L 总体垂直载荷156 193 191 203 (T) H 最大自由高度44 40 40 48 (m) M440D塔吊起重性能表臂长最小幅度50吨吊重最大幅度10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 60.0 62.5 65.0(m) (m) 50T (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) (m) 68.8 6 - 25 22.5 19.5 17.2 15 12.6 10.2 8.3 6.9 5.5 4.3 3.6 2.7 64.2 5.3 - 30.6 26.3 23 20 16.9 13.6 11.2 9.3 7.6 6.3 4.859.6 5.0 - 32 29.8 25.8 21.7 17.5 14.2 11.8 9.7 8.0 6.655 4.4 - 44 41 29.8 22.8 18.1 14.6 12 10 8.550.4 4.2 12 50 42 30.2 23 18.3 14.9 12.4 10.445.8 3.9 13 50 42.3 30.6 23.5 18.7 15.4 12.841.2 3.7 13.2 50 42.8 30.7 23.8 19 15.6 13.136.6 3.3 13.3 50 43.3 30.8 24 19.4 16.132 3.0 13.3 50 43.5 31.3 24.2 19.5塔吊机构参数：回转机构：0～0.8RPM行走机构：18m/minM125/75塔身截面：4³4米底架：10³10米（行走式）塔身节主要构件重量：固定脚（预埋节） 1.79米（0.78吨X4）标准节 5.7米（7.285吨）加强节：5.7米（8.5吨）过渡节：6米（5.467吨）平衡臂：24米（24.592吨）套架总成（31.455吨）回转总成（23.5吨）塔头（4.449吨）最大自由高度基础受力（吨）：P=295.4T起重性能：双小车：臂长幅度5~20.5 25 30 35 40 45 50 55 60 65 7070 Ⅷ吊重50 38.8 30.6 24.9 20.7 17.5 14.9 12.8 11.1 9.7 8.5 幅度5~37.5 40 45 50 55 60 65 70Ⅳ吊重25 22.1 18.9 16.3 14.2 12.5 11.1 9.960幅度5~21.5 25 30 35 40 45 50 55 60 Ⅷ吊重50 41.4 32.8 26.7 22.3 18.9 16.2 14.0 12.2 幅度5~35.5 40 45 50 55 60Ⅳ吊重25 23.7 19.3 17.6 15.4 13.6单小车：70 幅度5~20.5 25 30 35 40 45 50 55 60 65 70Ⅳ吊重50 38.8 30.6 24.9 20.7 17.5 14.9 12.8 11.1 9.7 8.5 幅度5~35.5 40 45 50 55 60 65 70Ⅱ吊重25 21.4 18.2 15.6 13.5 11.8 10.4 9.260幅度5~21.5 25 30 35 40 45 50 55 60 Ⅳ吊重50 41.4 32.8 26.7 22.3 18.9 16.2 14.0 12.2 幅度5~37.5 40 45 50 55 60Ⅱ吊重25 23 19.6 16.9 14.7 12.9自由高度：固定式：满顶15节标准节，钩高90.6米。

第八章塔式起重机第一节分类与产品型号一、分类（一）按组装方式分为1．由部件组装式塔式起重机（图7-8-1）图7-8-1 组装式塔机2．自行架设式（不用辅助设备快速架设的）。

（图7-8-2）图7-8-2自行架设式塔机（二）按回转部位不同分为1．上回转式塔式起重机（图7-8-3）图7-8-3 上回转式塔机2．下回转塔式起重机（图7-8-4）图7-8-4 下回转式塔机（三）按臂架类型分为1.水平臂架（含平头式）式塔式起重机（图7-8-5）2.图7-8-6 动臂臂架式塔机3.弯折臂架式塔式起重机（图7-8-7）图7-8-7 弯折臂架式塔机4.伸缩臂架式塔式起重机（图7-8-8）图7-8-8 伸缩臂架式塔机5.铰接臂架式塔式起重机（四）按移动方式分为1.行走式塔式起重机(图7-8-10)图7-8-10 行走式塔机2.固定式（定置式）塔式起重机（7-8-11）图7-8-11 固定式塔机3.爬升式塔式起重机图7-8-12 爬升式塔机二、国内外产品型号塔式起重机型号的表示方法用额定起重力矩来标记塔机的型号，如：QTZ 80 FQTZ：组、型式、特性代号80：最大起重力矩(吨·米) F：更新、变型代号如：QTZ上回转自升式塔式起重机；QTD动臂式塔式起重机；QTK快速安装式塔式起重机；塔式起重机型号的其它表示方法用塔机最大幅度（m）处所能吊起的额定重量（KN）两个主参数来标记塔机的型号。

如：某厂的QTZ100又一标记为TC5613或C5613，其意义为：TC——Tower Crane；50——最大幅度50m；13——最大50m幅度处对应的额定起重量13KNH5015平头塔T8040、T7527、T6020、T6015、T6010动臂式D260、D160抚顺永茂建筑机械有限公司：水平臂ST80/116、ST80/75、ST70/30、ST70/27、ST55/13、ST60/15平头塔STT553、STT403、STT293、STT200、STT113、STT5515动臂式STL420、STL230、STL120、QD80江麓机电科技有限公司：水平臂JL8032、JL7050、JL7032、JL7530、JL7034、JL6516、JL5520、JL5515、JL5015、JL4210A、JL4008动臂式QTD480山东华夏集团有限公司：水平臂QTZ630、QTZ315B、QTZ315C、QTZ160、QTZ125、QTZ80C、QTZ63A、QTZ63B、QTZ40A、QTZ40B、QTZ25A、QTZ20A山东鸿达建工集团有限公司：水平臂QTZ160、QTZ125A、QTZ100A、QTZ63B、QTZ40杭州科蔓萨杰牌建设机械有限公司：平头塔21CJ550-18t、21CJ400-18t、21CJ290-18t、21CJ210-18t、21CJ210-12t、10CJ140-8t广西建工集团建筑机械制造有限责任公司：水平臂QTZ7030、QTZ6015平头塔TCT5512动臂式QTD160、QTD12510LC130 、10LC140、21LC170、21LC210、21LC290、21LC400、21LC550、意大利Terex Comedil公司的平头塔机：CTT 51/A-2 TS10、CTT 61/A-2.5、 TS12、CTT 71-2.5TS12、CTT 91-2,5 TS12、CTT 91-5 TS12、CTT 121/A-5 TS16、CTT 141/A-6 TS、CTT 161/A-6 TS、CTT 161/A-8 TS、CTT 181/B-8 TS21、CTT 231-12 H20、CTT 231-10 TS23、CTT 231-12TS23、CTT 231-10 H20、CTT 331-16 HD23、CTT 331-16 TS23德国JOST公司的平头塔机：JT132.8、JT152.8、JT182.8、JT212.12、JT252.12、JT312.12、JT352.12、JT412.24、JT612.32第二节总体设计和计算一、性能参数确定塔式起重机的设计，首先确定塔式起重机的基本参数，即：起重力矩、起重量、工作幅度、起升高度、各机构的工作速度和工作级别等。

产品介绍江苏中建达丰机械租赁有限公司目录一、平臂式系列： (4)1、平臂式： STT1183（64T） (4)2、平臂式：STT983 (50T) (5)3、平臂式：STT753 (40/32T) (6)4、平臂式：STT553 (24/20/18T) (8)5、平臂式：STT403 (24/20/18T) (11)6、平臂式：STT293 (18/16/12T) (14)7、平臂式：STT253 (10/12/16T) (18)8、平臂式：STT200 (12/10T) (21)9、平臂式：STT153 (8T) (23)10、平臂式：ST5515B (8/6T) (25)11、平臂式：STT133 (6T) (27)12、平臂式：STT113 (6T) (28)二、塔帽系列： (30)1、塔帽式：ST10000(200T) (30)2、塔帽式：ST800 (200T) (31)3、塔帽式：STT5000 (150T) (32)4、塔帽式：ST3000 (64/150T) (33)5、塔帽式：ST2000(64/100T) (34)7、塔帽式：ST80/160(64T) (37)8、塔帽式：ST80/116(40/50/64T) (38)9、塔帽式：ST80/75(32/40/50T) (40)10、塔帽式：ST80/60(25/32/40T) (42)11、塔帽式：ST80/31(20T/25T) (44)12、塔帽式：ST70/50(20T) (46)13、塔帽式：ST75/32(12/16T) (47)14、塔帽式：ST70/32(12/16T) (49)15、塔帽式：ST70/27(16T) (51)16、塔帽式：ST70/30(12T) (52)17、塔帽式：H3/36B(12T) (54)18、塔帽式：ST65/28(10/12T) (55)19、塔帽式：ST65/20(10T) (57)20、塔帽式：ST60/23(10T) (59)21、塔帽式：ST60/15 (10T) (60)22、塔帽式：FO/23B(10T) (61)23、塔帽式：ST55/13(6T) (62)三、动臂式系列： (64)1、动臂式：STL2400(100T) (64)3、动臂式：STL1000(50T) (66)4、动臂式：STL720 (32/50T) (67)5、动臂式：STL660 (50T) (69)6、动臂式：STL530 (32/50T) (70)7、动臂式：STL420 (24T) (72)8、动臂式：STL420 (25T) (73)9、动臂式：STL330 (12/18T) (74)10、动臂式：STL230 (12/16T/18T) (76)11、动臂式：STL203C（10/12T） (78)12、动臂式：STL180（8/10T）. (80)13、动臂式：STL120（6/8T） (82)四、便携系列： (84)1、便携式：QD16（16T） (84)2、便携式：WQ16（16T） (85)3、便携式：QD12（12T） (86)4、便携式：QD10A(8T) (87)5、便携式：QD10(10T) (88)6、便携式：QD8(8T) (89)一、平臂式系列：1、平臂式： STT1183（64t）基本参数：塔身截面：2.7m³2.7m；底架（行走）：10m³10m；自由高度：最大自由高度61.4m；塔吊电网参数：电源380V（±5﹪）50Hz/60Hz ；电容量450KW起重性能表：主要性能参数：2、平臂式：STT983 (50t)基本参数：塔身截面2.7³2.7m塔身主要构件：标准节4m 底架（行走）：10³10m自由高度：最大自由高度61.4m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量320KW主要性能参数：3、平臂式：STT753 (40/32t)基本参数：塔身截面2.32³2.34m塔身主要构件：标准节6m 底架（行走）10³10m自由高度：最大自由高度73.4m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量110LFV100B260KW 电容量110LFV100B1 230KW起重性能表：（40t）32t主要性能参数：4、平臂式：STT553 (24/20/18t)基本参数：塔身截面2.27³2.29m 2.32³2.34m塔身主要构件：标准节6m 底架（行走）10³10m自由高度：最大自由高度67.6m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量90LFV60，90LFV60B 180KW 90LFV60DB1 205KW75LFV50B 160KW 75LFV50DB1 180KW75LFV45，75LFV45B 160KW 75LFV45DB1 180KW 起重性能表：（24t）20t18t主要性能参数：5、平臂式：STT403 (24/20/18t)基本参数：塔身截面2.27³2.29m 2.32³2.34m塔身主要构件：标准节6m 底架（行走）10³10m自由高度：最大自由高度79.6m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量90LFV60，90LFV60B 180KW 90LFV60DB1 205KW75LFV50B 160KW 75LFV50DB1 180KW75LFV45，75LFV45B 160KW 75LFV45DB1 180KW 起重性能表：（24t）20t18t主要性能参数：6、平臂式：STT293 (18/16/12t)基本参数：塔身截面 2.27³2.29m 2.32³2.34m 2³2m塔身主要构件：标准节6m 和3m 底架（行走）10³10m 6³6m自由高度：最大自由高度79.3m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量75LFV45，75LFV45B 140KW75LFV45D、75LFV45DB1 160KW70RCS40：105KW 75LFV40：140KW70RCS30，55LFV30，55LFV30B：110KW 75LFV30：140KW 起重性能表：（18t双小车）单小车（18t）16t（75LFV40）12t双小车12t单小车主要性能参数：7、平臂式：STT253 (10/12/16t)基本参数：塔身截面2³2m塔身主要构件：标准节3m 底架（行走）6³6m自由高度：最大自由高度50.7m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量37SWR25，55RCS25，45LFV25B：90KW70RCS40：105KW70RCS30，55LFV25，55LFV30，55LFV30B：110KW75LFV30，75LFV40：140KW起重性能表：（16t）12t10t主要性能参数：8、平臂式：STT200 (12/10t)基本参数：塔身截面2³2m塔身主要构件：标准节3m 底架（行走）6³6m自由高度：最大自由高度53.7m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量70RCS30，55LFV30，55LFV30B，55LFV25：105KW75LFV30：130KW，37SRW25，55RCS25，45LFV25B：80KW 起重性能表：（12t）10t主要性能参数：9、平臂式：STT153 (8t)基本参数：塔身截面1.6³1.6m 2³2m塔身主要构件：标准节3m 底架（行走）6³6m自由高度：最大自由高度39.3m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量60kw起重性能表：（8t）主要性能参数：10、平臂式：ST5515B (8/6t)基本参数：塔身截面1.6³1.6m 2³2m塔身主要构件：标准节3m 底架（行走）4.5³4.5m 6³6m自由高度：最大自由高度45.1m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量30LFV20，24PQC20，QJ80：60KW24LFV15B，24PQC15，24YQL15：50KW起重性能表：（8t）6t主要性能参数：基本参数：塔身截面1.6³1.6m 塔身主要构件：标准节3m 底架（行走）4.5³4.5m自由高度：最大自由高度40.9m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量：50kw起重性能表：（8t）基本参数：塔身截面1.2³1.2m 1.6³1.6m塔身主要构件：标准节3m 底架（行走）4.5³4.5m自由高度：最大自由高度40.7m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量：50kw 起重性能表：（8t）二、塔帽系列：1、塔帽式：ST10000(200t) 基本参数：塔身截面10³10m塔身主要构件：标准节6m 自由高度：最大自由高度117m 起重性能表：（200t）基本参数：塔身截面10³10m塔身主要构件：标准节6m 自由高度：最大自由高度117m 起重性能表：（200t）基本参数：塔身截面6.2³6.2m塔身主要构件：标准节5.7m 自由高度：最大自由高度68.3m 起重性能表：（150t）基本参数：塔身截面6.2³6.2m 塔身主要构件：标准节5.7m自由高度：最大自由高度79.7m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量：360kw 起重性能表：（64t）150t主要性能参数基本参数：塔身截面6.2³6.2m 塔身主要构件：标准节5.7m自由高度：最大自由高度79.7m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量：360kw 起重性能表：（64t）100t基本参数：塔身截面5.5³5.5m塔身主要构件：标准节5.8m 底架（行走）10³10m 15³15m自由高度：最大自由高度105.1m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：150LFV200B：370kw 160LFV160B：380KW起重性能表：（80t）64t7、塔帽式：ST80/160(64t)基本参数：塔身截面5.5³5.5m塔身主要构件：标准节5.8m 底架（行走）10³10m 15³15m自由高度：最大自由高度105.1m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量：460kw起重性能表：（80t）8、塔帽式：ST80/116(40/50/64t)基本参数：塔身截面4.5³4.5m塔身主要构件：标准节5.7m 底架（行走）10³10m压重底架12³12m自由高度：最大自由高度74.3m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：250LFV160LB：460kw 160LFV125B：320kw110LFV100B：260kw起重性能表：（64t）50t40t9、塔帽式：ST80/75(32/40/50t)基本参数：塔身截面4.54³4.56m塔身主要构件：标准节6m 底架（行走）10³10m 8³8m自由高度：最大自由高度90m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：160LFV125LB160LFV125DB：295kw 110LFV100B：260kw110LFV80B1：225kw起重性能表：（50t双小车）40t单车32t单车10、塔帽式：ST80/60(25/32/40t)基本参数：塔身截面2.32³2.34m塔身主要构件：标准节6m 底架（行走）6³6m 8³8m自由高度：最大自由高度79.6m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：110LFV100B：260kw 110LFV80B1：225kw110LFV63、110LFV63B：200kw；110LFVDB1：225kw 起重性能表：（40t）32t25t11、塔帽式：ST80/31(20t/25t)基本参数：塔身截面2.27³2.29m 2.32³2.34m塔身主要构件：标准节6m 底架（行走）8³8m自由高度：最大自由高度66.4m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：110LFV63 110LFV63B：190kw110LFV63DB1：205kw75LFV50B：155kw；75LFV50DB1：180kw 起重性能表：（25t）20t12、塔帽式：ST70/50(20t)基本参数：塔身截面2.28³2.28m 2.32³2.32m塔身主要构件：标准节6m 底架（行走）8³8m自由高度：最大自由高度79.6m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz 电容量：140kw 起重性能表：（20t）13、塔帽式：ST75/32(12/16t)基本参数：塔身截面2³2 m 2.27³2.29m塔身主要构件：标准节3m 自由高度：最大自由高度52.2m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：70RCS40：110kw 75LFV40：140kw70RCS30，55LFV30，55LFV30B：105kw 75LFV30：140kw 起重性能表：（16t）12t14、塔帽式：ST70/32(12/16t)基本参数：塔身截面2³2 m塔身主要构件：标准节3m 底架（行走）6³6m自由高度：最大自由高度51.7m塔吊电网参数：电源380V（±5﹪） 50Hz/60Hz电容量：70RCS30，55LFV30B，55LFV30BB：105kw45LFV30B：95kw 75LFV30：140kw起重性能表：（16t）12t。

超高层建筑钢结构施工技术的应用要点摘要：某超高层建筑，总建筑面积为162 460 m2，其中，地上面积114 707 m2，地下面积47 753 m2，建筑高度199.6 m。

建筑物主塔楼地上45层，地下4层，塔楼结构为型钢混凝土框架-钢筋混凝土核心筒结构，即“内筒外框”。

钢结构总用钢量19 200 t，核心筒钢结构中，H型钢骨柱共15根，十字形钢骨柱、H形核心筒钢结构最大规格为H1 000 mm×450 mm×40 mm×30 mm。

建筑等级设计为特级建筑，设计使用年限50年，耐火等级一级。

关键词：超高层；钢结构施工1 超高层建筑中钢结构的常见形式超高层钢结构建筑项目中，钢结构常见组合形式包括组合楼板、钢柱和钢梁、钢板墙、桁架结构。

1）建筑项目中，根据截面形式的差异可将钢柱分为异型钢柱和普通钢柱两种，十字形、箱形、H形属于普通钢柱，日字形、田字形、其他复杂截面属于异形钢柱。

钢梁具体指箱形钢梁和H形钢梁。

钢柱一般可以单独应用，但在超高层建筑中，业主方为确保结构承载力与安全性，往往会组合运用钢柱和钢梁，以便于和建筑内的混凝土结构联合使用。

2）钢板墙主要包括边缘结构与内嵌钢板结构，通过鱼尾板相互连接，可分为开动型、加劲型、组合型等类型，能够增加超高层建筑内钢结构的延性[1]。

3）超高层建筑中常用的组合楼板为钢筋桁架楼承板、钢板+混凝土楼板，其中，钢板可分为闭口形、缩口形、开口形3种。

4）桁架结构是超高层建筑中加强钢结构外筒、内筒、外框的结构，包括腰桁架和伸臂桁架，能够消除建筑钢结构剪力滞后的问题。

2 超高层建筑中钢结构施工技术的应用优势钢结构具有占地少、强度高、拆卸便捷、施工效率高的特点。

在上述超高层建筑项目中，钢结构施工技术能够保证项目的综合效益，满足业主方对建筑物的基本要求，相较于混凝土剪力墙钢筋结构，其实用性较强。

在超高层建筑项目中采用钢结构施工技术，可以减轻建筑结构自重，缓解地震产生的作用力，提高钢结构建筑的延展性，预防变形风险，同时还可充分利用建筑空间控制建筑结构所占面积。

Copyright © Cirrus Logic, Inc. 2008CS5532/34-BS24-bit ∆Σ ADCs with Ultra-low-noise PGIAFeaturesChopper-stabilized PGIA (ProgrammableGain Instrumentation Amplifier, 1x to 64x)– 6 nV/√Hz @ 0.1 Hz (No 1/f noise) at 64x –1200pA Input Current with Gains >1 Delta-sigma Analog-to-digital Converter –Linearity Error: 0.0007% FS–Noise-free Resolution: Up to 23 bits Two- or Four-channel Differential MUX Scalable Input Span via Calibration –±5 mV to differential ±2.5VScalable V REF Input: Up to Analog Supply Simple Three-wire Serial Interface –SPI™ and Microwire™ Compatible –Schmitt Trigger on Serial Clock (SCLK) R/W Calibration Registers Per Channel Selectable Word Rates: 6.25 to 3,840 Sps Selectable 50 or 60 Hz RejectionPower Supply Configurations–VA+ = +5 V; VA- = 0 V; VD+ = +3 V to +5 V–VA+ = +2.5 V; VA- = -2.5 V; VD+ = +3 V to +5 V –VA+ = +3 V; VA- = -3 V; VD+ = +3 VGeneral DescriptionThe CS5532/34 are highly integrated ∆Σ Analog-to-Digi-tal Converters (ADCs) which use charge-balance techniques to achieve 24-bit performance. The ADCs are optimized for measuring low-level unipolar or bipolar signals in weigh scale, process control, scientific, and medical applications.To accommodate these applications, the ADCs come as either two-channel (CS5532) or four-channel (CS5534)devices and include a very low-noise, chopper-stabilized instrumentation amplifier (6 nV/√Hz @ 0.1 Hz) with se-lectable gains of 1×, 2×, 4×, 8×, 16×, 32×, and 64×.These ADCs also include a fourth-order ∆Σ modulator followed by a digital filter which provides twenty selectable output word rates of 6.25, 7.5, 12.5, 15, 25, 30, 50, 60, 100,120, 200, 240, 400, 480, 800, 960, 1600, 1920, 3200, and 3840 Sps (MCLK =4.9152MHz).To ease communication between the ADCs and a micro-controller, the converters include a simple three-wire se-rial interface which is SPI™ and Microwire™ compatible with a Schmitt-trigger input on the serial clock (SCLK).High dynamic range, programmable output rates, and flexible power supply options makes these ADCs ideal solutions for weigh scale and process control applications.ORDERING INFORMATIONSee page 47VA+C1C2VREF+VREF-VD+DIFFERENTIAL 4TH ORDER ∆ΣMODULATORPGIA 1,2,4,8,16PROGRAMMABLE SINC FIR FILTERMUX(CS5534SHOWN)AIN1+AIN1-AIN2+AIN2-AIN3+AIN3-AIN4+AIN4-SERIAL INTERFACELATCHCLOCK GENERATORCALIBRATION SRAM/CONTROLLOGICDGNDCSSDI SDO SCLKOSC2OSC1A1A0/GUARD VA-32,64OCT ‘08TABLE OF CONTENTS1.CHARACTERISTICS AND SPECIFICATIONS (4)ANALOG CHARACTERISTICS (4)TYPICAL RMS NOISE (NV) (7)TYPICAL NOISE-FREE RESOLUTION(BITS) (7)5 V DIGITAL CHARACTERISTICS (8)3 V DIGITAL CHARACTERISTICS (8)DYNAMIC CHARACTERISTICS (9)ABSOLUTE MAXIMUM RATINGS (9)SWITCHING CHARACTERISTICS (10)2.GENERAL DESCRIPTION (12)2.1.Analog Input (12)2.1.1. Analog Input Span (13)2.1.2. Multiplexed Settling Limitations (13)2.1.3. Voltage Noise Density Performance (13)2.1.4. No Offset DAC (14)2.2.Overview of ADC Register Structure and Operating Modes (14)2.2.1. System Initialization (15)2.2.2. Serial Port Interface (22)2.2.3. Reading/Writing On-Chip Registers (23)2.3.Configuration Register (23)2.3.1. Power Consumption (23)2.3.2. System Reset Sequence (23)2.3.3. Input Short (24)2.3.4. Guard Signal (24)2.3.5. Voltage Reference Select (24)2.3.6. Output Latch Pins (24)2.3.7. Offset and Gain Select (25)2.3.8. Filter Rate Select (25)2.4.Setting up the CSRs for a Measurement (27)2.5.Calibration (30)2.5.1. Calibration Registers (30)2.5.2. Performing Calibrations (31)2.5.3. Self Calibration (31)2.5.4. System Calibration (32)2.5.5. Calibration Tips (32)2.5.6. Limitations in Calibration Range (33)2.6.Performing Conversions (33)2.6.1. Single Conversion Mode (33)2.6.2. Continuous Conversion Mode (34)2.6.3. Examples of Using CSRs to Perform Conversions and Calibrations (35)ing Multiple ADCs Synchronously (36)2.8.Conversion Output Coding (36)2.9.Digital Filter (38)2.10.Clock Generator (39)2.11.Power Supply Arrangements (39)2.12.Getting Started (43)2.13.PCB Layout (43)3.PIN DESCRIPTIONS (44)4.SPECIFICATION DEFINITIONS (46)5.ORDERING INFORMATION (47)6.ENVIRONMENTAL, MANUFACTURING, & HANDLING INFORMATION (47)7.PACKAGE DRAWINGS (48)LIST OF FIGURESFigure 1. SDI Write Timing (Not to Scale) (11)Figure 2. SDO Read Timing (Not to Scale) (11)Figure 3. Multiplexer Configuration (12)Figure 4. Input models for AIN+ and AIN- pins (13)Figure 5. Measured Voltage Noise Density (13)Figure 6. CS5532/34 Register Diagram (14)Figure 7. Command and Data Word Timing (22)Figure 8. Guard Signal Shielding Scheme (24)Figure 9. Input Reference Model when VRS = 1 (25)Figure 10. Input Reference Model when VRS = 0 (25)Figure 11. Self Calibration of Offset (32)Figure 12. Self Calibration of Gain (32)Figure 13. System Calibration of Offset (32)Figure 14. System Calibration of Gain (32)Figure 15. Synchronizing Multiple ADCs (36)Figure 16. Digital Filter Response (WR = 60 Sps) (38)Figure 18. 120 Sps Filter Phase Plot to 120 Hz (38)Figure 17. 120 Sps Filter Magnitude Plot to 120 Hz (38)Figure 19. Z-Transforms of Digital Filters (38)Figure 20. On-chip Oscillator Model (39)Figure 21. CS5532 Configured with a Single +5 V Supply (40)Figure 22. CS5532 Configured with ±2.5 V Analog Supplies (41)Figure 23. CS5532 Configured with ±3 V Analog Supplies (41)Figure 24. CS5532 Configured for Thermocouple Measurement (42)Figure 25. Bridge with Series Resistors (42)LIST OF TABLESTable 1. Conversion Timing – Single Mode (34)Table 2. Conversion Timing – Continuous Mode (35)Table 3. Command Byte Pointer (35)Table 4. Output Coding for 24-bit CS5532 and CS5534 (37)1. CHARACTERISTICS AND SPECIFICATIONSANALOG CHARACTERISTICS(VA+, VD+ = 5 V ±5%; VREF+ = 5 V; VA-, VREF-, DGND = 0 V; MCLK = 4.9152 MHz; OWR (Output Word Rate) = 60 Sps; Bipolar Mode; Gain = 32)(See Notes 1 and 2.)Notes: 1.Applies after system calibration at any temperature within -40 °C ~ +85 °C.2.Specifications guaranteed by design, characterization, and/or test. LSB is 24 bits.3. This specification applies to the device only and does not include any effects by external parasiticthermocouples. The PGIA contributes 5 nV of offset drift, and the modulator contributes 640/G nV of offset drift, where G is the amplifier gain setting.4.Drift over specified temperature range after calibration at power-up at 25 °C.ParameterMin Typ Max Unit Accuracy Linearity Error -±0.0007±0.0015%FS No Missing Codes 24--Bits Bipolar Offset -±16±32LSB 24Unipolar Offset-±32±64LSB 24Offset Drift(Notes 3 and 4)-640/G +5-nV/°C Bipolar Full-scale Error -±8±31ppm Unipolar Full-scale Error -±16±62ppm Full-scale Drift(Note 4)-2-ppm/°CANALOG CHARACTERISTICS (Continued)(See Notes 1 and 2.)Notes: 5.The voltage on the analog inputs is amplified by the PGIA, and becomes V CM ± Gain*(AIN+ - AIN-)/2 atthe differential outputs of the amplifier. In addition to the input common mode + signal requirements for the analog input pins, the differential outputs of the amplifier must remain between (VA- + 0.1 V) and (VA+ - 0.1 V) to avoid saturation of the output stage.6.See the section of the data sheet which discusses input models.7.Input current on AIN+ or AIN- (with Gain =1), or VREF+ or VREF- may increase to 250nA if operatedwithin 50mV of VA+ or VA-. This is due to the rough charge buffer being saturated under these conditions.ParameterMin TypMaxUnitAnalog InputCommon Mode + Signal on AIN+ or AIN-Bipolar/Unipolar ModeGain = 1 Gain = 2, 4, 8, 16, 32, 64(Note 5)VA-VA- + 0.7--VA+VA+ - 1.7V V CVF Current on AIN+ or AIN-Gain = 1 (Note 6, 7)Gain = 2, 4, 8, 16, 32, 64--501200--nA pA Input Current Noise Gain = 1 Gain = 2, 4, 8, 16, 32, 64--2001--pA/√Hz pA/√Hz Input Leakage for Mux when Off (at 25 °C)-10-pA Off-channel Mux Isolation -120-dB Open Circuit Detect Current 100300-nA Common Mode Rejection dc, Gain = 1dc, Gain = 6450, 60 Hz ---90130120---dB dB dB Input Capacitance -60-pF Guard Drive Output -20-µA Voltage Reference Input Range (VREF+) - (VREF-)1 2.5(VA+)-(VA-)V CVF Current (Note 6, 7)-50-nA Common Mode Rejection dc 50, 60 Hz --120120--dB dB Input Capacitance 11-22pF System Calibration Specifications Full-scale Calibration Range Bipolar/Unipolar Mode 3-110%FS Offset Calibration Range Bipolar Mode -100-100%FS Offset Calibration Range Unipolar Mode -90-90%FSANALOG CHARACTERISTICS (Continued)(See Notes 1 and 2.)8.All outputs unloaded. All input CMOS levels.9.Power is specified when the instrumentation amplifier (Gain ≥ 2) is on. Analog supply current is reducedby approximately 1/2 when the instrumentation amplifier is off (Gain = 1).10.Tested with 100 mV change on VA+ or VA-.ParameterMinTypMaxUnitPower SuppliesDC Power Supply Currents (Normal Mode)I A+, I A-I D+- - 130.5151mA mA Power ConsumptionNormal Mode (Notes 8 and 9)Standby Sleep---70450080--mW mW µW Power Supply Rejection (Note 10)dc Positive Supplies dc Negative Supply--115115--dB dBTYPICAL RMS NOISE (nV)(See notes 11, 12, 13 and 14)Notes:11.The -B devices provide the best noise specifications.12.Wideband noise aliased into the baseband. Referred to the input. Typical values shown for 25 °C.13.For Peak-to-Peak Noise multiply by 6.6 for all ranges and output rates.14.Word rates and -3dB points with FRS = 0. When FRS = 1, word rates and -3dB points scale by 5/6.TYPICAL NOISE-FREE RESOLUTION(BITS)(See Notes 15 and 16)15.Noise-free resolution listed is for bipolar operation, and is calculated as LOG((Input Span)/(6.6xRMSNoise))/LOG(2) rounded to the nearest bit. For unipolar operation, the input span is 1/2 as large, so one bit is lost. The input span is calculated in the analog input span section of the data sheet. The noise-free resolution table is computed with a value of 1.0 in the gain register. Values other than 1.0 will scale the noise, and change the noise-free resolution accordingly.16.“Noise-free resolution” is not the same as “effective resolution”. Effective resolution is based on theRMS noise value, while noise-free resolution is based on a peak-to-peak noise value specified as 6.6 times the RMS noise value. Effective resolution is calculated as LOG((Input Span)/(RMS Noise))/LOG(2).Specifications are subject to change without notice.Output Word Rate (Sps)-3 dB Filter Frequency (Hz)Instrumentation Amplifier Gain x64x32x16x8x4x2x17.5 1.948.59101526509915 3.88121315213770139307.751718213052991966015.524252942731402771203134364259103198392240628013626051410202050409048012211319436973014502900581096023015927452310302060411082301,920390260470912181036207230145003,84078013602690538010800215004300086000Output Word Rate (Sps)-3 dB Filter Frequency (Hz)Instrumentation Amplifier Gainx64x32x16x8x4x2x17.5 1.942021222323232315 3.8820212222222222307.75192021222222226015.5192021212121211203118192021212121240621717181818181848012217171717171717960230161617171717171,920390161616161616163,840780131313131313135 V DIGITAL CHARACTERISTICS(VA+, VD+ = 5 V ±5%; VA-, DGND = 0 V; See Notes 2 and 17.)3 V DIGITAL CHARACTERISTICS(T A = 25 °C; VA+ = 5V ±5%; VD+ = 3.0V±10%; VA-, DGND = 0V; See Notes 2 and 17.)17.All measurements performed under static conditions.ParameterSymbol Min Typ Max Unit High-level Input Voltage All Pins Except SCLKSCLK V IH 0.6 VD+(VD+) - 0.45--VD+VD+V Low-level Input Voltage All Pins Except SCLKSCLK V IL 0.00.0-0.80.6V High-level Output Voltage A0 and A1, I out = -1.0 mASDO, I out = -5.0 mA V OH (VA+) - 1.0(VD+) - 1.0--V Low-level Output Voltage A0 and A1, I out = 1.0 mASDO, I out = 5.0 mAV OL --(VA-) + 0.40.4V Input Leakage Current I in -±1±10µA SDO Tri-State Leakage Current I OZ --±10µA Digital Output Pin CapacitanceC out-9-pFParameterSymbol Min Typ Max Unit High-level Input Voltage All Pins Except SCLKSCLK V IH 0.6 VD+(VD+) - 0.45-VD+VD+V Low-level Input Voltage All Pins Except SCLKSCLK V IL 0.00.0-0.80.6V High-level Output Voltage A0 and A1, I out = -1.0 mASDO, I out = -5.0 mA V OH (VA+) - 1.0(VD+) - 1.0--V Low-level Output Voltage A0 and A1, I out = 1.0 mASDO, I out = 5.0 mAV OL --(VA-) + 0.40.4V Input Leakage Current I in -±1±10µA SDO Tri-State Leakage Current I OZ --±10µA Digital Output Pin CapacitanceC out-9-pFDYNAMIC CHARACTERISTICS18.The ADCs use a Sinc 5 filter for the 3200 Sps and 3840 Sps output word rate (OWR) and a Sinc 5 filterfollowed by a Sinc 3 filter for the other OWRs. OWR sinc5 refers to the 3200 Sps (FRS = 1) or 3840 Sps (FRS = 0) word rate associated with the Sinc 5 filter.19.The single conversion mode only outputs fully settled conversions. See Table 1 for more details aboutsingle conversion mode timing. OWR SC is used here to designate the different conversion time associated with single conversions.20.The continuous conversion mode outputs every conversion. This means that the filter’s settling timewith a full scale step input in the continuous conversion mode is dictated by the OWR.ABSOLUTE MAXIMUM RATINGS(DGND = 0 V; See Note 21.)Notes:21.All voltages with respect to ground.22.VA+ and VA- must satisfy {(VA+) - (VA-)} ≤ +6.6 V.23.VD+ and VA- must satisfy {(VD+) - (VA-)} ≤ +7.5 V.24.Applies to all pins including continuous overvoltage conditions at the analog input (AIN) pins.25.Transient current of up to 100 mA will not cause SCR latch-up. Maximum input current for a power supply pin is ±50 mA.26.Total power dissipation, including all input currents and output currents.WARNING:Operation at or beyond these limits may result in permanent damage to the device.Normal operation is not guaranteed at these extremes.ParameterSymbol Ratio Unit Modulator Sampling Ratef s MCLK/16Sps Filter Settling Time to 1/2 LSB (Full Scale Step Input)Single Conversion mode (Notes 18, 19, and 20)Continuous Conversion mode, OWR < 3200 Sps Continuous Conversion mode, OWR ≥ 3200 Spst s t s t s1/OWR SC5/OWR sinc5 + 3/OWR5/OWRs s sParameterSymbol Min Typ Max Unit DC Power Supplies(Notes 22 and 23)Positive Digital Positive Analog Negative Analog VD+VA+VA--0.3-0.3+0.3---+6.0+6.0-3.75V V V Input Current, Any Pin Except Supplies (Notes 24 and 25)I IN --±10mA Output Current I OUT--±25mA Power Dissipation (Note 26)PDN --500mW Analog Input Voltage VREF pins AIN PinsV INR V INA (VA-) -0.3(VA-) -0.3--(VA+) + 0.3(VA+) + 0.3V V Digital Input VoltageV IND -0.3-(VD+) + 0.3V Ambient Operating Temperature T A -40-85°C Storage Temperature T stg-65-150°CSWITCHING CHARACTERISTICS(VA+ = 2.5 V or 5 V ±5%; VA- = -2.5V±5% or 0 V; VD+ = 3.0 V ±10% or 5 V ±5%;DGND = 0 V; Levels: Logic 0 = 0 V, Logic 1 = VD+; C L = 50 pF; See Figures 1 and 2.)Notes:27.Device parameters are specified with a 4.9152 MHz clock.28.Specified using 10% and 90% points on waveform of interest. Output loaded with 50pF.29.Oscillator start-up time varies with crystal parameters. This specification does not apply when using anexternal clock source.ParameterSymbol Min Typ MaxUnitMaster Clock Frequency (Note 27)External Clock or Crystal OscillatorMCLK1 4.91525MHz Master Clock Duty Cycle 40-60%Rise Times(Note 28)Any Digital Input Except SCLKSCLKAny Digital Output t rise-----50 1.0100-µs µs ns Fall Times(Note 28)Any Digital Input Except SCLKSCLKAny Digital Output t fall-----50 1.0100-µs µs ns Start-upOscillator Start-up Time XTAL = 4.9152 MHz(Note 29)t ost-20-ms Serial Port Timing Serial Clock Frequency SCLK 0-2MHz Serial Clock Pulse Width High Pulse Width Lowt 1t 2250250----ns nsSDI Write TimingCS Enable to Valid Latch Clock t 350--ns Data Set-up Time prior to SCLK rising t 450--ns Data Hold Time After SCLK Rising t 5100--ns SCLK Falling Prior to CS Disable t 6100--nsSDO Read Timing CS to Data Validt 7--150ns SCLK Falling to New Data Bit t 8--150ns CS Rising to SDO Hi-Zt 9--150ns分销商库存信息:CIRRUS-LOGICCS5532-BSZR CS5534-BSZR CDB5532U。

.压力容器用钢焊材一览表种类牌号中国 GB美国 AWS 碳THJ422E4303—钢THJ426E4316E6016焊THJ427E4315E6015条THJ506E5016E7016THJ507E5015E7015THJ506R E5016-G E7016-GTHJ507RH E5015-G E7015-GTHJ557R E5MoV-15—低THJ606E6016-D1E9016-D1合金THJ607E6015-D1E9015-D1钢THW707Ni E5515-C1—焊THR207E5515-B1E8015-B1条THR307E5515-B2E8015-B2THR317E5515-B2-V—THR407E6015-B3—THR507E5MoV-15—种类不锈钢焊条气保护实芯焊丝牌号中国 GB美国 AWSTHA002E308L-16E308L-16THA022E316L-16E316L-16THA102E308-16E308-16THA107E308-15E308-15THA132E347-16E347-16THA137E347-15E347-15THA202E316-16E316-16THA207E316-15E316-15THA212E318-16E318-16THA242E317-16E317-16THA302E309-16E309-16THA307E309-15E309-15THG202E410-16E410-16———THQ-G2Si EN440 G38 4MG2SiTHQ-50CG4EN440 G38 3CG4Si1型号牌号GBTHT49-1ER49-1THT-10MnSi ER50-GTHT50-6ER50-6（ TIG-J50 ）THT55-B2ER55-B2THT55-B2V ER55-GTHT-307H09Cr21Ni9Mn4Mo THS-307THT-307SiH10Cr21Ni10Mn6Si1 THS-307SiTHT-308H08Cr21Ni10Si THS-308THT-308LH03Cr21Ni10Si THS-308LTHT-308LSiH03Cr21Ni10Si1 THS-308LSiTHT-309H12Cr24Ni13Si THS-309THT-309MoH12Cr24Ni13Mo2 THS-309MoTHT-309LH03Cr24Ni13Si THS-309L类型碳钢焊丝珠光体耐热钢焊丝不锈钢焊丝.氩弧焊焊丝主要用途用于船舶、石化、核电话等高压管的对接及角焊用于薄板及打底焊接构造用于管道、平板等需作抛光度正确时的焊接用于工作温度550℃以下的锅炉受热面管子蒸汽管道，高压容器，石油精练设施构造的焊接用于工作温度550℃以下的锅炉受热面管子蒸汽管道，高压容器，石油精练设施构造的焊接用于防弹钢、覆面不锈钢及碳钢异材的焊接用于高锰钢、硬化性耐磨钢及非磁性钢的焊接用于 308、 301、304 等不锈钢构造的焊接用于 304L 、 308L 等不锈钢构造的焊接用于改良填补金属的工艺性、焊接操作性及流动性用于异种钢的焊接，如碳钢、低合金钢与不锈钢的焊接用于 Cr22Ni12Mo2复合钢以及异种钢的焊接用于 309S、 1Cr13、 1Cr17、低碳不锈钢、低碳覆面钢以及异种钢的焊接. THT-309LSi用于 309 型不锈钢以及 304 型不锈钢与碳钢的焊接H03Cr24Ni13Si1THS-309LSiTHT-309LMo用于异种钢的焊接或韧性较差的马氏体、铁素体不锈钢的焊接H03Cr24Ni13Mo2THS-309LMoTHT-310用于高温条件下工作的耐热钢以及1Cr5Mo 、 1Cr13 等不可以进行预热及后热办理的焊接H12Cr26Ni21SiTHS-310THT-312用于异种母材不锈钢覆面、硬化性低合金钢以及焊接困难或易发生气孔状况的焊接H15Cr30Ni9THS-312THT-316用于磷酸、亚硫酸、醋酸及盐类腐化介质构造的焊接H08Cr19Ni12Mo2SiTHS-316THT-316L用于尿素、合成纤维等构造及不可以进行热办理的铬不锈钢及复合钢的焊接H03Cr19Ni12Mo2SiTHS-316LTHT-316LSi用于同样种类不锈钢以及复合钢构造的焊接H03Cr19Ni12Mo2Si1THS-316LSiTHT-317用于重要的耐腐化化工容器的焊接H08Cr19Ni14Mo3THS-317THT-317L用于重要的耐腐化化工容器的焊接H03Cr19Ni14Mo3THS-317LTHT-321用于 304、 321、347 型不锈钢以及耐热钢的焊接H08Cr19Ni10TiTHS-321THT-347用于 304、 321、347 型不锈钢以及耐热钢的焊接H08Cr20Ni10NbTHS-347THT-410用于 410、 420 型不锈钢以及耐蚀耐磨表面的堆焊H12Cr13THS-410THT-420用于 Cr13 马氏体不锈钢耐腐化性资料的堆焊H31Cr13THS-420THT-430用于腐化（硝酸）、耐热同种类不锈钢表面堆焊H10Cr17THS-430THT-2209用于含 Cr22% 双相不绣钢的焊接H03Cr22Ni8Mo3NTHS-2209.碳钢焊条型号牌号GBJ421E4313 THJ421X E4313 THJ421Fe18E4324 THJ422E4303 THJ422GM E4303THJ423E4301E4310 THJ425XE4311熔敷金属化学成分（ %）（≤）熔敷金属力学性能（≥）C MnSi S PRel/RP0.2Rm A AKV其余MPa MPa%J0.100.32/0.0300.035355440/220℃—0.300.55570470.100.32/0.0350.040330420170℃—0.300.55270.120.30/0.0350.040330420170℃—0.350.60470.100.32/0.0350.040330420220℃—0.250.55270.100.32/0.0350.040330420220℃—0.250.55270.100.32/0.0350.04033042022-20℃—0.300.55270.200.32/0.0350.04033042022-30℃—0.300.6027特色与用途焊接低碳钢构造，特别合用于薄板小件及短焊缝的中断焊和盖面焊。

部分大型建筑机械简介目录M1280D (2)M600D (3)M440D (4)M125/75 (5)STT553 (7)L50/40A (10)TC7052（QTZ400） (12)C7050 (13)K50/50 (16)STT293 (18)C7022 (21)ST70/27 (22)K40/21 (25)JT 300-16 (27)MC 320 (29)HK7030 (30)ST70/30 (32)K30/30 (35)256HC (37)K30/21 (40)H3/36B (44)E6026/B12 (47)G3/28B (49)QTZ6021 (51)TC6020A（QTZ160） (52)ST60/14 (54)ST60/15 (56)FH6015 (59)F0/23B (C) (62)G25/15C (64)ST50/15A (67)MC 120A (69)ST55/10 (71)TC5613-6 (73)TC5610 (75)E15.15 (76)QT5013 (78)M1280D内爬式受力：臂长82.6米时最大垂直力为445吨，最大水平力为136吨；臂长73.4米时最大垂直力为442吨，最大水平力为161吨。

固定式受力：臂长82.6米时基础受力M=28877吨米；自重V=445吨，剪力S=48吨，压力T=619吨，拉力U=398吨；臂长73.4米时基础受力M=28877吨米；自重V=442吨，剪力S=48吨，压力T=619吨，拉力U=398吨。

M1280单绳吊重表：臂长幅度10 20 30 40 50 60 65 70 75 80 最大半径吊重最小半径85.5°50t 84.2°5077.2°5069.9°48.467.3°5062.3°41.258.5°5054.1°34.245.0°27.039.8°23.534.0°20.027.1°16.517.9°13米81.1米吨12.3吨82.68.2m最小半径7.4m 85.5°50t83.5°5075.5°5048.7°40.837.2°30.030.3°25.020.8°20.973.4 64.2 55.0 45.8 36.672.3米18.9吨最小半径6.7m85.5°50t82.5°5073.4°5063.8°5053.3°5041.0°41.824.2°31.0 63.4米27.2吨最小半径6.0m85.5°50t81.3°5070.5°5058.9°5045.7°5028.0°42.5 54.5米34.4吨最小半径5.3m85.5°50t79.5°5066.4°5051.7°5032.8°50 45.6米45.8吨最小半径4.5m85.5°50t76.8°5059.9°5038.9°50 36.7 50 M1280双绳吊重表：臂长幅度10 20 30 40 50 60 65 70 75 80 最大半径吊重7.9m~27.5m50t 84.2°5077.2°5069.9°48.467.2°7262.3°41.258.4°54.553.2°55.545.5°56.832.4°5754.1°34.245.0°27.039.6°23.533.8°20.026.8°16.517.3°13米80.8米吨12.5吨82.67.9m~27.5m80t 83.5°8075.5°8048.6°40.837.0°30.029.8°25.020.3°20.973.4 64.2 55.0 45.8 36.671.9米19.3吨6.5m~24.5m100t82.5°10073.4°10063.7°7940.8°41.823.7°31.0 63.0米27.7吨5.8m~24.7m100t81.3°10070.5°10058.9°80.251.5°81.238.6°81.927.6°42.5 54.2米35.0吨5.1m~24.9m100t79.5°10066.3°100 45.3米46.4吨4.3m~25.0m100t76.8°10059.8°100 36.4 60.3 M1280D塔吊主要结构件重量表：名称 起重臂 数量 1 高（长）度（m ）单件重量（kg ）3400022000 7000 72 4 爬升节 1 标准节 12 1 11 平衡臂 11.4 2.51 6.2 14535 13000 21000 20000 14000 12000 9000 下回转 1 上回转 1 A 架1 15.91 发动机组及卷扬机组机械平台加强节 1 1 7.5 4 2 操作室 1 2.1 4.451600 主卷扬筒及钢索123000塔吊机构参数：回转机构：0~0.75r/mM600D受力情况：固定式（无附着塔身重量及基础受力）爬升框在内部没有爬升框爬升框在外部单位 Tower 441 36 442 48 392 36 441 36 442 44 392 36 441 32 442 44 392 36 H M V S m mT T 884 174 24 1031 190 29 886 176 24 884 189 24 947 201 28 886 191 24 883 185 28 1099 201 33 920 191 29 T T 304 217344 263344 256308 213329 229 348 252306 214367 281359 264UT内爬式塔吊种类391 392 441 442 单位 m G J 两个爬升框最小距离 最后一个附着上的最大距离最大水平载荷 12 16 12 24 12 24 12 32 m K L H67 72 72 77 T 总体垂直载荷 180 28191 36189 36201 44T 最大自由高度mM600D 塔吊起重性能表：最小 50t最臂长大幅幅度10.0 15.0 20.0 25.0 30.0 35.0 40.0 45.0 50.0 55.0 60.0 62.5 65.0 67.5 70.0度(m) 73.4 68.8 64.2 59.6 55.0 50.4 45.8 41.2 36.6(m)6.26.05.35.04.44.23.93.73.350T—(m)25.029.736.042.046.250.050.050.050.0(m) (m) (m) (m)13.816.518.920.221.622.122.723.123.4(m) (m) (m)9.4(m)7.8(m)6.67.58.58.8(m)5.26.17.1(m)4.65.5(m)4.04.8(m)3.5(m)3.021.325.530.235.339.246.950.050.050.017.821.726.029.432.734.937.038.038.915.819.122.324.126.727.828.929.530.212.214.415.916.717.517.918.418.819.410.812.613.614.114.715.115.415.8—10.811.712.012.512.99.0—9.9—10.311.08.513.815.015.516.0M600D塔吊主要结构件重量表：高（长）度单件重量（kg）1500012500150005000名称数量备注（m）55 含滑轮组，拉索等起重臂 145.84不含变幅滑轮组，拉索等含油缸等爬升节标准节11214下回转 2.5110.214.113000110001200011000100006500含回转齿圈上回转 1A架 1主卷扬筒及钢索机械平台加强节111 4操作室 1 2.1 1200发动机及卷扬机组11000塔吊机构参数：回转机构：0~0.8r/m行走机构：18m/minM440D固定式（无附着塔身重量及基础受力）爬升框在内部没有爬升框爬升框在外部单位Tower 44140 4424839240441404424839240441364424439236H mM V S 885 176 26 1122 188 29 877 178 25 885 191 26 1122 203 29 877 193 25 930 187 29 1191 199 33 923 189 29 mT T T T 301 225369 292341 261305 222373 288 345 257312 236392 310351 273UT内爬式塔吊种类391 392 441 442 单位 m G J 两个爬升框最小距离 最后一个附着上最大距离最大水平载荷 10.5 33.5 98 12 28 12 28 12 36 m K L H71 71 90 T 总体垂直载荷 156 44193 40191 40203 48T 最大自由高度mM440D 塔吊起重性能：50吨最小 幅度 吊重最大幅度 50T - 臂长10.015.020.025.030.035.040.045.050.055.060.062.565.0(m) 68.8 64.2 59.6 55 (m) 6 (m) 25 (m) 22.5 26.3 29.8 41 (m) 19.5 23 (m) 17.2 20 (m) 15 (m) (m) 10.2 11.2 11.8 12 (m) 8.3 9.3 9.7 10 (m) 6.9 7.6 8.0 8.5(m) 5.5 6.3 6.6(m) 4.3 4.8(m) 3.6 (m) 2.712.6 13.6 14.2 14.6 14.9 15.4 15.6 16.15.3 5.0 4.4 4.2 3.9 3.7 3.3 3.0- 30.6 32 16.9 17.5 18.1 18.3 18.7 19 - 25.8 29.8 30.2 30.6 30.7 30.8 31.321.7 22.8 23 - 44 50.4 45.8 41.2 36.6 3212 50 42 12.4 12.8 13.110.413 50 42.3 42.8 43.3 43.523.5 23.8 24 13.2 13.3 13.350 50 19.4 19.55024.2塔吊机构参数： 回转机构：0~0.8r/m 行走机构：18m/minM125/75塔身截面：4×4米底架：10×10米（行走式）塔身节主要构件重量：固定脚（预埋节）：1.79米（0.78吨×4）；标准节：5.7米（7.285吨）；加强节：5.7米（8.5吨）； 平衡臂：24米（24.592吨）； 过渡节：6米（5.467吨）； 套架总成：（31.455吨）；回转总成：（23.5吨）；最大自由高度基础受力（吨）：P=295.4T起重性能：塔头：（4.449吨）。

DMI 553Digital Measuring Instrumentfor AC and DCDatasheetGeneral DescriptionHigh Voltage measurements are done by connecting a specialized voltmeter (like the DMI 553) to the secondary unit of a voltage divider or to a current to voltage transducer (like a shunt).The DMI 553 has been developed to measure, record and visualize events during dielectric and breakdown tests in high voltage applications according to IEC 61083-3:2020.Measured values are shown as large digits on the computer screen using Haefely CaMS software. In addition, for pass/fail criteria during dielectric tests, Peak by √2 voltage is recorded & last value before breakdown is shown. Graphical indications as scope function, FFT, datalogger or flash detetion are included.To facilitate easy comprehension, voltage divider ratio or shunt conversion factor (A/V) can be incorporated in the calculation to display parameters directly in kV or A Fiber optic connection guarantees galvanic isolation between the operator and high voltage test lab, increasing safety.The DMI can generate reports based on templates which can be printed or saved as PDF. Snapshots of the display or charts can be easily included in the reports..▪Designed to measure voltage and current in high voltage applications. ☑Approved for dielectric tests as per IEC 61083-3– as Peak/√2 is the required measured parameter.▪Measures AC voltage and currents as RMS, Peak and Peak/√2 among others ☑The Peak/√2 required value during dielectric test is measured and recorded.▪Measures DC voltage and currents as Mean, Peak and ripple. ☑One device, 2 applications, same device can be used for AC and DC application.▪Flash detection with voltage indication ☑Exact voltage just before failure is recorded andshown – if a failure arise during the test, failureindication, voltage measured before the flash andwaveshape during the flash is shown and recorderfor further analysis.▪Real time scope and Frequency analysis FFT. ☑Waveshape quality of the signal is continuouslyshown in the screen.▪Additional AC/DC current channel (optional). ☑Voltage and current readings in one singledevice – values can be simultaneously shown andrecorded.▪Computer controlled with Haefely CaMS graphical user interface ☑Reduced training time - Modern SW makes the use of the device easier than ever. Operators can start using the device in minutes.▪Optically decoupled from computer▪Compact, reliable, and EMC hardened design, IP50 ☑The galvanic isolation ensures the full safety of the operating personnel. With the DMI 553 and, there is no electrical connection between the control room and the high voltage test room.▪Portable, Battery operated ☑Systems Voltage/Current Calibration can beeasily done without needs of mains connection. Applications▪High voltage laboratories▪On site high voltage test▪Calibration laboratoriesScope of Supply▪DMI 553 measuring device ▪FiberLink – LC to USB▪20m LC fiber optic cable ▪Battery with charger▪Connection accessories set - perchannel.▪USB stick with software▪Manual (English)▪Quick start guideTechnical DataAC Amplitude ±Peak, ±Peak/√2, RMS fund, Peak AVG, RM, RM Corr, Mean, Peak Factor, Rate of Rise Frequency Fundamental frequencyHarmonics 1…20th individual (Amplitude, Phase, Ratio), THC, THDPeak-hold values Peak Flash, RMS Flash, Rate of Rise FlashDC Amplitude Mean, Ripple, f Ripple, Peak, Rate of RisePeak-hold values Peak Flash, RM Corr Flash, Rate of Rise Flash(1) (External shunt not included)Input voltage 0…400 V pkInput impedance 1 MΩ || 3 pFFrequency DC, 10…600 Hz (Fundamental , 20th Harmonic ; 12 kHz)Accuracy AC(1)±(0.1 % +10 0µV)Accuracy DC(1)±(0.1 % +1 mV)Averaging 100 ms…10 s (selectable)Sampling rate 48.8 kS/sADC resolution 24 bitsRecording depth 500 kPoints of data stream2 Voltage Inputs 2 x BNC 50 Ohm (only one enabled in standard supply).Fiber link adapter Fiber-optic, HARTING connector to Ethernet 10/100 (data) and USB 2.0 (power/data) Computer connection USB 2.0 (in Fiber Link).Digital outputs control Ethernet port (at Fiber Link Adapter) to control an external digital I/O (not included) to generate hardware trigger signals after events (Flash, Trip).Meters Selectable number of meters (measured values)Charts Scope (Waveshape), FFT, Data loggerGraphical Flash (breakdown), Trip (Overvoltage)Operating temperature -20 °C … +55 °CStorage temperature -40 °C … +85 °CHumidity 5 ... 95 % r.h., non-condensingDimensions (W x D x H) 342 x 315 x 86 mm (13.5 x 12.4 x 3.4 in)Weight 1.3 kg (2.9 lb)Protection class IP 50Battery. Lithium-Ion rechargable battery; 11 V DC, 97.2 Wh. Operating time > 8h, charging time < 3hPC min. configuration Minimum: Intel Core i5 (3rd Gen) or better, 4 GB RAM, Ethernet / USB 2.0Recommended: Intel Core i7 (10th Gen) or better, 16 GB RAM, Ethernet / USB 2.0 Operation system Windows 11™, 64-bitGeneral IEC 61083-3 , IEC 60060 Parts.CE conformity EMC Directive 2014/30/EU and RoHS Directive 2011/65/EUGlobal PresenceEuropeHAEFELY AG Birsstrasse 3004052 Basel Switzerland☎+ 41 61 373 4111 *****************ChinaHAEFELY AG Representative Office8-1-602, Fortune Street, No. 67Chaoyang Road, Beijing 100025China☎+ 86 10 8578 8099*****************.cnIndiaHAEFELY India Service OfficeC/o Pfiffner Inst. Transformers Pvt. Ltd176, 178/2 Sarul, ViholiNashik 422 010, India.☎180****4052(tollfree)*****************This document has been drawn up with the utmost care. We cannot, however, guarantee that it is entirely complete, correct or up to date. ©Copyright HAEFELY/ Subject to change without noticeV2023.06。