M29W040B120NZ1中文资料
耗材对照表
EPSON爱普生打印机墨盒型号对照表打印机型号黑色墨盒彩色墨盒STYLUS Color C20 T013052 T014051STYLUS Color C40 T013052 T014051STYLUS Color C41 T038150 T039050STYLUS Color C43 T038150 T039050STYLUS Color C60 T028051 T029051STYLUS Color C63 T046150 T047250 蓝T047350 红T047450 黄STYLUS Color C80 T032150 T032250 蓝T032350 红T032450 黄STYLUS Color C82 T032150 T042250 蓝T042350 红T042450 黄STYLUS Color C83 T046150 T047250 蓝T047350 红T047450 黄STYLUS 200 S020047 S020097STYLUS Color 200 S020047 S020097STYLUS 300 S020031 NA300 STYLUS Color 300 NA S020138310 STYLUS R310 T049150 T049250 蓝T049350 红T049450 黄T049550 淡蓝T049650 淡红400 STYLUS 400 S020039 NA400 STYLUS Color 400 原S020093现为(T050150) 原S020089现为(T052050)440 STYLUS Color 440 原S020187现为(T050150) 原S020191现为(T052050)460 STYLUS Color 460 原S020187现为(T050150) 原S020191现为(T052050)480 STYLUS Color 480 T013052 T014051500 STYLUS Color 500 原S020093现为(T050150) S020097510 STYLUS R510 T049150 T049250 蓝T049350 红T049450 黄T049550 淡蓝T049650 淡红580 STYLUS Color 580 T013052 T014051600 STYLUS Color 600 原S020093现为(T050150) 原S020089现为(T052050)640 STYLUS Color 640 原S020187现为(T050150) 原S020191现为(T052050)660 STYLUS Color 660 原S020187现为(T050150) 原S020191现为(T052050)670 STYLUS Color 670 原S020187现为(T050150) 原S020191现为(T052050)680 STYLUS Color 680 T017051 T018051700 STYLUS Photo 700 原S020093现为(T050150) 原S020110现为T053050710 STYLUS Photo 710 原S020093现为(T050150) 原S020110现为T053050720 STYLUS Photo 720 原S020187现为(T050150) 原S020193现为T053050740 STYLUS Color 740 原S020189现为T051150 原S020191现为(T052050)750 STYLUS Photo 750 原S020187现为(T050150) 原S020193现为T053050790 STYLUS Photo 790 T007051 T008051800 STYLUS 800 S020039 NA800 STYLUS 800 + S020039 NA800 STYLUS Color 800 原S020108现为T051150 原S020089现为T052050810 STYLUS Photo 810 T026051 T027051820 STYLUS 820 S020047 S020049810 STYLUS Photo 830 T026051 T027051850 STYLUS Color 850 原S020108现为T051150 原S020089现为T052050 860 STYLUS Color 860 原S020189现为T051150 原S020191现为(T052050) 870 STYLUS Photo 870 T007051 T008051875 STYLUS Photo 875 T007051 T008051880 STYLUS Color 880 T019051 T020051890 STYLUS Photo 890 T007051 T008051895 STYLUS Photo 895 T007051 T008051900 STYLUS Color 900 T003052 T005051950 STYLUS Color 950 T033150T033250 蓝T033350 红T033450 黄T033550 淡蓝T033650 淡红980 STYLUS Color 980 T003052 T0050511000 STYLUS 1000 S020039 NA1000 STYLUS 1000C S020039 NA1160 STYLUS Color 1160 原S020189现为T051150 原S020191现为(T052050) 1200 STYLUS Photo 1200 原S020187现为(T050150) T0010511270 STYLUS Photo 1270 T007051 T0090511290 STYLUS Photo 1290 T007051 T0090511500 STYLUS 1500 / 1500C S020062 S0200491520 STYLUS Color 1520 原S020108现为T051150 原S020089现为T052050 2000 STYLUS Color 2000 原S020189现为T051150 原S020191现为(T052050) 2100 STYLUS P2100 T034150T034250 黄T034350 红T034450 蓝T034550 淡红T034650 淡蓝T034750 淡黑T034850 消黑2500 STYLUS Color 2500 原S020189现为T051150 原S020191现为(T052050) 3000 STYLUS Color 3000 S020118S020122 黄S020126 红S020130 蓝5000 STYLUS Pro 5000 S020118S020122 黄S020126 红S020130 蓝S020143 淡红S020147 淡蓝5100 STYLUS CX5100 T032150T042250 蓝T042350 红T042450 黄STYLUS Photo 原S020093现为T050150 原S020110现为T053050EX STYLUS Photo EX 原S020093现为T050150 原S020110现为T053050 EX2 STYLUS Photo EX2 原S020093现为T050150 原S020110现为T053050 EX3 STYLUS Photo EX3 原S020187现T050150 原S020193现T053050XL STYLUS PRO / PRO XL S020034 S020036XL STYLUS PRO XL+ S020034 S020066II STYLUS Color II / IIS S020047 S020049EPSON爱普生打印机硒鼓/碳粉型号对照表EPL-2020 成像盒(S051090)EPL-N2500/N2500N 成像盒(S051090)大容量纸盒C802002双面打印单元C813982 Ethernet 10/100 Base Tx C823914EPL-6200 碳粉盒C13S050167 C13S050166 成像单元(C13S051099)EPL-6200L 碳粉盒(C13S050167) 成像单元(C13S051099)Aculaser-C900碳粉盒(黑色)S050100 碳粉盒(黄色)S050097碳粉盒(洋红色)S050098 碳粉盒(青色)S050099成像盒S051083 废碳粉收集器S050101 传送带单元S053009Aculaser-C1900 碳粉盒(黑色)S050100 碳粉盒(黄色)S050097碳粉盒(洋红色)S050098 碳粉盒(青色)S050099成像盒S051083 废碳粉收集器S050101 传送带单元S053009Aculaser-C4000 碳粉盒(黑色)C13S050091 碳粉盒(黄色)C13S050088碳粉盒(洋红色)C13S050089 碳粉盒(青色)C13S050090成像单元C13S051081 传送带单元S053006 加热组件S053007Aculaser-C4100 碳粉盒(黄色) C13S050148 碳粉盒(洋红色) C13S050147碳粉盒(青色) C13S050146 碳粉盒(黑色) C13S050149 成像单元C13S051093 加热组件C13S053012 传送带单元C13S053006Aculaser-C7000 粉盒(黄)S050039/S050079 粉盒(洋红)S050040/S050080 粉盒(青)S050041/S050081 粉盒(黑)S050038/S050082 成像盒S051082 废粉收集器S050020Aculaser-C8600粉盒(黄) S050039/S050079 粉盒(洋红) S050040/S050080粉盒(青) S050041/S050081 粉盒(黑) S050038/S050082成像盒S051082 废粉收集器S050020EPL-5700展业星碳粉盒SO50010 成像盒S051055EPL-5700L展业星(超值型) 碳粉盒SO50010 成像盒S051055EPL-5800展业星(超强型) 碳粉盒SO50010 成像盒S051055EPL-5800L 碳粉盒S050010 成像盒S051055EPL-5900 碳粉盒S050087 成像盒S051055EPL-5900L 碳粉盒S050087 成像盒S051055EPL-C8000创先机粉盒(黄) S050016粉盒(洋红) S050017 粉盒(青) S050018 粉盒(黑) S050019成像盒S051061 定影器油辊S052002 废粉收集器S050020EPL-C8200创先机(第二代) 粉盒(黄)S050016 粉盒(洋红) S050017 粉盒(青) S050018 粉盒(黑)S050019 成像盒S051061EPL-N1610天网通成像盒6,000页2 S051069EPL-N2000K 碳粉盒S051035EPL-N2010智网通成像盒S051069EPL-N4000+商捷通成像盒S051060EPL-N1210 成像盒S051069Aculaser-C1000 碳粉盒(黑色) S050033 碳粉盒(黄色) S050034碳粉盒(洋红色) S050035 碳粉盒(青色) S050036成像盒(包括废粉收集器) S051072Aculaser-C2000碳粉盒(黑色) S050033 碳粉盒(黄色) S050034 碳粉盒(洋红色) S050035碳粉盒(青色) S050036 成像盒(包括废粉收集器) S051072加热组件(220V) S053003 定影器油辊S052003废粉收集器S050037 传送带单元S053001Aculaser-C8500粉盒(黄) S050039 粉盒(青) S050081(新)/S050041(旧)粉盒(洋红) S050080(新)/S050040(旧)粉盒(黑) S050038成像盒S051073 废粉收集器S050020EPL-1220 S051079EPL-N2120 S051077EPL-6100 碳粉盒S050087、S050095 成像盒S051055EPL-6100L碳粉盒S050087、S050095 成像盒S051055超能复印打印机EPSON STYLUS CX5100 黑色墨盒T0321 彩色墨盒T0422/T0423/T0424EPSON STYLUS CX3100 黑色墨盒T028 彩色墨盒T029Stylus Photo RX510 黑色墨盒T0491 彩色墨盒T0492 / T0493 / T0494 / T0495 / T0496 StylusScan2500 黑色墨盒S020189 彩色墨盒S020191HP 耗材型号对照表一、HP 黑白激光打印机型号对应耗材型号HP 1000 HP C7115AHP 1012 HP Q2612AHP 1100 HP C4092AHP 1150 HP Q2624A 、HP Q2624XHP 1200 HP C7115AHP 1300 HP Q2613AHP 2100 HP C4096AHP 2200 HP C4096AHP 2300 HP Q2610AHP 4 Plus/m Plus HP 92298X、HP 92298A HP 4/4m HP 92298X、HP 92298AHP 4000 HP C4127A 、HP C4127XHP 4050 HP C4127A 、HP C4127XHP 4100 HP C8061A、HP C8061XHP 4200 HP Q1338AHP 4300 HP Q1339AHP 4L/mL HP 92274AHP 4p/mp HP 92274AHP 4si HP 92291A、HP 92291XHP 4v/mv HP C3900AHP 5/m/n HP 92298X、HP 92298AHP 5000 HP C4129XHP 5100 HP C4129XHP 5L HP C3906AHP 5p/mp HP C3903AHP 5si HP C3909A、HP C3909XHP 6L HP C3906AHP 6p/mp HP C3903AHP 8000 HP C3909A、HP C3909XHP 8150 HP C4182XHP 9000 HP C8543XHP IId HP 92295AHP III HP 92295AHP IIId、IIIp HP 92295AHP IIIsi HP 92291AXHP IIp Plus HP 92275AHP IIp、Series II HP 92275A二、HP 彩色激光打印机型号对应耗材型号HP 1500 /2500 黑(C9700A) 青(C9701A) 成像鼓(C9704A) 品红(C9703A) 黄(C9702A)HP 3500 青(Q2671A) 品红(Q2673A) 黄(Q2672A) 黑(Q2670A)HP 3700 黑(Q2670A) 青(Q2681A) 品红(Q2683A) 黄(Q2682A)HP 4500/4550 黑(C4191A) 青(C4192A) Drum Kit (C4195A) Fuser Kit/110-volt (C4197A)Fuser Kit/220-volt (C4198A) 品红(C4193A) 传输单元(C4196A) 黄Toner Cart (C4194A)HP 4600 黑(C9720A) 青(C9721A) 成像传输单元(C9724A) 品红(C9723A) 黄(C9722A)HP 5/5m 青(C3102A) 品红(C3104A) 黄(C3103A) Color LJet (C3968A)HP 5500 黑(C9730A) 青(C9731A) 成像Fuser Kit/110-volt (C9735A)成像传输单元(C9734A) 品红(C9733A) 黄(C9732A)HP 8500/8550 黑(C4149A) 青(C4150A) Drum Kit (C4153A)品红(C4151A) 传输单元(C4154A) 黄(C4152A)HP 9500 黑(C8560A) 青(C8561A) 青(C8551A) 传输单元(C8555A)品红(C8553A) 黄(C8562A)三、HP 彩色喷墨打印机型号对应耗材型号HP 2000c 黑墨(C4844A) 青墨(C4841A) 红墨(C4843A) 黄墨(C4842A)HP 2500c Pro 黑墨(C4844A) 青墨(C4841A) 红墨(C4843A) 黄墨(C4842A)HP 1100 青墨(C4836AN) 红墨(C4837AN) 黄墨(C4838AN)HP 2200/2250 黑墨(C4844A) 红墨(C4843A) 黄墨(C4842A) 青墨(C4836AN) 红墨(C4837AN) 黄墨(C4838AN)HP 2230/2280 黑墨(C4844A) 青墨(C4836AN) 红墨(C4837AN) 黄墨(C4838AN)HP 2300/2600 黑墨(C4844A) 青墨(C4836AN) 红墨(C4837AN) 黄墨(C4838AN)HP 3000 黑墨(C4844A) 青墨(C4804A) 红墨(C4805A) 黄墨(C4806A)HP 彩色Inkjet cp1160 黑色打印头(C4920A) 青头(C4921A) 红头(C4922A) 黄头(C4923A)HP 彩色Inkjet cp1700 黑墨(C4844A) 青墨(C4836AN) 红墨(C4837AN) 黄墨(C4838AN)HP Dj1000c 三色墨盒(51641A) 黑墨(51645A)HP Dj1100c 三色墨盒(51641A) 黑墨(51645A)HP Dj1120c 三色墨盒(C1823D) 三色墨盒2 pack (C1823T) 黑墨(51645A)HP Dj1200c 黑墨(51640A) 青墨(51640C) 红墨(51640M) 黄墨(51640Y)HP Dj1220c 黑墨(C4844A) 黑墨(51645A) 三色墨盒(C6578DN) 三色墨盒/大(C6578AN)HP Dj1600c 青墨(51640C) 红墨(51640M) 黄墨(51640Y) 黑墨(51645A)HP Dj310 三色墨盒(51625A) 黑墨(51626A) 595页黑墨(51633M)HP Dj320 三色墨盒(51625A) 黑墨(51626A) 黑墨(51633M)HP Dj3300 黑墨(C8727AN) 220 页HP Dj340 三色墨盒(51625A) 黑墨(51626A) 黑墨(51633M)HP Dj3400 黑墨(C8727AN) 三色墨盒(C8728AN)HP Dj3520 黑墨(C8727AN) 三色墨盒(C8728AN)HP Dj3550 黑墨(C8727AN) 三色墨盒(C8728AN) 照片墨盒(C6658AN)HP Dj3600 黑墨(C8727AN) 三色墨盒(C8728AN) 照片墨盒(C6658AN)HP Dj3820 黑墨(C6615DN) 三色墨盒(C6578DN) 三色墨盒/大(C6578AN)HP Dj400 三色墨盒(51625A) 黑墨(51626A) 黑墨(51633M)HP Dj420 三色墨盒(51625A) 黑墨(51626A) 黑墨(51633M)HP Dj500 三色墨盒(51625A) 黑墨(51626A)HP Dj510 黑墨(51626A)HP Dj5100 黑墨(C8727AN) 三色墨盒(C8728AN) 黑墨(C6656AN) 三色墨盒(C6657AN) 照片墨盒(C6658AN)HP Dj520 黑墨(51626A)HP Dj540 三色墨盒(51625A) 黑墨(51626A)CANON佳能对照表打印机型号对应耗材型CANON KT 佳能EP-KCANON LBP-460/LBP-660/LBP-465/LBP-210/LBP-310 EP-A 硒鼓鼓粉一体CANON FAX L770 佳能FX-1CANON FAX L500/L600/L630 佳能FX-2CANON FAX L250/L280/L380/L388/L350/L200/L350J 佳能FX-3CANON L800/L900 佳能FX-4CANON FC250/FC310/FC330/FC380 佳能E-16CANON FC200/FC210/FC220/FC230/FC240 佳能E-16CANON BX 佳能EP-BIICANON LBP—1760 佳能EP-52硒鼓,每盒打印10000页CANON BJC-8200 BCI-5BK 黑色墨盒BCI-5C兰色墨盒BCI-5M红色墨盒BCI-5Y黄色墨盒BCI-5PC照片兰色BCI-5PM照片红色CANON BJC-600,BJC-600E,BJC-610,BJC-620 BJI-201BK黑BJI-201C兰BJI-201M红BJI-201Y黄CANON BJ-300,BJ-330 BJI-642 黑色墨盒CANON FAX-B210,FAX-B180 BC-20 黑色墨盒,带喷头BC-21E 彩色墨盒CANON BJC-7000,BJC-7100,BJC-8000 BC-60墨盒黑色,900页BC-61E三色墨盒,带喷头BC-62E六色墨盒,带喷头CANON BJC-3000,BJC-6000/6100/6200,BJC-6500 BCI-3eBK黑BCI-3eC兰BCI-3eM 红BCI-3eY黄色墨盒BCI-3ePBK 照片黑色BCI-3ePC照片兰色BCI-3ePM 照片红色BCI-3ePY照片黄色BC-30e黑BC-31e彩BC-32e照片墨盒BC-33e彩色墨盒BC-34e照片墨盒CANON BJC-5000 四色墨盒BC-21e,四色Photo 墨盒BC-22e 和黑色墨盒BC-23CANON BJC-4650,BJC-5500,MPC70 BC-20黑,带喷头BC-21E彩BC-22E彩,带喷头CANON BJC-4200,BJC-4310SP,BJC-4550 BC-20 黑色墨盒,带喷头BC-21E 彩色墨盒BC-22E 彩色,带喷头CANON BJC-400,BJC-4000,BJC-4100 BC-20 黑色墨盒,带喷头BC-21E 彩色墨盒BC-22E 彩色,带喷头CANON BJC-2000SP,BJC-2100SP BC-20 黑色墨盒,带喷头BC-21E 彩色墨盒CANON BJC-240,BJC-250,BJC-255sp,BJC-1000sp BC-03黑BC-05彩BC-06照片CANON BJC-200,BJC-210S,BJC-210SP BC-03 黑色墨盒BC-05彩色墨盒Canon BJ-5 BC-01 黑色墨盒BC-05 彩色墨盒CANON LBP-2000 EP-65 硒鼓CANON LBP-1210 EP-25 硒鼓CANON LBP-800,LBP-810,LBP-1120 EP-22 硒鼓Canon i865 BCI-3eBK黑BCI-6BK黑BCI-6C青BCI-6M品红BCI-6Y黄CANON i560 BCI-3eBK黑BCI-6C青BCI-6M品红BCI-6Y黄色CANON S400,S400SP,S450,S4500,S600 BCI-3eBK黑BCI-3eC兰BCI-3eM 红BCI-3eY黄BCI-3ePBK 照片黑色BCI-3ePC照片兰色BCI-3ePM 照片红色BCI-3ePY照片黄BC-30e黑色墨盒BC-31e彩BC-32e 照片BC-33e彩色墨盒BC-34e照片墨盒CANON i70,i80 BCI-15BK黑色墨盒BCI-15CL彩色墨盒CANON S300,XNUI320,MPC190,S330,MPC200,i475D BCI-24B黑BCI-24C彩CANON i470D,MP360,S200SPX,MP390,i450 BCI-24B黑色墨盒BCI-24C彩色墨盒CANON i255,i355,i455,MPC190s BCI-24B黑色墨盒BCI-24C彩色墨盒CANON i990/i9950 BCI-6BK黑BCI-6C青BCI-6M品红BCI-6Y黄BCI-6PM照片品红BCI-6PC照片青BCI-6R橙墨盒BCI-6G绿墨盒CANON S800/S900/S820D/S830D BCI-6BK黑BCI-6C青BCI-6M品红BCI-6Y黄BCI-6PM照片品红墨盒BCI-6PC照片青色墨盒CANON i950/i950D/i9100 BCI-6BK黑BCI-6C青BCI-6M品红BCI-6Y黄BCI-6PM照片品红墨盒BCI-6PC 照片青色墨盒CANON BJC-80,BJC-85,BJC-85W BC-10黑BC-11彩BC-11e彩BC-12e照片墨盒BCI-10BK黑BCI-11BK 黑BCI-11C彩CANON BJ-30,BJC-50,BJC-55 BC-10黑BC-11彩BC-11e彩BC-12e照片墨盒BCI-10BK黑色墨盒BCI-11BK黑色墨盒BCI-11C彩色墨盒CANON BJC-1000SP BC-03黑色墨盒BC-05彩色墨盒BC-06照片墨盒CANON BJC-5500 BC-20黑BC-21e彩BC-22e照片BCI-21B黑BCI-21C彩CANON S100SP/BJC-4650 BC-20黑BC-21e彩BC-22e照片BCI-21B黑BCI-21C彩CANON BJC-2100SP BC-20黑BC-21e彩BC-22e照片BCI-21B黑BCI-21C彩SAMSUNG三星打印机耗材对照表打印机型号对应墨盒/硒鼓SCX-5112/5312F/5115/5315FSF-830,ML-912 硒鼓SCX-5312D6或SCX-5315R2ML-1650/1651N 硒鼓ML-1650D8SF-555P 硒鼓SF-550D3ML-5200A 硒鼓ML-5200D6ML-2150/2151N/2152W 硒鼓ML-2150D8ML-1440,1450,1451N 硒鼓ML-1450D6SF-5800 硒鼓SF-5800D5ML-808; SF-5100/5100P; SF-530/550 硒鼓ML-5100D3ML-4500 硒鼓ML-4500D3 3,000页SCX-4016/4116/4216F 硒鼓ML-1710D3ML-1510/1710/1750 硒鼓ML-1710D3ML-1210,1220M,1430,1250 硒鼓ML-1210D3SCX-1300/1350F,MJC-6000 黑色墨盒M90 彩色墨盒C90 照片墨盒P90MJC-4000/5000/6000/ SCX-1220 黑色墨盒M85 220页彩色墨盒C85SF-350 黑色墨盒M55(大容量)SF3100/SF3200系列,SF-430 黑墨M50 彩C50 或黑墨利盟1970 彩墨利盟15M0020传真机SF-330/331P/335T 黑色墨盒M40 彩色墨盒C40SF3000/3100/3100P/4000/4100/4200 黑色墨盒12A1145 彩色墨盒12A1140。
Kawasaki Robot 产品说明书.pdf_1702025502.6104956
ISO certi ed in Akashi Works and Nishi-Kobe Works.Small-to-medium robotsup to 80kg payloadRS series BXP seriesBX/BT seriesMedical & pharmaceutical robots Wafer transfer robotsNTS series TTS seriesPicking robotsYF seriesLarge robots up to 300kg payloadZX seriesMS series MC seriesBA series RA seriesArc welding robotsExplosion-proofpainting robotsK series BU seriesSealing robotsCP series RD seriesPalletizing robotsDual-armCollaborative robotsduAro seriesExtra large robotsup to 1,500kg payloadM series02 01RS007NRS030NRS050NRS080NRS013N0403BX100NBT165L / BT200LweldingseriesSlim design and small footprint forLarge robots up to 300kg payload0605ZX165UseriesSpot weldingHigher speed thanks to new F series controller.Wide range of applications for everySuitable for harsh environment thanksto wrist motors located at the shoulder.BXP110LLarge robots up to 300kg payloadLarge robots up to 300kg payloadBXP series BXP110LBXP135XBXP210L0807duAro seriesCollaborative robotsMG15HLseriesMax. payload of 1,500kg suitable forheavy workpieces, e.g. cast iron.Dynamic, yet accurate operations dueto high positioning repeatability.Slim body without a counter weight,allowing for a wide motion range and duAro1duAro2up to 1,500kg payloadSpace-saving without safety With its two arms, duAro can perform as ef cient tasks as Easy programming using a Collaborative robots*2: Max. working range varies depending on the load mass and load torque1009KJ264BU015XWide range of lineup for painting small parts to largeHollow wrist to prevent painting defects due to paint mist.Packaged painting systems for an easy and quick installationReduced interferences thanks to the symmetric armPainting of wider range because of long reach andJT6RollJT6RollJT5Roll JT5Bend JT4Roll3RKF193 / KF194 / KF263 /KF264 / KJ125 / KJ155 /KJ194 / KJ244 / KJ264 /KJ3141211CP700LRA Arc weldingBA006NRA010NRD080N1413YF003N MC004NMS005N NTS20TTS20YF TTS 1615By making use of 3D models of the facilities and workpieces,robot programming and simulations can easily be performed onthe PC.Off-line veri cation in advance reduces the risk of problems atthe time of start up of robot systems.It can recognize randomly stacked irregular objects.In a palletizing and de-palletizing process, objects canbe identi ed automatically without prior registration ofobjects' data.Putting a limit on the robot motion range and monitoring the speed,force and collision assures operators' safety.Limits on the motion range provides the robot system with saferoperation and space-saving.Compliant with ISO 10218-1, 13849-1 (PLd/Category 3) andIEC61508 (SIL2).Off-line programming toolKawasaki's original AS language is a versatile, multi-functional robot programming language thatsupports monitor instructions, programming commands and functions.It enables programming with high-level operation and sequence controls. The AS language is equippedstandard with all the Kawasaki robots2D Vision system3D vision systemRobot monitoring function for safetyDetection of the present object position in synchronizingwith a conveyor.Compensation of the gripping position by xed or handcameras.Automated creation and veri cationof the robot operation program.Read-in of theworkpieceLimiting the motion range accordingto operator's working area.Simultaneous simulation of multiplerobots is possible.Overall support of the robot system over thelife cycle time is provided for safety on theproduction.All-time monitoring and collection ofo p e r a t i o n d a t a e na b l e s p r e v e n t i v emaintenance. K-COMMIT for life cyclesupport is targeted to achieve no down-time.Full-service service packagewith state-of-art technologybased on the robot condition.It can discern randomly stacked objects.High-loadrobotLow-loadrobotCondition BasedMaintenanceAS languageOptionOptionOptionOptionOptionIt is possible to recognize both regular objects (e.g. PCB holes) and irregular objects (e.g. food materials).Without using a complicated indexing device, object's precise position can accurately be identi ed.F controllersE controllersDegrees of protectionThe E0x controllers are extremely compact.They are designed for the universal use of different powersupply voltages with optional transformer units.Explosion-proof E controllersExplosion-proof type controllers are used with paintingrobots.The explosion-proof teach pendant can also be used insidethe painting booth.Dimensions and weight have been reduced from itsprevious E-controller.This universal controller has common speci cations thatcan be used globally.(An optional transformer unit is necessary in the regionwhere the power supply and safety standard differ.)Universal controller has common speci cations to be usedworldwide.Drastic downsizing has achieved very compact dimensionsand light weight (8.3kg).It is easy for a person to carry the controller.E01/02/03/04F60F01/02/03/042518 17。
29400资料
PRELIMINARY
(February, 2001, Version 0.1)
1
AMIC Technology, Inc.
元器件交易Hale Waihona Puke
A29400 Series
The host system can detect whether a program or erase operation is complete by reading the I/O7 ( Data Polling) and I/O6 (toggle) status bits. After a program or erase cycle has been completed, the device is ready to read array data or accept another command. The sector erase architecture allows memory sectors to be erased and reprogrammed without affecting the data contents of other sectors. The A29400 is fully erased when shipped from the factory. The hardware sector protection feature disables operations for both program and erase in any combination of the sectors of memory. This can be achieved via programming equipment. The Erase Suspend feature enables the user to put erase on hold for any period of time to read data from, or program data to, any other sector that is not selected for erasure. True background erase can thus be achieved. Power consumption is greatly reduced when the device is placed in the standby mode. The hardware RESET pin terminates any operation in progress and resets the internal state machine to reading array data.
2011-07-28康菱各系列发动机发电机型号说明
发展代号
发电用途(C:工程机械、M:船用)
排量:780立方英寸(12.8L) 中冷进气 AFTER COOLER 增压进气 TURBO CHANGE 系列号:P、Q
编产品辑系标列-题重庆科克(GOOGOL)
1.
康菱-HG重庆googol系列
2.
机组备用功率:220kW-2640kW
1004T-G
发电用途(C:工程机械、M:船用) 增压进气 TURBO CHANGE 1000系列,缸数4
编产品辑系标列-题韩国斗山大宇(DOOSAN)
1. 康菱-HD斗山大宇系列 2. 机组备用功率:150kW-620kW 3. 柴油机产地:韩国斗山集团 4. 柴油机系列: 5. P086 / P126 / P158 / P180 / P222
12. 4008TAG2A 13. 4012-46TWG2A 、G3A 、G4A 14. 4012-46TAG2A 、G3A 15. 4016TWG2 、4016TAG 、4016TAG1A 、G2A 、4016-61TRG3
2806C-E18TAG1A
发展代号:1/ 2 G:发电用途 A:空气中冷 T:增压进气 18:排量 18L / 15L / 13L E:电喷 C:排放受控 缸数 2800系列、2200、2500系列
N T A 855-G 1
发展代号 发电用途(C:工程机械、M:船用) 排量:855立方英寸(14L)\ 19L\ 38L 中冷进气 AFTER COOLER 增压进气 TURBO CHANGE 系列号:N、K、M、QSK
编产品辑系标列-题东风康明斯(CUMMINS)
1. 康菱-HC东风康明斯系列 2. 机组备用功率:22kW-220kW 3. 柴油机产地:湖北 4. 柴油机系列: 5. 4B3.9-G2、4BT3.9-G2、4BTA3.9-G2 6. 6BT5.9-G2、6BTA5.9-G2 、6BTAA5.9-G2 7. 6CTA8.3-G2 8. 6CTAA8.3-G2 9. 6LTAA8.9-G2
JMGPM 25 M9BW 30 通用接线器型号说明文档说明书
JMGPM 25M9BW30Port thread typeNil M thread ø12 to ø32Rc ø40 to ø100TN NPT TFGTypeSpecial functionElectrical entryI n d i c a t o r l i g h tWiring (Output)Load voltage Auto switch model Lead wire length [m]Pre-wiredconnector Applicable load DCACPerpendicularIn-line0.5(Nil)1(M)3(L)5(Z)S o l i d s t a t e a u t o s w i t c h———Grommet Yes 3-wire (NPN)24 V5 V, 12 V —M9NV M9N V V V v v IC circuit Relay, PLC3-wire (PNP)M9PV M9P V V V v v 2-wire12 V M9BV M9B V V V v v —Diagnostic indication (2-color indicator)3-wire (NPN)5 V, 12 V M9NWV M9NW V V V v v IC circuit 3-wire (PNP)M9PWV M9PW V V V v v 2-wire 12 V M9BWV M9BW V V V v v —Water resistant (2-color indicator)3-wire (NPN) 5 V, 12 V M9NAV ∗∗M9NA ∗∗v v V v v IC circuit 3-wire (PNP)M9PAV ∗∗M9PA ∗∗v v V v v 2-wire12 VM9BAV ∗∗M9BA ∗∗vvVvv—Applicable Auto Switches /Refer to the WEB catalog or Best Pneumatics for further information on auto switches.∗ Lead wire length symbols: 0.5 m………… N il (Example) M9NW 1 m………… M (Example) M9NWM 3 m………… L (Example) M9NWL 5 m………… Z (Example) M9NWZ∗ For details about auto switches with pre-wired connector, refer to the WEB catalog or Best Pneumatics.∗ Auto switches are shipped together, (but not assembled).∗ Solid state auto switches marked with “v ” are produced upon receipt of order.∗∗ Water resistant type auto switches can be mounted on the above models, but in such case SMC cannot guarantee water resistance.Please contact SMC regarding water resistant types with the above model numbers.How to OrderCylinder stroke [mm]Refer to “Standard Strokes” on page 4.Bearing type MSlide bearingBore size1210 mm x 21612 mm x 22016 mm x 22520 mm x 23225 mm x 24032 mm x 25040 mm x 26345 mm x 28056 mm x 210071 mm x 2Auto switchNilWithout auto switch (Built-in magnet)∗ For applicable auto switches, refer to the table below.Number of auto switchesNil 2S 1nnCompactGuide CylinderJMGP Seriesø12, ø16, ø20, ø25, ø32, ø40, ø50, ø63, ø80, ø1003Standard StrokesOUTIN[N]Bore size [mm]Rod size [mm]Operating directionPiston area[mm 2]Operating pressure [MPa]0.20.30.40.50.60.7ø12(ø10 x 2)6OUT 1573147637994110IN 101203040506070ø16(ø12 x 2)6OUT 226456890113136158IN 17034516885102119ø20(ø16 x 2)8OUT 40280121161201241281IN 3026090121151181211ø25(ø20 x 2)10OUT 628126188251314377440IN 47194141188236283330ø32(ø25 x 2)12OUT 982196295393491589687IN 756151227302378453529ø40(ø32 x 2)16OUT 16083224836438049651126IN 1206241362483603724844ø50(ø40 x 2)18OUT 25135037541005125715081759IN 2004401601802100212031403ø63(ø45 x 2)20OUT 31816369541272159019092227IN 25535117661021127615321787ø80(ø56 x 2)25OUT 492698514781970246329563448IN 394478911831578197223672761ø100(ø71 x 2)30OUT 7918158423763167395947515543IN 6505130119512602325239034553Note) Theoretical output [N] = Pressure [MPa] x Piston area [mm 2]Theoretical OutputSpecificationsBore size [mm]Standard stroke [mm]ø12 (ø10 x 2)ø16 (ø12 x 2)10, 20, 30, 50, 100ø20 (ø16 x 2)ø25 (ø20 x 2)20, 30, 50, 100, 150ø32 (ø25 x 2)ø40 (ø32 x 2)ø50 (ø40 x 2)ø63 (ø45 x 2)ø80 (ø56 x 2)ø100 (ø71 x 2)25, 50, 100, 150, 200∗ Intermediate strokes are available as a special order.Bore size [mm]ø12(ø10 x 2)ø16(ø12 x 2)ø20(ø16 x 2)ø25(ø20 x 2)ø32(ø25 x 2)ø40(ø32 x 2)ø50(ø40 x 2)ø63(ø45 x 2)ø80(ø56 x 2)ø100(ø71 x 2)Action Double actingFluidAir Proof pressure1.05 MPa Maximum operating pressure 0.7 MPa ∗1Minimum operating pressure 0.15 MPa Ambient and fluid temperature 5 to 60°CPiston speed Note)∗50 to 300 mm/s ∗150 to 250 mm/s ∗1Cushion Rubber bumper on both ends LubricationNot required (Non-lube)Stroke length tolerance+1.50mmNote) Maximum speed with no load∗ Depending on the system configuration selected, the specified speed may not be satisfied.∗1 Maximum operating pressure and piston speed are different from the current product (MGP series).[kg]Bore size [mm]Stroke [mm]1020253050100150200ø12 (ø10 x 2)0.090.12—0.140.190.30——ø16 (ø12 x 2)0.100.13—0.150.200.32——ø20 (ø16 x 2)—0.21—0.250.330.530.72—ø25 (ø20 x 2)—0.28—0.330.430.680.92—ø32 (ø25 x 2)——0.60—0.77 1.11 1.44 1.78ø40 (ø32 x 2)——0.80— 1.07 1.62 2.16 2.70ø50 (ø40 x 2)—— 1.27— 1.63 2.36 3.09 3.82ø63 (ø45 x 2)—— 1.60— 2.03 2.89 3.74 4.60ø80 (ø56 x 2)—— 2.81— 3.47 4.79 6.127.44ø100 (ø71 x 2)——4.48— 5.407.229.0510.87WeightSymbolRubber bumperRefer to pages 10 and 11 for cylinders with auto switches.·Auto switch proper mounting position (detection at stroke end) and mounting height·Minimum stroke for auto switch mounting ·Operating range·Auto switch mounting4Compact Guide CylinderJMGP Series。
YASKAWA MP900 2000系列 说明书
图标的说明为使读者了解说明内容的区分本书中设计了如下图标并在必要的地方使用这些图标以助读者理解表示需要熟记的重要事项同时也表示发生警报但还不至于造成装置损坏的注意事项表示具体程序举例操作实例表示补充事项或记住后会便于使用的功能表示对难于理解的用语进行解释以及对事先没有说明而后出现的用语进行说明Copyright 2004株式会社 安川电机未经本公司的书面许可禁止转载或复制本书的一部分或全部内容目录图标的说明- - - - - - - - - - - - - - - - - - - - - - - - - -iii本手册的简介- - - - - - - - - - - - - - - - - - - - - - - - viii本手册的资料构成- - - - - - - - - - - - - - - - - - - - - - viii相关手册- - - - - - - - - - - - - - - - - - - - - - - - - - - ix本手册的使用方法- - - - - - - - - - - - - - - - - - - - - - - xi关于软件- - - - - - - - - - - - - - - - - - - - - - - - - - - xi 1章 梯形图指令1.1 继电器电路指令 - - - - - - - - - - - - - - - - - - -1-41.1.1 A触点指令(NOC) - - - - - - - - - - - - - - - - - - - - - -1-41.1.2 B触点指令(NCC) - - - - - - - - - - - - - - - - - - - - - -1-51.1.3 接通延时定时器指令(TON[10ms]) - - - - - - - - - - - - - - -1-51.1.4 断开延时定时器指令(TOFF[10ms])- - - - - - - - - - - - - - -1-71.1.5 接通延时定时器指令(TON[1s]) - - - - - - - - - - - - - - - -1-81.1.6 断开延时定时器指令(TOFF[1s])- - - - - - - - - - - - - - - -1-91.1.7 上升脉冲指令(ON-PLS)- - - - - - - - - - - - - - - - - - - 1-101.1.8 下降脉冲指令(OFF-PLS) - - - - - - - - - - - - - - - - - - 1-121.1.9 线圈指令(COIL)- - - - - - - - - - - - - - - - - - - - - - 1-131.1.10 置位线圈指令(S-COIL)- - - - - - - - - - - - - - - - - - - 1-141.1.11 复位线圈指令(R-COIL)- - - - - - - - - - - - - - - - - - - 1-151.2 数值运算指令 - - - - - - - - - - - - - - - - - - - 1-161.2.1 存储指令(STORE) - - - - - - - - - - - - - - - - - - - - - 1-161.2.2 加法指令(ADD) - - - - - - - - - - - - - - - - - - - - - - 1-181.2.3 加法扩展指令(ADDX)- - - - - - - - - - - - - - - - - - - - 1-201.2.4 减法指令(SUB) - - - - - - - - - - - - - - - - - - - - - - 1-211.2.5 减法扩展指令(SUBX)- - - - - - - - - - - - - - - - - - - - 1-231.2.6 乘法指令(MUL) - - - - - - - - - - - - - - - - - - - - - - 1-241.2.7 除法指令(DIV) - - - - - - - - - - - - - - - - - - - - - - 1-271.2.8 整型余数指令(MOD) - - - - - - - - - - - - - - - - - - - - 1-291.2.9 实型余数指令(REM) - - - - - - - - - - - - - - - - - - - - 1-301.2.10 增量指令(INC) - - - - - - - - - - - - - - - - - - - - - - 1-311.2.11 减量指令(DEC) - - - - - - - - - - - - - - - - - - - - - - 1-321.2.12 时间加法指令(TMADD) - - - - - - - - - - - - - - - - - - - 1-331.2.13 时间减法指令(TMSUB) - - - - - - - - - - - - - - - - - - - 1-351.2.14 时间经过指令(SPEND) - - - - - - - - - - - - - - - - - - - 1-371.2.15 符号取反指令(INV) - - - - - - - - - - - - - - - - - - - - 1-391.2.16 1的补码指令(COM) - - - - - - - - - - - - - - - - - - - - 1-411.2.17 绝对值转换指令(ABS) - - - - - - - - - - - - - - - - - - - 1-421.2.18 2进制转换指令(BIN) - - - - - - - - - - - - - - - - - - - 1-441.2.19 BCD转换指令(BCD) - - - - - - - - - - - - - - - - - - - - 1-451.2.20 校验转换指令(PARITY)- - - - - - - - - - - - - - - - - - - 1-461.2.21 ASCII码转换1指令(ASCII) - - - - - - - - - - - - - - - - 1-471.2.22 ASCII码转换2指令(BINASC)- - - - - - - - - - - - - - - - 1-491.2.23 ASCII码转换3指令(ASCBIN)- - - - - - - - - - - - - - - - 1-501.3 逻辑运算/比较指令 - - - - - - - - - - - - - - - -1-511.3.1 逻辑与指令(AND)- - - - - - - - - - - - - - - - - - - - - -1-511.3.2 逻辑或指令(OR) - - - - - - - - - - - - - - - - - - - - - -1-521.3.3 逻辑异或指令(XOR)- - - - - - - - - - - - - - - - - - - - -1-531.3.4 比较指令()- - - - - - - - - - - - - - - - - - - - - - -1-541.3.5 比较指令(≦)- - - - - - - - - - - - - - - - - - - - - - -1-551.3.6 比较指令()- - - - - - - - - - - - - - - - - - - - - - -1-561.3.7 比较指令()- - - - - - - - - - - - - - - - - - - - - - -1-571.3.8 比较指令(≧)- - - - - - - - - - - - - - - - - - - - - - -1-581.3.9 比较指令()- - - - - - - - - - - - - - - - - - - - - - -1-591.3.10 范围检查指令(RCHK) - - - - - - - - - - - - - - - - - - - -1-60 1.4 程序控制指令 - - - - - - - - - - - - - - - - - - -1-631.4.1 图调用指令(SEE)- - - - - - - - - - - - - - - - - - - - - -1-631.4.2 运动程序调用指令(MSEE) - - - - - - - - - - - - - - - - - -1-641.4.3 函数调用指令(FUNC) - - - - - - - - - - - - - - - - - - - -1-651.4.4 连续执行型直接输入指令(INS)- - - - - - - - - - - - - - - -1-661.4.5 连续执行型直接输出指令(OUTS) - - - - - - - - - - - - - - -1-691.4.6 扩展程序执行指令(XCALL)- - - - - - - - - - - - - - - - - -1-711.4.7 WHILE指令(WHILE END_WHILE)- - - - - - - - - - - - - - - -1-721.4.8 IF指令(IF END_IF) - - - - - - - - - - - - - - - - - - - -1-741.4.9 IF指令(IF ELSE END_IF) - - - - - - - - - - - - - - - - -1-761.4.10 FOR指令(FOR END_FOR)- - - - - - - - - - - - - - - - - - -1-781.4.11 EXPRESSION指令(EXPRESSION) - - - - - - - - - - - - - - - -1-80 1.5 基本函数指令 - - - - - - - - - - - - - - - - - - -1-811.5.1 平方根指令(SQRT) - - - - - - - - - - - - - - - - - - - - -1-811.5.2 正弦指令(SIN)- - - - - - - - - - - - - - - - - - - - - - -1-831.5.3 余弦指令(COS)- - - - - - - - - - - - - - - - - - - - - - -1-851.5.4 正切指令(TAN)- - - - - - - - - - - - - - - - - - - - - - -1-871.5.5 反正弦指令(ASIN) - - - - - - - - - - - - - - - - - - - - -1-881.5.6 反余弦指令(ACOS) - - - - - - - - - - - - - - - - - - - - -1-891.5.7 反正切指令(ATAN) - - - - - - - - - - - - - - - - - - - - -1-901.5.8 指数指令(EXP)- - - - - - - - - - - - - - - - - - - - - - -1-921.5.9 自然对数指令(LN) - - - - - - - - - - - - - - - - - - - - -1-931.5.10 常用对数指令(LOG)- - - - - - - - - - - - - - - - - - - - -1-94 1.6 数据操作指令 - - - - - - - - - - - - - - - - - - -1-951.6.1 位循环左移指令(ROTL) - - - - - - - - - - - - - - - - - - -1-951.6.2 位循环右移指令(ROTR) - - - - - - - - - - - - - - - - - - -1-971.6.3 位传送指令(MOVB) - - - - - - - - - - - - - - - - - - - - -1-991.6.4 字传送指令(MOVW) - - - - - - - - - - - - - - - - - - - - 1-1011.6.5 替换传送指令(XCHG) - - - - - - - - - - - - - - - - - - - 1-1031.6.6 表初始化指令(SETW) - - - - - - - - - - - - - - - - - - - 1-1051.6.7 字节字展开指令(BEXTD)- - - - - - - - - - - - - - - - - 1-1071.6.8 字字节压缩指令(BPRESS) - - - - - - - - - - - - - - - - 1-1091.6.9 数据检索指令(BSRCH)- - - - - - - - - - - - - - - - - - - 1-1111.6.10 分类指令(SORT) - - - - - - - - - - - - - - - - - - - - - 1-1131.6.11 位左移指令(SHFTL)- - - - - - - - - - - - - - - - - - - - 1-1141.6.12 位右移指令(SHFTR)- - - - - - - - - - - - - - - - - - - - 1-1161.6.13 字复制指令(COPYW)- - - - - - - - - - - - - - - - - - - - 1-1171.6.14 字节交换指令(BSWAP)- - - - - - - - - - - - - - - - - - - 1-1191.7 DDC指令- - - - - - - - - - - - - - - - - - - - - -1-1211.7.1 死区A指令(DZA) - - - - - - - - - - - - - - - - - - - - -1-1211.7.2 死区B指令(DZB) - - - - - - - - - - - - - - - - - - - - -1-1231.7.3 上下限值指令(LIMIT) - - - - - - - - - - - - - - - - - - -1-1251.7.4 PI控制指令(PI) - - - - - - - - - - - - - - - - - - - - -1-1281.7.5 PD控制指令(PD) - - - - - - - - - - - - - - - - - - - - -1-1311.7.6 PID控制指令(PID) - - - - - - - - - - - - - - - - - - - -1-1341.7.7 一阶延迟指令(LAG) - - - - - - - - - - - - - - - - - - - -1-1381.7.8 相位超前滞后指令(LLAG)- - - - - - - - - - - - - - - - - -1-1411.7.9 函数发生器指令(FGN) - - - - - - - - - - - - - - - - - - -1-1441.7.10 反函数发生器指令(IFGN)- - - - - - - - - - - - - - - - - -1-1481.7.11 直线加减速器1指令(LAU) - - - - - - - - - - - - - - - - -1-1521.7.12 直线加减速器2指令(SLAU)- - - - - - - - - - - - - - - - -1-1561.7.13 脉宽调制指令(PWM) - - - - - - - - - - - - - - - - - - - -1-1631.8 表数据操作指令 - - - - - - - - - - - - - - - - - -1-1651.8.1 块调出指令(TBLBR) - - - - - - - - - - - - - - - - - - - -1-1651.8.2 块写入指令(TBLBW) - - - - - - - - - - - - - - - - - - - -1-1671.8.3 行检索指令纵向(TBLSRL)- - - - - - - - - - - - - - - - -1-1691.8.4 列检索指令横向(TBLSRC)- - - - - - - - - - - - - - - - -1-1711.8.5 块清除指令(TBLCL) - - - - - - - - - - - - - - - - - - - -1-1731.8.6 表间块传送指令(TBLMV) - - - - - - - - - - - - - - - - - -1-1751.8.7 Q表调出指令(QTBLR QTBLRI) - - - - - - - - - - - - - - -1-1771.8.8 Q表写入指令(QTBLW QTBLWI) - - - - - - - - - - - - - - -1-1791.8.9 Q指针清除指令(QTBLCL)- - - - - - - - - - - - - - - - - -1-181 2章 系统标准函数指令2.1 信息函数 - - - - - - - - - - - - - - - - - - - - - -2-22.1.1 信息发送函数(MSG-SND) - - - - - - - - - - - - - - - - - - -2-22.1.2 信息接收函数(MSG-RCV) - - - - - - - - - - - - - - - - - - 2-152.2 示踪函数 - - - - - - - - - - - - - - - - - - - - - 2-242.2.1 示踪函数(TRACE) - - - - - - - - - - - - - - - - - - - - - 2-242.2.2 数据示踪调出函数(DTRC-RD) - - - - - - - - - - - - - - - - 2-252.2.3 故障示踪调出函数(FTRC-RD) - - - - - - - - - - - - - - - - 2-282.2.4 变频器示踪调出函数(ITRC-RD) - - - - - - - - - - - - - - - 2-322.3 变频器函数 - - - - - - - - - - - - - - - - - - - - 2-352.3.1 变频器常数写入函数(ICNS-WR) - - - - - - - - - - - - - - - 2-352.3.2 变频器常数调出函数(ICNS-RD) - - - - - - - - - - - - - - - 2-402.4 其他的函数 - - - - - - - - - - - - - - - - - - - - 2-432.4.1 计数函数(COUNTER) - - - - - - - - - - - - - - - - - - - - 2-432.4.2 先进先出函数(FINFOUT) - - - - - - - - - - - - - - - - - - 2-45附录A EXPRESSIONA.1 数式 - - - - - - - - - - - - - - - - - - - - - - - A-2A.1.1 运算符- - - - - - - - - - - - - - - - - - - - - - - - - - - A-2A.1.2 运算对象- - - - - - - - - - - - - - - - - - - - - - - - - - A-4A.1.3 函数- - - - - - - - - - - - - - - - - - - - - - - - - - - - A-4A.2 可识别的表达式种类 - - - - - - - - - - - - - - - - A-5A.2.1 算术运算符- - - - - - - - - - - - - - - - - - - - - - - - - A-5A.2.2 比较运算符- - - - - - - - - - - - - - - - - - - - - - - - - A-5A.2.3 逻辑运算符- - - - - - - - - - - - - - - - - - - - - - - - - A-5A.2.4 赋值运算符- - - - - - - - - - - - - - - - - - - - - - - - - A-6A.2.5 函数- - - - - - - - - - - - - - - - - - - - - - - - - - - - A-6A.2.6 其他- - - - - - - - - - - - - - - - - - - - - - - - - - - - A-6A.3 在梯形图程序中的应用 - - - - - - - - - - - - - - - A-7A.3.1 IF指令句的条件表达式 - - - - - - - - - - - - - - - - - - - A-7A.3.2 WHILE指令句的条件表达式- - - - - - - - - - - - - - - - - - A-7A.3.3 EXPRESSION指令句的运算表达式 - - - - - - - - - - - - - - - A-7本手册的简介本手册详细地说明了支持MP900/MP2000系列(以下称MP系列)的设计与维护的新梯形图编辑器软件的操作方法本手册以充分理解Microsoft Windows 95/98/2000/NT的操作方法的人员为对象关于Windows的打开关闭及鼠标操作Windows应用程序的一般操作等请参阅计算机所附的说明书为了能正确使用新梯形图编辑器请仔细阅读本手册请妥善保管本手册以便需要时参阅本手册的资料构成MP900系列有MP910MP920MP930MP940四种MP2000系列有MP2100和MP2300两种资料构成根据上述产品构成修订相关手册在下一页有介绍敬请参阅相关手册机器控制器MP900/MP2000系列的相关手册包括下表所示的内容请根据需要进行阅读用户手册名资料编号适用机型MP910MP920MP930MP940MP2100MP2300机器控制器MP930用户手册设计与维护篇SI-C887-1.1{机器控制器MP900/MP2000系列用户手册梯形图程序篇SI-C887-1.2{{{{{{机器控制器MP900/MP2000系列用户手册运动程序篇SIZ-C887-1.3{{{{{{机器控制器MP900系列用户手册示教操作器篇SI-C887-1.6{{机器控制器MP920用户手册设计与维护篇SIZ-C887-2.1{机器控制器MP900系列编程装置用软件MPE720用户手册操作说明简易版SIZ-C887-2.3{{{{机器控制器MP920用户手册运动模块篇SIZ-C887-2.5{机器控制器MP920用户手册通讯模块篇SIZ-C887-2.6{机器控制器MP920设置手册EMC 指令用SIBZ-C887-2.50{机器控制器MP910用户手册设计与维护篇SIZ-C887-3.1{机器控制器MP940用户手册设计与维护篇SIZ-C887-4.1{机器控制器MP940设置手册EMC 指令用SIBZ-C887-4.50{机器控制器MP900系列用户手册MECHATROLINK 篇SIZ-C887-5.1{{{{机器控制器MP900系列用户手册260I/F DeviceNet 篇SIZ-C887-5.2{{机器控制器MP900系列MPPanel用户手册SIZ-C887-10.1{{{机器控制器MP900系列MPLogger用户手册SIZ-C887-11.1{{{机器控制器MP900系列MPLoader (Server)用户手册SIZ-C887-12.1{{{机器控制器MP900系列MPLoader (Client)用户手册SIZ-C887-12.2{{{机器控制器MP900/MP2000系列用户手册新梯形图编辑器程序指令篇SIZ-C887-13.1{{{{{{机器控制器MP900/MP2000系列用户手册新梯形图编辑器操作篇SIZ-C887-13.2{{{{{{机器控制器MP2300用户手册基本模块篇SIJPC88070003A{机器控制器MP2300用户手册通讯模块篇SIJPC88070004A{机器控制器MP900/MP2000系列编程装置用用户手册标准版SIJPC88070005A{{{{{{机器控制器MP2100用户手册设计与维护篇SIJPC88070001A{用户手册名资料编号适用机型MP910MP920MP930MP940MP2100MP2300xi本手册的使用方法本手册的使用对象本手册以下列人员为对象进行MP900/MP2000系列系统设计的人员进行MP900/MP2000系列运动程序编程的人员进行MP900/MP2000系列梯形图程序编程的人员缩略语及缩写符号本手册使用如下所示的缩略语及缩写符号PLC机器控制器的总称MPE720编程装置用软件的总称关于软件使用注意事项本软件请在1台特定的电脑上使用需要在其他电脑上使用时请另行购买严禁复制本软件并将其用于编程装置用之外的用途请妥善保管本软件的软盘严禁对本软件进行反编译反汇编未经本公司许可严禁将本软件的一部分或全部转让交换转借给第三者使用注册商标Windows Windows95/98/2000/NT 是美国Microsoft公司的注册商标Pentium 是美国Intel公司的注册商标以太网(Ethernet)是美国Xerox公司的注册商标1-111章梯形图指令本章对继电器电路指令数值运算指令逻辑运算/比较指令程序控制指令基本函数指令数据操作指令DDC 指令以及表数据操作指令进行了说明1章 梯形图指令1.1 继电器电路指令- - - - - - - - - - - - - - - - - - - 1-41.1.1 A 触点指令(NOC) - - - - - - - - - - - - - - - - - - - - - -1-41.1.2 B 触点指令(NCC) - - - - - - - - - - - - - - - - - - - - - -1-51.1.3 接通延时定时器指令(TON[10ms]) - - - - - - - - - - - - - - -1-51.1.4 断开延时定时器指令(TOFF[10ms])- - - - - - - - - - - - - - -1-71.1.5 接通延时定时器指令(TON[1s]) - - - - - - - - - - - - - - - -1-81.1.6 断开延时定时器指令(TOFF[1s])- - - - - - - - - - - - - - - -1-91.1.7 上升脉冲指令(ON-PLS)- - - - - - - - - - - - - - - - - - - 1-101.1.8 下降脉冲指令(OFF-PLS) - - - - - - - - - - - - - - - - - - 1-121.1.9 线圈指令(COIL)- - - - - - - - - - - - - - - - - - - - - - 1-131.1.10 置位线圈指令(S-COIL)- - - - - - - - - - - - - - - - - - - 1-141.1.11 复位线圈指令(R-COIL)- - - - - - - - - - - - - - - - - - - 1-151.2 数值运算指令- - - - - - - - - - - - - - - - - - - -1-161.2.1 存储指令(STORE) - - - - - - - - - - - - - - - - - - - - - 1-161.2.2 加法指令(ADD) - - - - - - - - - - - - - - - - - - - - - - 1-181.2.3 加法扩展指令(ADDX)- - - - - - - - - - - - - - - - - - - - 1-201.2.4 减法指令(SUB) - - - - - - - - - - - - - - - - - - - - - - 1-211.2.5 减法扩展指令(SUBX)- - - - - - - - - - - - - - - - - - - - 1-231.2.6 乘法指令(MUL) - - - - - - - - - - - - - - - - - - - - - - 1-241.2.7 除法指令(DIV) - - - - - - - - - - - - - - - - - - - - - - 1-271.2.8 整型余数指令(MOD) - - - - - - - - - - - - - - - - - - - - 1-291.2.9 实型余数指令(REM) - - - - - - - - - - - - - - - - - - - - 1-301.2.10 增量指令(INC) - - - - - - - - - - - - - - - - - - - - - - 1-311.2.11 减量指令(DEC) - - - - - - - - - - - - - - - - - - - - - - 1-321.2.12 时间加法指令(TMADD) - - - - - - - - - - - - - - - - - - - 1-331.2.13 时间减法指令(TMSUB) - - - - - - - - - - - - - - - - - - - 1-351.2.14 时间经过指令(SPEND) - - - - - - - - - - - - - - - - - - - 1-371.2.15 符号取反指令(INV) - - - - - - - - - - - - - - - - - - - - 1-391章 梯形图指令1-21.2.16 1的补码指令(COM) - - - - - - - - - - - - - - - - - - - - 1-411.2.17 绝对值转换指令(ABS) - - - - - - - - - - - - - - - - - - - 1-421.2.18 2进制转换指令(BIN) - - - - - - - - - - - - - - - - - - - 1-441.2.19 BCD 转换指令(BCD) - - - - - - - - - - - - - - - - - - - - 1-451.2.20 校验转换指令(PARITY)- - - - - - - - - - - - - - - - - - - 1-461.2.21 ASCII 码转换1指令(ASCII) - - - - - - - - - - - - - - - - 1-471.2.22 ASCII 码转换2指令(BINASC)- - - - - - - - - - - - - - - - 1-491.2.23 ASCII 码转换3指令(ASCBIN)- - - - - - - - - - - - - - - - 1-501.3 逻辑运算/比较指令 - - - - - - - - - - - - - - - - 1-511.3.1 逻辑与指令(AND) - - - - - - - - - - - - - - - - - - - - - 1-511.3.2 逻辑或指令(OR)- - - - - - - - - - - - - - - - - - - - - - 1-521.3.3 逻辑异或指令(XOR) - - - - - - - - - - - - - - - - - - - - 1-531.3.4 比较指令() - - - - - - - - - - - - - - - - - - - - - - 1-541.3.5 比较指令(≦) - - - - - - - - - - - - - - - - - - - - - - 1-551.3.6 比较指令() - - - - - - - - - - - - - - - - - - - - - - 1-561.3.7 比较指令() - - - - - - - - - - - - - - - - - - - - - - 1-571.3.8 比较指令(≧) - - - - - - - - - - - - - - - - - - - - - - 1-581.3.9 比较指令() - - - - - - - - - - - - - - - - - - - - - - 1-591.3.10 范围检查指令(RCHK)- - - - - - - - - - - - - - - - - - - - 1-601.4 程序控制指令 - - - - - - - - - - - - - - - - - - - 1-631.4.1 图调用指令(SEE) - - - - - - - - - - - - - - - - - - - - - 1-631.4.2 运动程序调用指令(MSEE)- - - - - - - - - - - - - - - - - - 1-641.4.3 函数调用指令(FUNC)- - - - - - - - - - - - - - - - - - - - 1-651.4.4 连续执行型直接输入指令(INS) - - - - - - - - - - - - - - - 1-661.4.5 连续执行型直接输出指令(OUTS)- - - - - - - - - - - - - - - 1-691.4.6 扩展程序执行指令(XCALL) - - - - - - - - - - - - - - - - - 1-711.4.7 WHILE 指令(WHILE END_WHILE)- - - - - - - - - - - - - - - 1-721.4.8 IF 指令(IFEND_IF) - - - - - - - - - - - - - - - - - - - 1-741.4.9 IF 指令(IF ELSE END_IF) - - - - - - - - - - - - - - - - 1-761.4.10 FOR 指令(FOR END_FOR)- - - - - - - - - - - - - - - - - - 1-781.4.11 EXPRESSION 指令(EXPRESSION) - - - - - - - - - - - - - - - 1-801.5 基本函数指令 - - - - - - - - - - - - - - - - - - - 1-811.5.1 平方根指令(SQRT)- - - - - - - - - - - - - - - - - - - - - 1-811.5.2 正弦指令(SIN) - - - - - - - - - - - - - - - - - - - - - - 1-831.5.3 余弦指令(COS) - - - - - - - - - - - - - - - - - - - - - - 1-851.5.4 正切指令(TAN) - - - - - - - - - - - - - - - - - - - - - - 1-871.5.5 反正弦指令(ASIN)- - - - - - - - - - - - - - - - - - - - - 1-881.5.6 反余弦指令(ACOS)- - - - - - - - - - - - - - - - - - - - - 1-891.5.7 反正切指令(ATAN)- - - - - - - - - - - - - - - - - - - - - 1-901.5.8 指数指令(EXP) - - - - - - - - - - - - - - - - - - - - - - 1-921.5.9 自然对数指令(LN)- - - - - - - - - - - - - - - - - - - - - 1-931.5.10 常用对数指令(LOG) - - - - - - - - - - - - - - - - - - - - 1-941.6 数据操作指令 - - - - - - - - - - - - - - - - - - - 1-951.6.1 位循环左移指令(ROTL)- - - - - - - - - - - - - - - - - - - 1-951.6.2 位循环右移指令(ROTR)- - - - - - - - - - - - - - - - - - - 1-971.6.3 位传送指令(MOVB)- - - - - - - - - - - - - - - - - - - - - 1-991.6.4 字传送指令(MOVW)- - - - - - - - - - - - - - - - - - - - -1-1011.6.5 替换传送指令(XCHG)- - - - - - - - - - - - - - - - - - - -1-1031.6.6 表初始化指令(SETW)- - - - - - - - - - - - - - - - - - - -1-1051-31 1.6.7 字节字展开指令(BEXTD)- - - - - - - - - - - - - - - - - 1-107 1.6.8 字字节压缩指令(BPRESS) - - - - - - - - - - - - - - - - 1-1091.6.9 数据检索指令(BSRCH)- - - - - - - - - - - - - - - - - - - 1-1111.6.10 分类指令(SORT) - - - - - - - - - - - - - - - - - - - - - 1-1131.6.11 位左移指令(SHFTL)- - - - - - - - - - - - - - - - - - - - 1-1141.6.12 位右移指令(SHFTR)- - - - - - - - - - - - - - - - - - - - 1-1161.6.13 字复制指令(COPYW)- - - - - - - - - - - - - - - - - - - - 1-1171.6.14 字节交换指令(BSWAP)- - - - - - - - - - - - - - - - - - - 1-1191.7 DDC 指令- - - - - - - - - - - - - - - - - - - - - 1-1211.7.1 死区A 指令(DZA)- - - - - - - - - - - - - - - - - - - - - 1-1211.7.2 死区B 指令(DZB)- - - - - - - - - - - - - - - - - - - - - 1-1231.7.3 上下限值指令(LIMIT)- - - - - - - - - - - - - - - - - - - 1-1251.7.4 PI 控制指令(PI) - - - - - - - - - - - - - - - - - - - - - 1-1281.7.5 PD 控制指令(PD) - - - - - - - - - - - - - - - - - - - - - 1-1311.7.6 PID 控制指令(PID) - - - - - - - - - - - - - - - - - - - - 1-1341.7.7 一阶延迟指令(LAG)- - - - - - - - - - - - - - - - - - - - 1-1381.7.8 相位超前滞后指令(LLAG) - - - - - - - - - - - - - - - - - 1-1411.7.9 函数发生器指令(FGN)- - - - - - - - - - - - - - - - - - - 1-1441.7.10 反函数发生器指令(IFGN) - - - - - - - - - - - - - - - - - 1-1481.7.11 直线加减速器1指令(LAU)- - - - - - - - - - - - - - - - - 1-1521.7.12 直线加减速器2指令(SLAU) - - - - - - - - - - - - - - - - 1-1561.7.13 脉宽调制指令(PWM)- - - - - - - - - - - - - - - - - - - - 1-1631.8 表数据操作指令 - - - - - - - - - - - - - - - - - 1-1651.8.1 块调出指令(TBLBR)- - - - - - - - - - - - - - - - - - - - 1-1651.8.2 块写入指令(TBLBW)- - - - - - - - - - - - - - - - - - - - 1-167 1.8.3 行检索指令纵向(TBLSRL) - - - - - - - - - - - - - - - - 1-169 1.8.4 列检索指令横向(TBLSRC) - - - - - - - - - - - - - - - - 1-1711.8.5 块清除指令(TBLCL)- - - - - - - - - - - - - - - - - - - - 1-1731.8.6 表间块传送指令(TBLMV)- - - - - - - - - - - - - - - - - - 1-1751.8.7 Q 表调出指令(QTBLR QTBLRI) - - - - - - - - - - - - - - - 1-1771.8.8 Q 表写入指令(QTBLW QTBLWI) - - - - - - - - - - - - - - - 1-1791.8.9 Q 指针清除指令(QTBLCL)- - - - - - - - - - - - - - - - - - 1-1811章 梯形图指令1.1.1 A 触点指令(NOC)1-41.1继电器电路指令1.1.1A 触点指令(NOC)概要映像寄存器的值为1(ON)时将位输出置为ON 反之映像寄存器的值为0(OFF)时将位输出置为OFF格式参数程序举例当MB000100 ON 时MB000101为ON 标记NOC 全称NO Contact 类别RELAY 图标参数名称设定继电器编号所有比特型寄存器同上带下标字母1.1 继电器电路指令1-511.1.2B 触点指令(NCC)概要映像寄存器的值为1(ON)时将位输出置为OFF反之映像寄存器的值为0(OFF)时将位输出置为ON格式参数程序举例当MB000100 ON时MB000101为OFF1.1.3接通延时定时器指令(TON[10ms])概要位输入为ON时进行计时当计数值设定值时位输出为ON计数中位输入为OFF时停止计时位输入再次为ON时从(0)开始计数同时计数用的寄存器中存储实际计数时间(以10ms 为单位)的值标记NCC 全称NC Contact 类别RELAY 图标参数名称设定继电器编号所有比特型寄存器同上带下标字母1章 梯形图指令1.1.3 接通延时定时器指令(TON[10ms])1-6格式参数程序举例MW00011作为计时器的计数用寄存器而工作为避免重复请务必设定未使用的寄存器标记TON[10ms]全称On-Delay Timer[10ms]类别RELAY 图标参数名称设定Set(设定值)所有整型寄存器同上带下标字母(065535(655.35s)10ms 刻度)常数Count(计数值)整型寄存器(#C 寄存器除外)同上带下标字母1.1 继电器电路指令1-711.1.4断开延时定时器指令(TOFF[10ms])概要位输入为OFF 时进行计时当计数值设定值时位输出为OFF计数中最近的位输入为ON 时停止计时位输入再次为OFF时从(0)开始计数同时计数用的寄存器中存储实际计数时间(以10ms 为单位)的值格式参数程序举例标记TOFF[10ms]全称Off-Delay Timer[10ms]类别RELAY 图标参数名称设定Set(设定值)所有整型寄存器同上带下标字母(065535(655.35s)10ms 刻度)常数Count(计数值)整型寄存器(#C 寄存器除外)同上带下标字母1章 梯形图指令1.1.5 接通延时定时器指令(TON[1s])1-8MW00011作为计时器的计数用寄存器而工作为避免重复请务必设定未使用的寄存器1.1.5接通延时定时器指令(TON[1s])概要位输入为ON 时进行计时当计数值设定值时,位输出为ON 计数中最近的位输入为OFF时停止计时位输入再次为ON时从(0)开始计数同时计数用的寄存器中存储实际计数时间(以1s 为单位)的值格式参数程序举例标记TON[1s]全称On-Delay Timer[1s]类别RELAY 图标参数名称设定Set(设定值)所有整型寄存器同上带下标字母(065535s 1s 刻度)常数Count(计数值)整型寄存器(#C 寄存器除外)同上带下标字母1.1 继电器电路指令1MW00011作为计时器的计数用寄存器而工作为避免重复请务必设定未使用的寄存器1.1.6断开延时定时器指令(TOFF[1s])概要位输入为OFF 时进行计时当计数值设定值时位输出为OFF 计数中位输入为OFF时停止计时位输入再次为ON时从(0)开始计数同时计数用的寄存器中存储实际计数时间(以1s 为单位)的值格式参数标记TOFF[1s]全称Off-Delay Timer[1s]类别RELAY图标参数名称设定Set(设定值)所有整型寄存器同上带下标字母(065535s1s 刻度)常数Count(计数值)整型寄存器(#C 寄存器除外)同上带下标字母1章 梯形图指令1.1.7 上升脉冲指令(ON-PLS)程序举例MW00011作为计时器的计数用寄存器而工作为避免重复请务必设定未使用的寄存器1.1.7上升脉冲指令(ON-PLS)概要位输入状态从OFF 变为ON时位输出在一个扫描周期内为ON指定的寄存器用于保存位输出上次的值格式参数标记ON-PLS 全称Rise Pulse 类别RELAY图标参数名称设定用于保存位输入上次值的寄存器编号比特型寄存器(#C 寄存器除外)同上带下标字母1.1 继电器电路指令1程序举例当IB00001从OFF 变为ON 时MB000101在一个扫描周期内为ON MB000100用于保存IB00001上次的值表1.1表示上升脉冲指令的寄存器状态(注)在该程序举例中检测出的并非MB000100的上升而是IB00001的上升MB000100仅用于保存IB00001上次的值表1.1 上升脉冲指令的寄存器状态输入结果IB00001MB000100(IB00001上次的值)MB000100(IB00001的保存)MB000100OFF OFF OFF OFF OFF ON OFF OFF ON OFF ON ON ONONONOFF1章 梯形图指令1.1.8 下降脉冲指令(OFF-PLS)1.1.8下降脉冲指令(OFF-PLS)概要位输入从ON 变为OFF时位输出在一个扫描周期内为ON指定的寄存器用于保存位输出上次的值格式参数程序举例当IB00001从ON 变为OFF 时MB000101在一个扫描周期内为ON MB000100用于保存IB00001上次的值标记OFF-PLS 全称Fall Pulse 类别RELAY图标参数名称设定用于保存位输入上次值的寄存器编号比特型寄存器(#C 寄存器除外)同上带下标字母1.1 继电器电路指令1表1.2表示下降脉冲指令的寄存器状态(注)在该程序举例中检测出的并非MB000100的下降而是IB00001的下降MB000100仅用于保存IB00001上次的值1.1.9线圈指令(COIL)概要位输入ON 时将映像寄存器的值置为1(ON)位输入OFF时置为0(OFF)格式参数程序举例MB000100为ON时MB000101为ON表1.2 下降脉冲指令的寄存器状态输入结果IB00001MB000100(IB00001上次的值)MB000100(IB00001的保存)MB000101OFF OFF OFFOFF OFF ONOFF ON ON OFF ON OFF ONONONOFF标记COIL 全称Coil 类别RELAY图标参数名称设定线圈编号比特型寄存器(#C 寄存器除外)同上带下标字母1章 梯形图指令1.1.10 置位线圈指令(S-COIL)1.1.10置位线圈指令(S-COIL)概要执行条件成立时将输出置为ON并保持ON的状态格式参数程序举例多次指定同一输出地点时上例将进行如下动作* OB00000为OFF 时在置位线圈指令下OB00000为ON 状态标记S-Coil 全称Set Coil 类别RELAY图标参数名称设定线圈编号比特型寄存器(#C 寄存器除外)同上带下标字母1.1 继电器电路指令11.1.11复位线圈指令(R-COIL)概要执行条件成立时将输出置为OFF并保持OFF的状态格式参数程序举例多次指定同一输出地点时上例将进行如下动作* OB00000为ON 时在复位线圈指令下OB00000为OFF 状态标记R-Coil 全称Reset Coil 类别RELAY图标参数名称设定线圈编号比特型寄存器(#C 寄存器除外)同上带下标字母1章 梯形图指令1.2.1 存储指令(STORE)1.2数值运算指令1.2.1存储指令(STORE)概要将Source 存储在Dest中格式参数标记STORE 全称Store 类别MATH图标参数名称设定Source所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1.2 数值运算指令1程序将长整型的数据存储到整型寄存器中时直接保留低16位存储的数据即使超出整数范围(-3276832767)也不会发生运算错误敬请注意1章 梯形图指令1.2.2 加法指令(ADD)1.2.2加法指令(ADD)概要进行整型长整型实型数的加法运算给Source A 加上Source B将其结果存储在Dest中整型的运算结果大于32767时发生数据上溢的运算错误长整型的运算结果大于2147483647时发生数据上溢的运算错误格式参数标记ADD 全称Add 类别MATH图标参数名称设定Source A所有整型长整型实型寄存器同上带下标字母下标寄存器常数Source B 所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1程序举例整型数的加法运算实型数的加法运算长整型的加减法指令(---)通常为32位但在余数补偿运算表达式(前一指令为乘法指令()后一指令为除法指令())中使用时为64位运算1.2.3 加法扩展指令(ADDX)1.2.3加法扩展指令(ADDX)概要进行整型长整型数的加法运算给Source A 加上Source B 将其结果存储在Dest中即使运算结果数据上溢也不会发生运算错误格式参数程序举例在整型数的加法运算中为避免发生运算错误而使用长整型的加减法指令(---)通常为32位但在余数补偿运算表达式(前一指令为乘法指令()后一指令为除法指令())中使用时为64位运算标记ADDX 全称Extended Add 类别MATH图标参数名称设定Source A所有整型长整型实型寄存器同上带下标字母下标寄存器常数Source B 所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器11.2.4减法指令(SUB)概要进行整型长整型实型数的减法运算从Source A 减去Source B将其结果存储在Dest中整型的减法运算结果小于-32768时发生数据下溢的运算错误长整型的减法运算结果小于-2147483648时发生数据下溢的运算错误格式参数标记SUB 全称Subtract 类别MATH图标参数名称设定Source A所有整型长整型实型寄存器同上带下标字母下标寄存器常数Source B 所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1.2.4 减法指令(SUB)程序举例整型数的减法运算实型数的减法运算长整型的加减法指令(---)通常为32位但在余数补偿运算表达式(前一指令为乘法指令()后一指令为除法指令())中使用时为64位运算11.2.5减法扩展指令(SUBX)概要进行整型长整型数的减法运算即使运算结果数据下溢也不会发生运算错误格式参数程序举例在整型数的减法运算中为避免发生运算错误而使用长整型的加减法指令(---)通常为32位但在余数补偿运算表达式(前一指令为乘法指令()后一指令为除法指令())中使用时为64位运算标记SUB 全称Subtract 类别MATH图标参数名称设定Source A所有整型长整型实型寄存器同上带下标字母下标寄存器常数Source B 所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1.2.6 乘法指令(MUL)1.2.6乘法指令(MUL)概要进行整型长整型实型数的乘法运算Source A 乘以Source B将其结果存储在Dest中格式参数标记MUL 全称Multiply 类别MATH图标参数名称设定Source A所有整型长整型实型寄存器同上带下标字母下标寄存器常数Source B 所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1程序举例整型数的乘法运算长整型数的乘法运算1.2.6 乘法指令(MUL)实型数的乘法运算长整型的加减法指令(---)通常为32位但在余数补偿运算表达式(前一指令为乘法指令()后一指令为除法指令())中使用时为64位运算11.2.7除法指令(DIV)概要进行整型长整型实型数的除法运算Source A 除以Source B将其结果存储在Dest中格式参数标记DIV 全称Divide 类别MATH图标参数名称设定Source A所有整型长整型实型寄存器同上带下标字母下标寄存器常数Source B 所有整型长整型实型寄存器同上带下标字母下标寄存器常数Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1.2.7 除法指令(DIV)程序举例实型数的除法运算11.2.8整型余数指令(MOD)概要将整型长整型除法运算的余数存储在Dest中请在除法指令后立即执行若不在除法指令后立即执行其后到下次数值运算指令出现之间的运算结果将无法保证格式参数程序举例将整型除法运算的商存储在MW00101中余数存储在MW00102中标记MOD全称Integer Remainder 类别MATH图标参数名称设定Dest整型长整型实型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1.2.9 实型余数指令(REM)1.2.9实型余数指令(REM)概要将实型除法运算的余数存储在Dest中此时所谓的余数是指从Source 连续减去Base所得的剩余即假设连续减去的次数为n则得到如下结果DestSource(Basen)(0≦DestBase)格式参数程序举例求出MF00200除以常数1.5的余数将其结果存储在DF00202中标记REM全称Real Remainder 类别MATH图标参数名称设定Source所有实型寄存器同上带下标字母常数Base所有实型寄存器同上带下标字母常数Dest实型寄存器(#C 寄存器除外)同上带下标字母11.2.10增量指令(INC)概要给整型长整型寄存器加1整型时加法运算结果即使大于32767也不会发生数据上溢的运算错误同样长整型也不会发生数据上溢的运算错误格式参数程序举例整型标记INC 全称Increment 类别MATH图标参数名称设定Dest整型长整型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1.2.11 减量指令(DEC)长整型1.2.11减量指令(DEC)概要从整型长整型寄存器中减1整型时减法运算结果即使小于-32768也不会发生数据下溢的运算错误同样长整型也不会发生数据下溢的运算错误格式参数标记DEC 全称Decrement 类别MATH图标参数名称设定Dest整型长整型寄存器(#C 寄存器除外)同上带下标字母下标寄存器1程序举例整型长整型1.2.12时间加法指令(TMADD)概要进行两个时间数据(时/分/秒)的加法运算给Dest 加上Source(加时间)将其结果存储在Dest中Source 和Dest 的数据格式如下表1.3 数据格式寄存器偏置数据内容数据范围(BCD)0时/分高位字节(时)023低位字节(分)0591秒00000059。
CC0201CRNPO9BN2R7中文资料
物料编号:CC0201CRNPO9BN2R7细参数_易容网
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W12NK90Z中文资料
W12NK90Z中⽂资料October 2006 Rev 51/14STW12NK90ZN-channel 900V - 0.72? - 11A - TO-247Zener-protected SuperMESH? Power MOSFETGeneral features■Extremely high dv/dt capability ■100% avalanche tested ■Gate charge minimized ■Very low intrinsic capacitances ■Very good manufacturing repeatibilityDescriptionThe SuperMESH? series is obtained through an extreme optimization of ST’s well established strip-based PowerMESH? layout. In addition to pushing on-resistance significantly down, special care is taken to ensure a very good dv/dtcapability for the most demanding applications. Such series complements ST full range of high voltage MOSFETs including revolutionary MDmesh? products.Applications■Switching applicationType V DSS R DS(on)I D p W STW12NK90Z900V<0.88?11A230W/doc/a62e0e2c58fb770bf78a556d.htmlOrder codesPart number Marking Package Packaging STW12NK90ZW12NK90ZTO-247T ubeContents STW12NK90ZContents1Electrical ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31.1Protection features of gate-to-source zener diodes . . . . . . . . . . . . . . . . . . 42Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52.1Electrical characteristics (curves) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3Test circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 4Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 5Revision history . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . 132/14STW12NK90Z Electrical ratings3/141 Electrical ratingsTable 1.Absolute maximum ratingsSymbol ParameterValue Unit V DS Drain-source voltage (V GS = 0)900V V GS Gate- source voltage± 30V I D Drain current (continuous) at T C = 25°C 11A I D Drain current (continuous) at T C = 100°C 7A I DM (1)1.Pulse width limited by safe operating area.Drain current (pulsed)44A P totT otal dissipation at T C = 25°C 230W Derating Factor1.85W/°C V ESD(G-S)Gate source ESD(HBM-C=100pF , R=1.5K ?)6000V E AS (2)2. I SD ≤11A, di/dt ≤200A/µs, V DD ≤ V (BR)DSS , T j ≤ T JMAX.Single pulse avalanche energy 4.5mJ T stg Storage temperature-55 to 150°CT jMax. operating junction temperatureTable 2.Thermal dataRthj-case Thermal resistance junction-case max 0.54°C/W Rthj-ambThermal resistance junction-ambient max 50°C/W T JMaximum lead temperature for soldering purpose300°CTable 3.Avalanche characteristicsSymbol ParameterMax valueUnit I AR Avalanche current, repetitive or not-repetitive(pulse width limited by T j max)11A E ASSingle pulse avalanche energy(starting T j = 25 °C, I D = I AR , V DD = 50 V)500mJTable 4.Gate-source zener diodeSymbol ParameterTest conditions Min.Typ.Max.Unit BV GSOGate-source breakdown voltageIgs=± 1mA (open drain)30VElectrical ratings STW12NK90Z1.1 Protection features of gate-to-source zener diodesThe built-in back-to-back Zener diodes have specifically been designed to enhance not onlythe device’s ESD capability, but also to make them safely absorb possible voltage transientsthat may occasionally be applied from gate to source. In this respect the Zener voltage isappropriate to achieve an efficient and cost-effective intervention to protect the device’sintegrity. These integrated Zener diodes thus avoid the usage of external components.4/14STW12NK90Z Electrical characteristics5/142 Electrical characteristics(T CASE =25°C unless otherwise specified)Table 5.On/off statesSymbol ParameterTest conditions Min.Typ.Max.Unit V (BR)DSSDrain-sourcebreakdown voltage I D = 1mA, V GS =0900V I DSSZero gate voltage drain current (V GS = 0)V DS = max rating V DS = max rating, T C = 125°C 150µA µA I GSS Gate-body leakage current (V DS = 0)V GS = ± 20V±10µA V GS(th)Gate threshold voltage V DS = V GS , I D = 100µA 33.754.5V R DS(on)Static drain-source on resistanceV GS = 10V , I D = 5.5A0.720.88Table 6.DynamicSymbol ParameterTest conditions Min.Typ.Max.Unit g fs (1)1.Pulsed: Pulse duration = 300 µs, duty cycle 1.5 %.Forwardtransconductance V DS = 15V , I D =5.5A11S C iss C oss C rss Input capacitance Output capacitance Reverse transfer capacitance V DS = 25V , f = 1MHz, V GS = 0 350028058pF pF pF C oss eq (2)2.Coss eq. is defined as a constant equivalent capacitance giving the same charging time as C oss when V DSincreases from 0 to 80% V DSS .Equivalent output capacitance V GS = 0V , V DS = 0V to 800V117pF t d(on)t r t d(off)t f Turn-on delay time Rise timeTurn-off delay time Fall timeV DD = 450V , I D = 5A R G =4.7? V GS = 10V (see Figure 13)31208855ns ns ns ns Q g Q gs Q gdTotal gate charge Gate-source charge Gate-drain chargeV DD = 720V , I D = 10A,V GS = 10V , R G =4.7?(see Figure 14)1131960152nC nC nCElectrical characteristics STW12NK90Z6/14Table 7.Source drain diodeSymbol Parameter Test conditions Min.Typ.Max.UnitI SDI SDM(1)1.Pulse width limited by safe operating area.Source-drain currentSource-drain current(pulsed)1144AA V SD(2)2.Pulsed: Pulse duration = 300 µs, duty cycle 1.5 % Forward on voltage I SD = 11A, V GS = 0 1.6V t rr Q rrI RRMReverse recovery timeReverse recovery chargeReverse recovery currentI SD = 10A, di/dt = 100A/µs,V DD = 50V, T j = 25°C(see Figure15)7287.821.6nsµCA t rrQ rrI RRMReverse recovery timeReverse recovery chargeReverse recovery currentI SD = 10A, di/dt = 100A/µs,V DD = 50V, T j = 150°C(see Figure15)9641123nsµCASTW12NK90Z Electrical characteristics7/142.1 Electrical characteristics (curves) Figure 1.Safe operating area Figure 2.Thermal impedanceFigure 3.Output characterisics Figure 4.Transfer characteristicsFigure 5.Transconductance Figure 6.Static drain-source on resistance Electrical characteristics STW12NK90Z8/14Figure 7.Gate charge vs gate-source voltage Figure 8. Capacitance variationsFigure 9.Normalized gate threshold voltageFigure 10.Normalized on resistance vs Figure 11.Source-drain diode forward Figure 12.Normalized breakdown voltage vs STW12NK90Z Test circuit9/143 Test circuitFigure 13.Switching times test circuit for Figure 14.Gate charge test circuitFigure 15.Test circuit for inductive load Figure 16.Unclamped Inductive load test Test circuitSTW12NK90Z10/14Figure 17.Unclamped inductive waveformFigure 18.Switching time waveformSTW12NK90Z Package mechanical data 4 Package mechanical dataIn order to meet environmental requirements, ST offers these devices in ECOPACK?packages. These packages have a Lead-free second level interconnect . The category ofsecond level interconnect is marked on the package and on the inner box label, incompliance with JEDEC Standard JESD97. The maximum ratings related to solderingconditions are also marked on the inner box label. ECOPACK is an ST trademark.ECOPACK specifications are available at: /doc/a62e0e2c58fb770bf78a556d.html11/14Package mechanical data STW12NK90Z12/14STW12NK90Z Revision history13/145 Revision historyTable 8.Revision historyDate RevisionChanges21-Jun-20044Complete version17-Oct-20065New template, no content changeSTW12NK90Z14/14Please Read Carefully:Information in this document is provided solely in connection with ST products. STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described herein at any time, without notice.All ST products are sold pursuant to ST’s terms and conditions of sale.Purchasers are solely responsible for the choice, selection and use of the ST products and services described herein, and ST assumes no liability whatsoever relating to the choice, selection or use of the ST products and services described herein. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. Ifany part of this document refers to any third party products or services it shall not be deemed a license grant by ST for the use of such third party products or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoever of such third party products or services or any intellectual property contained therein. UNL ESS OTHERWISE SET FORTH IN ST’S TERMS AND CONDITIONS OF SAL E ST DISCL AIMS ANY EXPRESS OR IMPL IED WARRANTY WITH RESPECT TO THE USE AND/OR SAL E OF ST PRODUCTS INCL UDING WITHOUT L IMITATION IMPL IED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE (AND THEIR EQUIVALENTS UNDER THE LAWS OF ANY JURISDICTION), OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. UNL ESS EXPRESSL Y APPROVED IN WRITING BY AN AUTHORIZED ST REPRESENTATIVE, ST PRODUCTS ARE NOT RECOMMENDED, AUTHORIZED OR WARRANTED FOR USE IN MILITARY, AIR CRAFT, SPACE, LIFE SAVING, OR LIFE SUSTAINING APPLICATIONS, NOR IN PRODUCTS OR SYSTEMS WHERE FAILURE OR MALFUNCTION MAY RESULT IN PERSONAL INJURY, DEATH, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE. ST PRODUCTS WHICH ARE NOT SPECIFIED AS "AUTOMOTIVE GRADE" MAY ONLY BE USED IN AUTOMOTIVE APPLICATIONS AT USER’S OWN RISK.Resale of ST products with provisions different from the statements and/or technical features set forth in this document shall immediately void any warranty granted by ST for the ST product or service described herein and shall not create or extend in any manner whatsoever, any liability of ST.ST and the ST logo are trademarks or registered trademarks of ST in various countries.Information in this document supersedes and replaces all information previously supplied.The ST logo is a registered trademark of STMicroelectronics. All other names are the property of their respective owners.2006 STMicroelectronics - All rights reservedSTMicroelectronics group of companiesAustralia - Belgium - Brazil - Canada - China - Czech Republic - Finland - France - Germany - Hong Kong - India - Israel -Italy - Japan - Malaysia - Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States of America/doc/a62e0e2c58fb770bf78a556d.html。
爱尔顿摩尔尔系列NZM型铣纸电路保护器产品说明说明书
Eaton 112766Eaton Moeller series NZM - Molded Case Circuit Breaker. Circuit-breaker, 3p, 80A, plug-in module, N1-M80-SVEGeneral specificationsEaton Moeller series NZM molded case circuit breaker thermo-magnetic112766401508112306390 mm 201 mm 95 mm 1.202 kg RoHS conformIEC IEC/EN 60947Product NameCatalog NumberEANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications80 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.7.5 kA35 kAMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.Built-in device plug-in techniquePlug-in unit80 ADoes not apply, since the entire switchgear needs to be evaluated.Max. 9 segments of 9 mm x 0.8 mm at box terminalMin. 2 segments of 9 mm x 0.8 mm at box terminalRocker leverMeets the product standard's requirements.40 °CThermal protectionFinger and back-of-hand proof to VDE 0106 part 100eaton-circuit-breaker-let-through-current-nzm-mccb-characteristic-curve-002.epseaton-circuit-breaker-nzm-mccb-characteristic-curve-058.epseaton-circuit-breaker-nzm-mccb-characteristic-curve.epseaton-manual-motor-starters-starter-msc-r-reversing-starter-wiring-diagram.epseaton-manual-motor-starters-starter-nzm-mccb-wiring-diagram.epseaton-circuit-breaker-adapter-nzm-mccb-dimensions.epseaton-circuit-breaker-switch-nzm-mccb-dimensions-014.epseaton-circuit-breaker-nzm-mccb-dimensions-017.epseaton-circuit-breakers-nzm-pn1-nzmbc-nzmbn-circuit-breaker-switch-disconnector-instruction-leaflet-il01203004z.pdfDA-CD-nzm1_xsveDA-CS-nzm1_xsveDA-DC-03_N1Rated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingRated short-circuit breaking capacity Ics (IEC/EN 60947) at 690 V, 50/60 HzRated short-circuit breaking capacity Icu (IEC/EN 60947) at 400/415 V, 50/60 Hz10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityMounting MethodAmperage Rating10.2.5 LiftingTerminal capacity (copper strip)Handle type10.2.3.1 Verification of thermal stability of enclosuresAmbient storage temperature - minFitted with:Protection against direct contact Characteristic curve Diagramas de cableado DibujosInstrucciones de instalación mCAD modelReportes de certificacionesTerminal capacity (copper busbar)M6 at rear-side screw connectionMax. 16 mm x 5 mm direct at switch rear-side connectionMin. 12 mm x 5 mm direct at switch rear-side connection10.8 Connections for external conductorsIs the panel builder's responsibility.Special featuresMaximum back-up fuse, if the expected short-circuit currents at the installation location exceed the switching capacity of the circuit breaker (Rated short-circuit breaking capacity Icn) Rated current = rated uninterrupted current: 80 A Terminal capacity hint: Up to 95 mm² can be connected depending on the cable manufacturer. With phase-failure sensitivity Tripping class 10 A IEC/EN 60947-4-1, IEC/EN 60947-2 The circuit-breaker fulfills all requirements for AC-3 switching category.Ambient operating temperature - max70 °CClimatic proofingDamp heat, constant, to IEC 60068-2-78Damp heat, cyclic, to IEC 60068-2-30Terminal capacity (aluminum stranded conductor/cable)25 mm² - 95 mm² (1x) at tunnel terminal25 mm² - 35 mm² (1x) direct at switch rear-side connection25 mm² - 35 mm² (2x) direct at switch rear-side connectionTerminal capacity (copper stranded conductor/cable)10 mm² - 70 mm² (1x) at box terminal10 mm² - 70 mm² (1x) direct at switch rear-side connection6 mm² - 25 mm² (2x) at box terminal25 mm² - 95 mm² (1x) at 1-hole tunnel terminal25 mm² (2x) direct at switch rear-side connectionLifespan, electrical10000 operations at 415 V AC-15000 operations at 690 V AC-37500 operations at 690 V AC-110000 operations at 400 V AC-17500 operations at 400 V AC-37500 operations at 415 V AC-3Electrical connection type of main circuitOtherShort-circuit total breaktime< 10 msRated impulse withstand voltage (Uimp) at main contacts6000 VRated short-circuit breaking capacity Ics (IEC/EN 60947) at 400/415 V, 50/60 Hz35 kA10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Utilization categoryA (IEC/EN 60947-2)Number of polesThree-poleAmbient operating temperature - min-25 °C10.6 Incorporation of switching devices and componentsDoes not apply, since the entire switchgear needs to be evaluated.10.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Terminal capacity (control cable)0.75 mm² - 2.5 mm² (1x)0.75 mm² - 1.5 mm² (2x)Equipment heat dissipation, current-dependent20.83 WInstantaneous current setting (Ii) - min640 A10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Rated operational current68 A (400 V AC-3)Rated short-circuit breaking capacity Ics (IEC/EN 60947) at 230 V, 50/60 Hz85 kAApplicationUse in unearthed supply systems at 690 V10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Rated short-circuit making capacity Icm at 240 V, 50/60 Hz187 kARated short-circuit breaking capacity Ics (IEC/EN 60947) at 440 V, 50/60 Hz35 kADegree of protection (IP), front sideIP66 (with door coupling rotary handle)IP40 (with insulating surround)Rated short-circuit making capacity Icm at 525 V, 50/60 Hz40 kARated short-circuit making capacity Icm at 690 V, 50/60 Hz17 kAInstantaneous current setting (Ii) - max1120 AOverload current setting (Ir) - min63 A10.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Lifespan, mechanical20000 operationsOverload current setting (Ir) - max80 AVoltage rating690 V - 690 VTerminal capacity (copper solid conductor/cable)6 mm² - 16 mm² (2x) at box terminal16 mm² (1x) at tunnel terminal10 mm² - 16 mm² (1x) at box terminal6 mm² - 16 mm² (2x) direct at switch rear-side connection10 mm² - 16 mm² (1x) direct at switch rear-side connectionDegree of protection (terminations)IP10 (tunnel terminal)IP00 (terminations, phase isolator and strip terminal)10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Short-circuit release non-delayed setting - min640 ADegree of protectionIP20 (basic degree of protection, in the operating controls area) IP20Overvoltage categoryIIIRated impulse withstand voltage (Uimp) at auxiliary contacts 6000 VTerminal capacity (aluminum solid conductor/cable)10 mm² - 16 mm² (1x) direct at switch rear-side connection10 mm² - 16 mm² (2x) direct at switch rear-side connection16 mm² (1x) at tunnel terminalSwitch off techniqueThermomagneticAccessories requiredNZM1-XSVSAmbient storage temperature - max70 °CRated short-circuit breaking capacity Ics (IEC/EN 60947) at 525 V, 50/60 Hz10 kAOptional terminalsConnection on rear. Screw terminal. Tunnel terminalRelease systemThermomagnetic releasePollution degree310.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Rated operating power at AC-3, 230 V22 kW10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.FunctionsMotor protectionPhase failure sensitiveShort-circuit release non-delayed setting - max1120 AStandard terminalsBox terminalRated short-circuit making capacity Icm at 400/415 V, 50/60 Hz 105 kARated operating power at AC-3, 400 V45 kWTypeCircuit breaker10.2.2 Corrosion resistanceMeets the product standard's requirements.10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Rated short-circuit making capacity Icm at 440 V, 50/60 Hz74 kAIsolation300 V AC (between the auxiliary contacts)500 V AC (between auxiliary contacts and main contacts)Number of operations per hour - max120Circuit breaker frame typeNZM1Direction of incoming supplyAs requiredShock resistance20 g (half-sinusoidal shock 20 ms)Rated insulation voltage (Ui)690 VEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. Todos los derechos reservados. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmedia。
康菱各系列发动机发电机型号说明
A系列发动机发电机在燃油经济性和排 放控制方面表现较好,而B系列发动机 发电机在动力输出和可靠性方面表现更
优。
A系列发动机发电机的维护成本相对较 低,而B系列发动机发电机的使用寿命
更长。
康菱B系列与C系列性能比较
B系列和C系列发动机发电机在性能方面存在较大差异。C系列发动机发 电机的功率、扭矩和可靠性均高于B系列,适用于高强度和长时间作业。
根据维护成本进行选型
总结词
在选择发动机发电机时,应考虑其维护成本,包括维修、保养、耗材等费用,以确保长期使用的经济 效益。
详细描述
在选择发电机组时,应了解其维护要求和耗材情况。选择维护成本较低的发电机组可以降低长期运营 成本。同时,与供应商建立良好的合作关系,可以获得更优惠的维护和耗材价格,进一步降低成本。
康菱发动机发电机具有较长的使用寿 命和较低的维护成本,为客户节省了 运营成本。
康菱发动机发电机采用先进的技术和 材料,确保其高效、稳定、可靠的性 能。
康菱发动机发电机的应用领域
康菱发动机发电机广泛应用于工业、商业和家庭领域,如工厂、医院、酒店、商场 等。
在备用电源、应急电源和移动电源等领域,康菱发动机发电机也得到了广泛应用。
详细描述
根据设备的功率需求,选择相应功率的发电机组。如果设备需要较大的电力输 出,应选择功率更高的发电机组。同时,考虑到未来可能增加的电力需求,可 以选择稍大一些的发电机组以备不时之需。
根据使用环境进行选型
总结词
不同的使用环境对发动机发电机的性能和可靠性有不同的要 求,因此需要根据具体的使用环境选择适合的型号。
D系列发动机发电机的燃油效率和排放控制也优于C系 列,但价格相对较高。
C系列发动机发电机适用于常规重载作业,维护成本 相对较低,而D系列发动机发电机的使用寿命更长。
m29w160e_ct中文
16Mbit (2Mb x8 或 1Mb x16, 驱动块 ) 3V 电源的闪存
数据摘要
特性概要
■ 电源电压 一 编程、擦除和读时的 VCC=2.7V~3.6V
■ 读取时间:70,90ns ■ 编程时间
一 10 µs 每字节 / 字 典型值
■ 35 个存储器块 一 1 个驱动块 ( 顶部或底部位置 ) 一 2 个参数块和 32 个主块
0
0
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0
块擦除
擦除块 非擦除块
0 “ 0 ->1->0->…” 状态交替 0
1 “ 0 ->1->0->…” 状态交替 0
0 “ 0 ->1->0->…” 状态交替
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■ 编程 / 擦除控制器 一 嵌入式字节 / 字编程算法
■ 擦除挂起和恢复方式 一 在擦除挂起期间可以读写另一块
■ 解除旁路编程命令 一 快速生产 / 批编程
■ 暂时块解保护方式 ■ 通用闪存接口
一 64 位安全代码
■ 低功耗 一 待命 / 自动待命
■ 每块 100,000 次编程 / 擦除周期 ■ 电子签名
编程
4 AAA AA 555 55 AAA A0 PA PD
解除旁路
3 AAA AA 555 55 AAA 20
解除旁路编 程
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解除旁路复 位
潍柴WP12发动机
潍柴发动机总成表潍柴发动机总成表产品简介WD12系列柴油机,是潍柴动力欧洲研发中心采用世界顶尖技术和全新设计理念研发的新一代柴油机,刷新国内重型柴油机中多项性能指标,具有更省油、更强劲、更可靠、更安全的优点,主要经济指标达到世界领先水平。
WD12柴油机是潍柴动力针对重型汽车市场开发研制的先进动力产品,是目前国内唯一成熟的最大排量柴油机。
其功率覆盖336 马力—— 480 马力,与现有同类同功率发动机相比,综合运行油耗降低10-15 %,动力性提高30%,可以保证整车高效、高速运行,是目前国内重型汽车理想的升级动力。
WD12系列柴油机技术优势:更省油——相同载重,油耗降低15%,节省使用成本排量大,进气量大;配套专用P12 高压油泵,燃油喷射雾化更好;配套专用高效增压器,进气效率较高;使用WD12发动机燃烧更充分,油耗更低。
更强劲——12 升大排量,扭矩提高30%,动力更强劲WD12发动机排量大,低速(1000r /min)扭矩提高30%;使整车加速性能更好;最大扭矩大,使整车载重能力更强;大扭矩范围宽,在1200——1650 转范围内均能输出大扭矩,使整车在各种工况下均能高效运行,可大大提高运营效率,实现“多拉快跑”的目的。
更可靠——热负荷更低,零部件寿命更长,减少维护费用大排量,同功率热负荷更低WD12柴油机排量达到12 升,与现有同类同功率发动机相比升功率最低,柴油机整机的可靠性得到极大提高,曲轴、连杆、轴瓦等零部件使用寿命更长;同时延缓了机油老化速度,延长了更换机油的周期,给用户带来可观的直接收益。
文档大全高强度机体WD12柴油机的机体经过全面结构计算、可靠实验,综合性能指标高出同类产品 20%高压油泵采用法兰士齿轮传动法兰连接使得喷油提前角精度更高,避免了提前角发生变化导致柴油机性能和排放指标恶化情况的出现,减少 了震动,全面提高了整机可靠性。
水泵侧置不与风扇连接,降低了零部件故障率,维修方便 独有的高端配置及结构对高压油泵、启动马达、发电机,德国 BOSCH 公司与潍柴签订战略合作协议:在126 毫米缸径柴油机领域,对 潍柴动力实施独家供货。
潍柴WP12发动机
潍柴发动机总成表潍柴发动机总成表产品简介WD12系列柴油机,是潍柴动力欧洲研发中心采用世界顶尖技术和全新设计理念研发的新一代柴油机,刷新国内重型柴油机中多项性能指标,具有更省油、更强劲、更可靠、更安全的优点,主要经济指标达到世界领先水平。
WD12柴油机是潍柴动力针对重型汽车市场开发研制的先进动力产品,是目前国内唯一成熟的最大排量柴油机。
其功率覆盖336马力——480马力,与现有同类同功率发动机相比,综合运行油耗降低10-15%,动力性提高30%,可以保证整车高效、高速运行,是目前国内重型汽车理想的升级动力。
WD12系列柴油机技术优势:更省油——相同载重,油耗降低15%,节省使用成本排量大,进气量大;配套专用P12高压油泵,燃油喷射雾化更好;配套专用高效增压器,进气效率较高;使用WD12发动机燃烧更充分,油耗更低。
更强劲——12升大排量,扭矩提高30%,动力更强劲WD12发动机排量大,低速(1000r/min)扭矩提高30%;使整车加速性能更好;最大扭矩大,使整车载重能力更强;大扭矩范围宽,在1200——1650转范围内均能输出大扭矩,使整车在各种工况下均能高效运行,可大大提高运营效率,实现“多拉快跑”的目的。
更可靠——热负荷更低,零部件寿命更长,减少维护费用大排量,同功率热负荷更低WD12柴油机排量达到12升,与现有同类同功率发动机相比升功率最低,柴油机整机的可靠性得到极大提高,曲轴、连杆、轴瓦等零部件使用寿命更长;同时延缓了机油老化速度,延长了更换机油的周期,给用户带来可观的直接收益。
高强度机体WD12柴油机的机体经过全面结构计算、可靠实验,综合性能指标高出同类产品20%高压油泵采用法兰士齿轮传动法兰连接使得喷油提前角精度更高,避免了提前角发生变化导致柴油机性能和排放指标恶化情况的出现,减少了震动,全面提高了整机可靠性。
水泵侧置不与风扇连接,降低了零部件故障率,维修方便独有的高端配置及结构对高压油泵、启动马达、发电机,德国BOSCH公司与潍柴签订战略合作协议:在126毫米缸径柴油机领域,对潍柴动力实施独家供货。
常用三极管参数大全
玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理。
万高电机资料 WEG电机样本
3.4 接线盒 同机座和端盖一样,接线盒也是采用 FC-200 铸铁制成。为了便于接线,接线盒内部留有充足的空间,并可 90 度旋转,安装十分灵 活。下表给出了接线盒孔的一些参数。关于接线盒的其他外形尺寸,请参阅机械参数表。
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不同的孔数量和尺寸请咨询厂家。
为了保证防护等级,电缆进口必须符合电动机铭牌上注明的防护等级。如未按要求操作, 则保修将会失效。如需更多信息,请联系 WEG 南通售后服务中心。
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2স
4স
6স
8স
表 2 - 50 Hz 电机的声压级
上表声压值为空载下测得。负载时根据 IEC 60034-9 标准预测声压级噪声增加值如表 3。
፺፩ᄩࡴ H (mm)
2স
4স
6স
8স
表 3 - 负载电机声压级预期最大增加值
4.2 振动强度 W21 电机采用半键保持动态平衡,其标准版满足 IEC 60034-14 标准中 A 级(无特殊振动要求)振动强度。也可选择 B 级振动强度 的电机。A 级与 B 级电机的均方根 (RMS) 速度与振动强度 (mm/s) 见表 4。
图 1- 驱动端盖上的排污孔位置和孔塞 3.2 接地 W21 电机机座上设计有两个接地:一个接地位于接线盒内,另外一 个位于机座上。机座号 225 至 355 在机座上有两个接地。
图 2- 机座接地片细节
3.3 风扇罩 机座号 63 至 132 的电机采用钢质风罩;机座号 160 至 355 的电机采用铸铁风罩。
4.1 冷却系统 / 噪声强度 W21 系列标准电机为全封闭风扇冷却型 (IC411),符合 IEC 60034-6 标准。可根据需求选择自冷型 (TENV)、气冷型 (TEAO) 与强制通 风型 TEFC (IC416)。关于 IC 416 的更多信息见“变频驱动操作”一节。
MC9S12_datasheet中文
目录 .................................................................................................................................................. I 第一章 PWM模块 ...........................................................................................................................1 第一节 PWM模块介绍 .........................................................................................................1 第二节 PWM寄存器简介 .......................................................................2 2.1 PWME寄存器 ........................................................................................................2 2.2 PWMPOL寄存器...................................................................................................2 2.3 PWMCLK寄存器 ..................................................................
各类电机所对应碳刷型号及尺寸
各类电机所对应碳刷型号及尺寸24(or below)DC motor, power tool0.9 20 2.85 30 L L 15 30 L型牵引电机,直流电机Low voltage tractor,DC motor0.51 22 3.68 44.6 VL L 19 25 12伏汽车、摩托车起动机12V starter,motorcycle starter0.83 28 2.63 29.2 VL L 13 30 24伏汽车暖风电机、风扇电机、机、24伏DC电机12V blower,ecm motor,alternator,24V DC motorCm8130 3.43 30 2.68 26.7 L L 13 30 24伏暖风电机、风扇电机、机24V blower motorengine cooling fan,altermator0.52 20 3.85 34.5 VL L 19 25 12伏永磁减速起动机3612V pm starter,36 velectric bicycle0.32 68 9 68 0.24 0.11 23 30 金属含量高,适用于接地装置和电镀生产线High metal content grade for earthing and plaring applications0.2 27 10 27 0.52 0.1 16 25 适用于集电环电刷,也可用于以下直流电机12V starter,slid contacts DC motormachines0.6 43 4.04 44 1.1 0.15 15 20 电压40伏以下的大电流直流电机,汽车、拖拉机起动机,异步电机集电环d.c. machines up to40V,automobile starts and exciting slip rings of asynchronousm6 46 2.23 22 1.4 0.13 12 20 电压20-50伏小型快速电机d.c. generators up to 20-50V3.45 41 3.05 20 0.25 0.16 15 25 60伏以下的直流发电机和农用助动车等,寿命优于8122d.c.generators up to 60V and d.c.welding machines etc,8.35 36 2.15 18 0.25 0.14 12 20 80伏以下的直流电机,农用助动车等,寿命优于810855 35 1.8 35 2.5 0.15 15.5 51 适用于机车牵引电机和矿用牵引电机a grade foruseinlocomotlve traction motors and wheel motor sinoffhighway vehlcies换向性能好,广泛适用于电力机车和轻轨牵引电机excellent commutating grade12 36 1.55 21 1.94 0.09 10 50 suitable for generald.c.motors,especially forslip-rings22 9 1.45 9 2.4 0.18 10 41 良好的成膜性及换向性,特别适用于轧钢电动机goodfilming and commutating ability particularly suitableforG236S 45 19 1.6 19 2.1 0.1 12 50 具有较好的换向性能,适用于常规直流电机medium high commutating gradefor general d.c.applications54 21 1.68 21 2.2 0.08 12 60 换向性能好,适用于负载变化大的轧钢电机good commtating grade suitable for varying loads suchas still mills62 11 1.47 11 2.9 0.07 12 60 换向性能好,适用于换向困难的电机excellent commutating grade suitable for difficult commutating machines58 50 1.6 18 2.8 0.12 12 60 机车牵引电动机和主发电机,汽轮发电机的高速磁机,轧钢电动机和主发电机,交流整流子电动机和其他换向困难的直流电动机traction motors and main62 60 1.65 10 2.9 0.13 12 50新旧型号对照表电化石墨电刷-011 D376N 7×20×30T4 2 67 套管变流变速电机换向器-012 D104 7×20×40K1 3 110 顶部有槽AB-500或焊机电刷-001 D104 8×10×25T4 0.75 90 套管交流发电机励磁机-010 D376 8×15×30T4 2 60 套管交流变速电机换向器-011 D376N 8×20×30T6 2 70 套管交流变速电机换向器-005 D374N 10×16×32T9 1.5 62 套管交直流发电机-006 D104 10×10×25T17 1.5 60 - 交直流发电机-007 D104 10×12.5×35T4 2 80 套管交直流发电机直流电动机-008 D172 10×12.5×35T4 2 80 套管交直流发电机直流电动机-009 D252 10×12.5×35T4 2 80 套管交直流发电机直流电动机-010 D104 10×16×40T4 2.5 90 - 交流发电机-011 D104 10×20×30T1 4 40 - AB-165型直流电弧机-012 D104 10×32×30K3 4 100 - AT-320或流电弧机电刷-013 D172 10×25×40T9 2.5 110 顶部有孔交流发电机励磁机)-016D214,D104,D17212.5×20×40T1 3 80 -交直流发电机励磁机)-017 D104,D172 12.5×25×40T4 6 110 顶部有孔交直流发电机励磁机)-018D214,D104,D17212.5×25×40T9 2.5 120 顶部有孔 交流发电机)-019 D214 12.5×32×50 T6 4 120 - 交流发电机)-020 D374B 12.5×32×60 T6 4 132 套管 WK-4直流电机)-021 D172 12.5×32×60T1 4110 套管 交流发电机)-022 E46 2(12.5×32×46) T6 4 130 - 进口直流电机-001 D104 15×25×32 T1 6 100 - AG-300型电弧直流电机 -001 D374N 16×25×40 T6 2.5 100 -电铲车-002 D104,D172 16×25×40 T4 8 110 顶部有孔 交直流发电机励磁直流电动机-003 D214 16×32×40T6 6 102 -进相机-004D214,D104,D17216×25×40T9 4 110 顶部有孔 交直流发电机直流电动机 -005 D104,D172 16×32×40 T9 6 120 顶部有孔 交直流发电机-006 D104 16×32×50 T1 10 100 -交流发电机铜石墨电刷-005 J204 7×16×20T3 4 40 顶部有槽直流起动机-002 J201 8×10×25T4 0.75 101 套管交流发电机集电环-003 J204 8×10×25T4 0.75 90 套管直流电动机交流发电机集电环-004 J102 8×12×32M2 - - - 吊车电机-005 J102 8×12.2×32M2 - - - 行车电机-006 J201 8×12.5×32T4 1.5 60 套管吊车电机集电环-007 J201 8×20×32T1 2 51 套管行车电机集电环-008 J164 8×25×40K1 4 100 套管交流变速电机集电环-009 J164 8×25×40K1 5 69 套管交流变速电机集电环-013 J102 8×10×26K1 1.5 63 套管进口设备电机-016 J102 8×25×20T1 1.5 60 套管交流串激电机-001 J102 9×12×32T3 1.5 100 - 吊车电动机-002 J201 9×20×25T6 1.5 65 - 电瓶车直流电机-001 J204 10×16×40T1 2.5 60 套管交直流电机-002 J102 10×20×40T1 4 57 套管交直流电机-003 J201 10×25×32T9 1.5 81 套管顶部有槽吊车电机-004 J201 10×25×32T4 4 61 套管吊车电机-016 J220 10×14×16T21 1.5 40 - 交直流微型电机-007 J164 12.5×32×42M1 8 - - 交流集电环电动机-008 J201 12.5×32×48T4 - 90 套管吊车电动机集电环-009 J204,J10216×25×40T9 8 120 顶部有孔发电机电动机集电环-010 J201 16×32×30T6 6 60,70 顶部斜度AB-165型直流电动机-011 J102 16×32×33M2 6 - - 交流电机集电环-012 J201 16×32×40K11 - 106 - 直流电机-013 J164 16×32×40T1 6 110 套管交直流变速电机集电环-014 J201 16×40×50T9 12 90 套管ZXQ直流牵引电动机-015 J201,J10216×40×50K1 6 160 - 吊车电机集电环-016 J201 16×40×65T1 4 90 - 轧钢电机-017 J204,J16416×44×36M2 10 - - JR型交流电动机集电环-004 J204 20×40×60T6 - 120 压板套管吊车电机集电环-005 J164 20×25×48T8 6 120 顶部有孔直流发电机-006 J201 20×40×60T1 8 90 套管吊车电机集电环-007 J164 20×32×48T9 16 120 顶部有孔低压直流发电机-012 J201 20×50×60T22 10 140 - 交流电动机-005 J164 25×32×48T9 10 120 顶部有孔低压直流发电机-006 J204 25×32×60T9 10 120 顶部有孔发电机电动机集电环。
CW主机说明书中文资料
CW系列电涡流测功机主机使用说明书豫制03000011号凯迈 (洛阳) 机电有限公司(原洛阳南峰机电设备制造有限公司)目录1、引言 (4)1.1 概述 (4)1.2 电涡流测功机型号含义及技术参数 (5)2、电涡流测功机的主机结构和工作原理 (6)2.1电涡流测功机的工作原理 (6)2.2 电涡流测功机的功率计算 (6)2.3 电涡流测功机的主机结构 (6)2.4 电涡流测功机的报警装置 (7)3、电涡流测功机的主要技术指标 (8)4、电涡流测功机的布置和安装 (8)4.1 电涡流测功机的工作条件 (8)4.2 电涡流测功机的布置 (8)4.3 电涡流测功机的安装 (8)5、电涡流测功机测功机的冷却 (11)5.1.电涡流测功机的冷却原理 (11)5.2 电涡流测功机对冷却水水质的要求 (11)5.3 电涡流测功机冷却水水量的确定 (11)6、电涡流测功机的润滑 (12)6.1电涡流测功机的油润滑 (12)6.2电涡流测功机的脂润滑 (13)6.3电涡流测功机摆动轴承的润滑 (13)7、电涡流测功机的校准和调节 (14)7.1 电涡流测功机的静校 (14)7.2 电涡流测功机的灵敏度检查 (18)8、电涡流测功机的运输和维护 (18)8.1 电涡流测功机的贮存 (18)8.2 电涡流测功机的运输 (18)8.3 电涡流测功机的检查和维护 (19)9、电涡流测功机的配套 (19)10、电涡流测功机主机的常见故障和排除方法 (20)11、电涡流测功机新润滑系统的使用和维护 (21)12、电涡流测功机的图册部分 (22)图1(a)~(b)电涡流测功机的主机结构 (23)图2(a)~(o)电涡流测功机的机械特性曲线 (25)图3(a)~(m)电涡流测功机的外形尺寸 (40)图4(a)~(i)电涡流测功机的接线图 (53)图5 电涡流测功机进水温度、使用功率和水量之间的关系 (62)1、引言1.1 概述我公司根据德国策尔纳(ZÖLLNER)公司专有技术生产的CW系列电涡流测功机,具有低惯性、高精度、高稳定性和结构简单、维修方便、自成系列并适用于操作控制自动化等优点。
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M29W040B4 Mbit (512Kb x8, Uniform Block) Low Voltage Single Supply Flash Memory■SINGLE 2.7 to 3.6V SUPPLY VOLTAGE for PROGRAM, ERASE and READ OPERATIONS ■ACCESS TIME: 55ns■PROGRAMMING TIME–10µs per Byte typical■8 UNIFORM 64 Kbytes MEMORY BLOCKS■PROGRAM/ERASE CONTROLLER–Embedded Byte Program algorithm–Embedded Multi-Block/Chip Erase algorithm –Status Register Polling and Toggle Bits■ERASE SUSPEND and RESUME MODES–Read and Program another Block during Erase Suspend■UNLOCK BYPASS PROGRAM COMMAND–Faster Production/Batch Programming■LOW POWER CONSUMPTION–Standby and Automatic Standby■100,000 PROGRAM/ERASE CYCLES per BLOCK■20 YEARS DATA RETENTION–Defectivity below 1 ppm/year■ELECTRONIC SIGNATURE–Manufacturer Code: 20h–Device Code: E3h■ECOPACK® PACKAGES AVAILABLE1/20September 2005M29W040B2/20Table 1. Signal NamesA0-A18Address Inputs DQ0-DQ7Data Inputs/Outputs E Chip Enable G Output Enable W Write Enable V CC Supply Voltage V SSGroundSUMMARY DESCRIPTIONThe M29W040B is a 4 Mbit (512Kb x8) non-vola-tile memory that can be read, erased and repro-grammed. These operations can be performed using a single low voltage (2.7 to 3.6V) supply. On power-up the memory defaults to its Read mode where it can be read in the same way as a ROM or EPROM. The M29W040B is fully backward com-patible with the M29W040.The memory is divided into blocks that can be erased independently so it is possible to preserve valid data while old data is erased. Each block can be protected independently to prevent accidentalProgram or Erase commands from modifying the memory. Program and Erase commands are writ-ten to the Command Interface of the memory. An on-chip Program/Erase Controller simplifies the process of programming or erasing the memory by taking care of all of the special operations that are required to update the memory contents. The end of a program or erase operation can be detected and any error conditions identified. The command set required to control the memory is consistent with JEDEC standards.Chip Enable, Output Enable and Write Enable sig-nals control the bus operation of the memory.They allow simple connection to most micropro-cessors, often without additional logic.The memory is offered in TSOP32 (8 x 20mm),TSOP32 (8 x 14mm) and PLCC32 packages and it is supplied with all the bits erased (set to ‘1’).In order to meet environmental requirements, ST offers the M29W040B in ECOPACK ® packages.ECOPACK packages are Lead-free. The category of second Level Interconnect is marked on the package and on the inner box label, in compliance with JEDEC Standard JESD97. The maximum rat-ings related to soldering conditions are also marked on the inner box label.ECOPACK is an ST trademark. ECOPACK speci-fications are available at: .3/20M29W040BSIGNAL DESCRIPTIONSSee Figure 1, Logic Diagram, and Table 1, Signal Names, for a brief overview of the signals connect-ed to this device.Address Inputs (A0-A18).The Address Inputs select the cells in the memory array to access dur-ing Bus Read operations. During Bus Write opera-tions they control the commands sent to the Command Interface of the internal state machine.Data Inputs/Outputs (DQ0-DQ7).The Data In-puts/Outputs output the data stored at the selected address during a Bus Read operation. During Bus Write operations they represent the commands sent to the Command Interface of the internal state machine.Chip Enable (E).The Chip Enable, E, activates the memory, allowing Bus Read and Bus Write op-erations to be performed. When Chip Enable is High, V IH , all other pins are ignored.Output Enable (G).The Output Enable, G, con-trols the Bus Read operation of the memory.the Bus Write operation of the memory’s Com-mand Interface.V CC Supply Voltage.The V CC Supply Voltage supplies the power for all operations (Read, Pro-gram, Erase etc.).The Command Interface is disabled when the V CC Supply Voltage is less than the Lockout Voltage,V LKO . This prevents Bus Write operations from ac-cidentally damaging the data during power-up,power-down and power surges. If the Program/Erase Controller is programming or erasing during this time then the operation aborts and the memo-ry contents being altered will be invalid.A 0.1µF capacitor should be connected between the V CC Supply Voltage pin and the V SS Ground pin to decouple the current surges from the power supply. The PCB track widths must be sufficient to carry the currents required during program and erase operations, I CC3.V SS Ground.The V SS Ground is the reference for all voltage measurements.Table 2. Absolute Maximum Ratings (1)Note: 1.Except for the rating "Operating Temperature Range", stresses above those listed in the Table "Absolute Maximum Ratings" maycause permanent damage to the device. These are stress ratings only and operation of the device at these or any other conditions above those indicated in the Operating sections of this specification is not implied. Exposure to Absolute Maximum Rating condi-tions for extended periods may affect device reliability. Refer also to the STMicroelectronics SURE Program and other relevant qual-ity documents.2.Minimum Voltage may undershoot to –2V during transition and for less than 20ns during transitions.Symbol ParameterValue Unit T A Ambient Operating Temperature (T emperature Range Option 1)0 to 70°C Ambient Operating Temperature (T emperature Range Option 6)–40 to 85°C T BIAS Temperature Under Bias –50 to 125°C T STG Storage Temperature –65 to 150°C V IO (2)Input or Output Voltage –0.6 to 4V V CC Supply Voltage –0.6 to 4V V IDIdentification Voltage–0.6 to 13.5VTable 3. Uniform Block Addresses, M29W040B#Size (Kbytes)Address Range 76470000h-7FFFFh 66460000h-6FFFFh 56450000h-5FFFFh 46440000h-4FFFFh 36430000h-3FFFFh 26420000h-2FFFFh 16410000h-1FFFFh 06400000h-0FFFFhM29W040B4/20BUS OPERATIONSThere are five standard bus operations that control the device. These are Bus Read, Bus Write, Out-put Disable, Standby and Automatic Standby. See Table 4, Bus Operations, for a summary. Typically glitches of less than 5ns on Chip Enable or Write Enable are ignored by the memory and do not af-fect bus operations.Bus Read.Bus Read operations read from the memory cells, or specific registers in the Com-mand Interface. A valid Bus Read operation in-volves setting the desired address on the Address Inputs, applying a Low signal, V IL , to Chip Enable and Output Enable and keeping Write Enable High, V IH . The Data Inputs/Outputs will output the value, see the Figure 8, Read Mode AC Wave-forms, and Table 11, Read AC Characteristics, for details of when the output becomes valid.Bus Write.Bus Write operations write to the Command Interface. A valid Bus Write operation begins by setting the desired address on the Ad-dress Inputs. The Address Inputs are latched by the Command Interface on the falling edge of Chip Enable or Write Enable, whichever occurs last.The Data Inputs/Outputs are latched by the Com-mand Interface on the rising edge of Chip Enable or Write Enable, whichever occurs first. Output En-able must remain High, V IH , during the whole Bus Write operation. See Figures 9 and 10 Write AC Waveforms, and Tables 12 and 13, Write AC Characteristics, for details of the timing require-ments.Output Disable.The Data Inputs/Outputs are in the high impedance state when Output Enable is High, V IH .Standby.When Chip Enable is High, V IH , the memory enters Standby mode and the Data In-puts/Outputs pins are placed in the high-imped-ance state. To reduce the Supply Current to the Standby Supply Current, I CC2, Chip Enable should be held within V CC ± 0.2V. For the Standby current level see Table 10, DC Characteristics.During program or erase operations the memory will continue to use the Program/Erase Supply Current, I CC3, for Program or Erase operations un-til the operation completes.Automatic Standby.If CMOS levels (V CC ± 0.2V)are used to drive the bus and the bus is inactive for 150ns or more the memory enters Automatic Standby where the internal Supply Current is re-duced to the Standby Supply Current, I CC2. The Data Inputs/Outputs will still output data if a Bus Read operation is in progress.Special Bus OperationsAdditional bus operations can be performed to read the Electronic Signature and also to apply and remove Block Protection. These bus opera-tions are intended for use by programming equip-ment and are not usually used in applications.They require V ID to be applied to some pins.Electronic Signature.The memory has two codes, the manufacturer code and the device code, that can be read to identify the memory.These codes can be read by applying the signals listed in Table 4, Bus Operations.Block Protection and Blocks Unprotection.Each block can be separately protected against acci-dental Program or Erase. Protected blocks can be unprotected to allow data to be changed. Block Protection and Blocks Unprotection operations must only be performed on programming equip-ment. For further information refer to Application Note AN1122, Applying Protection and Unprotec-tion to M29 Series Flash.Table 4. Bus OperationsNote:X = V IL or V IH .OperationE G W Address InputsDataInputs/Outputs Bus Read V IL V IL V IH Cell Address Data Output Bus Write V IL V IH V IL Command Address Data Input Output Disable X V IH V IH X Hi-Z StandbyV IH X X XHi-Z Read Manufacturer CodeV IL V IL V IH A0 = V IL , A1 = V IL , A9 = V ID , Others V IL or V IH20h Read Device CodeV ILV ILV IHA0 = V IL , A1 = V IL , A9 = V ID , Others V IL or V IHE3hM29W040BCOMMAND INTERFACEAll Bus Write operations to the memory are inter-preted by the Command Interface. Commands consist of one or more sequential Bus Write oper-ations. Failure to observe a valid sequence of Bus Write operations will result in the memory return-ing to Read mode. The long command sequences are imposed to maximize data security.The commands are summarized in Table 5, Com-mands. Refer to Table 5 in conjunction with the text descriptions below.Read/Reset Command.The Read/Reset com-mand returns the memory to its Read mode where it behaves like a ROM or EPROM. It also resets the errors in the Status Register. Either one or three Bus Write operations can be used to issue the Read/Reset command.If the Read/Reset command is issued during a Block Erase operation or following a Programming or Erase error then the memory will take upto 10µs to abort. During the abort period no valid data can be read from the memory. Issuing a Read/Reset command during a Block Erase operation will leave invalid data in the memory.Auto Select Command.The Auto Select com-mand is used to read the Manufacturer Code, the Device Code and the Block Protection Status. Three consecutive Bus Write operations are re-quired to issue the Auto Select command. Once the Auto Select command is issued the memory remains in Auto Select mode until another com-mand is issued.From the Auto Select mode the ManufacturerCode can be read using a Bus Read operation with A0 = V IL and A1 = V IL. The other address bits may be set to either V IL or V IH. The Manufacturer Code for STMicroelectronics is 20h.The Device Code can be read using a Bus Readoperation with A0 = V IH and A1 = V IL. The otheraddress bits may be set to either V IL or V IH. The Device Code for the M29W040B is E3h.The Block Protection Status of each block can beread using a Bus Read operation with A0 = V IL, A1= V IH, and A16, A17 and A18 specifying the ad-dress of the block. The other address bits may be set to either V IL or V IH. If the addressed block is protected then 01h is output on the Data Inputs/ Outputs, otherwise 00h is output.Program Command.The Program command can be used to program a value to one address in the memory array at a time. The command re-quires four Bus Write operations, the final write op-eration latches the address and data in the internal state machine and starts the Program/Erase Con-troller. If the address falls in a protected block then the Program command is ignored, the data remains unchanged. The Status Register is never read and no error condition is given.During the program operation the memory will ig-nore all commands. It is not possible to issue any command to abort or pause the operation. Typical program times are given in Table 6. Bus Read op-erations during the program operation will output the Status Register on the Data Inputs/Outputs. See the section on the Status Register for more details.After the program operation has completed the memory will return to the Read mode, unless an error has occurred. When an error occurs the memory will continue to output the Status Regis-ter. A Read/Reset command must be issued to re-set the error condition and return to Read mode. Note that the Program command cannot change a bit set at ‘0’ back to ‘1’. One of the Erase Com-mands must be used to set all the bits in a block or in the whole memory from ‘0’ to ‘1’.Unlock Bypass Command.The Unlock Bypass command is used in conjunction with the Unlock Bypass Program command to program the memo-ry. When the access time to the device is long (as with some EPROM programmers) considerable time saving can be made by using these com-mands. Three Bus Write operations are required to issue the Unlock Bypass command.Once the Unlock Bypass command has been is-sued the memory will only accept the Unlock By-pass Program command and the Unlock Bypass Reset command. The memory can be read as if in Read mode.Unlock Bypass Program Command.The Un-lock Bypass Program command can be used to program one address in memory at a time. The command requires two Bus Write operations, the final write operation latches the address and data in the internal state machine and starts the Pro-gram/Erase Controller.The Program operation using the Unlock Bypass Program command behaves identically to the Pro-gram operation using the Program command. A protected block cannot be programmed; the oper-ation cannot be aborted and the Status Register is read. Errors must be reset using the Read/Reset command, which leaves the device in Unlock By-pass Mode. See the Program command for details on the behavior.Unlock Bypass Reset Command.The Unlock Bypass Reset command can be used to return to Read/Reset mode from Unlock Bypass Mode. Two Bus Write operations are required to issue the Unlock Bypass Reset command.5/20M29W040B6/20Table 5. CommandsNote:X Don’t Care, PA Program Address, PD Program Data, BA Any address in the Block.All values in the table are in hexadecimal.The Command Interface only uses address bits A0-A10 to verify the commands, the upper address bits are Don’t Care.Read/Reset. After a Read/Reset command, read the memory as normal until another command is issued.Auto Select. After an Auto Select command, read Manufacturer ID, Device ID or Block Protection Status.Program, Unlock Bypass Program, Chip Erase, Block Erase. After these commands read the Status Register until the Program/Erase Controller completes and the memory returns to Read Mode. Add additional Blocks during Block Erase Command with additional Bus Write Operations until the Timeout Bit is set.Unlock Bypass. After the Unlock Bypass command issue Unlock Bypass Program or Unlock Bypass Reset commands.Unlock Bypass Reset. After the Unlock Bypass Reset command read the memory as normal until another command is issued.Erase Suspend. After the Erase Suspend command read non-erasing memory blocks as normal, issue Auto Select and Program commands on non-erasing blocks as normal.Erase Resume. After the Erase Resume command the suspended Erase operation resumes, read the Status Register until the Program/Erase Controller completes and the memory returns to Read Mode.CommandL e n g t hBus Write Operations1st 2nd 3rd 4th 5th 6th Addr Data AddrDataAddrDataAddrDataAddrDataAddrDataRead/Reset 1X F03555AA 2AA 55X F0Auto Select 3555AA 2AA 5555590Program 4555AA 2AA 55555A0PAPDUnlock Bypass 3555AA 2AA 5555520Unlock Bypass Program2X A0P A PD Unlock Bypass Reset 2X 90X 00Chip Erase 6555AA 2AA 5555580555AA 2AA 5555510Block Erase 6+555AA 2AA5555580555AA2AA55BA30Erase Suspend 1X B0Erase Resume1X30Chip Erase Command.The Chip Erase com-mand can be used to erase the entire chip. Six Bus Write operations are required to issue the Chip Erase Command and start the Program/Erase Controller.If any blocks are protected then these are ignored and all the other blocks are erased. If all of the blocks are protected the Chip Erase operation ap-pears to start but will terminate within about 100µs,leaving the data unchanged. No error condition is given when protected blocks are ignored.During the erase operation the memory will ignore all commands. It is not possible to issue any com-mand to abort the operation. Typical chip erase times are given in Table 6. All Bus Read opera-tions during the Chip Erase operation will output the Status Register on the Data Inputs/Outputs.See the section on the Status Register for more details.After the Chip Erase operation has completed the memory will return to the Read Mode, unless an error has occurred. When an error occurs the memory will continue to output the Status Regis-ter. A Read/Reset command must be issued to re-set the error condition and return to Read Mode.The Chip Erase Command sets all of the bits in un-protected blocks of the memory to ‘1’. All previous data is lost.7/20M29W040BBlock Erase Command.The Block Erase com-mand can be used to erase a list of one or more blocks. Six Bus Write operations are required to select the first block in the list. Each additional block in the list can be selected by repeating the sixth Bus Write operation using the address of the additional block. The Block Erase operation starts the Program/Erase Controller about 50µs after the last Bus Write operation. Once the Program/Erase Controller starts it is not possible to select any more blocks. Each additional block must therefore be selected within 50µs of the last block. The 50µs timer restarts when an additional block is selected.The Status Register can be read after the sixth Bus Write operation. See the Status Register for details on how to identify if the Program/Erase Controller has started the Block Erase operation. If any selected blocks are protected then these are ignored and all the other selected blocks are erased. If all of the selected blocks are protected the Block Erase operation appears to start but will terminate within about 100µs, leaving the data un-changed. No error condition is given when protect-ed blocks are ignored.During the Block Erase operation the memory will ignore all commands except the Erase Suspend and Read/Reset commands. Typical block erase times are given in Table 6. All Bus Read opera-tions during the Block Erase operation will output the Status Register on the Data Inputs/Outputs.See the section on the Status Register for more details.After the Block Erase operation has completed the memory will return to the Read Mode, unless an error has occurred. When an error occurs the memory will continue to output the Status Regis-ter. A Read/Reset command must be issued to re-set the error condition and return to Read mode.The Block Erase Command sets all of the bits in the unprotected selected blocks to ‘1’. All previous data in the selected blocks is lost.Erase Suspend Command.The Erase Suspend Command may be used to temporarily suspend a Block Erase operation and return the memory to Read mode. The command requires one Bus Write operation.The Program/Erase Controller will suspend within 15µs of the Erase Suspend Command being is-sued. Once the Program/Erase Controller has stopped the memory will be set to Read mode and the Erase will be suspended. If the Erase Suspend command is issued during the period when the memory is waiting for an additional block (before the Program/Erase Controller starts) then the Erase is suspended immediately and will start im-mediately when the Erase Resume Command is issued. It will not be possible to select any further blocks for erasure after the Erase Resume.During Erase Suspend it is possible to Read and Program cells in blocks that are not being erased;both Read and Program operations behave as normal on these blocks. Reading from blocks that are being erased will output the Status Register. It is also possible to enter the Auto Select mode: the memory will behave as in the Auto Select mode on all blocks until a Read/Reset command returns the memory to Erase Suspend mode.Erase Resume Command.The Erase Resume command must be used to restart the Program/Erase Controller from Erase Suspend. An erase can be suspended and resumed more than once.Table 6. Program, Erase Times and Program, Erase Endurance Cycles (T A = 0 to 70°C or –40 to 85°C)Note: 1.T A = 25°C, V CC = 3.3V.ParameterMinTyp (1)Typical after 100k W/E Cycles (1)Max Unit Chip Erase (All bits in the memory set to ‘0’) 2.5 2.5secChip Erase6635sec Block Erase (64 Kbytes)0.80.86sec Program 1010200µs Chip Program5.55.530sec Program/Erase Cycles (per Block)100,000cyclesM29W040B8/20STATUS REGISTERBus Read operations from any address always read the Status Register during Program and Erase operations. It is also read during Erase Sus-pend when an address within a block being erased is accessed.The bits in the Status Register are summarized in Table 7, Status Register Bits.Data Polling Bit (DQ7).The Data Polling Bit can be used to identify whether the Program/Erase Controller has successfully completed its opera-tion or if it has responded to an Erase Suspend.The Data Polling Bit is output on DQ7 when the Status Register is read.During Program operations the Data Polling Bit outputs the complement of the bit being pro-grammed to DQ7. After successful completion of the Program operation the memory returns to Read mode and Bus Read operations from the ad-dress just programmed output DQ7, not its com-plement.During Erase operations the Data Polling Bit out-puts ‘0’, the complement of the erased state of DQ7. After successful completion of the Erase op-eration the memory returns to Read mode.In Erase Suspend mode the Data Polling Bit will output a ‘1’ during a Bus Read operation within a block being erased. The Data Polling Bit will change from a ‘0’ to a ‘1’ when the Program/Erase Controller has suspended the Erase operation.Figure 3, Data Polling Flowchart, gives an exam-ple of how to use the Data Polling Bit. A Valid Ad-dress is the address being programmed or an address within the block being erased.Toggle Bit (DQ6).The Toggle Bit can be used to identify whether the Program/Erase Controller has successfully completed its operation or if it has re-sponded to an Erase Suspend. The Toggle Bit is output on DQ6 when the Status Register is read.During Program and Erase operations the Toggle Bit changes from ‘0’ to ‘1’ to ‘0’, etc., with succes-sive Bus Read operations at any address. After successful completion of the operation the memo-ry returns to Read mode.During Erase Suspend mode the Toggle Bit will output when addressing a cell within a block being erased. The Toggle Bit will stop toggling when the Program/Erase Controller has suspended the Erase operation.Figure 4, Data Toggle Flowchart, gives an exam-ple of how to use the Data Toggle Bit.Error Bit (DQ5).The Error Bit can be used to identify errors detected by the Program/Erase Controller. The Error Bit is set to ‘1’ when a Pro-gram, Block Erase or Chip Erase operation fails to write the correct data to the memory. If the Error Bit is set a Read/Reset command must be issued before other commands are issued. The Error bit is output on DQ5 when the Status Register is read.Note that the Program command cannot change a bit set at ‘0’ back to ‘1’ and attempting to do so may or may not set DQ5 at ‘1’. In both cases, a succes-sive Bus Read operation will show the bit is still ‘0’.One of the Erase commands must be used to set all the bits in a block or in the whole memory from ‘0’ to ‘1’.Table 7. Status Register BitsNote:Unspecified data bits should be ignored.Operation Address DQ7DQ6DQ5DQ3DQ2ProgramAny Address DQ7Toggle 0––Program During Erase Suspend Any Address DQ7Toggle 0––Program Error Any Address DQ7Toggle 1––Chip Erase Any Address 0Toggle 01Toggle Block Erase before timeout Erasing Block 0Toggle 00Toggle Non-Erasing Block 0Toggle 00No T oggle Block EraseErasing Block 0Toggle 01Toggle Non-Erasing Block 0Toggle 01No T oggle Erase SuspendErasing Block 1No Toggle–ToggleNon-Erasing Block Data read as normal Erase ErrorGood Block Address 0Toggle 11No T oggle Faulty Block Address0Toggle11ToggleM29W040BErase Timer Bit (DQ3).The Erase Timer Bit can be used to identify the start of Program/Erase Controller operation during a Block Erase com-mand. Once the Program/Erase Controller starts erasing the Erase Timer Bit is set to ‘1’. Before the Program/Erase Controller starts the Erase Timer Bit is set to ‘0’ and additional blocks to be erased may be written to the Command Interface. The Erase Timer Bit is output on DQ3 when the Status Register is read.Alternative Toggle Bit (DQ2).The Alternative Toggle Bit can be used to monitor the Program/ Erase controller during Erase operations. The Al-ternative Toggle Bit is output on DQ2 when the Status Register is read.During Chip Erase and Block Erase operations the Toggle Bit changes from ‘0’ to ‘1’ to ‘0’, etc., with successive Bus Read operations from addresses within the blocks being erased. Once the operation completes the memory returns to Read mode. During Erase Suspend the Alternative Toggle Bit changes from ‘0’ to ‘1’ to ‘0’, etc. with successive Bus Read operations from addresses within the blocks being erased. Bus Read operations to ad-dresses within blocks not being erased will output the memory cell data as if in Read mode.After an Erase operation that causes the Error Bit to be set the Alternative Toggle Bit can be used to identify which block or blocks have caused the er-ror. The Alternative Toggle Bit changes from ‘0’ to ‘1’ to ‘0’, etc. with successive Bus Read Opera-tions from addresses within blocks that have not erased correctly. The Alternative Toggle Bit does not change if the addressed block has erased cor-rectly.9/20M29W040B10/20Table 9. Capacitance (T A = 25 °C, f = 1 MHz)Note:Sampled only, not 100% tested.Symbol ParameterTest ConditionMinMax Unit C IN Input Capacitance V IN = 0V 6pF C OUTOutput CapacitanceV OUT = 0V12pFTable 8. AC Measurement ConditionsParameter M29W040B557090 / 120V CC Supply Voltage 3.0 to 3.6V 2.7 to 3.6V 2.7 to 3.6V Load Capacitance (C L )30pF 30pF 100pF Input Rise and Fall Times ≤ 10ns ≤ 10ns ≤ 10ns Input Pulse Voltages0 to 3V 0 to 3V 0 to 3V Input and Output Timing Ref. Voltages1.5V1.5V1.5V11/20Table 10. DC Characteristics (T A = 0 to 70°C or –40 to 85°C)Note: 1.Sampled only, not 100% tested.2.T A = 25°C, V CC =3.3V.Symbol ParameterTest Condition MinTyp. (2)Max Unit I LI Input Leakage Current 0V ≤ V IN ≤ V CC ±1µA I LO Output Leakage Current 0V ≤ V OUT ≤ V CC±1µA I CC1Supply Current (Read) E = V IL , G = V IH , f = 6MHz410mA I CC2Supply Current (Standby) E = V CC ± 0.2V 30100µA I CC3 (1)Supply Current (Program/Erase)Program/Erase Controller active20mA V IL Input Low Voltage –0.50.8V V IH Input High Voltage 0.7V CCV CC + 0.3V V OL Output Low Voltage I OL = 1.8mA 0.45V V OH Output High Voltage I OH = –100µAV CC – 0.4V V ID Identification Voltage 11.512.5V I ID Identification CurrentA9 = V ID100µA V LKO (1)Program/Erase Lockout Supply Voltage1.82.3V。