ECEC2CB272EB中文资料

Dell E2722H/E2722HS显示器用户指南显示器型号：E2722H/E2722HS2ﾠﾠ│ﾠﾠ注：“注”表示可以帮助您更好使用显示器的重要信息。

注意：“注意”表示如果不按照说明进行操作，可能造成硬件损坏或数据丢失。

警告：“警告”表示可能会造成财产损失、人身伤害或死亡。

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2021 – 09Rev. A01目录安全须知 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .6关于您的显示器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7物品清单 . . . . . . . . . . . . . . . . . . . . . . . . . . .7产品特性 . . . . . . . . . . . . . . . . . . . . . . . . . . .9识别部件和控制按钮 . . . . . . . . . . . . . . . . . . . . 10前部概览 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10后部概览 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11侧视图 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13底部概览 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14显示器规格 . . . . . . . . . . . . . . . . . . . . . . . . . 15扬声器规格 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16分辨率规范 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16预设显示模式 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17物理特性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20环境特性 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21即插即用功能 . . . . . . . . . . . . . . . . . . . . . . . . 22液晶显示器质量和像素政策 . . . . . . . . . . . . . . . . . 22安装显示器 . . . . . . . . . . . . . . . . . . . . . . . . . 23连接底座 . . . . . . . . . . . . . . . . . . . . . . . . . . 23连接显示器 . . . . . . . . . . . . . . . . . . . . . . . . . 25连接VGA/DP线 . . . . . . . . . . . . . . . . . . . . . . . . . . . .25连接VGA/HDMI/DP线 . . . . . . . . . . . . . . . . . . . . . . . .25ﾠﾠ│ﾠﾠ3整理线缆 . . . . . . . . . . . . . . . . . . . . . . . . . . 27卸下底座 . . . . . . . . . . . . . . . . . . . . . . . . . . 28卸下VESA盖 . . . . . . . . . . . . . . . . . . . . . . . . 30壁挂安装（选购） . . . . . . . . . . . . . . . . . . . . . . .31操作显示器 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .32打开显示器电源 . . . . . . . . . . . . . . . . . . . . . . .32使用控制按钮 . . . . . . . . . . . . . . . . . . . . . . . . 32控制按钮 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33控制按钮 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34使用OSD锁定功能 . . . . . . . . . . . . . . . . . . . . . 35使用“锁定”菜单锁定按钮 . . . . . . . . . . . . . . . . . . . . . . .35使用前面板控制按钮锁定按钮 . . . . . . . . . . . . . . . . . . . . 37解锁按钮 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38OSD控制按钮 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39使用屏幕显示(OSD)菜单 . . . . . . . . . . . . . . . . . . 40使用OSD菜单 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40设置最大分辨率 . . . . . . . . . . . . . . . . . . . . . . . . . . . 59使用倾斜度 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60使用高度调整 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .61故障排除 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62自检 . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62内置诊断 . . . . . . . . . . . . . . . . . . . . . . . . . . 64常见问题 . . . . . . . . . . . . . . . . . . . . . . . . . . 66产品特有的问题 . . . . . . . . . . . . . . . . . . . . . . .684ﾠﾠ│ﾠﾠ附录 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .69FCC声明（仅限美国）和其他管制信息 . . . . . . . . . . . . 69联系Dell . . . . . . . . . . . . . . . . . . . . . . . . . . .69欧盟产品能源标签和产品信息表数据库 . . . . . . . . . . .69中国能源效率标识 . . . . . . . . . . . . . . . . . . . . . .70ﾠﾠ│ﾠﾠ56ﾠﾠ│ﾠﾠ安全须知安全须知参照以下安全指南保护您的显示器免受潜在损坏，并确保您的人身安全。

5,000 hour load lifeRipple Current to > 100 amps @ 55 °C ESRs to 2.5 m Ω> 90% capacitance at –40 ºCThermal-Pak™ extended cathode construction•••••SpecificationsOperating Temperature:Rated Voltage:Capacitance:Capacitance Tolerance: DCLeakage Current:Cold Impedence:Ripple Current Multipliers:–55 °C to +105 °C 7.5 to 250 Vdc 290 µF to 1.5 F7.5 to 150 Vdc: –10% +75%, 200 & 250 Vdc: 10 +50% ≤1.5√CV µA (4mA max. 5 minutes)–55 °C multiple of 25 °C Z ≤ 3EIA Ripple Life:Life Test:Shelf Life:Vibration:5,000 h at full load @ 85 °C per EIA IS-749 ∆Capacitance ±20% ESR 200% of limit DCL 100% of limit2,000 h at 105 °C and rated voltage ∆Capacitance ±20%ESR 200% of limit DCL 100% of limit500 h @ 105 °C, Capacitance, ESR and DCL, initial requirements.10 to 55 Hz, 0.06” and 10 g max, 1.5 h ea. of 2 axis45 °C 55 °C 65 °C 75 °C 85 °C 95 ºC 105 ºC 1.661.521.371.201.000.750.36Ambient TemperatureThe Ultimate in Cold Performance and ESRThe Type 101C is the wide-temperature, low voltage version of the Type 550C. It is ideal for high-ripple current military and industrial applications that need full performance to –40 ºC and solid perfor-mance to –55 ºC. It also excels as apower-supply output capacitor because of its exceptionally low ESR. The extended cathode foil of the 101C assures heat flow from the capacitor element to the can in all mounting orientations.Highlights10 kHz50 Hz 60 Hz 120 Hz 360 Hz 1 kHz 5 kHz & up1 3/8” & 1 3/4” Diameters7.5 to 150 V 0.910.93 1.00 1.06 1.08 1.09 1.09200 & 250 V 0.820.861.001.141.201.231.232” & 2 1/2” Diameters7.5 to 150 V 0.920.94 1.00 1.05 1.07 1.08 1.08200 & 250 V 0.820.861.001.141.201.231.273” Diameters 7.5 to 150 V 0.950.96 1.00 1.03 1.04 1.05 1.05200 & 250 V0.850.881.001.111.151.181.18FrequencyComplies with the EU Directive 2002/95/E C r e q u i r e m e n t restricting the use of Lead (Pb), Mercury (Hg), Cadmium (Cd), Hexavalent chromium (Cr(VI)), PolyBrominated Biphenyls (PBB) and PolyBrominated Diphenyl Ethers (PBDE).Outline DrawingCase DimensionsUninsulated Case DimensionsFor insulated case, add 0.024”(0.610 mm) to “D”and 0.030”(0.762 mm) to height.NOTE:With the stud-mount feature, a ther-mally-conductive disk can be inserted in the bottom flush with the outer insulating sleeve.This reduces the thermal resistance through the can bottom by 0.3 °C/W. Can Style P.Stud DimensionsTerminal DimensionsCase Diam.Stud ThreadP±0.039”(±1.0 mm) 1.38M8 0.470” (12.0)1.75M8 0.470” (12.0) 2.00M12 0.630” (16.0) 2.50M12 0.630” (16.0)3.00M120.630” (16.0)Diam. (D)Length (L) Terminals (S) Case ±.031 ±.78 ±.062 ±1.57 ±0.015 ±.38 Typical WeightCode Inchesmm Inches mm Inches mm oz g AK 1.37534.93 1.62541.280.5012.70 1.954AA 1.37534.93 2.12553.980.5012.70 2.057AH 1.37534.93 2.62566.680.5012.70 2.777AB 1.37534.93 3.12579.380.5012.70 3.394AJ 1.37534.93 3.62592.080.5012.70 3.8108AC 1.37534.93 4.125104.780.5012.70 4.4125AD 1.37534.93 4.625117.480.5012.70 5.1145AE 1.37534.93 5.125130.180.5012.70 6.8193AF 1.37534.93 5.625142.880.5012.708.1230EA 1.75044.45 2.12553.980.7519.05 2.776EH 1.75044.45 2.62566.680.7519.05 3.8108EB 1.75044.45 3.12579.380.7519.05 5.1145EJ 1.75044.45 3.62592.080.7519.05 6.8193EC 1.75044.45 4.125104.780.7519.058.1230ED 1.75044.45 4.625117.480.7519.059.0255EE 1.75044.45 5.125130.180.7519.059.5269EF 1.75044.45 5.625142.880.7519.0510.5298BA 2.00050.80 2.12553.980.7522.23 5.4153BH 2.00050.80 2.62566.680.7522.23 6.1173BB 2.00050.80 3.12579.380.7522.23 6.8193BJ 2.00050.80 3.62592.080.7522.238.2232BC 2.00050.80 4.125104.780.7522.239.5269BD 2.00050.80 4.625117.480.7522.2310.3292BE 2.00050.80 5.125130.180.7522.2310.7303BF2.00050.80 5.625142.880.7522.2313.0369CH 2.50063.50 2.62566.68 1.2528.589.2261CB 2.50063.50 3.12579.38 1.2528.5810.4295CJ 2.50063.50 3.62592.08 1.2528.5812.7361CC 2.50063.504.125104.78 1.2528.5815.0425CD 2.50063.50 4.625117.48 1.2528.5817.2488CE 2.50063.50 5.125130.18 1.2528.5819.3547CF 2.50063.50 5.625142.88 1.2528.5821.4607DB 3.00076.20 3.12579.38 1.2531.7516.7473DJ 3.00076.20 3.62592.08 1.2531.7520.0567DC 3.00076.20 4.125104.78 1.2531.7522.2629DD 3.00076.20 4.625117.48 1.2531.7525.5723DE 3.00076.20 5.125130.18 1.2531.7530.0850DF 3.00076.20 5.625142.88 1.2531.7531.9904DP 3.00076.20 5.875149.23 1.2531.7532.8931DN 3.00076.207.625193.68 1.2531.7539.51119DG3.00076.208.625219.081.2531.7543.31227For CasePost Diameter H max min Full Thread Torque Terminal Style Diameters Code inmminmm Threadin mm in·lb N·m Low Post 1⅜ to 3A 0.3148.00.094 2.410–320.218 5.525 2.82High Post 1⅜ to 3B 0.3148.00.2817.110–320.3759.525 2.82High Current, Med2½ & 3D0.43411.00.190 4.8¼–280.3127.9505.65Click here to see Hardware & Mounting OptionsPart Numbering System Standard insulation is 0.008-in PVC sleeve with 0.01-in polypropylene end disk.Typical Performance CurvesType Capacitance Tolerance Voltage Case Code Insulation Terminal Can Style101C 183T 250 DG2D S100 = 10 µF 101 = 100 µF 183 = 18,000 µFBlank = Standard CanS = Stud Bottom P = Stud with Thermal PadM = ±20%U = –10%+75%T = –10%+50%7R5 = 7.5 Vdc 063 = 63 Vdc 100 = 100 Vdc0= None1= Polyester 2= PVC A = Low Post B = High PostD = High CurrentRatingsCatalog Part Number ESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)CatalogPart NumberESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)Cap. (µF)Cap.(µF)7.5 Vdc (10 Vdc Surge)74000101C743U010AB2B 14.614.2 1 3/8 x 3 1/828000101C283U7R5AK2B 38.2 6.1 1 3/8 x 1 5/8 89000101C893U010AJ2B 12.516.4 1 3/8 x 3 5/8 47000101C473U7R5AA2B 25.08.7 1 3/8 x 2 1/8 99000101C993U010EH2B 16.614.6 1 3/4 x 2 5/8 66000101C663U7R5AH2B 19.011.4 1 3/8 x 2 5/8 110000101C114U010BH2B 12.118.6 2 x 2 5/8 79000101C793U7R5BA2B 18.314.0 2 x 2 1/8 110000101C114U010AC2B 11.318.1 1 3/8 x 4 1/8 84000101C843U7R5EA2B 22.611.6 1 3/4 x 2 1/8 120000101C124U010AD2B 10.319.7 1 3/8 x 4 5/8 84000101C843U7R5AB2B 15.413.8 1 3/8 x 3 1/8 130000101C134U010EB2B 13.217.4 1 3/4 x 3 1/8 100000101C104U7R5AJ2B 13.215.9 1 3/8 x 3 5/8 140000101C144U010AE2B 9.421.4 1 3/8 x 5 1/8 120000101C124U7R5EH2B 16.514.7 1 3/4 x 2 5/8 150000101C154U010BB2B 8.124.2 2 x 3 1/8 120000101C124U7R5BH2B 12.418.3 2 x 2 5/8 160000101C164U010EJ2B 11.120.0 1 3/4 x 3 5/8 120000101C124U7R5AC2B 12.117.4 1 3/8 x 4 1/8 160000101C164U010AF2B 8.723.1 1 3/8 x 5 5/8 140000101C144U7R5AD2B 10.819.2 1 3/8 x 4 5/8 180000101C184U010CH2B 9.224.5 2 1/2 x 2 5/8 160000101C164U7R5EB2B 13.217.5 1 3/4 x 3 1/8 180000101C184U010BJ2B 7.426.5 2 x 3 5/8 160000101C164U7R5AE2B 9.920.9 1 3/8 x 5 1/8 190000101C194U010EC2B 8.224.4 1 3/4 x 4 1/8 170000101C174U7R5BB2B 8.523.6 2 x 3 1/8 220000101C224U010ED2B 8.724.7 1 3/4 x 4 5/8 180000101C184U7R5AF2B 9.122.6 1 3/8 x 5 5/8 230000101C234U010BC2B 5.731.7 2 x 4 1/8 200000101C204U7R5EJ2B 11.120.1 1 3/4 x 3 5/8 240000101C244U010CB2B 7.029.7 2 1/2 x 3 1/8 210000101C214U7R5CH2B 9.424.2 2 1/2 x 2 5/8 250000101C254U010EE2B 8.026.7 1 3/4 x 5 1/8 220000101C224U7R5EC2B 8.224.4 1 3/4 x 4 1/8 260000101C264U010BD2B 5.533.5 2 x 4 5/8 220000101C224U7R5BJ2B 7.626.2 2 x 3 5/8 280000101C284U010EF2B 7.428.7 1 3/4 x 5 5/8 260000101C264U7R5BC2B 6.031.0 2 x 4 1/8 300000101C304U010CJ2D 5.734.6 2 1/2 x 3 5/8 270000101C274U7R5ED2B 8.724.7 1 3/4 x 4 5/8 300000101C304U010BE2B 5.036.5 2 x 5 1/8 280000101C284U7R5CB2B 7.229.4 2 1/2 x 3 1/8 340000101C344U010BF2B 4.738.9 2 x 5 5/8 300000101C304U7R5BD2B 5.732.9 2 x 4 5/8 360000101C364U010DB2D 7.033.4 3 x 3 1/8 310000101C314U7R5EE2B 7.926.8 1 3/4 x 5 1/8 370000101C374U010CC2D 4.043.0 2 1/2 x 4 1/8 350000101C354U7R5EF2B 7.428.8 1 3/4 x 5 5/8 430000101C434U010CD2D 4.343.5 2 1/2 x 4 5/8 350000101C354U7R5BE2B 5.235.9 2 x 5 1/8 450000101C454U010DJ2D 5.738.8 3 x 3 5/8 360000101C364U7R5CJ2D 5.934.2 2 1/2 x 3 5/8 500000101C504U010CE2D 3.847.5 2 1/2 x 5 1/8 390000101C394U7R5DB2D 7.133.1 3 x 3 1/8 550000101C554U010DC2D 4.545.5 3 x 4 1/8 390000101C394U7R5BF2B 4.938.2 2 x 5 5/8 560000101C564U010CF2D 3.353.0 2 1/2 x 5 5/8 430000101C434U7R5CC2D 4.242.4 2 1/2 x 4 1/8 640000101C644U010DD2D 4.050.4 3 x 4 5/8 490000101C494U7R5DJ2D 5.838.5 3 x 3 5/8 740000101C744U010DE2D 3.754.0 3 x 5 1/8 490000101C494U7R5CD2D 4.442.8 2 1/2 x 4 5/8 840000101C844U010DF2D 3.358.2 3 x 5 5/8 570000101C574U7R5CE2D 4.046.7 2 1/2 x 5 1/8 880000101C884U010DP2D 3.359.2 3 x 5 7/8 610000101C614U7R5DC2D 4.645.2 3 x 4 1/8 1200000101C125U010DN2D 2.870.7 3 x 7 5/8 640000101C644U7R5CF2D 3.452.1 2 1/2 x 5 5/8 1400000101C145U010DG2D 2.576.9 3 x 8 5/8 700000101C704U7R5DD2D 4.050.0 3 x 4 5/8 16 Vdc (25 Vdc Surge)810000101C814U7R5DE2D 3.753.6 3 x 5 1/8 16000101C163U016AK2B 39.2 6.0 1 3/8 x 1 5/8 910000101C914U7R5DF2D 3.457.8 3 x 5 5/8 27000101C273U016AA2B 26.08.5 1 3/8 x 2 1/8 960000101C964U7R5DP2D 3.458.8 3 x 5 7/8 38000101C383U016AH2B 20.011.1 1 3/8 x 2 5/8 1300000101C135U7R5DN2D 2.870.2 3 x 7 5/8 45000101C453U016BA2B 19.113.7 2 x 2 1/8 1500000101C155U7R5DG2D 2.576.4 3 x 8 5/8 46000101C463U016EA2B 24.311.2 1 3/4 x 2 1/810 Vdc (15 Vdc Surge) 49000101C493U016AB2B 15.913.6 1 3/8 x 3 1/8 25000101C253U010AK2B 36.0 6.2 1 3/8 x 1 5/8 59000101C593U016AJ2B 13.515.7 1 3/8 x 3 5/8 41000101C413U010AA2B 23.98.9 1 3/8 x 2 1/8 66000101C663U016EH2B 17.714.2 1 3/4 x 2 5/8 58000101C583U010AH2B 18.111.7 1 3/8 x 2 5/8 71000101C713U016BH2B 13.018.0 2 x 2 5/8 68000101C683U010BA2B 17.814.2 2 x 2 1/8 73000101C733U016AC2B 12.217.4 1 3/8 x 4 1/8 69000101C693U010EA2B 22.811.6 1 3/4 x 2 1/8 82000101C823U016AD2B 11.119.0 1 3/8 x 4 5/8Catalog Part Number ESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)CatalogPart NumberESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)Cap. (µF)Cap. (µF)86000101C863U016EB2B 14.116.9 1 3/4 x 3 1/8 94000101C943U020BJ2B 8.025.7 2 x 3 5/8 93000101C933U016AE2B 10.120.6 1 3/8 x 5 1/8 98000101C983U020EC2B 8.623.8 1 3/4 x 4 1/8 100000101C104U016BB2B 8.623.4 2 x 3 1/8 110000101C114U020ED2B 9.224.0 1 3/4 x 4 5/8 110000101C114U016EJ2B 11.819.4 1 3/4 x 3 5/8 120000101C124U020CB2B 7.528.9 2 1/2 x 3 1/8 110000101C114U016AF2B 9.322.3 1 3/8 x 5 5/8 120000101C124U020BC2B 6.030.9 2 x 4 1/8 120000101C124U016CH2B 9.823.7 2 1/2 x 2 5/8 130000101C134U020EE2B 8.426.0 1 3/4 x 5 1/8 120000101C124U016BJ2B 8.025.7 2 x 3 5/8 130000101C134U020BD2B 5.932.5 2 x 4 5/8 130000101C134U016EC2B 8.623.8 1 3/4 x 4 1/8 140000101C144U020EF2B 7.828.0 1 3/4 x 5 5/8 150000101C154U016ED2B 9.224.0 1 3/4 x 4 5/8 150000101C154U020CJ2D 6.133.6 2 1/2 x 3 5/8 160000101C164U016CB2B 7.528.9 2 1/2 x 3 1/8 150000101C154U020BE2B 5.335.4 2 x 5 1/8 160000101C164U016BC2B 6.030.9 2 x 4 1/8 180000101C184U020DB2D 7.332.7 3 x 3 1/8 170000101C174U016EE2B 8.426.0 1 3/4 x 5 1/8 180000101C184U020BF2B 4.938.0 2 x 5 5/8 170000101C174U016BD2B 5.932.5 2 x 4 5/8 190000101C194U020CC2D 4.341.9 2 1/2 x 4 1/8 190000101C194U016EF2B 7.828.0 1 3/4 x 5 5/8 220000101C224U020CD2D 4.542.3 2 1/2 x 4 5/8 200000101C204U016CJ2D 6.133.6 2 1/2 x 3 5/8 230000101C234U020DJ2D 5.938.1 3 x 3 5/8 200000101C204U016BE2B 5.335.4 2 x 5 1/8 250000101C254U020CE2D 4.046.2 2 1/2 x 5 1/8 230000101C234U016BF2B 4.938.0 2 x 5 5/8 280000101C284U020DC2D 4.744.6 3 x 4 1/8 240000101C244U016DB2D 7.332.7 3 x 3 1/8 280000101C284U020CF2D 3.451.6 2 1/2 x 5 5/8 250000101C254U016CC2D 4.341.9 2 1/2 x 4 1/8 330000101C334U020DD2D 4.149.5 3 x 4 5/8 290000101C294U016CD2D 4.542.3 2 1/2 x 4 5/8 380000101C384U020DE2D 3.853.0 3 x 5 1/8 300000101C304U016DJ2D 5.938.1 3 x 3 5/8 420000101C424U020DF2D 3.557.2 3 x 5 5/8 330000101C334U016CE2D 4.046.2 2 1/2 x 5 1/8 450000101C454U020DP2D 3.458.2 3 x 5 7/8 360000101C364U016DC2D 4.744.6 3 x 4 1/8 610000101C614U020DN2D 2.969.4 3 x 7 5/8 370000101C374U016CF2D 3.451.6 2 1/2 x 5 5/8 710000101C714U020DG2D 2.675.5 3 x 8 5/8 430000101C434U016DD2D 4.149.5 3 x 4 5/8 25 Vdc (40 Vdc Surge)490000101C494U016DE2D 3.853.0 3 x 5 1/8 9900101C992U025AK2B 42.6 5.7 1 3/8 x 1 5/8 560000101C564U016DF2D 3.557.2 3 x 5 5/8 16000101C163U025AA2B 28.28.2 1 3/8 x 2 1/8 590000101C594U016DP2D 3.458.2 3 x 5 7/8 23000101C233U025AH2B 20.910.8 1 3/8 x 2 5/8 800000101C804U016DN2D 2.969.6 3 x 7 5/8 27000101C273U025EA2B 25.111.0 1 3/4 x 2 1/8 920000101C924U016DG2D 2.675.8 3 x 8 5/8 27000101C273U025BA2B 19.913.5 2 x 2 1/820 Vdc (30 Vdc Surge)30000101C303U025AB2B 16.613.3 1 3/8 x 3 1/8 13000101C133U020AK2B 39.2 6.0 1 3/8 x 1 5/8 35000101C353U025AJ2B 14.215.4 1 3/8 x 3 5/8 21000101C213U020AA2B 26.08.5 1 3/8 x 2 1/8 39000101C393U025EH2B 18.313.9 1 3/4 x 2 5/8 29000101C293U020AH2B 20.011.1 1 3/8 x 2 5/8 42000101C423U025BH2B 13.517.6 2 x 2 5/8 34000101C343U020BA2B 19.113.7 2 x 2 1/8 43000101C433U025AC2B 12.717.0 1 3/8 x 4 1/8 35000101C353U020EA2B 24.311.2 1 3/4 x 2 1/8 49000101C493U025AD2B 11.618.6 1 3/8 x 4 5/8 38000101C383U020AB2B 15.913.6 1 3/8 x 3 1/8 52000101C523U025EB2B 14.516.6 1 3/4 x 3 1/8 45000101C453U020AJ2B 13.515.7 1 3/8 x 3 5/8 56000101C563U025AE2B 10.620.2 1 3/8 x 5 1/8 50000101C503U020EH2B 17.714.2 1 3/4 x 2 5/8 60000101C603U025BB2B 9.022.9 2 x 3 1/8 54000101C543U020BH2B 13.018.0 2 x 2 5/8 63000101C633U025AF2B 9.721.9 1 3/8 x 5 5/8 55000101C553U020AC2B 12.217.4 1 3/8 x 4 1/8 64000101C643U025EJ2B 12.219.1 1 3/4 x 3 5/8 62000101C623U020AD2B 11.119.0 1 3/8 x 4 5/8 70000101C703U025CH2B 10.123.3 2 1/2 x 2 5/8 66000101C663U020EB2B 14.116.9 1 3/4 x 3 1/8 73000101C733U025BJ2B 8.325.2 2 x 3 5/8 71000101C713U020AE2B 10.120.6 1 3/8 x 5 1/8 77000101C773U025EC2B 9.922.2 1 3/4 x 4 1/8 77000101C773U020BB2B 8.623.4 2 x 3 1/8 88000101C883U025ED2B 9.523.6 1 3/4 x 4 5/8 80000101C803U020AF2B 9.322.3 1 3/8 x 5 5/8 90000101C903U025BC2B 6.430.0 2 x 4 1/8 81000101C813U020EJ2B 11.819.4 1 3/4 x 3 5/8 95000101C953U025CB2B 7.728.4 2 1/2 x 3 1/8 89000101C893U020CH2B 9.823.7 2 1/2 x 2 5/8 100000101C104U025EE2B 8.625.7 1 3/4 x 5 1/8(mΩ) (A) (inches) (mΩ) (A) (inches) 100000101C104U025BD2B 6.131.9 2 x 4 5/8 120000101C124U030CC2D 4.740.0 2 1/2 x 4 1/8 110000101C114U025EF2B 8.027.6 1 3/4 x 5 5/8 150000101C154U030DJ2D 5.738.7 3 x 3 5/8 120000101C124U025CJ2D 6.333.1 2 1/2 x 3 5/8 150000101C154U030CD2D 4.343.4 2 1/2 x 4 5/8 120000101C124U025BE2B 5.534.8 2 x 5 1/8 170000101C174U030CE2D 3.847.4 2 1/2 x 5 1/8 140000101C144U025DB2D 7.432.4 3 x 3 1/8 180000101C184U030DC2D 4.843.9 3 x 4 1/8 140000101C144U025BF2B 5.137.4 2 x 5 5/8 190000101C194U030CF2D 3.551.2 2 1/2 x 5 5/8 150000101C154U025CC2D 4.540.6 2 1/2 x 4 1/8 220000101C224U030DD2D 4.348.5 3 x 4 5/8 170000101C174U025CD2D 4.741.6 2 1/2 x 4 5/8 250000101C254U030DE2D 3.852.8 3 x 5 1/8 180000101C184U025DJ2D 6.037.7 3 x 3 5/8 280000101C284U030DF2D 3.556.9 3 x 5 5/8 200000101C204U025CE2D 4.245.5 2 1/2 x 5 1/8 300000101C304U030DP2D 3.458.8 3 x 5 7/8 220000101C224U025DC2D 4.844.1 3 x 4 1/8 410000101C414U030DN2D 2.969.5 3 x 7 5/8 220000101C224U025CF2D 3.650.3 2 1/2 x 5 5/8 470000101C474U030DG2D 2.675.8 3 x 8 5/8 260000101C264U025DD2D 4.547.3 3 x 4 5/8 40 Vdc (55 Vdc Surge)290000101C294U025DE2D 4.051.6 3 x 5 1/8 5400101C542U040AK2B 47.6 5.4 1 3/8 x 1 5/8 330000101C334U025DF2D 3.556.7 3 x 5 5/8 9000101C902U040AA2B 32.37.6 1 3/8 x 2 1/8 350000101C354U025DP2D 3.557.7 3 x 5 7/8 13000101C133U040AH2B 23.110.3 1 3/8 x 2 5/8 480000101C484U025DN2D 2.969.0 3 x 7 5/8 16000101C163U040EA2B 26.610.7 1 3/4 x 2 1/8 550000101C554U025DG2D 2.675.2 3 x 8 5/8 16000101C163U040BA2B 21.213.0 2 x 2 1/830 Vdc (45 Vdc Surge) 17000101C173U040AB2B 17.313.1 1 3/8 x 3 1/8 5400101C542U030AK2B 43.9 5.6 1 3/8 x 1 5/8 21000101C213U040AJ2B 15.214.8 1 3/8 x 3 5/8 13000101C133U030AA2B 29.88.0 1 3/8 x 2 1/8 23000101C233U040EH2B 19.313.5 1 3/4 x 2 5/8 19000101C193U030AH2B 21.410.7 1 3/8 x 2 5/8 25000101C253U040BH2B 14.317.1 2 x 2 5/8 23000101C233U030EA2B 23.111.5 1 3/4 x 2 1/8 25000101C253U040AC2B 14.016.2 1 3/8 x 4 1/8 23000101C233U030BA2B 18.813.8 2 x 2 1/8 29000101C293U040AD2B 12.417.9 1 3/8 x 4 5/8 24000101C243U030AB2B 16.013.6 1 3/8 x 3 1/8 30000101C303U040EB2B 15.416.2 1 3/4 x 3 1/8 30000101C303U030AJ2B 14.115.4 1 3/8 x 3 5/8 33000101C333U040AE2B 11.319.6 1 3/8 x 5 1/8 33000101C333U030EH2B 16.914.5 1 3/4 x 2 5/8 34000101C343U040BB2B 9.822.0 2 x 3 1/8 36000101C363U030AC2B 13.016.8 1 3/8 x 4 1/8 37000101C373U040EJ2B 12.918.6 1 3/4 x 3 5/8 36000101C363U030BH2B 12.818.1 2 x 2 5/8 37000101C373U040AF2B 10.421.1 1 3/8 x 5 5/8 41000101C413U030AD2B 11.618.6 1 3/8 x 4 5/8 41000101C413U040CH2B 10.722.7 2 1/2 x 2 5/8 44000101C443U030EB2B 13.417.3 1 3/4 x 3 1/8 43000101C433U040BJ2B 8.824.4 2 x 3 5/8 47000101C473U030AE2B 10.620.2 1 3/8 x 5 1/8 45000101C453U040EC2B 10.521.6 1 3/4 x 4 1/8 49000101C493U030BB2B 8.723.3 2 x 3 1/8 52000101C523U040ED2B 9.523.6 1 3/4 x 4 5/8 53000101C533U030AF2B 9.821.8 1 3/8 x 5 5/8 52000101C523U040BC2B 7.128.5 2 x 4 1/8 54000101C543U030EJ2B 11.319.9 1 3/4 x 3 5/8 56000101C563U040CB2B 8.127.6 2 1/2 x 3 1/8 59000101C593U030CH2B 9.324.4 2 1/2 x 2 5/8 59000101C593U040EE2B 8.925.4 1 3/4 x 5 1/8 62000101C623U030BJ2B 7.825.8 2 x 3 5/8 61000101C613U040BD2B 6.531.0 2 x 4 5/8 64000101C643U030EC2B 9.223.0 1 3/4 x 4 1/8 66000101C663U040EF2B 8.426.9 1 3/4 x 5 5/8 75000101C753U030ED2B 8.425.1 1 3/4 x 4 5/8 70000101C703U040BE2B 5.833.8 2 x 5 1/8 75000101C753U030BC2B 6.330.1 2 x 4 1/8 71000101C713U040CJ2D 6.632.2 2 1/2 x 3 5/8 81000101C813U030CB2B 7.129.7 2 1/2 x 3 1/8 79000101C793U040BF2B 5.336.5 2 x 5 5/8 85000101C853U030EE2B 7.926.9 1 3/4 x 5 1/8 83000101C833U040DB2D 8.630.1 3 x 3 1/8 88000101C883U030BD2B 5.832.7 2 x 4 5/8 86000101C863U040CC2D 5.437.3 2 1/2 x 4 1/8 95000101C953U030EF2B 7.528.5 1 3/4 x 5 5/8 100000101C104U040CD2D 4.940.6 2 1/2 x 4 5/8 100000101C104U030CJ2D 5.734.6 2 1/2 x 3 5/8 110000101C114U040DJ2D 7.035.1 3 x 3 5/8 100000101C104U030BE2B 5.235.6 2 x 5 1/8 120000101C124U040CE2D 4.444.4 2 1/2 x 5 1/8 110000101C114U030BF2B 4.838.4 2 x 5 5/8 130000101C134U040DC2D 5.341.9 3 x 4 1/8 120000101C124U030DB2D 7.033.3 3 x 3 1/8 130000101C134U040CF2D 4.048.0 2 1/2 x 5 5/8(mΩ) (A) (inches) (mΩ) (A) (inches) 150000101C154U040DD2D 5.244.0 3 x 4 5/8 63 Vdc (85 Vdc Surge)170000101C174U040DE2D 4.648.1 3 x 5 1/8 2800101C282U063AK2B 57.9 4.9 1 3/8 x 1 5/8 190000101C194U040DF2D 4.251.9 3 x 5 5/8 5000101C502U063AA2B 35.57.3 1 3/8 x 2 1/8 210000101C214U040DP2D 4.053.8 3 x 5 7/8 7200101C722U063AH2B 25.89.8 1 3/8 x 2 5/8 280000101C284U040DN2D 3.463.9 3 x 7 5/8 8800101C882U063BA2B 22.812.6 2 x 2 1/8 330000101C334U040DG2D 3.069.9 3 x 8 5/8 8900101C892U063EA2B 28.010.4 1 3/4 x 2 1/850 Vdc (75 Vdc Surge) 9400101C942U063AB2B 20.412.0 1 3/8 x 3 1/8 3800101C382U050AK2B 48.4 5.4 1 3/8 x 1 5/8 12000101C123U063AJ2B 17.114.0 1 3/8 x 3 5/8 7000101C702U050AA2B 30.87.8 1 3/8 x 2 1/8 13000101C133U063EH2B 20.413.2 1 3/4 x 2 5/8 10000101C103U050AH2B 22.010.5 1 3/8 x 2 5/8 14000101C143U063BH2B 15.416.5 2 x 2 5/8 12000101C123U050EA2B 26.510.7 1 3/4 x 2 1/8 14000101C143U063AC2B 14.815.8 1 3/8 x 4 1/8 12000101C123U050BA2B 20.813.2 2 x 2 1/8 16000101C163U063AD2B 13.217.4 1 3/8 x 4 5/8 13000101C133U050AB2B 17.513.0 1 3/8 x 3 1/8 17000101C173U063EB2B 16.115.8 1 3/4 x 3 1/8 16000101C163U050AJ2B 14.615.2 1 3/8 x 3 5/8 18000101C183U063AE2B 12.019.0 1 3/8 x 5 1/8 18000101C183U050EH2B 19.313.6 1 3/4 x 2 5/8 19000101C193U063BB2B 10.221.5 2 x 3 1/8 19000101C193U050BH2B 14.117.2 2 x 2 5/8 20000101C203U063AF2B 11.020.5 1 3/8 x 5 5/8 19000101C193U050AC2B 13.416.6 1 3/8 x 4 1/8 21000101C213U063EJ2B 13.518.2 1 3/4 x 3 5/8 22000101C223U050AD2B 11.918.3 1 3/8 x 4 5/8 23000101C233U063CH2B 11.322.1 2 1/2 x 2 5/8 24000101C243U050EB2B 15.316.2 1 3/4 x 3 1/8 24000101C243U063BJ2B 9.623.4 2 x 3 5/8 25000101C253U050AE2B 10.820.0 1 3/8 x 5 1/8 25000101C253U063EC2B 11.021.1 1 3/4 x 4 1/8 27000101C273U050BB2B 9.622.2 2 x 3 1/8 29000101C293U063ED2B 10.023.0 1 3/4 x 4 5/8 29000101C293U050EJ2B 12.818.6 1 3/4 x 3 5/8 29000101C293U063BC2B 8.226.4 2 x 4 1/8 29000101C293U050AF2B 10.021.5 1 3/8 x 5 5/8 31000101C313U063CB2B 8.626.9 2 1/2 x 3 1/8 32000101C323U050CH2B 9.624.0 2 1/2 x 2 5/8 33000101C333U063EE2B 9.324.8 1 3/4 x 5 1/8 34000101C343U050BJ2B 8.624.6 2 x 3 5/8 34000101C343U063BD2B 7.229.3 2 x 4 5/8 35000101C353U050EC2B 10.521.6 1 3/4 x 4 1/8 37000101C373U063EF2B 8.826.3 1 3/4 x 5 5/8 40000101C403U050ED2B 9.523.6 1 3/4 x 4 5/8 39000101C393U063BE2B 6.532.0 2 x 5 1/8 41000101C413U050BC2B 7.228.2 2 x 4 1/8 40000101C403U063CJ2D 7.031.4 2 1/2 x 3 5/8 44000101C443U050CB2B 8.227.6 2 1/2 x 3 1/8 44000101C443U063BF2B 5.934.6 2 x 5 5/8 46000101C463U050EE2B 8.825.4 1 3/4 x 5 1/8 47000101C473U063DB2B 9.329.0 3 x 3 1/8 48000101C483U050BD2B 6.331.2 2 x 4 5/8 48000101C483U063CC2D 5.636.4 2 1/2 x 4 1/8 52000101C523U050EF2B 8.427.0 1 3/4 x 5 5/8 56000101C563U063CD2D 5.239.5 2 1/2 x 4 5/8 55000101C553U050CJ2D 6.632.2 2 1/2 x 3 5/8 59000101C593U063DJ2D 7.533.8 3 x 3 5/8 55000101C553U050BE2B 5.734.1 2 x 5 1/8 65000101C653U063CE2D 4.643.3 2 1/2 x 5 1/8 62000101C623U050BF2B 5.236.8 2 x 5 5/8 72000101C723U063DC2D 6.039.5 3 x 4 1/8 65000101C653U050DB2B 8.929.5 3 x 3 1/8 73000101C733U063CF2D 4.246.8 2 1/2 x 5 5/8 67000101C673U050CC2D 5.437.3 2 1/2 x 4 1/8 84000101C843U063DD2D 5.642.5 3 x 4 5/8 79000101C793U050CD2D 4.940.5 2 1/2 x 4 5/8 97000101C973U063DE2D 5.046.5 3 x 5 1/8 83000101C833U050DJ2D 7.334.4 3 x 3 5/8 110000101C114U063DF2D 4.550.2 3 x 5 5/8 90000101C903U050CE2D 4.444.3 2 1/2 x 5 1/8 120000101C124U063DP2D 4.352.0 3 x 5 7/8 100000101C104U050DC2D 5.541.1 3 x 4 1/8 160000101C164U063DN2D 3.662.2 3 x 7 5/8 100000101C104U050CF2D 4.047.9 2 1/2 x 5 5/8 180000101C184U063DG2D 3.268.2 3 x 8 5/8 120000101C124U050DD2D 5.443.2 3 x 4 5/8 75 Vdc (100 Vdc Surge)130000101C134U050DE2D 4.847.2 3 x 5 1/8 2100101C212U075AK2B 97.3 3.8 1 3/8 x 1 5/8 150000101C154U050DF2D 4.451.0 3 x 5 5/8 3600101C362U075AA2B 67.2 5.3 1 3/8 x 2 1/8 160000101C164U050DP2D 4.252.9 3 x 5 7/8 5200101C522U075AH2B 50.07.0 1 3/8 x 2 5/8 220000101C224U050DN2D 3.563.0 3 x 7 5/8 6400101C642U075BA2B 40.79.4 2 x 2 1/8 260000101C264U050DG2D 3.169.0 3 x 8 5/8 6500101C652U075EA2B 47.58.0 1 3/4 x 2 1/8Catalog Part Number ESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)CatalogPart NumberESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)Cap. (µF)Cap.(µF)75 Vdc (100 Vdc Surge) 8900101C892U100BB2B 21.015.0 2 x 3 1/86800101C682U075AB2B 39.38.7 1 3/8 x 3 1/8 9600101C962U100AF2B 23.414.1 1 3/8 x 5 5/8 8400101C842U075AJ2B 32.510.1 1 3/8 x 3 5/8 9800101C982U100EJ2B 25.813.2 1 3/4 x 3 5/8 9400101C942U075EH2B 34.210.2 1 3/4 x 2 5/8 11000101C113U100CH2B 20.716.3 2 1/2 x 2 5/8 10000101C103U075AC2B 27.911.5 1 3/8 x 4 1/8 11000101C113U100BJ2B 19.516.4 2 x 3 5/8 10000101C103U075BH2B 27.412.4 2 x 2 5/8 12000101C123U100EC2B 20.715.4 1 3/4 x 4 1/8 12000101C123U075EB2B 27.012.2 1 3/4 x 3 1/8 14000101C143U100ED2B 18.616.9 1 3/4 x 4 5/8 12000101C123U075AD2B 24.512.8 1 3/8 x 4 5/8 14000101C143U100BC2B 14.819.7 2 x 4 1/8 13000101C133U075AE2B 22.014.0 1 3/8 x 5 1/8 15000101C153U100EE2B 17.018.3 1 3/4 x 5 1/8 14000101C143U075BB2B 18.016.2 2 x 3 1/8 15000101C153U100CB2B 16.519.4 2 1/2 x 3 1/8 15000101C153U075EJ2B 22.414.1 1 3/4 x 3 5/8 16000101C163U100BD2B 14.320.8 2 x 4 5/8 15000101C153U075AF2B 20.015.2 1 3/8 x 5 5/8 17000101C173U100EF2B 15.919.6 1 3/4 x 5 5/8 17000101C173U075CH2B 18.917.1 2 1/2 x 2 5/8 18000101C183U100BE2B 12.722.9 2 x 5 1/8 17000101C173U075BJ2B 16.817.7 2 x 3 5/8 19000101C193U100CJ2B 13.322.7 2 1/2 x 3 5/8 18000101C183U075EC2B 18.016.5 1 3/4 x 4 1/8 21000101C213U100BF2B 11.424.9 2 x 5 5/8 21000101C213U075ED2B 16.218.1 1 3/4 x 4 5/8 22000101C223U100DB2B 13.823.8 3 x 3 1/8 21000101C213U075BC2B 12.721.2 2 x 4 1/8 22000101C223U100CC2B 10.027.4 2 1/2 x 4 1/8 23000101C233U075CB2B 14.320.8 2 1/2 x 3 1/8 26000101C263U100CD2B 9.728.9 2 1/2 x 4 5/8 24000101C243U075EE2B 14.819.6 1 3/4 x 5 1/8 28000101C283U100DJ2B 11.227.7 3 x 3 5/8 25000101C253U075BD2B 12.322.4 2 x 4 5/8 30000101C303U100CE2D 8.631.7 2 1/2 x 5 1/8 27000101C273U075EF2B 13.920.9 1 3/4 x 5 5/8 34000101C343U100DC2D 8.533.2 3 x 4 1/8 28000101C283U075BE2B 11.024.6 2 x 5 1/8 34000101C343U100CF2D 7.734.5 2 1/2 x 5 5/8 29000101C293U075CJ2B 11.524.4 2 1/2 x 3 5/8 39000101C393U100DD2D 7.935.7 3 x 4 5/8 32000101C323U075BF2B 9.926.7 2 x 5 5/8 45000101C453U100DE2D 6.540.5 3 x 5 1/8 34000101C343U075DB2B 13.324.2 3 x 3 1/8 51000101C513U100DF2D 6.043.5 3 x 5 5/8 35000101C353U075CC2B 8.729.4 2 1/2 x 4 1/8 54000101C543U100DP2D 6.044.1 3 x 5 7/8 41000101C413U075CD2D 8.430.9 2 1/2 x 4 5/8 74000101C743U100DN2D 4.854.0 3 x 7 5/8 43000101C433U075DJ2B 10.828.2 3 x 3 5/8 85000101C853U100DG2D 4.259.2 3 x 8 5/8 47000101C473U075CE2D 7.534.0 2 1/2 x 5 1/8 150 Vdc (200 Vdc Surge)52000101C523U075DC2D 7.635.0 3 x 4 1/8 490101C491U150AK2B 433.0 2.1 1 3/8 x 1 5/8 53000101C533U075CF2D 6.736.9 2 1/2 x 5 5/8 880101C881U150AA2B 241.0 3.1 1 3/8 x 2 1/8 61000101C613U075DD2D 7.935.7 3 x 4 5/8 1200101C122U150EA2B 199.0 3.9 1 3/4 x 2 1/8 70000101C703U075DE2D 6.142.0 3 x 5 1/8 1300101C132U150AH2B 163.0 4.0 1 3/8 x 2 5/8 79000101C793U075DF2D 6.043.5 3 x 5 5/8 1500101C152U150BA2B 159.0 4.8 2 x 2 1/8 83000101C833U075DP2D 5.745.1 3 x 5 7/8 1700101C172U150AB2B 125.0 4.9 1 3/8 x 3 1/8 110000101C114U075DN2D 4.754.7 3 x 7 5/8 1800101C182U150EH2B 133.0 5.2 1 3/4 x 2 5/8 130000101C134U075DG2D 4.160.3 3 x 8 5/8 1900101C192U150AJ2B 112.0 5.5 1 3/8 x 3 5/8 100 Vdc (150 Vdc Surge) 2300101C232U150BH2B 104.0 6.3 2 x 2 5/8 1300101C132U100AK2B 116.0 3.5 1 3/8 x 1 5/8 2500101C252U150EB2B 95.5 6.5 1 3/4 x 3 1/8 2300101C232U100AA2B 79.9 4.9 1 3/8 x 2 1/8 2500101C252U150AC2B 84.9 6.6 1 3/8 x 4 1/8 3400101C342U100AH2B 59.4 6.4 1 3/8 x 2 5/8 2700101C272U150AD2B 80.17.1 1 3/8 x 4 5/8 4100101C412U100BA2B 47.68.7 2 x 2 1/8 3100101C312U150AE2B 74.07.6 1 3/8 x 5 1/8 4200101C422U100EA2B 55.07.4 1 3/4 x 2 1/8 3200101C322U150EJ2B 74.67.7 1 3/4 x 3 5/8 4400101C442U100AB2B 46.68.0 1 3/8 x 3 1/8 3400101C342U150BB2B 54.69.3 2 x 3 1/8 5400101C542U100AJ2B 38.59.3 1 3/8 x 3 5/8 3600101C362U150AF2B 66.38.4 1 3/8 x 5 5/8 6100101C612U100EH2B 39.69.5 1 3/4 x 2 5/8 3800101C382U150CH2B 62.89.4 2 1/2 x 2 5/8 6500101C652U100AC2B 32.910.6 1 3/8 x 4 1/8 4000101C402U150BJ2B 59.79.4 2 x 3 5/8 6500101C652U100BH2B 32.011.4 2 x 2 5/8 4400101C442U150EC2B 54.39.5 1 3/4 x 4 1/8 7500101C752U100AD2B 28.911.8 1 3/8 x 4 5/8 4500101C452U150ED2B 53.110.0 1 3/4 x 4 5/8 7900101C792U100EB2B 31.111.4 1 3/4 x 3 1/8 5200101C522U150EE2B 45.911.1 1 3/4 x 5 1/8 8500101C852U100AE2B 25.812.9 1 3/8 x 5 1/8Catalog Part Number ESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)CatalogPart NumberESR Max.@ 25 °C120 Hz(mΩ)Ripple Max.@ 85°C120 Hz(A)Nominal SizeD x L(inches)Cap. (µF)Cap. (µF)5200101C522U150CB2B 45.911.6 2 1/2 x 3 1/8 8300101C832T200CE2B 24.019.0 2 1/2 x 5 1/8 5200101C522U150BC2B 45.011.3 2 x 4 1/8 9300101C932T200DC2B 21.420.9 3 x 4 1/8 5700101C572U150BD2B 41.912.2 2 x 4 5/8 10000101C103T200CF2B 21.220.8 2 1/2 x 5 5/8 5800101C582U150EF2B 41.212.2 1 3/4 x 5 5/8 11000101C113T200DD2B 20.522.1 3 x 4 5/8 6600101C662U150BE2B 36.213.6 2 x 5 1/8 13000101C133T200DB2B 17.820.9 3 x 3 1/8 6600101C662U150CJ2B 36.213.8 2 1/2 x 3 5/8 13000101C133T200DE2B 17.824.5 3 x 5 1/8 7800101C782U150DB2B 35.714.8 3 x 3 1/8 14000101C143T200DF2B 16.925.9 3 x 5 5/8 7900101C792U150BF2B 30.215.3 2 x 5 5/8 15000101C153T200DP2B 15.927.1 3 x 5 7/8 8500101C852U150CC2B 28.116.3 2 1/2 x 4 1/8 20000101C203T200DN2D 12.533.9 3 x 7 5/8 9400101C942U150CD2B 25.417.8 2 1/2 x 4 5/8 23000101C233T200DG2D 10.437.8 3 x 8 5/8 9900101C992U150DJ2B 28.117.5 3 x 3 5/8 250 Vdc (350 Vdc Surge)11000101C113U150CE2B 21.719.9 2 1/2 x 5 1/8 290101C291T250AK2B 549.0 1.8 1 3/8 x 1 5/8 12000101C123U150DC2B 23.220.1 3 x 4 1/8 530101C531T250AA2B 300.0 2.7 1 3/8 x 2 1/8 13000101C133U150CF2B 18.422.3 2 1/2 x 5 5/8 700101C701T250EA2B 227.0 3.7 1 3/4 x 2 1/8 14000101C143U150DD2B 19.922.5 3 x 4 5/8 760101C761T250AH2B 209.0 3.5 1 3/8 x 2 5/8 16000101C163U150DE2B 17.424.8 3 x 5 1/8 890101C891T250BA2B 164.0 4.7 2 x 2 1/8 18000101C183U150DF2B 15.527.1 3 x 5 5/8 990101C991T250AB2B 161.0 4.3 1 3/8 x 3 1/8 19000101C193U150DP2B 14.728.2 3 x 5 7/8 1100101C112T250EH2B 145.0 5.0 1 3/4 x 2 5/8 26000101C263U150DN2D 11.335.7 3 x 7 5/8 1200101C122T250AJ2B 133.0 5.0 1 3/8 x 3 5/8 30000101C303U150DG2D 9.340.0 3 x 8 5/8 1400101C142T250BH2B 104.0 6.3 2 x 2 5/8 200 Vdc (275 Vdc Surge) 1500101C152T250AC2B 106.0 5.9 1 3/8 x 4 1/8 380101C381T200AK2B 454.0 2.0 1 3/8 x 1 5/8 1500101C152T250EB2B 106.0 6.2 1 3/4 x 3 1/8 680101C681T200AA2B 254.0 3.0 1 3/8 x 2 1/8 1700101C172T250AD2B 101.0 6.3 1 3/8 x 4 5/8 890101C891T200EA2B 224.0 3.7 1 3/4 x 2 1/8 1900101C192T250AE2B 90.7 6.9 1 3/8 x 5 1/8 980101C981T200AH2B 176.0 3.9 1 3/8 x 2 5/8 1900101C192T250EJ2B 83.87.3 1 3/4 x 3 5/8 1100101C112T200BA2B 181.0 4.5 2 x 2 1/8 1900101C192T250BB2B 69.88.2 2 x 3 1/8 1300101C132T200AB2B 133.0 4.8 1 3/8 x 3 1/8 2200101C222T250AF2B 84.47.4 1 3/8 x 5 5/8 1400101C142T200EH2B 142.0 5.0 1 3/4 x 2 5/8 2300101C232T250CH2B 75.08.6 2 1/2 x 2 5/8 1600101C162T200AJ2B 108.0 5.6 1 3/8 x 3 5/8 2300101C232T250EC2B 69.28.4 1 3/4 x 4 1/8 1800101C182T200BH2B 111.0 6.1 2 x 2 5/8 2400101C242T250BJ2B 58.09.5 2 x 3 5/8 1900101C192T200EB2B 105.0 6.2 1 3/4 x 3 1/8 2700101C272T250ED2B 58.99.5 1 3/4 x 4 5/8 1900101C192T200AC2B 88.9 6.4 1 3/8 x 4 1/8 2900101C292T250BC2B 50.310.7 2 x 4 1/8 2200101C222T200AD2B 90.4 6.7 1 3/8 x 4 5/8 3100101C312T250CB2B 55.610.6 2 1/2 x 3 1/8 2400101C242T200EJ2B 82.97.3 1 3/4 x 3 5/8 3100101C312T250EE2B 51.310.5 1 3/4 x 5 1/8 2400101C242T200BB2B 82.97.5 2 x 3 1/8 3400101C342T250BD2B 45.611.7 2 x 4 5/8 2500101C252T200AE2B 79.67.4 1 3/8 x 5 1/8 3500101C352T250EF2B 45.511.6 1 3/4 x 5 5/8 2800101C282T200AF2B 71.08.1 1 3/8 x 5 5/8 3900101C392T250BE2B 42.012.6 2 x 5 1/8 3100101C312T200BJ2B 64.29.0 2 x 3 5/8 4000101C402T250CJ2B 43.112.6 2 1/2 x 3 5/8 3400101C342T200EC2B 58.59.1 1 3/4 x 4 1/8 4500101C452T250BF2B 38.313.6 2 x 5 5/8 3500101C352T200ED2B 56.89.7 1 3/4 x 4 5/8 4700101C472T250DB2B 42.313.6 3 x 3 1/8 4000101C402T200EE2B 49.710.7 1 3/4 x 5 1/8 5100101C512T250CC2B 30.615.6 2 1/2 x 4 1/8 4000101C402T200CB2B 49.711.2 2 1/2 x 3 1/8 5700101C572T250CD2B 28.916.7 2 1/2 x 4 5/8 4000101C402T200BC2B 43.111.5 2 x 4 1/8 5900101C592T250DJ2B 33.716.0 3 x 3 5/8 4400101C442T200BD2B 45.211.7 2 x 4 5/8 6500101C652T250CE2B 26.618.0 2 1/2 x 5 1/8 4500101C452T200EF2B 44.211.7 1 3/4 x 5 5/8 7200101C722T250DC2B 27.618.4 3 x 4 1/8 5000101C502T200BE2B 39.812.9 2 x 5 1/8 7700101C772T250CF2B 24.119.5 2 1/2 x 5 5/8 5100101C512T200CJ2B 39.013.3 2 1/2 x 3 5/8 8500101C852T250DD2B 23.420.7 3 x 4 5/8 6100101C612T200BF2B 32.614.7 2 x 5 5/8 9700101C972T250DE2B 20.522.8 3 x 5 1/8 6500101C652T200CC2B 26.316.9 2 1/2 x 4 1/8 11000101C113T250DF2B 18.125.0 3 x 5 5/8 7200101C722T200CD2B 27.617.1 2 1/2 x 4 5/8 12000101C123T250DP2B 16.626.5 3 x 5 7/8 7600101C762T200DJ2B 29.717.0 3 x 3 5/8 16000101C163T250DN2D 13.432.8 3 x 7 5/818000101C183T250DG2D 11.136.7 3 x 8 5/8。

戴尔 E1920H/E2020H/E2220H/E2420H/E2420HS/E2720H/E2720HS 用户手册显示器型号：E1920H/E2020H/E2220H/E2420H/E2420HS/E2720H/E2720HS管制型号：E1920Hf, E2020Hb,E2220Hf, E2220Ho, E2420Hf, E2420Ho, E2420HSf, E2720Hb, E2720HSb注意：“注意”表示能有助于您更好地使用计算机的重要信息。

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2020 年 12 月修订版 A02目录关于您的显示器 (5)包装清单 (5)产品功能 (6)认识产品特点和控制功能 (7)显示器规格 (12)即插即用功能 (25)液晶显示器的质量和像素准则 (25)维护指南 (25)配置显示器 (26)安装支架 (26)连接您的显示器 (31)整理电缆 (32)拆除支架 (32)运行您的显示器 (38)打开显示器 (38)使用前面板的控件 (38)使用屏幕显示（OSD）菜单 (41)配置您的显示器 (61)使用时的倾斜角度 (67)目录│ 3故障排除 (68)自检 (68)内置诊断 (70)常见问题 (71)与产品相关的问题 (73)附件 (74)FCC声明（仅限美国）和其他监管信息 (74)联系戴尔 (74)能源标签和产品参数信息表适用的欧盟产品数据库 (74)针脚分配 (75)4 │ 目录关于您的显示器 │ 5a 部件图示b ca c b部件说明显示器支架升降器：a.E1920H/E2020Hb.E2220H/E2420H/E2720Hc.E2420HS/E2720HS支架底座a.E1920H/E2020H/E2220H/E2420Hb.E2720Hc.E2420HS/E2720HS VESA ™ 盖电源线（因国家/地区而异）关于您的显示器包装清单随同显示器一同寄送给您的还包括下表所列的部件。

DIMENSIONSFEATURESMEASUREMENT CONDITIOND62LCB / D62CB / D63LCB / D63CBRecommended patterns•Low profile (6.2×6.3mm Max. square, 2.0, 2.5, 3.0,and 3.5mm Max. height).•Magnetically shielded construction and low DC resistance.•Suitable for large currents.•Ideal for a variety of DC-DC converter inductor applications.•RoHS compliant.• ו •• •Note (*) D62LCB; 2.0mm Max. height / D63LCB; 3.0mm Max. heightD62CB; 2.5mm Max. height / D63CB; 3.5mm Max. height(1) Inductance is measured with a LCR meter 4284A (Agilent Technologies) or equivalent.Test frequency at 100kHz(2) DC resistance is measured with a Digital Multimeter TR6871(Advantest) or equivalent.(3)Maximum allowable DC current is that which causes a 30%inductance reduction from the initial value, or coil temperature to rise by 40°C, whichever is smaller. (Reference ambient temperature 20°C)6.2M a x .6.3Max.24.80.6(Unit:mm)4.62.66.6(Unit: mm)#A920CY-1R0M 1.0± 2014 (11)2.89 (3.85) 3.48 (4.64) 4.31 (5.07)#A920CY-1R5M 1.5± 2017 (14) 2.35 (3.18) 2.83 (3.77) 3.68 (4.33)#A920CY-2R0M 2.0± 2021 (17) 2.03 (2.73) 2.44 (3.25) 3.54 (4.17)#A920CY-3R3M 3.3± 20 29 (24) 1.57 (2.03) 1.89 (2.52) 2.73 (3.22)#A920CY-4R3M 4.3± 20 37 (31) 1.37 (1.73) 1.65 (2.20) 2.46 (2.90)TYPE D62CB (With Ferrite shield) (Quantity/reel; 1,500 PCS)TOKO Part Number Inductance Decrease Current (3)(A) Max. (Typ.)=10%=30%∆LL ∆L L TemperatureRise Current (3)∆T=40°C (A)Max. (Typ.)#A920CY-6R2M 6.2± 2052 (43) 1.14 (1.47) 1.37 (1.82) 1.85 (2.18)#A920CY-100M 10.0± 2077 (64)0.89 (1.19) 1.07 (1.42) 1.55 (1.83)#A920CY-120M 12.0± 2090 (75)0.81 (1.10)0.97 (1.29) 1.38 (1.62)#A920CY-150M 15.0± 20105 (87)0.73 (1.02)0.87 (1.16) 1.25 (1.47)#A920CY-180M 18.0± 20129 (110)0.66 (0.90)0.79 (1.05) 1.16 (1.37)#A920CY-220M 22.0± 20154 (130)0.60 (0.83)0.71 (0.94) 1.01 (1.19)#A920CY-270M 27.0± 20 204 (170)0.54 (0.77)0.64 (0.85)0.94 (1.11)#A920CY-330M 33.0± 20229 (195)0.49 (0.63)0.58 (0.77)0.84 (0.99)#A920CY-390M 39.0± 20 294 (245)0.45 (0.58)0.53 (0.70)0.74 (0.87)#A920CY-470M 47.0± 20 348 (290)0.40 (0.55)0.48 (0.64)0.68 (0.80)#A920CY-560M 56.0± 20 413 (345)0.37 (0.49)0.44 (0.58)0.63 (0.74)#A920CY-680M 68.0± 20 475 (400)0.33 (0.48)0.40 (0.53)0.59 (0.69)#A920CY-820M82.0± 20558 (465)0.30 (0.42)0.36 (0.48)0.56 (0.66)Inductance (1)(µH)Tolerance(%)DC Resistance (2)(m Ω) Max.(Typ.)SELECTION GUIDE FOR STANDARD COILS#A918CY-1R0M #A918CY-1R5M #A918CY-2R0M #A918CY-3R3M #A918CY-4R7M TemperatureRise Current (3)∆T=40°C (A)Max. (Typ.)1.0± 2017 (14)2.97 (3.95) 3.50 (4.67) 3.70 (4.35)1.5± 2021 (17) 2.48 (3.30) 2.94 (3.92) 3.17 (3.74)2.0± 2029 (24) 2.06 (2.74) 2.47 (3.30) 2.47 (2.91)3.3± 20 47 (39) 1.65 (2.20) 1.99 (2.65) 2.10 (2.47)4.7± 20 66 (55) 1.33 (1.77) 1.59 (2.11) 1.63 (1.93)TYPE D62LCB (With Ferrite Shield) (Quantity/reel; 1,500 PCS)TOKO Part Number 6.2± 2074 (62) 1.25 (1.67) 1.49 (1.99) 1.53 (1.81)8.2± 20102 (85) 1.03 (1.38) 1.25 (1.66) 1.31 (1.54)10.0± 20118 (98) 1.01 (1.35) 1.22 (1.62) 1.15 (1.36)12.0± 20154 (128)0.82 (1.10)0.99 (1.32) 1.17 (1.38)15.0± 20179 (149)0.79 (1.06)0.94 (1.25)0.87 (1.03)#A918CY-6R2M #A918CY-8R2M #A918CY-100M #A918CY-120M #A918CY-150M 18.0± 20207 (172)0.70 (0.93)0.83 (1.11)0.95 (1.12)22.0± 20 253 (211)0.67 (0.89)0.80 (1.06)0.78 (0.92)27.0± 20331 (275)0.55 (0.73)0.65 (0.87)0.68 (0.81)33.0± 20 368 (306)0.54 (0.72)0.63 (0.85)0.64 (0.76)39.0± 20 473 (394)0.46 (0.61)0.55 (0.73)0.59 (0.70)#A918CY-180M #A918CY-220M #A918CY-270M #A918CY-330M #A918CE-390M 47.0± 20542 (452)0.42 (0.57)0.50 (0.67)0.55 (0.65)#A918CE-470MInductance (1)(µH)DC Resistance (2)(m Ω) Max.(Typ.)Inductance Decrease Current (3)(A) Max. (Typ.)=10%=30%∆LL ∆L L Tolerance(%)#A921CY-1R0M 1.0± 2014 (11)2.95 (4.06)3.59 (4.79) 4.52 (5.32)#A921CY-1R5M 1.5± 2016 (13) 2.41 (3.35) 2.93 (3.92) 3.78 (4.45)#A921CY-2R2M 2.2± 2020 (16) 1.99 (2.72) 2.42 (3.24) 3.51 (4.13)#A921CY-3R6M 3.6± 20 26 (21) 1.55 (2.00) 1.89 (2.53) 3.01 (3.54)#A921CY-4R7M 4.7± 20 33 (27) 1.36 (1.70) 1.66 (2.22) 2.58 (3.03)TYPE D63LCB (With Ferrite Shield) (Quantity/reel; 1,500 PCS)TOKO Part Number DC Resistance (2)(m Ω) Max.(Typ.)Inductance Decrease Current (3)(A) Max. (Typ.)=10%=30%∆LL ∆L L Temperature Rise Current (3)∆T=40°C (A)Max. (Typ.)#A921CY-6R2M 6.2± 2039 (32) 1.18 (1.58) 1.45 (1.93) 2.28 (2.69)#A921CY-100M 10.0± 2059 (49)0.93 (1.22) 1.14 (1.52) 1.91 (2.25)#A921CY-120M 12.0± 2063 (52)0.85 (1.10) 1.04 (1.39) 1.80 (2.12)#A921CY-150M 15.0± 2075 (62)0.76 (1.02)0.93 (1.25) 1.73 (2.04)#A921CY-180M 18.0± 2089 (74)0.69 (0.93)0.85 (1.14) 1.58 (1.86)#A921CY-220M 22.0± 20115 (95)0.62 (0.80)0.77 (1.03) 1.34 (1.58)#A921CY-270M 27.0± 20 144 (120)0.56 (0.74)0.70 (0.93) 1.14 (1.35)#A921CY-330M 33.0± 20168 (140)0.51 (0.70)0.63 (0.84) 1.01 (1.19)#A921CY-390M 39.0± 20 180 (150)0.47 (0.66)0.58 (0.77)0.98 (1.16)#A921CY-470M 47.0± 20 225 (185)0.43 (0.56)0.53 (0.71)0.89 (1.05)#A921CY-560M 56.0± 20 264 (220)0.39 (0.52)0.48 (0.65)0.82 (0.97)#A921CY-680M 68.0± 20 324 (270)0.35 (0.45)0.44 (0.59)0.73 (0.87)#A921CY-820M 82.0± 20 396 (330)0.32 (0.44)0.40 (0.54)0.64 (0.76)#A921CY-101M 100.0± 20 498 (415)0.29 (0.40)0.36 (0.49)0.58 (0.69)#A921CY-151M150.0± 20738 (615)0.25 (0.33)0.31 (0.41)0.44 (0.52)Inductance (1)(µH)Tolerance(%)D63LCB :6.2×6.3mm Max. square, 3.0mm height, Inductance range: 1.0~150µH D63CB : 6.2×6.3mm Max. square, 3.5mm height, Inductance range: 2.0~100µHSELECTION GUIDE FOR STANDARD COILSTemperatureRise Current (3)∆T=40°C (A)Max. (Typ.)2.0± 2019 (16)2.36 (3.15) 3.00 (4.00) 3.51 (4.14)2.7± 2022 (18) 2.17 (2.89) 2.69 (3.59) 3.32 (3.91)3.3± 2026 (21) 2.10 (2.80) 2.57 (3.43) 2.99 (3.52)4.7± 20 32 (26) 1.65 (2.20) 2.08 (2.78) 2.67 (3.15)6.2± 20 35 (29) 1.41 (1.88) 1.84 (2.45) 2.56 (3.02)TYPE D63CB (With Ferrite Shield) (Quantity/reel; 1,000 PCS)TOKO Part Number #A916CY-2R0M #A916CY-2R7M #A916CY-3R3M #A916CY-4R7M #A916CY-6R2M 8.2± 2044 (36) 1.25 (1.66) 1.54 (2.06) 2.24 (2.64)10.0± 2050 (41) 1.15 (1.53) 1.49 (1.99) 2.09 (2.46)12.0± 2062 (52)0.98 (1.31) 1.28 (1.71) 1.84 (2.17)15.0± 2077 (64)0.86 (1.14) 1.10 (1.47) 1.64 (1.93)18.0± 2082 (68)0.80 (1.07) 1.05 (1.40) 1.61 (1.90)#A916CY-8R2M #A916CY-100M #A916CY-120M #A916CY-150M #A916CY-180M 22.0± 20106 (88)0.75 (0.99)0.97 (1.29) 1.37 (1.62)27.0± 20 140 (117)0.64 (0.85)0.82 (1.09) 1.18 (1.39)33.0± 20162 (135)0.60 (0.80)0.76 (1.01) 1.09 (1.28)39.0± 20 191 (159)0.55 (0.74)0.70 (0.93) 1.02 (1.20)47.0± 20 208 (174)0.53 (0.70)0.68 (0.90)0.95 (1.12)#A916CY-220M #A916CY-270M #A916CY-330M #A916CY-390M #A916CY-470M 56.0± 20 257 (214)0.47 (0.63)0.60 (0.80)0.85 (1.00)68.0± 20 319 (266)0.44 (0.58)0.56 (0.74)0.75 (0.89)82.0± 20 420 (349)0.36 (0.48)0.47 (0.62)0.65 (0.76)100.0± 20477 (397)0.36 (0.48)0.45 (0.60)0.60 (0.71)#A916CY-560M #A916CY-680M #A916CY-820M #A916CY-101MInductance (1)(µH)DC Resistance (2)(m Ω) Max.(Typ.)Inductance Decrease Current (3)(A) Max. (Typ.)=10%=30%∆LL ∆L L Tolerance(%)。

________________________________________________________________Maxim Integrated Products 1General DescriptionThe MAX202E–MAX213E, MAX232E/MAX241E line drivers/receivers are designed for RS-232 and V.28communications in harsh environments. Each transmitter output and receiver input is protected against ±15kV electrostatic discharge (ESD) shocks, without latchup.The various combinations of features are outlined in the Selector Guide.The drivers and receivers for all ten devices meet all EIA/TIA-232E and CCITT V.28specifications at data rates up to 120kbps, when loaded in accordance with the EIA/TIA-232E specification.The MAX211E/MAX213E/MAX241E are available in 28-pin SO packages, as well as a 28-pin SSOP that uses 60% less board space. The MAX202E/MAX232E come in 16-pin TSSOP, narrow SO, wide SO, and DIP packages. The MAX203E comes in a 20-pin DIP/SO package, and needs no external charge-pump capacitors. The MAX205E comes in a 24-pin wide DIP package, and also eliminates external charge-pump capacitors. The MAX206E/MAX207E/MAX208E come in 24-pin SO, SSOP, and narrow DIP packages. The MAX232E/MAX241E operate with four 1µF capacitors,while the MAX202E/MAX206E/MAX207E/MAX208E/MAX211E/MAX213E operate with four 0.1µF capacitors,further reducing cost and board space.________________________ApplicationsNotebook, Subnotebook, and Palmtop Computers Battery-Powered Equipment Hand-Held EquipmentNext-Generation Device Featureso For Low-Voltage ApplicationsMAX3222E/MAX3232E/MAX3237E/MAX3241E/MAX3246E: ±15kV ESD-Protected Down to10nA, +3.0V to +5.5V, Up to 1Mbps, True RS-232Transceivers (MAX3246E Available in a UCSP™Package)o For Low-Power ApplicationsMAX3221/MAX3223/MAX3243: 1µA SupplyCurrent, True +3V to +5.5V RS-232 Transceivers with Auto-Shutdown™o For Space-Constrained ApplicationsMAX3233E/MAX3235E: ±15kV ESD-Protected,1µA, 250kbps, +3.0V/+5.5V, Dual RS-232Transceivers with Internal Capacitorso For Low-Voltage or Data Cable ApplicationsMAX3380E/MAX3381E: +2.35V to +5.5V, 1µA,2Tx/2Rx RS-232 Transceivers with ±15kV ESD-Protected I/O and Logic PinsMAX202E–MAX213E, MAX232E/MAX241E±15kV ESD-Protected, +5V RS-232 TransceiversSelector Guide19-0175; Rev 6; 3/05Pin Configurations and Typical Operating Circuits appear at end of data sheet.YesPARTNO. OF RS-232DRIVERSNO. OF RS-232RECEIVERSRECEIVERS ACTIVE IN SHUTDOWNNO. OF EXTERNAL CAPACITORS(µF)LOW-POWER SHUTDOWNTTL TRI-STATE MAX202E 220 4 (0.1)No No MAX203E 220None No No MAX205E 550None Yes Yes MAX206E 430 4 (0.1)Yes Yes MAX207E 530 4 (0.1)No No MAX208E 440 4 (0.1)No No MAX211E 450 4 (0.1)Yes Yes MAX213E 452 4 (0.1)Yes Yes MAX232E 220 4 (1)No No MAX241E454 (1)YesFor pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .AutoShutdown and UCSP are trademarks of Maxim Integrated Products, Inc.Ordering InformationOrdering Information continued at end of data sheet.2_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EABSOLUTE MAXIMUM RATINGSV CC ..........................................................................-0.3V to +6V V+................................................................(V CC - 0.3V) to +14V V-............................................................................-14V to +0.3V Input VoltagesT_IN............................................................-0.3V to (V+ + 0.3V)R_IN...................................................................................±30V Output VoltagesT_OUT.................................................(V- - 0.3V) to (V+ + 0.3V)R_OUT......................................................-0.3V to (V CC + 0.3V)Short-Circuit Duration, T_OUT....................................Continuous Continuous Power Dissipation (T A = +70°C)16-Pin Plastic DIP (derate 10.53mW/°C above +70°C)....842mW 16-Pin Narrow SO (derate 8.70mW/°C above +70°C).....696mW 16-Pin Wide SO (derate 9.52mW/°C above +70°C)......762mW 16-Pin TSSOP (derate 9.4mW/°C above +70°C)...........755mW20-Pin Plastic DIP (derate 11.11mW/°C above +70°C)...889mW 20-Pin SO (derate 10.00mW/°C above +70°C).............800mW 24-Pin Narrow Plastic DIP(derate 13.33mW/°C above +70°C) ...............................1.07W 24-Pin Wide Plastic DIP(derate 14.29mW/°C above +70°C)................................1.14W 24-Pin SO (derate 11.76mW/°C above +70°C).............941mW 24-Pin SSOP (derate 8.00mW/°C above +70°C)..........640mW 28-Pin SO (derate 12.50mW/°C above +70°C)....................1W 28-Pin SSOP (derate 9.52mW/°C above +70°C)..........762mW Operating Temperature RangesMAX2_ _EC_ _.....................................................0°C to +70°C MAX2_ _EE_ _...................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +165°C Lead Temperature (soldering, 10s).................................+300°CELECTRICAL CHARACTERISTICS(V CC = +5V ±10% for MAX202E/206E/208E/211E/213E/232E/241E; V CC = +5V ±5% for MAX203E/205E/207E; C1–C4 = 0.1µF for MAX202E/206E/207E/208E/211E/213E; C1–C4 = 1µF for MAX232E/241E; T A = T MIN to T MAX ; unless otherwise noted. Typical values are at T A = +25°C.)Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.ELECTRICAL CHARACTERISTICS (continued)MAX202E–MAX213E, MAX232E/MAX241E (V CC= +5V ±10% for MAX202E/206E/208E/211E/213E/232E/241E; V CC= +5V ±5% for MAX203E/205E/207E; C1–C4 = 0.1µF forMAX202E/206E/207E/208E/211E/213E; C1–C4 = 1µF for MAX232E/241E; T A= T MIN to T MAX; unless otherwise noted. Typical valuesare at T A= +25°C.)Note 1:MAX211EE_ _ tested with V CC= +5V ±5%._______________________________________________________________________________________34______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241E__________________________________________Typical Operating Characteristics(Typical Operating Circuits, V CC = +5V, T A = +25°C, unless otherwise noted.)5.00MAX211E/MAX213ETRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCELOAD CAPACITANCE (pF)V O H , -V O L (V )5.56.06.57.07.58.0100020003000400050000MAX211E/MAX213E/MAX241E TRANSMITTER SLEW RATE vs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E ( V /µs )5101520253010002000300040005000_______________________________________________________________________________________5MAX202E–MAX213E, MAX232E/MAX241E____________________________Typical Operating Characteristics (continued)(Typical Operating Circuits, V CC = +5V, T A = +25°C, unless otherwise noted.)2MAX202E/MAX203E/MAX232E TRANSMITTER SLEW RATE vs. LOAD CAPACITANCELOAD CAPACITANCE (pF)S L E W R A T E ( V /µs )468101214100020003000400050005.07.5-7.53000MAX205E–MAX208ETRANSMITTER OUTPUT VOLTAGEvs. LOAD CAPACITANCE-5.02.5LOAD CAPACITANCE (pF)O U T P U T V O L T A G E (V )10002000400050000-2.54550203000MAX205E–MAX208E SUPPLY CURRENT vs. LOAD CAPACITANCE2540LOAD CAPACITANCE (pF)S U P P L Y C U R R E N T (m A )100020004000500035302.55.0-10.0180MAX205E –MAX208EOUTPUT VOLTAGE vs. DATA RATE-7.50DATA RATE (kbps)O U T P U T V O L T A G E (V )601202401503090210-2.5-5.010.07.56_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EMAX203EMAX205E_____________________________________________________________Pin DescriptionsMAX202E/MAX232E_______________________________________________________________________________________7MAX202E–MAX213E, MAX232E/MAX241EMAX208E________________________________________________Pin Descriptions (continued)MAX206EMAX207E8_______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241EMAX211E/MAX213E/MAX241E)(MAX205E/MAX206E/MAX211E/MAX213E/MAX241E)________________________________________________Pin Descriptions (continued)MAX211E/MAX213E/MAX241EFigure 3. Transition Slew-Rate Circuit_______________Detailed Description The MAX202E–MAX213E, MAX232E/MAX241E consist of three sections: charge-pump voltage converters, drivers (transmitters), and receivers. These E versions provide extra protection against ESD. They survive ±15kV discharges to the RS-232 inputs and outputs, tested using the Human Body Model. When tested according to IEC1000-4-2, they survive ±8kV contact-discharges and ±15kV air-gap discharges. The rugged E versions are intended for use in harsh environments or applications where the RS-232 connection is frequently changed (such as notebook computers). The standard (non-“E”) MAX202, MAX203, MAX205–MAX208, MAX211, MAX213, MAX232, and MAX241 are recommended for applications where cost is critical.+5V to ±10V Dual Charge-PumpVoltage Converter The +5V to ±10V conversion is performed by dual charge-pump voltage converters (Figure 4). The first charge-pump converter uses capacitor C1 to double the +5V into +10V, storing the +10V on the output filter capacitor, C3. The second uses C2 to invert the +10V into -10V, storing the -10V on the V- output filter capacitor, C4.In shutdown mode, V+ is internally connected to V CC by a 1kΩpull-down resistor, and V- is internally connected to ground by a 1kΩpull up resistor.RS-232 Drivers With V CC= 5V, the typical driver output voltage swing is ±8V when loaded with a nominal 5kΩRS-232 receiver. The output swing is guaranteed to meet EIA/TIA-232E and V.28 specifications that call for ±5V minimum output levels under worst-case conditions. These include a 3kΩload, minimum V CC, and maximum operating temperature. The open-circuit output voltage swings from (V+ - 0.6V) to V-.Input thresholds are CMOS/TTL compatible. The unused drivers’ inputs on the MAX205E–MAX208E, MAX211E, MAX213E, and MAX241E can be left unconnected because 400kΩpull up resistors to V CC are included on-chip. Since all drivers invert, the pull up resistors force the unused drivers’ outputs low. The MAX202E, MAX203E, and MAX232E do not have pull up resistors on the transmitter inputs._______________________________________________________________________________________9MAX202E–MAX213E, MAX232E/MAX241E10______________________________________________________________________________________M A X 202E –M A X 213E , M A X 232E /M A X 241E±15kV ESD-Protected, +5V RS-232 Transceivers When in low-power shutdown mode, the MAX205E/MAX206E/MAX211E/MAX213E/MAX241E driver outputs are turned off and draw only leakage currents—even if they are back-driven with voltages between 0V and 12V. Below -0.5V in shutdown, the transmitter output is diode-clamped to ground with a 1k Ωseries impedance.RS-232 ReceiversThe receivers convert the RS-232 signals to CMOS-logic output levels. The guaranteed 0.8V and 2.4V receiver input thresholds are significantly tighter than the ±3V thresholds required by the EIA/TIA-232E specification.This allows the receiver inputs to respond to TTL/CMOS-logic levels, as well as RS-232 levels.The guaranteed 0.8V input low threshold ensures that receivers shorted to ground have a logic 1 output. The 5k Ωinput resistance to ground ensures that a receiver with its input left open will also have a logic 1 output. Receiver inputs have approximately 0.5V hysteresis.This provides clean output transitions, even with slow rise/fall-time signals with moderate amounts of noise and ringing.In shutdown, the MAX213E’s R4 and R5 receivers have no hysteresis.Shutdown and Enable Control (MAX205E/MAX206E/MAX211E/MAX213E/MAX241E)In shutdown mode, the charge pumps are turned off,V+ is pulled down to V CC , V- is pulled to ground, and the transmitter outputs are disabled. This reduces supply current typically to 1µA (15µA for the MAX213E).The time required to exit shutdown is under 1ms, as shown in Figure 5.ReceiversAll MAX213E receivers, except R4 and R5, are put into a high-impedance state in shutdown mode (see Tables 1a and 1b). The MAX213E’s R4 and R5 receivers still function in shutdown mode. These two awake-in-shutdown receivers can monitor external activity while maintaining minimal power consumption.The enable control is used to put the receiver outputs into a high-impedance state, to allow wire-OR connection of two EIA/TIA-232E ports (or ports of different types) at the UART. It has no effect on the RS-232 drivers or the charge pumps.N ote: The enabl e control pin is active l ow for the MAX211E/MAX241E (EN ), but is active high for the MAX213E (EN). The shutdown control pin is active high for the MAX205E/MAX206E/MAX211E/MAX241E (SHDN), but is active low for the MAX213E (SHDN ).Figure 4. Charge-Pump DiagramMAX202E–MAX213E, MAX232E/MAX241EV+V-200µs/div3V 0V 10V 5V 0V -5V -10VSHDNMAX211EFigure 5. MAX211E V+ and V- when Exiting Shutdown (0.1µF capacitors)X = Don't care.*Active = active with reduced performanceSHDN E N OPERATION STATUS Tx Rx 00Normal Operation All Active All Active 01Normal Operation All Active All High-Z 1XShutdownAll High-ZAll High-ZTable 1a. MAX205E/MAX206E/MAX211E/MAX241E Control Pin ConfigurationsTable 1b. MAX213E Control Pin ConfigurationsThe MAX213E’s receiver propagation delay is typically 0.5µs in normal operation. In shutdown mode,propagation delay increases to 4µs for both rising and falling transitions. The MAX213E’s receiver inputs have approximately 0.5V hysteresis, except in shutdown,when receivers R4 and R5 have no hysteresis.When entering shutdown with receivers active, R4 and R5 are not valid until 80µs after SHDN is driven low.When coming out of shutdown, all receiver outputs are invalid until the charge pumps reach nominal voltage levels (less than 2ms when using 0.1µF capacitors).±15kV ESD ProtectionAs with all Maxim devices, ESD-protection structures are incorporated on all pins to protect against electrostatic discharges encountered during handling and assembly. The driver outputs and receiver inputs have extra protection against static electricity. Maxim’s engineers developed state-of-the-art structures to protect these pins against ESD of ±15kV without damage. The ESD structures withstand high ESD in all states: normal operation, shutdown, and powered down. After an ESD event, Maxim’s E versions keep working without latchup, whereas competing RS-232products can latch and must be powered down to remove latchup.ESD protection can be tested in various ways; the transmitter outputs and receiver inputs of this product family are characterized for protection to the following limits:1)±15kV using the Human Body Model2)±8kV using the contact-discharge method specifiedin IEC1000-4-23)±15kV using IEC1000-4-2’s air-gap method.ESD Test ConditionsESD performance depends on a variety of conditions.Contact Maxim for a reliability report that documents test set-up, test methodology, and test results.Human Body ModelFigure 6a shows the Human Body Model, and Figure 6b shows the current waveform it generates when discharged into a low impedance. This model consists of a 100pF capacitor charged to the ESD voltage of interest, which is then discharged into the test device through a 1.5k Ωresistor.S H D N ENOPERATION STATUS Tx 1–400Shutdown All High-Z 01Shutdown All High-Z 10Normal Operation 11Normal OperationAll ActiveAll Active Active1–34, 5High-Z ActiveHigh-Z High-Z High-Z Active*High-Z RxM A X 202E –M A X 213E , M A X 232E /M A X 241EIEC1000-4-2The IEC1000-4-2 standard covers ESD testing and performance of finished equipment; it does not specifically refer to integrated circuits. The MAX202E/MAX203E–MAX213E, MAX232E/MAX241E help you design equipment that meets level 4 (the highest level) of IEC1000-4-2, without the need for additional ESD-protection components.The major difference between tests done using the Human Body Model and IEC1000-4-2 is higher peak current in IEC1000-4-2, because series resistance is lower in the IEC1000-4-2 model. Hence, the ESD withstand voltage measured to IEC1000-4-2 is generally lower than that measured using the Human Body Model. Figure 7b shows the current waveform for the 8kV IEC1000-4-2 level-four ESD contact-discharge test.The air-gap test involves approaching the device with a charged probe. The contact-discharge method connects the probe to the device before the probe is energized.Machine ModelThe Machine Model for ESD tests all pins using a 200pF storage capacitor and zero discharge resistance. Its objective is to emulate the stress caused by contact that occurs with handling and assembly during manufacturing. Of course, all pins require this protection during manufacturing, not just RS-232 inputs and outputs. Therefore,after PC board assembly,theMachine Model is less relevant to I/O ports.Figure 7a. IEC1000-4-2 ESD Test ModelFigure 7b. IEC1000-4-2 ESD Generator Current WaveformFigure 6a. Human Body ESD Test ModelFigure 6b. Human Body Model Current Waveform__________Applications InformationCapacitor Selection The capacitor type used for C1–C4 is not critical for proper operation. The MAX202E, MAX206–MAX208E, MAX211E, and MAX213E require 0.1µF capacitors, and the MAX232E and MAX241E require 1µF capacitors, although in all cases capacitors up to 10µF can be used without harm. Ceramic, aluminum-electrolytic, or tantalum capacitors are suggested for the 1µF capacitors, and ceramic dielectrics are suggested for the 0.1µF capacitors. When using the minimum recommended capacitor values, make sure the capacitance value does not degrade excessively as the operating temperature varies. If in doubt, use capacitors with a larger (e.g., 2x) nominal value. The capacitors’ effective series resistance (ESR), which usually rises at low temperatures, influences the amount of ripple on V+ and V-.Use larger capacitors (up to 10µF) to reduce the output impedance at V+ and V-. This can be useful when “stealing” power from V+ or from V-. The MAX203E and MAX205E have internal charge-pump capacitors. Bypass V CC to ground with at least 0.1µF. In applications sensitive to power-supply noise generated by the charge pumps, decouple V CC to ground with a capacitor the same size as (or larger than) the charge-pump capacitors (C1–C4).V+ and V- as Power Supplies A small amount of power can be drawn from V+ and V-, although this will reduce both driver output swing and noise margins. Increasing the value of the charge-pump capacitors (up to 10µF) helps maintain performance when power is drawn from V+ or V-.Driving Multiple Receivers Each transmitter is designed to drive a single receiver. Transmitters can be paralleled to drive multiple receivers.Driver Outputs when Exiting Shutdown The driver outputs display no ringing or undesirable transients as they come out of shutdown.High Data Rates These transceivers maintain the RS-232 ±5.0V minimum driver output voltages at data rates of over 120kbps. For data rates above 120kbps, refer to the Transmitter Output Voltage vs. Load Capacitance graphs in the Typical Operating Characteristics. Communication at these high rates is easier if the capacitive loads on the transmitters are small; i.e., short cables are best.Table 2. Summary of EIA/TIA-232E, V.28 SpecificationsMAX202E–MAX213E, MAX232E/MAX241EM A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)Table 3. DB9 Cable ConnectionsCommonly Used for EIA/TIAE-232E and V.24 Asynchronous Interfaces____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241EM A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241E____________Pin Configurations and Typical Operating Circuits (continued)M A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)MAX202E–MAX213E, MAX232E/MAX241E____________Pin Configurations and Typical Operating Circuits (continued)M A X 202E –M A X 213E , M A X 232E /M A X 241E____________Pin Configurations and Typical Operating Circuits (continued)______________________________________________________________________________________21MAX202E–MAX213E, MAX232E/MAX241E Ordering Information (continued)*Dice are specified at T A= +25°C.M A X 202E –M A X 213E , M A X 232E /M A X 241E22________________________________________________________________________________________________________________________________________________Chip Topographies___________________Chip InformationC1-V+C1+V CC R2INT2OUT R2OUT0.117"(2.972mm)0.080"(2.032mm)V-C2+ C2-T2IN T1OUT R1INR1OUT T1INGNDR5INV-C2-C2+C1-V+C1+V CC T4OUTR3IN T3OUTT1OUT 0.174"(4.420mm)0.188"(4.775mm)T4IN R5OUT R4OUT T3IN R4IN EN (EN) SHDN (SHDN)R3OUT T2OUT GNDR1IN R1OUT T2IN R2OUTR2IN T1IN ( ) ARE FOR MAX213E ONLYTRANSISTOR COUNT: 123SUBSTRATE CONNECTED TO GNDTRANSISTOR COUNT: 542SUBSTRATE CONNECTED TO GNDMAX202E/MAX232EMAX211E/MAX213E/MAX241EMAX205E/MAX206E/MAX207E/MAX208E TRANSISTOR COUNT: 328SUBSTRATE CONNECTED TO GNDMAX202E–MAX213E, MAX232E/MAX241E Package InformationM A X 202E –M A X 213E , M A X 232E /M A X 241EPackage Information (continued)MAX202E–MAX213E, MAX232E/MAX241E±15kV ESD-Protected, +5V RS-232 TransceiversMaxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________25©2005 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products, Inc.Package Information (continued)(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information go to /packages .)。

MicroPower Direct292 Page Street Suite DStoughton, MA 02072USAT: (781) 344-8226F: (781) 344-8481E: sales@ W: Key Features:• 2W Output Power • Ultra-Miniature SIP Case • Low 0.3” Profi le • 1,000 VDC Isolation • >3.5 MHour MTBF • 5V & 12V Inputs • LOWEST COST!E200E Low Cost, 2WUltra-Miniature SIP DC/DC Con v ert e rsInputParameterConditionsMin.Typ.Max.Units Input Voltage Range5 VDC Input 4.5 5.0 5.5VDC 12 VDC Input10.812.013.2Reverse Polarity Input Current 0.3AInput Filter Internal CapacitorOutputParameterConditionsMin.Typ.Max.Units Output Voltage Accuracy ±1.0±3.0%Line RegulationFor Vin Change of 1%±1.2%Load Regulation (Note 1)See Model Selection GuideRipple & Noise (20 MHz) (Note 2)5075mV P - P Output Power Protection 120%Temperature Coeffi cient ±0.01±0.03%/°COutput Short Circuit Momentary (0.5 Sec.)General Parameter ConditionsMin.Typ.Max.Units Isolation Voltage 60 Seconds1,000VDC Isolation Test Voltage Flash Tested For 1 Sec1,100VDC Isolation Resistance 1,000 VDC 1,000M ΩIsolation Capacitance 100 kHz, 1V60100pF Switching Frequency 75kHz Environmental ParameterConditionsMin.Typ.Max.Units Operating Temperature Range Ambient-40+25+85°C Operating Temperature Range Case+90°C Storage Temperature Range -55+125°CCooling Free Air ConvectionHumidity RH, Non-condensing95%Physical Case Size 0.46 x 0.40 x 0.30 Inches (11.6 x 10.2 x 7.55 mm)Case Material Non-Conductive Black Plastic (UL-94V0)Weight0.06 Oz (1.8g)Reliability Specifi cations Parameter ConditionsMin.Typ.Max.Units MTBFMIL HDBK 217F , 25°C, Gnd Benign3.5MHours Absolute Maximum Ratings ParameterConditionsMin.Typ.Max.Units Input Voltage Surge (1 Sec) 5 VDC Input -0.79.0VDC 12 VDC Input-0.718.0Lead Temperature 1.5 mm From Case For 10 Sec260°C Internal Power DissipationAll Models650mWCaution: Exceeding Absolute Maximum Ratings may damage the module. These are not continuous operating ratings.Electrical Specifi cationsSpecifi cations typical @ +25°C, nominal input voltage & rated output current, unless otherwise noted. Specifi cations subject to change without notice.SeriesRoHS CompliantNotes:1. Output load regulation is specifi ed for a load change of 10% to 100%.2. When measuring output ripple, it is recommended that an external 0.33 µF ceramic capacitor be placed from the +Vout pin to the -Vout pin.3. T hese units should not be operated with a load under 10% of full load. Operation at no-load may cause damage to the unit.4. These converters are specifi ed for operation without external components. However, in some applications the addition of input/ouput capacitors will enhance stability and reduce output ripple. Recommended capacitor values are:Vin Input Capacitor Vout Output Capacitor 5 VDC 4.7 µF 5 VDC 10.0 µF 12 VDC2.2 µF12 VDC 2.2 µF 15 VDC1.0 µFFor applications requiring very low output noise levels, a simple LC fi lter should be effective.5. It is recommended that a fuse be used on the input of a power supply for protection. See the Model Selection table above for the correct rating.Model Selection GuideNotes:• All dimensions are typical in inches (mm)• Tolerance x.xx = ±0.01 (±0.25)• Pin 1 is marked by a “dot” or indentation on the side of the unitModel Number InputOutput LoadRegulation(% Max)Effi ciency(%, Typ)Fuse Rating Slow-Blow (mA)Voltage (VDC)Current (mA)Voltage (VDC)Current (mA, Max)Current (mA, Min)Nominal RangeFull-Load No-LoadE201E 5 4.5 - 5.551338 5.0400.040.015781,000E202E 5 4.5 - 5.55063812.0167.017.015791,000E203E 5 4.5 - 5.55063815.0133.014.015791,000E211E 1210.8 - 13.221420 5.0400.040.01578500E212E 1210.8 - 13.22082012.0167.017.01580500E213E1210.8 - 13.22062015.0133.014.01581500Mechanical DimensionsPin Description1-Vin 2+Vin 3-Vout 4+VoutPin ConnectionsDerating CurveMicroPower Direct292 Page Street Ste D Stoughton, MA 02072 • TEL: (781) 344-8226 • FAX: (781) 344-8481 • E-Mail: sales@。

DESCRIPTIONLTM4700Single 100A µModule Regulator with Digital Power System ManagementDemonstration circuit 2702A-B is a single output, dual phases, high efficiency, high density, µModule regulator with 4.5V to 16V input range. The output voltage is adjust-able from 0.5V to 1.8V and it can supply 100A maximum load current. The demo board has a LTM4700 µModule regulator , which is a dual 50A or single 100A step-down regulator with digital power system management. Please see LTM4700 data sheet for more detailed information.DC2702A-B powers up to default settings and produces power based on configuration resistors without the need for any serial bus communication. This allows easy evalu-ation of the DC/DC converter . To fully explore the extensive power system management features of the part, downloadAll registered trademarks and trademarks are the property of their respective owners.BOARD PHOTOthe GUI software LTpowerPlay ® onto your PC and use L TC’s I 2C/SMBus/PMBus dongle DC1613A to connect to the board. L TpowerPlay allows the user to reconfigure the part on-the-fly and store the configuration in EEPROM, view telemetry of voltage, current, temperature and fault status.GUI DownloadThe software can be downloaded from: L TpowerPlay For more details and instructions of L TpowerPlay, please refer to L TpowerPlay GUI for LTM4700 Quick Start Guide.Design files for this circuit board are available .Figure 1. Single Output LTM4700/DC2702A-B Demo CircuitDEMO MANUAL DC2702A-B QUICK START PROCEDUREDemonstration circuit 2702A-B is easy to set up to evalu-ate the performance of the LTM4700EY. Refer to Figure 2 for the proper measurement equipment setup and follow the procedure below.1. With power off, connect the input power supply to V IN (4.5V – 16V) and GND (input return).2. Connect the 1.0V output load between V OUT0 and GND (Initial load: no load).3. Connect the DVMs to the input and outputs. Set default jumper position: JP1: ON; JP2: ON; JP3: ON.4. Turn on the input power supply and check for the proper output voltages. V OUT0 should be 1.0V ±0.5%.5. Once the proper output voltages are established, adjust the loads within the operating range and observe the output voltage regulation, ripple voltage and other parameters.6. Connect the dongle and control the output voltages from the GUI. See “L TpowerPlay GUI for the LTM4700 Quick Start Guide” for details.Note: Internal bias circuit is enabled when V IN >7V and JP3 is ON.Note: When measuring the output or input voltage rip-ple, do not use the long ground lead on the oscilloscope probe. See Figure 3 for the proper scope probe technique. Short, stiff leads need to be soldered to the (+) and (–) terminals of an output capacitor. The probe’s ground ring needs to touch the (–) lead and the probe tip needs to touch the (+) lead.PERFORMANCE SUMMARY Specifications are at T A = 25°CPARAMETER CONDITIONS VALUEInput Voltage Range 4.5V to 16VOutput Voltage, V OUT0V IN = 4.5V to 16V, I OUT0 = 0A to 100A 0.5V to 1.8V, Default: 1.0V Maximum Output Current, I OUT0V IN = 4.5V to 16V, V OUT0 = 0.5V to 1.8V100ATypical Efficiency V IN = 12V, V OUT0 = 1.0V, I OUT0 = 100A88.7% (See Figure 5) Default Switching Frequency350kHzMAXIMUM OUTPUT CURRENT NUMBER OF OUTPUTS NUMBER OF LTM4700 µModuleREGULATORS ON THE BOARD DEMO BOARD NUMBER50A21DC2702A-A 100A11DC2702A-B 200A12DC2784A-A 300A13DC2784A-B 400A14DC2784A-CDEMO MANUAL DC2702A-BQUICK START PROCEDUREFigure 2. Proper Measurement Equipment SetupFigure 3. Measuring Output Voltage RippleDEMO MANUAL DC2702A-B Figure 5. Efficiency vs Load Current at V OUT0 = 1V, f SW = 350kHz (RUNP is ON)QUICK START PROCEDUREConnecting a PC to DC2702A-BYou can use a PC to reconfigure the power managementfeatures of the LTM4700 such as: nominal V OUT , mar-gin set points, OV/UV limits, temperature fault limits, sequencing parameters, the fault log, fault responses, GPIOs and other functionalities. The DC1613A dongle may be plugged when V IN is present.Figure 4. Demo Setup with PCEfficiency vs Load Current at V O = 1.0V, f SW = 350kHz= 6V IN= 12VDEMO MANUAL DC2702A-BQUICK START PROCEDUREDC2702A-B F07V OUT0 (20MHz BW) [5mV/DIV]Figure 6. Output Voltage V OUT0 vs Load Current (V OUT0 = 1.0V)Figure 7. Output Voltage Ripple at V IN = 12V, V OUT0 = 1.0V, I OUT0 = 100ADEMO MANUAL DC2702A-BQUICK START PROCEDUREFigure 8. Thermal at V IN = 12V, V OUT0 = 1.0V, I OUT0 = 100A, T A = 25°C, No AirflowDEMO MANUAL DC2702A-BLTpowerPlay is a powerful Windows based develop-ment environment that supports Analog Devices power system management ICs and μModules, including the LTM4675, LTM4676, LTM4677, LTM4678, LTC3880, LTC3882 and LTC3883. The software supports a variety of different tasks. You can use L TpowerPlay to evaluate Analog Devices ICs by connecting to a demo board sys-tem. L TpowerPlay can also be used in an offline mode (with no hardware present) in order to build a multichip configuration file that can be saved and reloaded at a later time. LTpowerPlay provides unprecedented diagnostic and debug features. It becomes a valuable diagnostic tool during board bring-up to program or tweak the power management scheme in a system, or to diagnose power issues when bringing up rails. L TpowerPlay utilizes theLTPOWERPLAY SOFTWARE GUIFigure 9. L TpowerPlay Main InterfaceDC1613A USB-to-SMBus controller to communicate with one of many potential targets, including the LTM4675, LTM4676, LTM4677, LTM4678, LTC3880, LTC3882, LTC3883’s demo system, or a customer board. The soft-ware also provides an automatic update feature to keep the software current with the latest set of device drivers and documentation. The L TpowerPlay software can be downloaded from: L TpowerPlayTo access technical support documents for Analog Devices Digital Power Products visit the L TpowerPlay Help menu. Online help also available through the LTpowerPlay.DEMO MANUAL DC2702A-B LTPOWERPLAY QUICK START PROCEDUREThe following procedure describes how to use L TpowerPlay to monitor and change the settings of LTM4700.1. Download and install the L TpowerPlay GUI.2. Launch the L TpowerPlay GUI.a. The GUI should automatically identify the DC2702A-B. The system tree on the left hand side should look like this:b. A green message box shows for a few seconds in the lower left hand corner, confirming that LTM4700 is communicating:c. In the tool bar, click the “R” (RAM to PC) icon to read the RAM from the LTM4700. This reads the configuration from the RAM of LTM4700 and loads it into the GUI.d. If you want to change the output voltage to a different value, like 0.8V. In the Config tab, type in 0.8 in the VOUT_COMMAND box, like this:Then, click the “W” (PC to RAM) icon to write these reg-ister values to the LTM4700. After finishing this step, you will see the output voltage will change to 0.8V.If the write is successful, you will see the following message:e. You can save the changes into the NVM. In the tool bar, click “RAM to NVM” button, as following:f. Save the demo board configuration to a (*.proj) file. Click the Save icon and save the file. Name it whatever you want.DEMO MANUAL DC2702A-B PARTS LISTITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER Required Circuit Components118COUT1, COUT2, COUT3, COUT4,COUT5, COUT6, COUT7, COUT8,COUT9, COUT10, COUT14, COUT15,COUT16, COUT18, COUT19, COUT20,COUT21, COUT22CAP., 330μF, X6S, 4V, 20%, 1210TAIYO YUDEN, AMK325AC6337MM-P21CIN1CAP., 180μF, ALUM. POL Y., 25V, 20%, 8mm ×12mm SMD, E12PANASONIC, 25SVPF180M 31C15CAP., 6800pF, X7R, 50V, 5%, 0603AVX, 06035C682JAT2A48CIN2, CIN3, CIN4, CIN5, CIN6, CIN7,CIN8, CIN9CAP., 22μF, X5R, 25V, 10%, 1210AVX, 12103D226KAT2AMURATA, GRM32ER61E226KE15LTAIYO YUDEN, TMK325BJ226KM-PTAIYO YUDEN, TMK325BJ226KM-T53C21, C22, C24CAP., 1μF, X5R, 25V, 10%, 0603AVX, 06033D105KAT2ANIC, NMC0603X5R105K25TRPF 61C23CAP., 1μF, X7R, 25V, 10%, 0805AVX, 08053C105KAT2A71C26CAP., 0.1μF, X5R, 16V, 10%, 0603AVX, 0603YD104KAT2ANIC, NMC0603X5R104K16TRPF 82C27, C28CAP., 0.01μF, X7R, 25V, 5%, 0603AVX, 06033C103JAT2A91C33CAP., 22μF, X5R, 6.3V, 20%, 0603MURATA, GRM188R60J226MEA0D 102Q1, Q2XSTR., MOSFET, N-CH, 40V, TO-252 (DPAK)VISHAY, SUD50N04-8M8P-4GE3 111Q3XSTR., MOSFET, P-CH, 20V, 5.9A, TO-236(SOT23-3)VISHAY, SI2365EDS-T1-GE31215R10, R11, R12, R13, R14, R15, R16,R18, R19, R24, R52, R77, R94, R95,R106RES.,10k, 5%, 1/10W, 0603, AEC-Q200NIC, NRC06J103TRFPANASONIC, ERJ3GEYJ103VVISHAY, CRCW060310K0JNEA134R25, R32, R69, R70RES., 10Ω, 1%, 1/10W, 0603NIC, NRC06F10R0TRFPANASONIC, ERJ3EKF10R0VROHM, MCR03EZPFX10R0VISHAY, CRCW060310R0FKEAYAGEO, RC0603FR-0710RL142R30, R31RES., 2.43k, 1%, 1/10W, 0603, AEC-Q200NIC, NRC06F2431TRFPANASONIC, ERJ3EKF2431VVISHAY, CRCW06032K43FKEA 152R50, R51RES., 30Ω, 1%, 1W, 2512, AEC-Q200VISHAY, CRCW251230R0FKEG 161R53RES., 0.01Ω, 1%, 1/2W, 2010, SENSE, AEC-Q200VISHAY, WSL2010R0100FEA172R72, R73RES., 4.99k, 1%, 1/10W, 0603, AEC-Q200NIC, NRC06F4991TRFPANASONIC, ERJ3EKF4991VVISHAY, CRCW06034K99FKEA 181R78RES., 15.8k, 1%, 1/10W, 0603, AEC-Q200NIC, NRC06F1582TRFPANASONIC, ERJ3EKF1582VVISHAY, CRCW060315K8FKEA 191R90RES., 0.001Ω, 1%, 1W, 2010, HP METAL,SENSE, AEC-Q200VISHAY, WSL20101L000FEA18201U1IC, DUAL 50A POP PSM MODULE, BGA15mm × 22mm × 7.82mmANALOG DEVICES, LTM4700EY#PBFDEMO MANUAL DC2702A-BPARTS LISTITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER211U2IC, MEMORY, EEPROM, 2KBIT (256mm × 8mm),TSSOP-8, 400kHz MICROCHIP, 24LC025-I/ST MICROCHIP, 24LC025T-I/STAdditional Demo Board Circuit Components10C1, C2, C14, C16, C17, C29, C31, C32CAP., OPTION, 060320D1, D2DIODE, OPTION, SOD-323 30R3, R8, R26, R27, R61, R62, R64, R67,R68, R74, R75, R83, R88, R89, R93RES., OPTION, 0603416R9, R28, R29, R33, R35, R38, R41, R63,R65, R66, R91, R92, R96, R97, R98, R99RES., 0Ω, 1/10W, 0603, AEC-Q200NIC, NRC06ZOTRFVISHAY, CRCW06030000Z0EA55R48, R100, R101, R102, R103RES., 0Ω, 3/4W, 2010, AEC-Q200NIC, NRC50ZOTRFPANASONIC, ERJ12ZY0R00UVISHAY, CRCW20100000Z0EF 60R49RES., OPTION, 201070R82RES., OPTION, 120680R104, R105RES., OPTION, 0805Hardware126E1, E2, E3, E4, E5, E6, E8, E9, E10,E11, E12, E13, E14, E15, E16, E17,E18, E19, E20, E21, E22, E23, E24,E25, E26TEST POINT, TURRET, 0.064", MTG. HOLE MILL-MAX, 2308-2-00-80-00-00-07-023JP1, JP2CONN., HDR, MALE, 1mm × 3mm × 2mm,VERT, STR, THTWURTH ELEKTRONIK, 6200031112131J1CONN., SHROUDED HDR, MALE, 2 × 6, 2mm,VERT, STR, THTFCI, 98414-G06-12ULF43J2, J3, J4CONN., RF, BNC, RCPT JACK,5-PIN, STR,THT, 50ΩAMPHENOL RF, 112404 56J5, J6, J7, J8, J9, J10STUD, FASTENER, #10-32s PENNENGINEERING, KFH-032-10ET 612J5, J6, J7, J8, J9, J10NUT, HEX, STEEL, ZINC PLATE, 10-32KEYSTONE, 470576J5, J6, J7, J8, J9, J10RING, LUG, CRIMP, #10, NON-INSULATED,SOLDERLESS TERMINALSKEYSTONE, 820586J5, J6, J7, J8, J9, J10WASHER, FLAT, STEEL, ZINC PLATE, OD:0.436 [11.1]KEYSTONE, 470391J11CONN., HDR, MALE, 2 × 7, 2mm, R/A THT MOLEX, 0877601416MOLEX, 877601416101J12CONN., HDR, FEMALE, 2 × 7, 2mm, R/A THT SULLINS CONNECTOR SOLUTIONS,NPPN072FJFN-RC114MH1, MH2, MH3, MH4STANDOFF, NYLON, SNAP-ON, 0.50"WURTH ELEKTRONIK, 702935000 123XJP1, XJP2CONN., SHUNT, FEMALE, 2 POS, 2mm WURTH ELEKTRONIK, 60800213421SCHEMATIC DIAGRAM11Rev. 0SCHEMATIC DIAGRAM12Rev. 013Rev. 0Information furnished by Analog Devices is believed to be accurate and reliable. However , no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices.SCHEMATIC DIAGRAM14Rev. 0ANALOG DEVICES, INC. 202005/20ESD CautionESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.Legal Terms and ConditionsBy using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONL Y. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer , assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer , their employees, affiliates and in-house consultants. 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Weltrend Semiconductor, Inc.th WT272C/WT274CDual/Quad Low Power CMOS OP AmplifiersData SheetREV. 1.1December 31, 1999The information in this document is subject to change without notice.©Weltrend Semiconductor, Inc. All Rights Reserved.DESCRIPTIONThe WT272C/WT274C is a dual/quad low power CMOS operational amplifiers IC. It provides high performance operation at low supply voltages. The basic amplifier can operate at supply voltage as low as 1.2V with very low power consumption and makes it perfect for battery-powered application. The input common-mode voltage extends to the negative rail. The output swings to both rails with light load. The input bias current is inherently low and the input impedance is extremely high. The devices are ideal upgrades for industrial standards OP amp.FEATURES• Low Power Replacement for Standard OP Amps• Wide supply operating range (1.2V to 7V)• Input common-mode voltage range includes negative rail• Output swing to rail• Low input bias current (typical 1pA)• High input impedance• Single supply operation• Internal compensated• Output short circuit protectionAPPLICATIONS ORDERING INFORMATION•Portable Instruments Part Number Package Part Number Package •Battery-Powered Systems WT272C-N0808 pin PDIP WT274C-N14014 pin PDIP •Transducer Interfacing WT272C-S0808 pin SO WT274C-S14014 pin SO •Active FilterABSOLUTE MAXIMUM RATINGSParameter Min.Max.UnitsDC supply voltage (V+− V−)08.5VInput and output voltage V− - 0.3V++ 0.3V Storage temperature-65150O C Ambient temperature with power applied-20100O C Duration of output short circuit Unlimited*Note: Stresses above those listed may cause permanent damage to the devices RECOMMENDED OPERATING CONDITIONSymbol Parameter Condition Min.Typ.Max.Units V SUPPLY Supply Voltage 1.27V I SOURCE Output Source Current5mA I SINK Output Sink Current9µA Ta Ambient Temperature085O C ELECTRICAL CHARACTERISTICS(V+ = 5V, V−= 0V, Ta = +25 O C unless otherwise specified)Symbol Parameter Condition Min.Typ.Max.Units V OS Input Offset Voltage25mV êV OS/êT Average TemperatureCoefficient of Input OffsetVoltage0.7µV/O CI OS Input Offset Current1pA I BIAS Input Bias Current Ta=25 O C1pA V ICOM Input Common Mode Voltage0V+ -1.3VVin =10mVR L=1MΩ connected to V−4.9 4.99VVin =10mVR L=100KΩ connected to V−4.95VVin =10mVR L=10KΩ connected to V−4.75VVin = -10mVR L=1MΩ, connected to V+0.50.7VV OUT Output Voltage SwingVin = -10mVR L=100KΩ connected to V+0.65VA VOL Large Signal Voltage Gain V O= 1V to 4V, Vi=1.4VR L=1MΩ20100V/mV GBW Unit Gain Bandwidth R L=1MΩ, C L=50pF0.1MHz CMRR Common Mode Rejection Ratio V O= 1V, Vi=0 to 3.5V6080dB PSRR Power Supply Rejection Ratio V O= 1V6090dB SR Slew Rate A VOL=1, C L=100pFV IN=5V P-P0.03V/µsI SUPPLY Supply Current (per amplifier)59µA ϕm Phase Margin at Unit Gain R L=1MΩ, C L=50pF55Degree e n Input Equivalent Noise Voltage f=1KHz, Rs=100Ω50nV/√Hz V O1/V O2Channel Separation A VOL=100120dBTYPICAL APPLICATION CIRCUIT Voltage Follower。

Automatic transfer switchEGSX seriesEaton’s EGSX series residential automatic transfer switch productline provides a safe and efficient means of transferring powerfrom utility to generator source. Its simplified relay-interfacesystem replaces complicated electronics, while increasing systemreliability and creating an intuitive design for faster installationand troubleshooting.General specifi cations and features• Simple design for quick installation and troubleshooting• Two contact sets for load shedding• Short-circuit ratings:• 50 A: 5 kA (service entrance)• 100 A and 200 A: 25 kA (service entrance)• 400 A: 35 kA (service entrance)• All non-service entrance models: 10 kA• Rated for 100% load for both inductive and resistive loads,and 80% for all service entrance rated switches• Molded-case breaker provided with 25 kAIC (100 A to 200 A),35 kAIC (400 A only)• Available service entrance designs and ratings up to 400 A• Silver alloy main contacts; resistant to welding and sticking• Terminal block termination; connections labeled to matchgenerator connections• Compatible with Eaton standby generators brand only• NEC T / UL T 1008 compliant; meets industry standardEnvironmental specifi cations• Operating ambient temperature range:between –20 °C and +70 °C (–4 °F and +158 °F)• Storage temperature: –20 °C to +70 °C (–4 °F to +158 °F)• Humidity levels:• Normal outdoor operation: ≤95% (noncondensing)• Storage: ≤80% of relative humidity2Technical Data TD016001ENEffective July 2014Automatic transfer switchEGSX seriesEATON T able 1. Catalog Number SelectionT able 2. T echnical DataCatalogNumberAmpere RatingVoltageNumber of Poles Service EntranceNumber of Circuits IncludedFrequency (Hz)Enclosure TypeContactor Wire Size Range(s)Number of Cables per PhaseWithstandCurrent (rms) at 200 VacEGSX50L1250120/2402Yes 1250/60NEMA 1#14–615,000EGSX50L12R 50120/2402—1250/60NEMA 3R #14–615,000EGSX100A 100120/2402——50/60NEMA 3R #14–2/0110,000EGSX100NSEA 100120/2402Yes —50/60NEMA 3R #14–2/0125,000EGSX100L24RA 100120/2402—2450/60NEMA 3R #14–2/0110,000EGSX150NSEA 150120/2402Yes —50/60NEMA 3R #14–300 kcmil 125,000EGSX200A 200120/2402——50/60NEMA 3R #14–300 kcmil 110,000EGSX200NSEA 200120/2402Yes —50/60NEMA 3R #14–300 kcmil 125,000EGSX400NSEA 400120/2402Yes —50/60NEMA 3R750 kcmil–2 and 300 kcmil–1/01/235,000Uses CH type circuit breakers.T able 3. DimensionsCatalog NumberAmpere RatingDescriptionWidth in Inches (mm)Height in Inches (mm)Depth in Inches (mm)Weight in Lbs (kg)EGSX50L1250NEMA 1 with 12-circuit CH loadcenter 14.25 (362.0)21.00 (533.4) 4.00 (101.6)23 (10.40)EGSX50L12R 50NEMA 3R with 12-circuit CH loadcenter 14.25 (362.0)21.00 (533.4) 6.00 (152.4)29 (13.15)EGSX100A 100NEMA 3R14.46 (367.3)16.87 (428.5) 5.32 (135.1)25 (11.33)EGSX100NSEA 100NEMA 3R service entrance14.46 (367.3)16.87 (428.5) 5.32 (135.1)28 (12.70)EGSX100L24RA 100NEMA 3R with 24-circuit CH loadcenter 14.46 (367.3)29.33 (745.0) 5.32 (135.1)38 (17.23)EGSX150NSEA 150NEMA 3R service entrance 14.46 (367.3)29.33 (745.0) 5.32 (135.1)45 (20.41)EGSX200A 200NEMA 3R14.46 (367.3)25.08 (637.0) 5.32 (135.1)35 (15.88)EGSX200NSEA 200NEMA 3R service entrance 14.46 (367.3)29.33 (745.0) 5.32 (135.1)45 (20.41)EGSX400NSEA 400NEMA 3R service entrance 23.14 (587.8)37.56 (954.0) 10.00 (254.0)130 (58.97)E GSX 200 NSEAManufacturerEatonTypeGenerator transfer switch EGSX seriesService Entrance RatedA = Non-service entrance NSEA = Service entrance (normal source only)Ampere Rating50 = 50 A 100 = 100 A 150 = 150 A 200 = 200 A 400 = 400 ALoadcenter (CH Type, Integral)L12 = 12 circuits NEMA T 1L12R = 12 circuits NEMA 3R L24R = 24 circuits NEMA 3R Blank = None3Technical Data TD016001ENEffective July 2014Automatic transfer switch EGSX series EATON Figure 1. Dimensions in Inches (mm) and Plan View of an EGSX150NSEA/EGSX200NSEA T able 4. Replacement Parts for EGSX ATSComponent50 A100 A150 A200 A400 AContactor 99-5643-899-563899-5702-1599-5702-1599-5702-16Wire harness 99-5643-799-5638-1399-5702-1799-5702-1799-5702-18Neutral bar 99-5643-699-5638-799-5702-699-5702-699-5702-13Ground lugs99-5643-499-5638-599-5702-499-5702-499-5702-4Service entrance breaker —99-5638-4BWH2150BWH2200KD2400Lugs 99-5643-599-5638-699-5702-599-5702-599-5702-12Eaton1000 Eaton Boulevard Cleveland, OH 44122 United States © 2014 EatonAll Rights ReservedPrinted in USAPublication No. TD016001EN / Z15452 July 2014Eaton is a registered trademark.All other trademarks are propertyof their respective owners. Automatic transfer switchEGSX seriesTechnical Data TD016001EN Effective July 2014。

27" LED Monitor Dell E2722HSService ServiceServiceSimplifiedImportant Safety NoticeProper service and repair is important to the safe, reliable operation of all DELL Company Equipment. The service procedures recommended by DELL and described in this service manual are effective methods of performing service operations. Some of these service operations require the use of tools specially designed for the purpose. The special tools should be used when and as recommended.It is important to note that this manual contains various CAUTIONS and NOTICES which should be carefully read in order to minimize the risk of personal injury to service personnel. The possibility exists that improper service methods may damage the equipment. It is also important to understand that these CAUTIONS and NOTICES ARE NOT EXHAUSTIVE. DELL could not possibly know, evaluate and advise the service trade of all conceivable ways in which service might be done or of the possible hazardous consequences of each way. Consequently, DELL has not undertaken any such broad evaluation. Accordingly, a servicer who uses a service procedure or tool which is not recommended by DELL must first satisfy himself thoroughly that neither his safety nor the safe operation of the equipment will be jeopardized by the service method selected.Hereafter throughout this manual, DELL Company will be referred to as DELL.WARNINGUse of substitute replacement parts, which do not have the same, specified safety characteristics may create shock, fire, or other hazards.Under no circumstances should the original design be modified or altered without written permission from DELL. DELL assumes no liability, express or implied, arising out of any unauthorized modification of design.Servicer assumes all liability.FOR PRODUCTS CONTAINING LASER:DANGER-Invisible laser radiation when open. AVOID DIRECT EXPOSURE TO BEAM.CAUTION-Use of controls or adjustments or performance of procedures other than those specified herein may result in hazardous radiation exposure.CAUTION -The use of optical instruments with this product will increase eye hazard.TO ENSURE THE CONTINUED RELIABILITY OF THIS PRODUCT, USE ONLY ORIGINAL MANUFACTURER'S REPLACEMENT PARTS, WHICH ARE LISTED WITH THEIR PART NUMBERS IN THE PARTS LIST SECTION OF THIS SERVICE MANUAL.Take care during handling the LCD module with backlight unit-Must mount the module using mounting holes arranged in four corners.-Do not press on the panel, edge of the frame strongly or electric shock as this will result in damage to the screen. -Do not scratch or press on the panel with any sharp objects, such as pencil or pen as this may result in damage to the panel.-Protect the module from the ESD as it may damage the electronic circuit (C-MOS).-Make certain that treatment person’s body is grounded through wristband.-Do not leave the module in high temperature and in areas of high humidity for a long time.-Avoid contact with water as it may a short circuit within the module.-If the surface of panel becomes dirty, please wipe it off with a soft material. (Cleaning with a dirty or rough cloth may damage the panel.)1. Exploded view diagram with list of items2.Wiring connectivity diagram3. Tools RequiredList the type and size of the tools that would typically can be used to disassemble the product to a point where components and materials requiring selective treatment can be removed. Tool Description:‐ Screwdriver (Phillip-head, Hexagonal head) ‐ Penknife3.1Disassembly ProceduresTools: 2 Power screwdrivers (φ=5mm , L=60mm); 1 small cross screwdriver; turnbuckle driver; Setting: Power screwdriver torque A=6 kgF.Cm3.2 Assembly Procedures:4. Trouble shooting instructions。

DESCRIPTIONThe EC2 series has reduced mounting space but sustained high-performance of NEC EA2 series. Furthermore,it complies with 2500 V surge-voltage requirement of Bellcore specification.FEATURES™Compact and light weight ™2 form c contact arrangement ™Low power consumption™Reduced mounting space : 15 mm × 7.5 mm ™High-breakdown voltage of coil to contacts :1500 Vac, 2500 V (rise time : 2 µs, fall time : 10 µs)™Capable of High-power switching :700 Vac, 4.2 A, 4 times in case of accident ™UL recognized (E73266), CAS certified (LR46266)APPLICATIONSElectronic switching systems, PBX, terminal equipment, telephone systems.DATA SHEETCOMPACT AND LIGHTWEIGHT, SMALL MOUNTING SIZE,HIGH BREAKDOWN VOLTAGEDocument No. ER0002EJ4V1DS00 (4th edition)Date Published December 2000 M CP(K)Printed in Japan©1994(1996)For Right Use of Miniature RelaysDO NOT EXCEED MAXIMUM RATINGS.Do not use relays under exceeding conditions such as over ambient temperature, over voltage and over current. Incorrect use could result in abnormal heating, damage to related parts or cause burning.READ CAUTIONS IN THE SELECTION GUIDE.Read the cautions described in NEC's "Miniature Relays" (ER0046EJ ∗) when you choose relaysfor your application.Ph (707) 996-5201 Fx (707) e-mail:***************************2ER0002EJ4V1DS00OUTLINE DRAWING AND DIMENSIONSPAD LAYOUT (bottom view)Unit : mm (inch)MARKINGSq Part numberw Manufacturer e Country of origin r Date codet Index mark of relay directionUL recognized,PIN CONFIGURATIONS(bottom view)Note.General tolerance : 0.2 ( 0.008)Dimensions in show basic size.NJ type : Leads-2.8 mm (0.11)+–+–Note. General tolerance : 0.1 ( 0.004)+–+–.54(0.1)(0.1).54(0.1)(0.1)Non-latch and Single coil latchDouble coil latchIndex mark of relay directionNon-latch type (not energized position)Single coil latch type (reset position)Double coil latch type (reset position)S : Coil polarity of set (operate)R : Coil polarity of reset (release)SR S RSAFETY STANDARD AND RATINGUL Recognized (UL508)∗File No E73266CSA Certificated (CSA C22.2 No 14)File No LR4626630 Vdc, 2A (Resistive)110 Vdc, 0.3A (Resistive)125 Vdc, 0.5A (Resistive)∗ Spacing : UL114, UL478TUV Certificate (EN60255 / IEC60255)Creepage and clearance of coil to contact is more than 2 mm.(According EN60950)Basic insulation classNo. R 9751153(Nonlatch and Single-coil-latch)Ph (707) 996-5201 Fx (707) e-mail:***************************3ER0002EJ4V1DS00PART NUMBER SYSTEMEC2 – 9 S NUNil : Standard typeNU : UL recognized, CSA certified type NJ : Trimed leads type ∗NP : Silver-palladium alloy contact (with gold alloy overlay) ∗Latch typeNil : Non-latch typeS : Single coil latch type T : Double coil latch type Nominal coil voltage3, 4.5, 5, 6, 9, 12, 24 V EC2 series∗ UL recognized, CSA certified type 2 Form cSilver alloy with gold alloy overlay 60 W, 125 VA 220 Vdc, 250 Vac 2 A 2 A10 mVdc, 10 µA ∗150 m Ω typ. (Initial)140 mW (3 to 12 V), 200 mW (24 V)100 mW 140 mWApprox. 2 msApprox. 1 ms without diode 1000 M Ω at 500 Vdc1000 Vac (for one minute)1500 V surge (10 × 160 µs ∗2)1500 Vac (for one minute)Double Coil 1000 Vac (for one minute)2500 V surge, (2 × 10 µs ∗3)Latch type 1500 V surge (10 × 160 µs ∗2)735 m / s 2 (misoperating)980 m / s 2 (destructive failure)10 to 55 Hz double amplitude of 3 mm (misoperating)10 to 55 Hz, double amplitude of 5 mm (Destructive failure)–40 to 85˚C18 degrees at nominal coil voltage (140 mW)1 × 108 ∗4 operations (Non-latch type) 1 × 107 operations (latch type)50 Vdc, 0.1 A (resistive) 1 × 106 operations at 85˚C,2 Hz 10 Vdc, 10 mA (resistive) 1 × 106 operations at 85˚C, 2 Hz Approx. 1.9 gContact Form Contact Material Maximum Switching Power Maximum Switching Voltage Maximum Switching Current Maximum Carrying CurrentMinimum Contact Ratings Initial Contact ResistanceNon-Latch TypeNominal Operating PowerSingle Coil Latch Type Single Coil Latch TypeOperate Time (Excluding Bounce)Release Time (Excluding Bounce)Insulation ResistanceBetween Open ContactsBreakdown VoltageBetween Adjacent Contacts Between Coil and ContactShock Resistance Vibration Resistance Ambient Temperature Coil Temperature RiseNo-loadLoadWeightPERFORMANCE CHARACTERISTICSRunning specifications Contact Ratings (UL / CSA Rating)∗1This value is reference value in the resistance load.Minimum capacity changes depending on switching frequency and environment temperatur and the load.∗2rise time : 10 µs, fall time : 160 µs ∗3rise time : 2 µs, fall time : 10 µs∗4This shows a number of operation where it can be running by which a fatal defect is not caused, and a number of operation by whicha steady characteristic is maintained is 1 × 107 times.Recommended relay drive conditionsDrive under conditions. If it is impossible, please inquire to NEC.Nonlatch type Single coil latch type Double coil latch typeVoltage: within ±5% at nominal voltage Square pulse (rise and fall time is rapidly)Pulse height : within ±5% at nominal voltage Pulse width : More than 10 msAmbient temperature–40 to +85˚CPh (707) 996-5201 Fx (707) e-mail:***************************4EC2 SERIESER0002EJ4V1DS00PRODUCT LINEUPNon-latch TypeNominal CoilVoltage(Vdc)34.55691224CoilResistance(Ω) ±10 %64.314517825757910282880Must OperateVoltage(Vdc)2.253.383.754.56.75918Must ReleaseVoltage(Vdc)0.30.450.50.60.91.22.4Single-Coil Latch Typeat 20˚Cat 20˚Cat 20˚CNominal CoilVoltage(Vdc)34.55691224CoilResistance(Ω) ±10 %S64.3R64.3S145R145S178R178S257R257S579R579S1028R1028S4114R4114Must OperateVoltage(Vdc)2.25–3.38–3.75–4.5–6.75–9–18–Must ReleaseVoltage(Vdc)–2.25–3.38–3.75–4.5–6.75–9–18Double-Coil Latch Type ∗∗ (Can not be driven by revese polarity for reverse operation.)Note∗Test by pulse voltage∗∗S: Set coil (pin No.1... , pin No.5... ) R: Reset coil (pin No.10... , pin No.6... )The latch type relays should be initalized at appointed position before using, and should be enegized to specificpolanity by a bone polabity to avoid wrong operation.Any special coil requirement, please contact NEC for availability.Nominal CoilVoltage(Vdc)34.55691224CoilResistance(Ω) ±10 %90202.525036081014405760Must OperateVoltage(Vdc)2.253.383.754.56.75918Must ReleaseVoltage(Vdc)2.253.383.754.56.75918+–+–Ph (707) 996-5201 Fx (707) 996-3380e-mail:***************************5ER0002EJ4V1DS00EC2 SERIESPERFORMANCE DATAs COIL TEMPERATURE RISETemperature is measured by coil resistance.s SWITCHING CAPACITYThis is allowed maximum value.Inquiry for NEC under maximum value at continuous use.s APPLIED VOLTAGE VS. TIMING (Sample: EC2-5NU)s MAXIMUM COIL VOLTAGEThis is maximum value of permissible alteration.Inquiry for NEC at continuous use.1006040200200Applied Power (mW)C o i l t e m p e r a t u r e R i s e (d e g r e e C )C o i l t e m p e r a t u r e R i s e (d e g r e e C )30040005604020010Applied Time (minute)152010034210200Applied power (mW)300400010034210200Applied power (mW)R e l e a s e t i m e (m s )O p e r a t e t i m e (m s )(Without coil diode)3004000050100150200Ambient temperature (degree C))–40–200204060801000.12.01.00.50.2C o n t a c t c u r r e n t (A )Ph (707) 996-5201 Fx (707) e-mail:***************************6ER0002EJ4V1DS00s OPERATE AND RELEASE VOLTAGE VS. AMBIENT TEMPERATUREThis shows a typical change of operate (release) voltage. Maximum value of operate estimated, so it must be applied more than this value for safety operation. In case of “hot start operation ”, please inquiry for NEC.s RUNNING TEST (Nonload)(Load: None, Driving: 5V .DC, 50 Hz, 50% duty, Ambient temperature: Room temperature, Sample: EC2-5NU 20 pieces)s–40–202040608010020Ambient temperature (degree C)A r a t i o o f n o m i n a l c o i l v o l t a g e (%)40608010010100001000100C o n t a c t r e s i s t a n c e (m -o h m s )C o n t a c t r e s i s t a n c e (m -o h m s )25105010010100001000100Operations (×104)025*******Operations (×104)Ph (707) 996-5201 Fx (707) e-mail:***************************s BREAKDOWN VOLTAGE Sample: EC2-5NU 10 piecessALTERNATION OF VOLTAGE AT DENSELY MOUNTING (Magnet interference)0.5501001.0 1.5Breakdown voltage (kV)(a) Between open contacts2.00.5501001.0 1.5Breakdown voltage (kV)(b) Between adjacent contacts2.01.5501002.0 2.5Breakdown voltage (kV)Distribution(%)Distribution(%)Distribution(%)(c) Between coil to contact3.0I II III IV V VI+40+30+20+10–10–20–30–40Mounting layoutAlternation of operate voltageI II III IV V VI+40+30+20+10–10–20–30–40Mounting layout Aratioofalternation(%)Aratioofalternation(%)Alternation of release voltage ONONONONVONONIIIOFFOFFIVOFFOFFOFFVIIOFFIIPh (707) 996-5201 Fx (707) 996-3380e-mail:***************************7ER0002EJ4V1DS008ER0002EJ4V1DS00PACKAGERubber stopper (Red)Rubber stopper (Green)–( ) ReferenceDimensions of Relay Tube (Unit : mm)35 pieces / TubeMaterial : Polyvinyl chloride(auti-static treated)Outline of PackagePh (707) 996-5201 Fx (707) 996-3380e-mail:***************************9ER0002EJ4V1DS00EC2 SERIESNotes on Correct Use1. Notes on contact loadMake sure that the contact load is within the specified range;otherwise, the lifetime of the contacts will be shortened considerably. Note that the running performance shown is an example, and that it varies depending on parameters such as the type of load, switching frequency, driver circuit, and ambient temperature under the actual operating conditions.Evaluate the performance by using the actual circuit before using the relay.2. Driving relays- If the internal connection diagram of a relay shows + and -symbols on the coil, apply the rated voltage to the relay in the specified direction. If a rippled DC current source is used,abnormalities such as beat at the coil may occur.- The maximum voltage that can be applied to the coil of the relay varies depending on the ambient temperature. Generally,the higher the voltage applied to the coil, the shorter the operating time. Note, however, that a high voltage also increases the bounce of the contacts and the contact opening and closing frequency, which may shorten the lifetime of the contacts.- If the driving voltage waveform of the relay coil rises and falls gradually, the inherent performance of the relay may not be fully realized. Make sure that the voltage waveform instantaneously rises and falls as a pulse.- For a latching relay, apply a voltage to the coil according to the polarity specified in the internal connection diagram of the relay.- If a current is applied to the coil over a long period of time,the coil temperature rises, promoting generation of organic gas inside the relay, which may result in faulty contacts. In this case, use of a latching relay is recommended.- The operating time and release time indicate the time required for each contact to close after the voltage has been applied to or removed from the coil. However, because the relay has a mechanical structure, a bounce state exists at the end of the operating and release times. Furthermore, because additional time is required until the contact stabilizes after being in a high-resistance state, care must be taken when using the relay at high speeds.3. Operating environment- Make sure that the relay mounted in the application set is used within the specified temperature range. Use of a relay at a temperature outside this range may adversely affect insulation or contact performance.- If the relay is used for a long period of time in highly humid (RH 85% or higher) environment, moisture may be absorbed into the relay. This moisture may react with the NOx and SOx generated by glow discharges that occur when the contactsare opened or closed, producing nitric or sulfuric acid. If this happens, the acid produced may corrode the metallic parts of the relay, causing operational malfunction.- Because the operating temperature range varies depending on the humidity, use the relay in the temperature range illustrated in the figure below. Prevent the relay from being frozen and avoid the generation of condensation.- The relay maintains constant sealability under normal atmospheric pressure (810 to 1,200 hpa). Its sealability may be degraded or the relay may be deformed and malfunction if it is used under barometric conditions exceeding the specified range.- The same applies when the relay is stored or transported.Keep the upper-limit value of the temperature to which the relay is exposed after it is removed from the carton box to within 50˚C.- If excessive vibration or shock is applied to the relay, it may malfunction and the contacts remain closed. Vibration or shock applied to the relay during operation may cause considerable damage to or wearing of the contacts. Note that operation of a snap switch mounted close to the relay or shock due to the operation of magnetic solenoid may also cause malfunctioning.4. Notes on mounting relays- When mounting a relay onto a PC board using an automatic chip mounter, if excessive force is applied to the cover of the relay when the relay is chucked or inserted, the cover may be damaged or the characteristics of the relay degraded. Keep the force applied to the relay to within 1 kg.- Avoid bending the pins to temporarily secure the relay to the PC board. Bending the pins may degrade sealability or adversely affect the internal mechanism.- It is recommended to solder the relay onto a PC board under the following conditions:<1> Reflow solderingRefer to the recommended soldering temperature profile.<2> Flow solderingSolder temperature: 250˚C max., Time: 5 to 10 seconds,Preheating: 100˚C max./1 minute max.<3> Manual solderingSolder temperature: 350˚C, Time: 2 to 3 seconds- Ventilation immediately after soldering is recommended.Avoid immersing the relay in cleaning solvent immediately after soldering due to the danger of thermal shock being applied to the relay.- Use an alcohol-based or water-based cleaning solvent. Never use thinner and benzene because they may damage the relay housing.- Do not use ultrasonic cleaning because the vibration energy generated by the ultrasonic waves may cause the contacts to remain closed.5. Handling- Relays are packaged in magazine cases for shipment. If a space is created in the case after some relays have been removed, be sure to insert a stopper to secure the remaining relays in the case. If relays are not well secured, vibration during transportation may cause malfunctioning of the contacts.- Exercise care in handling the relay so as to avoid dropping it or allowing it to fall. Do not use a relay that has been dropped.If a relay drops from a workbench to the floor, a shock of 9,800m/s2 (1,000 G) or more is applied to the relay, possibly damaging its functions. Even if a light shock has been applied to the relay, thoroughly evaluate its operation before using it.- Latching relays are factory-set to the reset state for shipment.A latching relay may be set, however, by vibration or shock applied while being transported. Be sure to forcibly reset the relay before using it in the application set. Also note that the relay may be set by unexpected vibration or shock when it is used in a portable set.- The sealability of a surface-mount relay may be lost if the relay absorbs moisture and is then heated during soldering.When storing relays, therefore, observe the following points:<1> The storage humidity must be no more than 70% RH. The recommended storage period is 3 months maximum.<2> To store the relay for 3 months or longer, keep the storage humidity to within 50% RH. Do not store the relay for more than 6 months.1 ms max.1 ms max.–60–40–2020Temperature (˚C)H u m i d i t y (%R H )20540608085406080100Ph (707) 996-5201 Fx (707) e-mail:***************************EC2 SERIESNo part of this document may be copied or reproduced in any form or by any means without the prior written consent of NEC Corporation. NEC Corporation assumes no responsibility for any errors which may appear in this document.NEC Corporation does not assume any liability for infringement of patents, copyrights or other intellec-tual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. No license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of NEC Corporation or others.While NEC Corporation has been making continuous effort to enhance the reliability of its electronic components, the possibility of defects cannot be eliminated entirely. To minimize risks of damage or injury to persons or property arising from a defect in an NEC electronic component, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. NEC devices are classified into the following three quality grades:"Standard", "Special", and "Specific". The Specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. The recommended applications of a device depend on its quality grade, as indicated below. Customers must check the quality grade of each device before using it in a particular application.Standard:Computers, office equipment, communications equipment, test and measurement equipment,audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robotsSpecial:Transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disastersystems, anti-crime systems, safety equipment and medical equipment (not specifically de-signed for life support)Specific:Aircrafts, aerospace equipment, submersible repeaters, nuclear reactor control systems, lifesupport systems or medical equipment for life support, etc.The quality grade of NEC devices is "Standard" unless otherwise specified in NEC's Data Sheets or Data Books.If customers intend to use NEC devices for applications other than those specified for Standard quality grade,they should contact an NEC sales representative in advance.(Note)(1)"NEC" as used in this statement means NEC Corporation and also includes its majority-owned subsidiaries.(2)"NEC electronic component products" means any electronic component product developed or manufac-tured by or for NEC (as defined above).DE02023/0119654 Eighth Street East, PO Box 517Sonoma, CA 95476-0517 USAPh (707) 996-5201 Fx (707) e-mail:***************************。

PhilipsLCD widescreen monitor51 cm (20")WSXGA200WB7ES Bigger, wider screen: betterbusiness productivityWith a big, widescreen, performance-enhancing comfort, value-added conveniencefeatures and great cost benefit ratio, the 200WB7 is the smart choice for businessproductivity.Best total cost of ownership solution•Empowered for Windows VistaOutstanding front of screen performance•WSXGA+, wide format 1680x1050 resolution for sharper display•Fast 8ms On/off response time:Great text & graphics display•Dual input accepts both analog VGA and digital DVI signalsMaximum comfort for maximum productivity•SmartManage compatibility enables LAN-based asset management•90 degree screen rotation and smart cable management•Tilt and swivel adjustment for an ideal viewing angle•Display more images and content without scrollingGreat convenience•USB port for convenient peripheral connections•Easy to adjust display settings with Philips SmartControl•Easy plug-and-play DVI for a true digital experienceHighlightsWindows Vista readyPhilips Vista-ready monitors are empowered for vibrant, exciting display of this new, visually sophisticated and demanding Windows operating system, designed to enhance your entertainment experience, make you more productive and help you control your computing experience at home and in the office, making viewing, finding and organizing information for work or play quick, efficient and easy.WSXGA+, wide format 1680x1050 Wide format, super extended graphics array is a display specification that is capable of displaying 1680 x 1050 resolution or approximately 1.7 million pixels.8ms response time (On/Off)On-Off response time is the period required for a liquid crystal cell to go from active (black) to inactive (white) and back to active (black) again. It is measured in milliseconds. Faster is better: Lower response time means faster transitions and, therefore, results in fewer visible image artifacts in the display of transition of text and graphics. On-Off response time is a more important measure in the display of business content like documents, graphs and photos.Dual inputDual input provides connectors toaccommodate input of both analog VGA anddigital DVI signals.SmartManage enabledSmartManage is a system for monitoring,managing and checking status of display devicesas well as delivering remote support to userswho experience difficulties - all accomplishedover a LAN.Super Ergo BaseThe Super Ergo base is a monitor base thatdelivers ergonomic display comfort andprovides intelligent cable management. Thebase's people-friendly height, swivel, tilt androtation angle adjustments position themonitor for maximum comfort that can easethe physical strains of a long workday;intelligent cable management reduces cableclutter and keeps the workspace neat andprofessional.Screen tilt and swivelScreen tilt and swivel is a mechanism built intothe base permits the monitor to swivel and tiltbackward or forward.Large viewing areaViewing area is the visible portion of a monitorscreen available for displaying data.USB 2.0 portUSB port allows user to conveniently connecttheir plug and play multimedia devices such asUSB memory devices, camera, portable HDD,Web camera, PDA, Printer and many otherdevices which has USB connection available.The conveniently located USB 2.0 port on themonitor allows USB 2.0 signals to pass thru tothe computer. Note that many devices likecameras and HDD may need to be poweredOn independently, as they have higher powerrequirements than the monitor USB port canprovideSmartControlPC software for fine tuning displayperformance and settings. Philips offers userstwo choices for display setting adjustment.Either navigate the multilevel On ScreenDisplay menu through buttons on the displayitself or use the Philips SmartControl softwareto easily adjust the various display settings in afamiliar way.In-box DVI cableA DVI cable is shipped with the product toprovide high quality digital display.Issue date 2022-04-21 Version: 6.0.1012 NC: 8639 000 16989 EAN: 87 10895 97317 5© 2022 Koninklijke Philips N.V.All Rights reserved.Specifications are subject to change without notice. Trademarks are the property of Koninklijke Philips N.V. or their respective owners.SpecificationsPicture/Display•LCD panel type: 1680 x 1050 pixels, Anti-glare polarizer, RGB vertical stripe•Panel Size: 20.1"/ 51 cm•Effective viewing area: 433.4 x 270.9 mm •Pixel pitch: 0.258 x 0.258 mm •Brightness: 300 cd/m²•Contrast ratio (typical): 600:1•Display colors: 16.2 M•Viewing angle: 160º (H) / 145º (V), @ C/R > 5•Response time (typical): 8 ms•White Chromaticity, 6500K: x = 0.313 / y = 0.329•White Chromaticity, 9300K: x = 0.283 / y = 0.297•Maximum Resolution: 1680 x 1050 @ 60Hz (digital input)•Optimum resolution: 1680 x 1050 @ 60Hz (digital input)•Video Dot Rate: 205 MHz•Horizontal Scanning Frequency: 30 - 98 kHz •Vertical Scanning Frequency: 56 - 76 Hz •Aspect ratio: 16:10•sRGBConnectivity•Signal Input: VGA (Analog ), DVI-D•USB: USB 2.0 x 1•Sync Input: Composite Sync, Separate Sync, Sync on Green•Video input impedance: 75 ohm•Sync input impedance: 2.2k ohm•Video input signal levels: 0.7 Vpp Convenience•User convenience: On-screen Display, SmartManage enabled•Monitor Controls: Auto, Brightness Control (Up/ Down), Left/Right, Menu (OK), Power On/Off •OSD Languages: English, French, German, Italian, Simplified Chinese, Spanish•Other convenience: Kensington lock compatible •Plug & Play Compatibility: DDC/CI, sRGB, Windows 98/ME/2000/XP/Vista•Regulatory approvals: CE Mark, Energy Star, FCC-B, UL, CSA, SEMKO, TCO '03, TÜV/GS, TÜV Ergo •Swivel:+/-45°•Tilt: -5° to 25°•Pivot: 90° (counter-clockwise)•VESA Mount: 100 x 100 mmAccessories•Included accessories: AC Power Cord, DVI-D cable, USB cable, VGA cable•User ManualDimensions•Box dimensions(W x H x D):579 x 513 x 267 mm•Box dimensions in inch (W x H x D):22.8 x 20.2 x 10.5 inch•Set dimensions(W x H x D):483 x 338.5 x 68.7 mm•Set dimensions in inch (W x H x D):19 x 13.3 x 2.7 inch•Set dimensions with stand (W x H x D):483 x 402 x 215.3 mm•Set dimensions with stand in inch (W x H x D): 19 x 15.8 x 8.5 inch•Height adjustment range: 130 mm•Height adjustment range (inch): 5.1 inch •MTBF: 50,000 hrs•Relative humidity: 20% - 80%•Temperature range (operation): 0°C to 35°C •Temperature range (storage): -20°C to 60°C •Product weight (+stand): 8.6 kg•Product weight (+stand) (lb): 18.9 lb•Weight incl. Packaging: 10.7 kg•Weight incl. Packaging (lb): 23.6 lbPower•Complies with: Energy Star•Consumption(On mode): 50 W (Typical)•Consumption(Off Mode): < 1 W•Power LED indicator: Operation - green, Stand by/ sleep - Amber•Power supply: Built-in, 100-240VAC, 50/60Hz。

FOR TERMINATION OF CABLES WITH WIRE BRAID USING GLAND TYPE CXe OR SINGLEWIRE ARMOUR (SWA) USING GLAND TYPE CWe FOR USE IN EXPLOSIVE ATMOSPHERES.TECHNICAL DATAINSTALLATION INSTRUCTIONSInstallation should only be performed by a competent person using the correct tools. Read all instructions before beginning installation.ACCESSORIESThe following accessories are available from CMP Products, as optional extras, to assist with fixing, sealing and earthing :-CABLE GLANDTYPES CWe & CXeINSTALLATION INSTRUCTIONS FOR CMP CABLE GLAND TYPES CWe & CXeGlasshouse Street • St. Peters • Newcastle upon Tyne • NE6 1BSTel: +44 191 265 7411 • Fax: +44 1670 715 646E-Mail:********************************.uk•Web:CABLE GLAND TYPE : CWe, CXe INGRESS PROTECTION : IP66DESIGN STANDARDS : BS 6121:1989, EN 62444, IEC 62444PROCESS CONTROL SYSTEM : BS EN ISO 9001: ISO/IEC 80079-34:2011CWe = SWA, AWACXe = Braid, Tape, etc armourC M PD o c u m e n t N o . F I 438 I s s u e 8, IE C I s s u e 7Marine Approvals including Lloyds & ABS are also available from CMP Products.SCAN FOR INSTALLATION VIDEOSEXPLOSIVE ATMOSPHERES CLASSIFICATIONATEX CERTIFICATION No : SIRA13ATEX1070XATEX CERTIFICATION CODE : II 2G 1D / Ex e IIC Gb / Ex ta IIIC Da IECEx CERTIFICATION No : IECEx SIR.13.0025XIECEx CERTIFICATION CODE: Ex e IIC Gb / Ex ta IIIC DaSPECIAL CONDITIONS FOR SAFE USE1. The glands when used for teminating braided cables are only suitable for fixed installations. Cables must be efficiently clamped to prevent pulling or twisting.CMP Products Limited on its sole responsibility declares that the equipment referred to herein conforms to the requirements of the ATEX Directive 2014/34/EU and the following standards: -EN60079-0:2012, EN60079-1:2007, EN60079-7:2007, EN60079-15:2010, EN60079-31:2009, BS6121:1989, EN62444:2013, EN61241-0:2004, EN61241-1:2004.David Willcock – Certification Engineer (Authorised Person)CMP Products Limited, Cramlington, NE23 1WH, UK 24th June 2015INCORPORATING EU DECLARATION OF CONFORMITY TO DIRECTIVE [2014/34/EU]Notified Body: Sira Certification Service, Unit 6, Hawarden Industrial Park, Hawarden, CH5 3US, UK0518Logo’s shown for illustration purposes only. Please check certification for detailsDate Printed: INSTALLATION INSTRUCTIONS FOR CMP CABLE GLAND TYPES CWe & CXeCABLE GLAND COMPONENTS - It is not necessary to dismantled the cable gland any further than illustrated below 1. Entry Component 2. Detachable Armour Cone 3. AnyWay Clamping Ring 4. Body 5. Outer Seal NutPLEASE READ ALL INSTRUCTIONS CAREFULLY BEFORE BEGINNING THE INSTALLATION1. Separate components (1), (2) and (3) from Sub-Assembly B. If required, fit a shroud over the cable outer sheath. Prepare the cable by removing the cable outer sheath and the braid/armour to suit the geometry of the equipment.Remove a further 18mm (max) of outer sheath to expose the armour. If applicable remove any tapes or wrappings to expose the inner sheath.NOTE: On maximum size cables the clamping ring may only pass over the armour.2. Secure the Entry Component (1) into the equipment as indicated.3. Locate the Detachable Armour Cone (2) into the Entry Component. Pass the cable through the entry item and evenly space the braid/armour around the cone.4. While continuing to push the cable forward to maintain contact between the braid armour and the Cone (2), tighten the Body (4) by hand until the AnyWay Clamping Ring (3) is felt to have engaged the braid/armour.Hold the Entry Component (1) with a spanner and tighten the Body (4) using a spanner until all available threads are used, thebody and entry item are metal to metal and cannot be tightened further.5. Only using finger pressure, tighten the outer seal nut assembly (5) until light resistance to tightening is met.Then either use the outer seal tightening guide tape or table on the rear of the page to determine how much further to tighten the seal using a spanner (using the outer seal tightening guide is recomended).Wrap the outer seal tightening guide tape around the cable to show the amount of spanner turns needed (as shown here). Make sure the correct side of the outerseal tightening guide tape is used depending on the cable gland size.SWABRAID。