MY1B25G-900资料下载

© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 1 of 28. Printed in The Netherlands.Bondstrand ® 2000M/7000M Glassfiber Reinforced Epoxy (GRE) pipe systems for marine servicewith external pressure requirementsIn 1993, IMO (International Maritime Organisation) issued a resolution (A.18/Res. 753) covering acceptance criteria for assuring ship safety. Major certifying bodies have adopted and implemented these Guidelines in their respective Rules and Regulations for the Classification of Ships.All Bondstrand pipe series used in the marine industry are designed and type-approved by the below major certifying bodies. (A complete list is available, on request)● American Bureau of Shipping (ABS), U.S.A.;● Bureau Veritas, France;● Det Norske Veritas, Norway;● Germanischer Lloyd, Germany;● Lloyd’s Register, United Kingdom;● Nippon Kaiji Kyokai, Japan; ● Registro Italiano Navale (RINA), Italy;● United States Coast Guard (USCG), U.S.A..Maximum operating temperature: up to 121°C.Pipe diameter: 1-40 inch (25-1000 mm).Pipe system design for pressure ratings up to 16 bar.ASTM D-2992 Hydrostatic Design Basis (Procedure B - service factor 0.5);ASTM D-1599 Safety factor of 4:1. Design criteria for external pressure requirements are in accordance with IMO regulations.Bondstrand 2000MASTM D-2310 Classification: RTRP-11FW for static hydrostatic design basis; MDA cured.ASTM D-2310 Classification: RTRP-11FX for static hydrostatic design basis; IPD plies with ASTM F-1173 Classification.Bondstrand 7000MASTM D-2310 Classification: RTRP-11AW for static hydrostatic design basis; MDA cured.ASTM D-2310 Classification: RTRP-11AX for static hydrostatic design basis; IPD plies with ASTM F-1173 Classification.ApprovalsUses and applicationsCharacteristicsA complete library of Bondstrand pipe and fittings in PDS and PDMS-format is available on CD-ROM. Please contact Ameron for details.For specific fire protection requirements, an outher layer of passive fire protection is available.For pipe systems without external pressure requirements, please refer to Bondstrand 3400 product data (FP 835) or contact your Ameron representative.● Ballast● Portable discharge line ● Chlorination ● Stripping lines● Draining ● Tankcleaning (salt water)● Cargo line● Fire protection mains● Sanitary service & sewage ● Various other applicationsTable of Contents GENERAL DATAAdhesives (27)Conversions (28)Engineering design & installation data (28)Hydrostatic testing (28)Important notice (28)Joining system and configuration (3)Mechanical properties (4)Physical properties (4)Pipe series (3)Pipe length (4)Pipe dimensions and weights (7)Pipe performance .....................................................................................................5-6Span length (9)Surge Pressure (28)Ultimate Collapse Pressures (8)FITTINGS DATAAdaptors ...............................................................................................................26-27Bell mouth (25)Couplings (22)Elbows ....................................................................................................................9-11Expansion coupling (26)Flanges .................................................................................................................20-22Joint dimensions Quick-Lock® (8)Joint dimensions Taper/Taper (8)Laterals (17)Nipples (23)Reducers ..............................................................................................................18-19Saddles .............................................................................................................17 & 24Specials (28)Tees .......................................................................................................................11-16© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 2 of 28. Printed in The Netherlands.© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 3 of 28. Printed in The Netherlands.Pipe seriesPipeFilament-wound Glassfiber Reinforced Epoxy (GRE) pipe for Bondstrand adhesive-bonding systems. MDA (diaminodiphenylmethane) or IPD (isophoronediamine) cured.FittingsA wide range of lined filament-wound Glassfiber Reinforced Epoxy (GRE) fittings for Bondstrand adhesive-bonding systems. For special fittings, not listed in this product guide, please contact your Ameron representative.FlangesFilament-wound Glassfiber Reinforced Epoxy (GRE) heavy-duty flanges, hubbed and stub-end flanges for Quick-Lock adhesive bonding systems. Standard flange drillingpatterns as per ANSI B16.5 (150 Lb). Other flange drilling patterns, such as ANSI B16.5 (> 150 Lb), DIN, ISO and JIS are also availabe.Bondstrand® 2000MGlassfiber Reinforced Epoxy (GRE) pipe system; IPD or MDA cured.Standard 0.5 mm internal resin-rich reinforced liner.Maximum operating temperature: 121°C for MDA cured and 93°C for IPD cured.Maximum pressure rating: 16 bar.Minimum pressure: full vacuum.External Pressure Requirements: In accordance with IMO Regulations.Bondstrand® 7000M (* conductive)Glassfiber Reinforced Epoxy (GRE) pipe system; IPD or MDA cured.Maximum operating temperature: 121°C for MDA cured and 93°C for IPD cured.Maximum pressure rating: 16 bar.Minimum pressure: full vacuum.External Pressure Requirements: In accordance with IMO Regulations.* ConductiveOur conductive pipe systems have been developed to prevent accumulation of potentially dangerous levels of static electrical charges. Pipe, fittings and flanges contain high strength conductive filaments. Together with a conductive adhesive this provides an electrically continuous system.Description Bondstrand® 2000MBondstrand® 7000MPipe diameter 1-40 inch1-40 inchJoining system Quick-Lock 1-16 inch Quick-Lock 1-16 inchTaper/Taper 18-40 inchTaper/Taper 18-40 inchLiner*0.5 mm -**Temperature 121°C 121°C Pressure Rating16 bar16 bar* Also available without liner;** Above 93°C, derate the pressure rating lineairly to 50% at 121°C.Pipe25-400 mm (1-16 inch):Quick-Lock (straight/taper) adhesive joint with integral pipe stop in bell end.End configuration: Integral Quick-Lock bell end x shaved straight spigot.450-1000 mm (18-40 inch): Taper/Taper adhesive joint.End configuration: Integral Taper bell x shaved taper spigotFitting25-400 mm (1-16 inch):Quick-Lock (straight/ taper) adhesive joint with integral pipe stop in bell end.End configuration: Integral Quick-Lock bell ends.450-1000 mm (18-40 inch): Taper/Taper adhesive joint.End configuration: Integral Taper bell ends.Flanges25-1000 mm (1-40 inch):Quick-Lock (straight/ taper) adhesive joint with integral pipe stop in bell end.End configuration: Integral Quick-Lock bell end.Note: * Pipe nipples, saddles and flanged fittings have different end configurations.Joining system &configurationTypical mechanical properties Nominal Joining Approximate overall Length*Pipe Size System Europe Plant Asia Plant[mm] [inch] [m] [m] 25-40 1-1½ Quick-Lock 5.5 3.0 50-125 2-5 Quick-Lock 6.15 5.85/9.0 150 6 Quick-Lock 6.1 5.85/9.0 200 8 Quick-Lock 6.1/11.8 5.85/9.0 250 10 Quick-Lock 6.1/11.8 5.85/11.89 300-400 12-16 Quick-Lock 6.05/11.8 5.85/11.89 450-1000 18-40 Taper/Taper 11.811.89 * Tolerance +/- 50 mm.Pipe property Units Value Method Thermal conductivity pipe wall W(m.K) .33 Ameron Thermal expansivity (lineair) 10-6 mm/mm °C 18.0 Ameron Flow coefficient Hazen-Williams 150 —Absolute roughness 10-6 m 5.3 —Density kg/m31800 — Specific gravity - 1.8 ASTM D-792Pipe property IPD cured Units 21°C. 93°C. Method Bi-axialUltimate hoop stress at weeping N/mm2300 — ASTM D-1599 CircumferentialHoop tensile strength N/mm2380 — ASTM D-2290 Hoop tensile modulus N/mm223250 18100 ASTM D-2290 Poisson’s ratio axial/hoop — 0.93 1.04 Ameron LongitudinalAxial tensile strength N/mm265 50 ASTM D-2105 Axial tensile modulus N/mm210000 7800 ASTM D-2105 Poisson’s ratio hoop/axial — 0.40 0.45 ASTM D-2105 Axial bending strength — 80 — Ameron BeamApparent elastic modulus N/mm29200 7000 ASTM D-2925 Hydrostatic Design BasisStatic N/mm2148* — ASTM D-2992(Proc. B.)Pipe property MDA cured Units 21°C. 93°C. Method Bi-axialUltimate hoop stress at weeping N/mm2250 — ASTM D-1599 CircumferentialHoop tensile strength N/mm2220 — ASTM D-2290 Hoop tensile modulus N/mm225200 ASTM D-2290 Poisson’s ratio axial/hoop — 0.65 0.81 Ameron LongitudinalAxial tensile strength N/mm280 65 ASTM D-2105 Axial tensile modulus N/mm212500 9700 ASTM D-2105 Poisson’s ratio hoop/axial — 0.40 0.44 ASTM D-2105 Axial bending strength — 85 — Ameron BeamApparent elastic modulus N/mm212500 8000 ASTM D-2925 Hydrostatic Design BasisStatic N/mm2124* — ASTM D-2992(Proc. B.) * At 65°C.Typical physicalpropertiesTypical pipe length© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 4 of 28. Printed in The Netherlands.© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 5 of 28. Printed in The Netherlands..Typical pipe performanceBondstrand 2000M (MDA cured) at 21°C.Nominal STISStifness Pipe Pipe Factor Stiffness Size [mm] [inch][kN/m 2] [lb.in] [psi]25 1 2079.1 502 1618740 1½ 618.1 502 4812 50 2 350.6 554 2729 80 3 102.2 554 796 100 4 110.8 1281 863125 5 57.7 1281 449 150 6 33.4 1281 260200 8 35.5 3092 276250 10 36.6 6375 285300 12 35.9 10627 280350 14 36.8 13548 286400 16 36.9 20308 287450 18 36.2 28265 282500 20 36.3 38976 283600 24 36.6 67877 285700 28 36.9 121531 288750 30 36.8 148680 286800 32 37.1 182139 289900 36 36.8 256919 28610004037.7361759294Bondstrand 2000M (IPD-cured) at 21°C. Nominal STISStifness Pipe Pipe Factor Stiffness Size [mm] [inch][kN/m 2] [lb.in] [psi]25 1 2087.4 504 1625140 1½ 620.6 504 483150 2 352.0 556 2740 80 3 102.6 556 799 100 4 111.3 1286 866125 5 57.9 1286 451150 6 33.5 1286 261200 8 35.6 3104 277250 10 36.8 6400 286300 12 36.1 10669 281350 14 36.9 13602 287400 16 37.1 20389 289450 18 36.3 28378 283500 20 36.5 39130 284600 24 36.6 68147 285700 28 36.9 122013 289750 30 36.8 149270 288800 32 37.1 182862 290900 36 36.8 257939 28810004037.7363195295Typical pipe performance Bondstrand 7000M (MDA-cured) at 21°C.Nominal STIS Stifness PipePipe Factor StiffnessSize[mm] [inch] [kN/m2] [lb.in] [psi]25 1 3142.4 797 2446440 1½ 949.6 797 739350 2 534.7 867 416280 3 157.3 867 1225100 4 154.4 1809 1202125 5 80.6 1809 627150 6 46.7 1809 363200 8 39.4 3092 276250 10 38.2 6375 285300 12 37.2 10627 280350 14 38.0 13548 286400 16 37.2 20308 287450 18 38.0 28265 282500 20 37.2 38976 283600 24 36.7 67877 285700 28 37.1 121531 288750 30 36.9 148680 286800 32 37.3 182139 289900 36 36.9 256919 2861000 40 37.9 361759 294Bondstrand 7000M (IPD-cured) at 21°C.Nominal STIS Stifness PipePipe Factor StiffnessSize[mm] [inch] [kN/m2] [lb.in] [psi]25 1 3154.9 800 2456140 1½ 953.3 800 742250 2 536.8 871 417980 3 157.9 871 1230100 4 155.0 1816 1207125 5 80.9 1816 630150 6 46.9 1816 365200 8 35.6 3104 277250 10 36.8 6400 286300 12 36.1 10669 281350 14 36.9 13602 287400 16 37.1 20389 289450 18 36.3 28378 283500 20 36.5 39130 284600 24 36.7 68147 286700 28 37.1 122013 289750 30 36.9 149270 288800 32 37.3 182862 290900 36 36.9 257939 2881000 40 37.9 363195 295© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 6 of 28. Printed in The Netherlands.Typical pipe dimensions and weights Bondstrand 2000M.Nominal Pipe Minimum Average Designation Pipe Inside Struct. Wall Pipe per ASTM Size Diameter Thickness [t] Weight D-2966 [mm] [inch] [mm] [mm] [kg/m] MDA IPD 25 1 27.1 3.0 0.7 RTRP-11 FW1-2112 FX1-3112 40 1½ 42.1 3.0 1.3 RTRP-11 FW1-2112 FX1-3112 50 2 53.0 3.1 1.3 RTRP-11FW1-2112 FX1-3112 80 3 81.8 3.1 1.8 RTRP-11FW1-2112 FX1-3112 100 4 105.2 4.1 3.1 RTRP-11FW1-2113 FX1-3113 125 5 131.9 4.1 3.5 RTRP-11FW1-2113 FX1-3113 150 6 159.0 4.1 4.6 RTRP-11FW1-2113 FX1-3113 200 8 208.8 5.5 7.4 RTRP-11FW1-2116 FX1-3116 250 10 262.9 7.0 12 RTRP-11FW1-2116 FX1-3116 300 12 313.7 8.3 17 RTRP-11FW1-2116 FX1-3116 400 14 337.6 9.0 19 RTRP-11FW1-2116 FX1-3116 400 16 385.8 10.3 25 RTRP-11FW1-2116 FX1-3116 450 18 433.8 11.5 32 RTRP-11FW1-2116 FX1-3116 500 20 482.1 12.8 39 RTRP-11FW1-2116 FX1-3116 600 24 578.6 15.4 56 RTRP-11FW1-2116 FX1-3116 700 28 700.0 18.7 75 RTRP-11FW1-2116 FX1-3116 750 30 750.0 20.0 93 RTRP-11FW1-2116 FX1-3116 800 32 800.0 21.4 102 RTRP-11FW1-2116 FX1-3116 900 36 900.0 24.0 132 RTRP-11FW1-2116 FX1-3116 1000 40 1000.0 26.9 165 RTRP-11FW1-2116 FX1-3116Bondstrand 7000M.Nominal Pipe Minimum Average Designation Pipe Inside Struct. Wall Pipe per ASTM Size Diameter Thickness [t] Weight D-2966 [mm] [inch] [mm] [mm] [kg/m] MDA IPD 25 1 27.1 3.5 0.7 RTRP-11AW1-2112 AX1-3112 40 1½ 42.1 3.5 1.3 RTRP-11AW1-2112 AX1-3112 50 2 53.0 3.6 1.3 RTRP-11AW1-2112 AX1-3112 80 3 81.8 3.6 1.8 RTRP-11AW1-2112 AX1-3112 100 4 105.2 4.6 3.1 RTRP-11AW1-2113 AX1-3113 125 5 131.9 4.6 3.5 RTRP-11AW1-2113 AX1-3113 150 6 159.0 4.6 4.6 RTRP-11AW1-2113 AX1-3113 200 8 208.8 5.5 7.4 RTRP-11AW1-2116 AX1-3116 250 10 262.9 7.0 12 RTRP-11AW1-2116 AX1-3116 300 12 313.7 8.3 17 RTRP-11AW1-2116 AX1-3116 350 14 337.6 9.0 19 RTRP-11AW1-2116 AX1-3116 400 16 385.8 10.3 25 RTRP-11AW1-2116 AX1-3116 450 18 433.8 11.5 32 RTRP-11AW1-2116 AX1-3116 500 20 482.1 12.8 39 RTRP-11AW1-2116 AX1-3116 600 24 578.6 15.4 56 RTRP-11AW1-2116 AX1-3116 700 28 700.0 18.7 75 RTRP-11AW1-2116 AX1-3116 750 30 750.0 20.0 93 RTRP-11AW1-2116 AX1-3116 800 32 800.0 21.4 102 RTRP-11AW1-2116 AX1-3116 900 36 900.0 24.0 132 RTRP-11AW1-2116 AX1-3116 1000 40 1000.0 26.9 165 RTRP-11AW1-2116 AX1-3116© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 7 of 28. Printed in The Netherlands.Ultimate collapse pressure Quick-Lock® dimensions Taper/Taper dimensions Ultimate collapse pressure (ultimate short term external failure pressure) at 21º C. Nominal Internal 2000M 2000M 7000M 7000M Pipe Pressure MDA IPD MDA IPD Size static*[mm] [inch] [bar] [bar] [bar] [bar] [bar] 25 1 16 491 491 714 714 40 1½ 16 160 160 239 239 50 2 16 95 95 141 141 80 3 16 29 29 44 44 100 4 16 31 31 43 43 125 5 16 16.5 16.5 23 23 150 6 16 9.7 9.7 13.5 13.5 200 8 16 10.3 10.3 10.3 10.3 250 10 16 10.7 10.7 10.7 10.7 300 12 16 10.5 10.5 10.5 10.5 350 14 16 10.7 10.7 10.7 10.7 400 16 16 10.7 10.7 10.7 10.7 450 18 16 10.5 10.5 10.5 10.5 500 20 16 10.6 10.6 10.6 10.6 600 24 16 10.7 10.7 10.7 10.7 700 28 16 10.8 10.8 10.8 10.8 750 30 16 10.7 10.7 10.7 10.7 800 32 16 10.8 10.8 10.8 10.8 900 36 16 10.7 10.7 10.7 10.7 1000 40 16 11.0 11.0 11.0 11.0 * Up to 93°C.Nominal Insertion Spigot Diameter Spigot Length Pipe Depth Min. Max. Min. Max.Size (Ds) Sd Sd L L [mm] [inch] [mm] [mm] [mm] [mm] [mm] 25 1 27 32.6 32.9 28.5 31.0 40 1½ 32 47.5 47.8 33.5 36.0 50 2 46 59.2 59.6 49.0 52.0 80 3 46 87.6 88.0 49.0 52.0 100 4 46 112.5 112.9 49.0 52.0 125 5 57 139.5 139.9 58.5 61.5 150 6 57 166.2 166.6 59.0 62.0 200 8 64 217.1 217.5 65.0 68.0 250 10 70 271.3 271.7 71.0 74.0 300 12 76 322.2 322.6 78.0 81.0 350 14 89 353.8 354.2 89.0 93.0 400 16 102 404.1 404.5 103.0 106.0 Dimensions for Quick-Lock Spigots for bonding HD Flanges. Dia of StraightSpigot [Sd] 450 18 111 455.8 500 20 111 506.6 600 24 127 608.2 700 28 152 736.3 750 30 165 788.4 800 32 178 840.5 900 36 163 943.4 1000 40 230 1051.4Dimensions for adhesive Taper spigots for adhesive Taper/Taper joints.Nominal Taper Insertion Nominal Dia of Pipe Angle Depth Spigot Spigot Size Nose Thickn. at NoseX Ds nose Sd [mm] [inch] [degrees] [mm] [mm] [mm] 450 18 2.5 114 4.6 443.0 500 20 2.5 127 5.0 492.2 600 24 3.5 178 3.8 586.3 700 28 1.75 178 6.4 712.9 750 30 1.75 178 4.2 758.4 800 32 1.75 178 8.9 817.8 900 36 1.75 203 5.6 911.3 1000 40 1.75 410 8.11016.3© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 8 of 28. Printed in The Netherlands.Span length Bondstrand 2000M.Nominal Single MDA Contininuous Single IPD ContinuousPipe Size Span* Span* Span* Span*[mm] [inch] [m] [m] [m] [m]25 1 2.6 3.3 2.4 3.040 1½ 2.9 3.7 2.7 3.450 2 3.1 4.0 2.9 3.780 3 3.5 4.5 3.3 4.2100 4 4.0 5.1 3.7 4.7125 5 4.3 5.4 4.0 5.0150 6 4.5 5.7 4.2 5.3200 8 5.1 6.5 4.8 6.1250 10 5.8 7.3 5.3 6.8300 12 6.3 8.0 5.8 7.4350 14 6.5 8.3 6.0 7.7400 16 7.0 8.8 6.4 8.2450 18 7.4 9.3 6.8 8.7500 20 7.7 9.8 7.2 9.1600 24 8.5 10.8 7.9 10.0700 28 9.3 11.8 8.6 11.0750 30 9.6 12.2 8.9 11.3800 32 10.0 12.7 9.2 11.7900 36 10.5 13.4 9.8 12.41000 40 11.1 14.1 10.3 13.1Bondstrand 7000M.MDA IPD25 1 2.5 3.3 2.4 3.040 1½ 2.9 3.8 2.7 3.450 2 3.1 4.1 2.9 3.780 3 3.5 4.5 3.3 4.2100 4 4.0 5.2 3.7 4.7125 5 4.3 5.6 4.0 5.0150 6 4.5 5.9 4.2 5.3200 8 5.0 6.5 4.7 5.9250 10 5.7 7.3 5.3 6.7300 12 6.2 8.0 5.7 7.3350 14 6.4 8.3 6.0 7.6400 16 6.9 8.8 6.4 8.1450 18 7.3 9.3 6.7 8.6500 20 7.7 9.8 7.1 9.0600 24 8.4 10.8 7.8 9.9700 28 9.3 11.8 8.6 10.9750 30 9.6 12.2 8.9 11.3800 32 9.9 12.7 9.2 11.7900 36 10.5 13.4 9.7 12.41000 40 11.1 14.1 10.3 13.0* Span recommendations are based on pipes filled with water having a density of 1000 kg/m3and include no provisions for weights caused by valves, flanges or other heavy objects.© Ameron 2007. FP 918 A 01/07 supersedes FP 918 09/06. Page 10of 28.Printed in The Netherlands.Elbows ANSI 45ºElbows ANSI 90ºshort radiusFilament-wound 90° elbows with integral Quick-Lock male ends.*Nominal Laying Maximum Average Pipe Length Working WeightSize (LL) Pressure[mm] [inch][mm] [bar] [kg]50 2 110 12 0.480 3 135 12 0.7100 4 160 12 1.0150 6 198 12 2.4200 8 224 12 3.9250 10 275 12 6.3300123001213.3* Also available with flanges.Filament-wound 45°elbows with integral Quick-Lock male ends.*Nominal Laying Maximum Average Pipe Length Working WeightSize (LL) Pressure[mm] [inch][mm] [bar] [kg]50 2 60 12 0.280 3 71 12 0.4100 4 97 12 0.9150 6 121 12 1.9200 8 134 12 3.9250 10 159 12 8.3300121861210.0* Also available with flanges.Elbows 22½ºEqual TeesQuick-LockFilament-wound 22½°elbows with integral Quick-Lock socket ends 300 12 76 152 16 10.4350 14 83 172 16 12.0400168919116 14.0Filament-wound equal Tee with integral Quick-Lock (1-16 inch) orTaper/Taper (18-40 inch) socket ends for adhesive bonding.6 286 400 143 200 16 6.78 356 484 178 242 16 10.010 432 572 216 286 16 18.012 508 660 254 330 16 29.014 534 712 267 356 16 37.016 584 788 292 394 16 56.018 648 876 324 438 16 69.0 20 712 966 356 483 16 92.024 838 1194 419 597 16 168.028 964 1320 482 660 16 285.030 1016 1372 508 686 16 337.032 1090 1446 545 723 16 459.036 1220 1626 610 813 16 581.01000 4014162236708111816686.0Reducing TeesStandardFabricatedFilament-wound standard and fabricated reducing tees with integral Quick-Lock (1-16 inch) socket ends for adhesive bonding.Nominal Laying Overall LayingOverall Maximum Average100x100x50 4x4x2 105 151 89 135 20 2.1100x100x80 4x4x3 105 151 98 144 20 2.3125x125x50 5x5x2 127 184 102 148 16 3.4125x125x80 5x5x3 127 184 111 157 16 4.0125x125x100 5x5x4 127 184 118 164 16 4.6200x200x150 8x8x6 178 242 168 225 16 11.4250x250x25 10x10x1 83 153 273 300 16 18.1250x250x40 10x10x1½ 100 170 273 305 16 21.0250x250x50 10x10x2 115 185 273 320 16 24.0 250x250x80 10x10x3 115 185 273 320 16 24.0250x250x100 10x10x4 216 286 184 230 16 14.8 250x250x125 10x10x5 216 286 194 251 16 15.2250x250x150 10x10x6 216 286 194 251 16 15.5250x250x200 10x10x8 216 286 203 267 16 16.5300x300x25 12x12x1 84 160 298 325 16 21.2 300x300x40 12x12x1½ 102 178 298 330 16 25.0 300x300x50 12x12x2 117 193 298 344 16 29.0 300x300x80 12x12x3 117 193 298 344 16 29.0 300x300x100 12x12x4 254 330 206 252 16 21.0300x300x150 12x12x6 254 330 219 276 16 22.0 300x300x200 12x12x8 254 330 229 293 16 23.0300x300x250 12x12x10 254 330 241 311 16 24.0350x350x25 14x14x1 81 170 314 341 16 24.0350x350x40 14x14x1½ 99 188 314 346 16 28.0350x350x50 14x14x2 114 203 314 361 16 31.0350x350x80 14x14x3 114 203 314 361 16 31.0350x350x100 14x14x4 114 203 314 361 16 31.0350x350x150 14x14x6 267 356 244 301 16 29.0350x350x200 14x14x8 267 356 254 318 16 30.0 350x350x250 14x14x10 267 356 267 337 16 32.0 350x350x300 14x14x12 267 356 279 355 16 34.0400x400x25 16x16x1 85 187 338 365 16 29.0400x400x40 16x16x1½ 103 205 338 370 16 33.0400x400x50 16x16x2 118 220 338 384 16 37.0400x400x80 16x16x3 118 220 338 384 16 37.0400x400x100 16x16x4 118 220 338 384 16 37.0400x400x150 16x16x6 292 394 264 321 16 37.0400x400x200 16x16x8 292 394 273 337 16 38.0400x400x250 16x16x10 292 394 283 353 16 41.0400x400x300 16x16x12 292 394 295 371 16 45.0400x400x350 16x16x14 292394 292 381 16 49.0Note: Regular numbers are filament wound tees; Italic numbers are fabricated tees; Filament-wound standard and fabricated reducing tees with integral.Reducing Tees Taper/Taper (18-40 inch) socket ends for adhesive bonding.Nominal Laying Overall Laying Overall Maximum AveragePipe Length Length Length Length Working Weight450x450x400 18x18x16 324 438 319 421 16 69.0500x500x25 20x20x1 88 215 382 409 16 35.0500x500x40 20x20x1½ 88 215 382 414 16 35.0500x500x50 20x20x2 88 215 382 428 16 36.0500x500x80 20x20x3 100 227 382 428 16 39.0500x500x100 20x20x4 113 240 382 428 16 43.0500x500x150 20x20x6 138 265 391 448 16 50.0500x500x250 20x20x10 356 483 344 414 16 77.0500x500x300 20x20x12 356 483 345 421 16 82.0500x500x350 20x20x14 356 483 343 432 16 85.0500x500x400 20x20x16 356 483 344 446 16 85.0500x500x450 20x20x18 356 483 350 464 16 89.0600x600x25 24x24x1 88 266 430 457 16 51.0600x600x40 24x24x1½ 88 266 430 462 16 51.0600x600x50 24x24x2 88 266 430 476 16 52.0600x600x80 24x24x3 100 278 430 476 16 56.0600x600x100 24x24x4 113 291 430 476 16 61.0600x600x150 24x24x6 138 316 439 496 16 69.0600x600x200 24x24x8 419 597 412 476 14 78.0600x600x250 24x24x10 419 597 386 456 16 85.0600x600x300 24x24x12 419 597 408 484 16 85.0600x600x350 24x24x14 419 597 394 483 16 101.0600x600x400 24x24x16 419 597 395 497 16 123.3600x600x450 24x24x18 419 597 413 527 16 137.0600x600x500 24x24x20 419 597 406 533 16 156.0700x700x25 28x28x1 88 266 491 518 16 59.0700x700x40 28x28x1½ 88 266 491 523 16 59.0700x700x50 28x28x2 88 266 491 537 16 59.0700x700x80 28x28x3 100 278 491 537 16 64.0700x700x100 28x28x4 113 291 491 537 16 70.0700x700x150 28x28x6 138 316 500 557 16 80.0700x700x350 28x28x14 482 660 490 579 16 147.0700x700x400 28x28x16 482 660 500 602 16 166.0700x700x450 28x28x18 482 660 500 614 16 189.0700x700x500 28x28x20 482 660 506 633 16 210.0700x700x600 28x28x24 482 660 506 684 16 252.0750x750x25 30x30x1 88 266 516 543 16 63.0750x750x40 30x30x1½ 88 266 516 548 16 63.0750x750x50 30x30x2 88 266 516 562 16 63.0750x750x80 30x30x3 100 278 516 562 16 69.0750x750x100 30x30x4 113 291 516 562 16 74.0750x750x150 30x30x6 138 316 525 582 16 85.0750x750x300 30x30x12 508 686 756 832 16 118.0750x750x350 30x30x14 508 686 722 811 16 157.0750x750x400 30x30x16 508 686 698 800 16 178.0750x750x450 30x30x18 508 686 488 602 16 202.0750x750x500 30x30x20 508 686 495 622 16 225.0750x750x600 30x30x24 508 686 481 659 16 270.0Note: Regular numbers are filament wound tees; Italic numbers are fabricated tees.Reducing Tees (C’tnd) StandardFabricated Filament-wound standard and fabricated reducing tees with integra l Taper/Taper (18-40 inch) socket ends for adhesive bonding.800x800x750 32x32x30 545 723 534 712 16 387.0 900x900x25 36x36x1 88 291 591 618 16 78.0 900x900x40 36x36x1½ 88 291 591 623 16 78.0 900x900x50 36x36x2 88 291 591 637 16 78.0 900x900x80 36x36x3 100 303 591 637 16 85.0 900x900x100 36x36x4 113 316 591 637 16 92.0 900x900x150 36x36x6 138 341 600 657 16 105.0 900x900x400 36x36x16 610 813 563 665 16 270.0 900x900x450 36x36x18 610 813 563 677 16 290.0 900x900x500 36x36x20 610 813 563 690 16 323.0 900x900x600 36x36x24 610 813 541 719 16 387.0 900x900x700 36x36x28 610 813 570 748 16 459.0 900x900x750 36x36x30 610 813 584 762 16 484.0 1000x1000x400 40x40x1 120 530 641 668 16 92.0 1000x1000x450 40x40x1½ 120 530 641 673 16 92.0 1000x1000x500 40x40x2 120 530 641 687 16 92.0 1000x1000x600 40x40x3 132 542 641 687 16 100.0 1000x1000x600 40x40x24 708 1118 593 771 16 457.0 1000x1000x700 40x40x28 708 1118 632 810 16 541.0 1000x1000x750 40x40x30 708 1118 633 811 16 571.0 1000x1000x800 40x40x32 708 1118 652 830 16 605.0 1000x1000x900 40x40x36 708 1118 652 855 16 634.0Note: Regular numbers are filament wound tees; Italic numbers are fabricated tees.250x250x50 10x10x2 115 185 322 16 25.6 250x250x80 10x10x3 115 185 323 16 26.3 300x300x25 12x12x1 84 160 329 16 22.3 300x300x40 12x12x1½ 102 178 334 16 26.1 300x300x50 12x12x2 117 193 348 16 30.2 300x300x80 12x12x3 117 193 349 16 30.9 350x350x25 14x14x1 81 170 344 16 24.3 350x350x40 14x14x1½ 99 188 349 16 28.4 350x350x50 14x14x2 114 203 363 16 32.7 350x350x80 14x14x3 114 203 369 16 33.4 350x350x100 14x14x4 114 203 364 16 34.2 400x400x25 16x16x1 85 187 369 16 29.1 400x400x40 16x16x1½ 103 205 374 16 33.8 400x400x50 16x16x2 118 220 388 16 38.5 400x400x80 16x16x3 118 220 389 16 39.2 400x400x100 16x16x4 118 220 389 16 39.9Note: Other sizes, or multiple size branched tees available on request. Please contact Ameron.500x500x80 20x20x3 100 227 433 16 41.4 500x500x100 20x20x4 113 240 433 16 45.9 500x500x150 20x20x6 138 265 454 16 54.8 600x600x25 24x24x1 88 266 460 16 51.9 600x600x40 24x24x1½ 88 266 467 16 52.0 600x600x50 24x24x2 88 266 480 16 53.0 600x600x80 24x24x3 100 278 481 16 58.2 600x600x100 24x24x4 113 291 481 16 63.4 600x600x150 24x24x6 138 316 502 16 73.7 700x700x25 28x28x1 88 266 521 16 59.3 700x700x40 28x28x1½ 88 266 527 16 59.3 700x700x50 28x28x2 88 266 541 16 60.5 700x700x80 28x28x3 100 278 542 16 66.5 700x700x100 28x28x4 113 291 542 16 72.6 700x700x150 28x28x6 138 316 563 16 84.5 750x750x25 30x30x1 88 266 546 16 63.2 750x750x40 30x30x1½ 88 266 552 16 63.4 750x750x50 30x30x2 88 266 566 16 64.4 750x750x80 30x30x3 100 278 567 16 70.8 750x750x100 30x30x4 113 291 567 16 77.1 750x750x150 30x30x6 138 316 588 16 89.8 800x800x25 32x32x1 88 266 571 16 66.9 800x800x40 32x32x1½ 88 266 576 16 67.2 800x800x50 32x32x2 88 266 590 16 68.1 800x800x80 32x32x3 100 278 590 16 74.9 800x800x100 32x32x4 113 291 590 16 81.6 800x800x150 32x32x6 138 316 610 16 94.9 900x900x25 36x36x1 88 291 621 16 78.3 900x900x40 36x36x1½ 88 291 627 16 78.6 900x900x50 36x36x2 88 291 641 16 79.6 900x900x80 36x36x3 100 303 642 16 87.0 900x900x100 36x36x4 113 316 642 16 94.4 900x900x150 36x36x6 138 341 663 16 109.2 1000x1000x25 40x40x1 120 530 672 16 92.3 1000x1000x40 40x40x1½ 120 530 677 16 92.6 1000x1000x50 40x40x2 120 530 691 16 93.7 1000x1000x80 40x40x3 132 542 692 16 103.0Note: Other sizes, or multiple size branched tees available on request. Please contact Ameron.Bushing Saddles 45º Laterals Filament-wound pipe saddles with stainless steel, 1/2 inch and 3/4 inchthreaded bushings.*Nominal Angle Saddle Saddle Maximum Average Required250 10 180 100 14 16 1.6 1 1 300 12 180 100 14 12 1.9 1 1 350 14 180 100 14 12 2.1 1 1 400 16 180 100 14 12 2.5 - 2 450 18 90 100 14 12 3.3 - 1 500 20 90 100 14 12 3.7 1 1 600 24 90 100 14 12 4.4 - 2* Consult Ameron for other type material, or other sized bushings.Filament-wound 45° laterals with integral Quick-Lock socking ends.Nominal Laying Overall Laying Overall Maximum Average Pipe Length Length Length Length Working Weight Size (LL1) (OL1) (LL2) (OL2) Pressure[mm] [inch] [mm] [mm] [mm] [mm] [bar] [kg] 50 2 64 110 203 249 16 1.6 80 3 76 122 254 300 16 3.0 100 4 76 122 305 351 16 3.9 125 5 89 146 337 394 16 5.8 150 6 89 146 368 425 16 6.8 200 8 114 178 445 509 16 12.0 250 10 127 197 521 591 12 21.0 300 12 140 216 622 698 12 30.0 350 14 140 229 622 711 12 39.0 400 16 140 242 622 724 12 54.0。

B* $ $ & $ % $ +, -# $. / & / & 0 $" 1 . " # $. / & 0 $" 2 . " 0 $" 0 0 0 3 ' 4 0 5 0 $" /6360 7& $" / 8 9: ; 5 7 : </ & # $. * $ ! " 6 3 ! " $ < $& $ $ 9=>2> ? ;5 7 * $ 0 $" 9 ; 5 7 0 0 # $. / & 7 /$ 2 . " 0 $" 5@7 8 $ " $ /$ " < A ! $" $ /$ "< A: B $ $ $ $ $ + $ $ $ $ 4 $元器件交易网0.010.11.0100.20.6 1.0 1.4I ,I N S T A N T A N E O U S F O R W A R D C U R R E N T (A )F V ,INSTANTANEOUS FORWARD VOLTAGE (V)Fig.2Typical Forward Characteristics , per elementF 01020304050110100I ,P E A K F O R W A R D S U R G E C U R R E N T (A )F S M NUMBER OF CYCLES AT 60Hz Fig.3Max Non-Repetitive SurgeCurrent110100110100C ,J U N C T I O N C A P A C I T A N C E (p F )j V ,REVERSE VOLTAGE (V)Fig.4Typical Junction CapacitanceR 00.51.01.50255010012515075I ,A V E R A G E F O R W A R D C U R R E N T (A )F T ,AMBIENT TEMPERATURE (°C)Fig.1Forward Current Derating CurveAB元器件交易网DISCLAIMER :1- The information given herein, including the specifications and dimensions, is subject to change without prior not ice to improveproduct characteristics. Before ordering, purchasers are advised to contact the Sensitron Semiconductor sales department for the latest version of the datasheet(s).2- In cases where extremely high reliability is required (such as use in nuclear power control, aerospace and aviation, traffic equipment, medical equipment , and safety equipment) , safety should be ensured by using semiconductor devices that feature assured safety or by means of users’ fail-safe precautions or other arrangement .3- In no event shall Sensitron Semiconductor be liable for any damages that may result from an accident or any other cause during operation of the user’s units according to the datasheet(s). Sensitron Semiconductor assumes no responsibility for any intellectualproperty claims or any other problems that may result from applications of information, products or circuits described in the datasheets. 4- In no event shall Sensitron Semiconductor be liable for any failure in a semiconductor device or any secondary damage resulting from use at a value exceeding the absolute maximum rating.5- No license is granted by the datasheet(s) under any patents or other rights of any third party or Sensitron Semiconductor.6- The datasheet(s) may not be reproduced or duplicated, in any form, in whole or part, without the expressed written permission of Sensitron Semiconductor.7- The products (technologies) described in the datasheet(s) are not to be provided to any party whose purpose in their application will hinder maintenance of international peace and safety nor are they to be applied to that purpose by their direct purchasers or any third party. When exporting these products (technologies), the necessary procedures are to be taken in accordance with related laws and regulations.SENSITRON SEMICONDUCTOR• ! ! !! "#$ • • % & ' (& ) *+,,---. & ./ 0 • 1 2 &% # % 3 & ./ 0 •B元器件交易网。

JMGPM 25M9BW30Port thread typeNil M thread ø12 to ø32Rc ø40 to ø100TN NPT TFGTypeSpecial functionElectrical entryI n d i c a t o r l i g h tWiring (Output)Load voltage Auto switch model Lead wire length [m]Pre-wiredconnector Applicable load DCACPerpendicularIn-line0.5(Nil)1(M)3(L)5(Z)S o l i d s t a t e a u t o s w i t c h———Grommet Yes 3-wire (NPN)24 V5 V, 12 V —M9NV M9N V V V v v IC circuit Relay, PLC3-wire (PNP)M9PV M9P V V V v v 2-wire12 V M9BV M9B V V V v v —Diagnostic indication (2-color indicator)3-wire (NPN)5 V, 12 V M9NWV M9NW V V V v v IC circuit 3-wire (PNP)M9PWV M9PW V V V v v 2-wire 12 V M9BWV M9BW V V V v v —Water resistant (2-color indicator)3-wire (NPN) 5 V, 12 V M9NAV ∗∗M9NA ∗∗v v V v v IC circuit 3-wire (PNP)M9PAV ∗∗M9PA ∗∗v v V v v 2-wire12 VM9BAV ∗∗M9BA ∗∗vvVvv—Applicable Auto Switches /Refer to the WEB catalog or Best Pneumatics for further information on auto switches.∗ Lead wire length symbols: 0.5 m………… N il (Example) M9NW 1 m………… M (Example) M9NWM 3 m………… L (Example) M9NWL 5 m………… Z (Example) M9NWZ∗ For details about auto switches with pre-wired connector, refer to the WEB catalog or Best Pneumatics.∗ Auto switches are shipped together, (but not assembled).∗ Solid state auto switches marked with “v ” are produced upon receipt of order.∗∗ Water resistant type auto switches can be mounted on the above models, but in such case SMC cannot guarantee water resistance.Please contact SMC regarding water resistant types with the above model numbers.How to OrderCylinder stroke [mm]Refer to “Standard Strokes” on page 4.Bearing type MSlide bearingBore size1210 mm x 21612 mm x 22016 mm x 22520 mm x 23225 mm x 24032 mm x 25040 mm x 26345 mm x 28056 mm x 210071 mm x 2Auto switchNilWithout auto switch (Built-in magnet)∗ For applicable auto switches, refer to the table below.Number of auto switchesNil 2S 1nnCompactGuide CylinderJMGP Seriesø12, ø16, ø20, ø25, ø32, ø40, ø50, ø63, ø80, ø1003Standard StrokesOUTIN[N]Bore size [mm]Rod size [mm]Operating directionPiston area[mm 2]Operating pressure [MPa]0.20.30.40.50.60.7ø12(ø10 x 2)6OUT 1573147637994110IN 101203040506070ø16(ø12 x 2)6OUT 226456890113136158IN 17034516885102119ø20(ø16 x 2)8OUT 40280121161201241281IN 3026090121151181211ø25(ø20 x 2)10OUT 628126188251314377440IN 47194141188236283330ø32(ø25 x 2)12OUT 982196295393491589687IN 756151227302378453529ø40(ø32 x 2)16OUT 16083224836438049651126IN 1206241362483603724844ø50(ø40 x 2)18OUT 25135037541005125715081759IN 2004401601802100212031403ø63(ø45 x 2)20OUT 31816369541272159019092227IN 25535117661021127615321787ø80(ø56 x 2)25OUT 492698514781970246329563448IN 394478911831578197223672761ø100(ø71 x 2)30OUT 7918158423763167395947515543IN 6505130119512602325239034553Note) Theoretical output [N] = Pressure [MPa] x Piston area [mm 2]Theoretical OutputSpecificationsBore size [mm]Standard stroke [mm]ø12 (ø10 x 2)ø16 (ø12 x 2)10, 20, 30, 50, 100ø20 (ø16 x 2)ø25 (ø20 x 2)20, 30, 50, 100, 150ø32 (ø25 x 2)ø40 (ø32 x 2)ø50 (ø40 x 2)ø63 (ø45 x 2)ø80 (ø56 x 2)ø100 (ø71 x 2)25, 50, 100, 150, 200∗ Intermediate strokes are available as a special order.Bore size [mm]ø12(ø10 x 2)ø16(ø12 x 2)ø20(ø16 x 2)ø25(ø20 x 2)ø32(ø25 x 2)ø40(ø32 x 2)ø50(ø40 x 2)ø63(ø45 x 2)ø80(ø56 x 2)ø100(ø71 x 2)Action Double actingFluidAir Proof pressure1.05 MPa Maximum operating pressure 0.7 MPa ∗1Minimum operating pressure 0.15 MPa Ambient and fluid temperature 5 to 60°CPiston speed Note)∗50 to 300 mm/s ∗150 to 250 mm/s ∗1Cushion Rubber bumper on both ends LubricationNot required (Non-lube)Stroke length tolerance+1.50mmNote) Maximum speed with no load∗ Depending on the system configuration selected, the specified speed may not be satisfied.∗1 Maximum operating pressure and piston speed are different from the current product (MGP series).[kg]Bore size [mm]Stroke [mm]1020253050100150200ø12 (ø10 x 2)0.090.12—0.140.190.30——ø16 (ø12 x 2)0.100.13—0.150.200.32——ø20 (ø16 x 2)—0.21—0.250.330.530.72—ø25 (ø20 x 2)—0.28—0.330.430.680.92—ø32 (ø25 x 2)——0.60—0.77 1.11 1.44 1.78ø40 (ø32 x 2)——0.80— 1.07 1.62 2.16 2.70ø50 (ø40 x 2)—— 1.27— 1.63 2.36 3.09 3.82ø63 (ø45 x 2)—— 1.60— 2.03 2.89 3.74 4.60ø80 (ø56 x 2)—— 2.81— 3.47 4.79 6.127.44ø100 (ø71 x 2)——4.48— 5.407.229.0510.87WeightSymbolRubber bumperRefer to pages 10 and 11 for cylinders with auto switches.·Auto switch proper mounting position (detection at stroke end) and mounting height·Minimum stroke for auto switch mounting ·Operating range·Auto switch mounting4Compact Guide CylinderJMGP Series。

MAX4130–MAX4134________________________________________________________________Maxim Integrated Products1For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .General DescriptionThe MAX4130–MAX4134 family of operational amplifiers combines 10MHz gain-bandwidth product and excellent DC accuracy with Rail-to-Rail ®operation at the inputs and outputs. These devices require only 900µA per amplifier, and operate from either a single supply (+2.7V to +6.5V) or dual supplies (±1.35V to ±3.25V) with a common-mode voltage range that extends 250mV beyond V EE and V CC . They are capable of driving 250Ωloads and are unity-gain stable. In addition, the MAX4131/ MAX4133 feature a shutdown mode in which the outputs are placed in a high-impedance state and the supply current is reduced to only 25µA per amplifier.With their rail-to-rail input common-mode range and output swing, the MAX4130–MAX4134 are ideal for low-voltage, single-supply operation. Although the minimum operating voltage is specified at 2.7V, the devices typically operate down to 1.8V. In addition, low offset voltage and high speed make them the ideal signal-conditioning stages for precision, low-voltage data-acquisition systems. The MAX4130 is offered in the space-saving 5-pin SOT23 package. The MAX4131 is offered in the ultra-small 6-bump, 1mm x 1.5mm chip-scale package (UCSP™).________________________ApplicationsBattery-Powered Instruments Portable Equipment Data-Acquisition Systems Signal ConditioningLow-Power, Low-Voltage ApplicationsFeatureso 6-Bump UCSP (MAX4131)o +2.7V to +6.5V Single-Supply Operationo Rail-to-Rail Input Common-Mode Voltage Rangeo Rail-to-Rail Output Voltage Swing o 10MHz Gain-Bandwidth Product o 900µA Quiescent Current per Amplifier o 25µA Shutdown Function (MAX4131/MAX4133)o 200µV Offset Voltageo No Phase Reversal for Overdriven Inputs o Drive 250ΩLoadso Stable with 160pF Capacitive Loads o Unity-Gain StableSingle/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps19-1089; Rev 3; 3/03*Dice are specified at T A = +25°C. DC parameters only.Ordering Information continued at end of data sheet.Pin Configurations appear at end of data sheet.Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.UCSP is a trademark of Maxim Integrated Products, Inc.M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op Amps 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSDC ELECTRICAL CHARACTERISTICS(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = +25°C , unless otherwise noted.)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.Supply Voltage (V CC - V EE )...................................................7.5V IN+, IN-, SHDN Voltage...................(V CC + 0.3V) to (V EE - 0.3V)Output Short-Circuit Duration (Note 1).......................Continuous(short to either supply)Continuous Power Dissipation (T A = +70°C)5-Pin SOT23 (derate 7.1mW/°C above +70°C)............571mW 6-Bump UCSP (derate 2.9mW/°C above +70°C).........308mW 8-Pin SO (derate 5.88mW/°C above +70°C)................471mW8-Pin µMAX (derate 4.10mW/°C above +70°C)...........330mW 14-Pin SO (derate 8.00mW/°C above +70°C)..............640mW Operating Temperature RangeMAX413_E__...................................................-40°C to +85°C Maximum Junction Temperature.....................................+150°C Storage Temperature Range.............................-65°C to +160°C Lead Temperature (soldering, 10s).................................+300°C Bump Reflow Temperature .........................................+235°CNote 1:Provided that the maximum package power-dissipation rating is not exceeded.MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op AmpsDC ELECTRICAL CHARACTERISTICS (continued)(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = +25°C , unless otherwise noted.)DC ELECTRICAL CHARACTERISTICS(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = -40°C to +85°C , unlessM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op Amps 4_______________________________________________________________________________________DC ELECTRICAL CHARACTERISTICS(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = -40°C to +85°C , unlessMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply Rail-to-Rail I/O Op Amps_______________________________________________________________________________________5DC ELECTRICAL CHARACTERISTICS (continued)(V CC = +2.7V to +6.5V, V EE = 0V, V CM = 0V, V OUT = V CC /2, R L tied to V CC /2, SHDN ≥2V (or open), T A = -40°C to +85°C , unless otherwise noted.) (Note 2)AC ELECTRICAL CHARACTERISTICSM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 6_______________________________________________________________________________________60-401001k 10k 1M 10M100k 100M GAIN AND PHASE vs. FREQUENCY-20FREQUENCY (Hz)G A I N (d B )02040P H A S E (D E G R E E S )180144720-72-144-180-108-363610860-401001k 10k 1M 10M100k 100MGAIN AND PHASEvs. FREQUENCY (WITH C)-20FREQUENCY (Hz)G A I N (d B )2040P H A S E (D E G R E E S )180144720-72-144-180-108-36361080-100101001k100k1M10M10k 100MPOWER-SUPPLY REJECTIONvs. FREQUENCY-80FREQUENCY (Hz)P S R (d B )-60-40-2001051520253530454050-40-25-105203550658095SHUTDOWN SUPPLY CURRENTvs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (µA )1000.100.011001k100k1M10M10k100MOUTPUT IMPEDANCE vs. FREQUENCYFREQUENCY (Hz)O U T P U T I M P E D A N C E (Ω)1101150800850900950105010001100-40-25-105203550658095SUPPLY CURRENT PER AMPLIFIERvs. TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (µA )-10-505101520-40-25-105203550658095OUTPUT LEAKAGE CURRENTvs. TEMPERATURETEMPERATURE (°C)L E A K A G E C U R R E N T (µA )Typical Operating Characteristics(V CC = +5V, V EE = 0V, VCM = V CC / 2, T A = +25°C, unless otherwise noted.)-600123456INPUT BIAS CURRENT vs. COMMON-MODE VOLTAGECOMMON-MODE VOLTAGE (V)I N P U T B I A S C U R R E N T (n A )-50-40-30-20-10010203040-60-40-40-25-105203550658095INPUT BIAS CURRENTvs. TEMPERATURETEMPERATURE (°C)I N P U T B I A S C U R R E N T (n A )-200204060MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps_______________________________________________________________________________________712070750600110115OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (d B )30095859080100200500105100400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE130-40-25-105203550658095LARGE-SIGNAL GAIN vs. TEMPERATURE90120TEMPERATURE (°C)G A I N (d B )11010085951251151051.21.31.51.41.61.71.81.9-40-25-105203550658095MINIMUM OPERATING VOLTAGEvs. TEMPERATUREM A X 4130/34-21TEMPERATURE (°C)M I N I M U M O P E R A T I N G V O L T A G E (V )Typical Operating Characteristics (continued)(V CC = +5V, V EE = 0V, V CM = V CC / 2, T A = +25°C, unless otherwise noted.)12080859095100105110115-40-25-105203550658095COMMON-MODE REJECTIONvs. TEMPERATURETEMPERATURE (°C)C O M M O N -M ODE R E J E C T I O N (d B )130700600120OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (dB )3001009080100200500110400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE12060600110OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (d B )300908070100200500100400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE12080-40-25-105203550658095LARGE-SIGNAL GAIN vs. TEMPERATURE90TEMPERATURE (°C)G A I N (d B )105859511511010012070750600110115OUTPUT VOLTAGE: EITHER SUPPLY (mV)G A I N (d B )30095859080100200500105100400LARGE-SIGNAL GAIN vs. OUTPUT VOLTAGE-3.00-2.25-0.75-1.5001.500.752.253.00-40-25-105203550658095INPUT OFFSET VOLTAGE vs. TEMPERATURETEMPERATURE (°C)V O L T A G E (m V )M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 8_______________________________________________________________________________________1408010k 1k 100k 10M 1M CHANNEL SEPARATION vs. FREQUENCYFREQUENCY (Hz)C H A N N E L S E P A R A T I O N (d B )1009013011012010100k10kFREQUENCY (Hz)1001k 0.03000.0050.0100.0150.0200.025 TOTAL HARMONIC DISTORTION AND NOISE vs. FREQUENCYT H D A N D N O I S E (%)0.10.0014.04.44.25.04.84.6TOTAL HARMONIC DISTORTION AND NOISE vs. PEAK-TO-PEAK SIGNAL AMPLITUDEPEAK-TO-PEAK SIGNAL AMPLITUDE (V)T H D + N O I S E (%)0.01INTIME (200ns/div)V O L T A G E (50m V /d i v )OUTMAX4131SMALL-SIGNAL TRANSIENT RESPONSE (NONINVERTING)IN TIME (200ns/div)V O L T A G E (50m V /d i v )OUT MAX4131SMALL-SIGNAL TRANSIENT RESPONSE (INVERTING)A V = -1IN TIME (2µs/div)V O L T A G E (2V/d i v )OUT MAX4131LARGE-SIGNAL TRANSIENT RESPONSE (NONINVERTING)A V = +1INTIME (2µs/div)V O L T A G E (2V /d i v )OUTMAX4131LARGE-SIGNAL TRANSIENT RESPONSE (INVERTING)Typical Operating Characteristics (continued)(V CC = +5V, V EE = 0V, V CM = V CC / 2, T A = +25°C, unless otherwise noted.)1600-40-25-105203550658095MINIMUM OUTPUT VOLTAGEvs. TEMPERATURE20140120TEMPERATURE (°C)V O U T - V E E (m V )100806040050100150200250300-40-25-105203550658095MAXIMUM OUTPUT VOLTAGEvs. TEMPERATURETEMPERATURE (°C)V C C - V O U T (m V )MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps_______________________________________________________________________________________9Figure 1a. Reducing Offset Error Due to Bias Current (Noninverting)Figure 1b. Reducing Offset Error Due to Bias Current (Inverting)M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 10______________________________________________________________________________________Applications InformationRail-to-Rail Input StageDevices in the MAX4130–MAX4134 family of high-speed amplifiers have rail-to-rail input and output stages designed for low-voltage, single-supply opera-tion. The input stage consists of separate NPN and PNP differential stages that combine to provide an input common-mode range that extends 0.2V beyond the supply rails. The PNP stage is active for input volt-ages close to the negative rail, and the NPN stage is active for input voltages near the positive rail. The input offset voltage is typically below 200µV. The switchover transition region, which occurs near V CC / 2, has been extended to minimize the slight degradation in com-mon-mode rejection ratio caused by the mismatch of the input pairs. Their low offset voltage, high band-width, and rail-to-rail common-mode range make these op amps excellent choices for precision, low-voltage data-acquisition systems.Since the input stage switches between the NPN and PNP pairs, the input bias current changes polarity as the input voltage passes through the transition region.Reduce the offset error caused by input bias currents flowing through external source impedances by match-ing the effective impedance seen by each input (Figures 1a, 1b). High source impedances, together with input capacitance, can create a parasitic pole that produces an underdamped signal response. Reducing the input impedance or placing a small (2pF to 10pF)capacitor across the feedback resistor improves response.The MAX4130–MAX4134s ’ inputs are protected from large differential input voltages by 1k Ωseries resistors and back-to-back triple diodes across the inputs (Figure 2). For differential input voltages less than 1.8V,input resistance is typically 500k Ω. For differential input voltages greater than 1.8V, input resistance is approxi-mately 2k Ω. The input bias current is given by the fol-lowing equation:Figure 2. Input Protection CircuitMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________11Rail-to-Rail Output StageThe minimum output voltage is within millivolts of ground for single-supply operation where the load is referenced to ground (V EE ). Figure 3 shows the input voltage range and output voltage swing of a MAX4131connected as a voltage follower. With a +3V supply and the load tied to ground, the output swings from 0.00V to 2.90V. The maximum output voltage swing depends on the load, but will be within 150mV of a +3V supply, even with the maximum load (500Ωto ground).Driving a capacitive load can cause instability in most high-speed op amps, especially those with low quies-cent current. The MAX4130–MAX4134 have a high tol-erance for capacitive loads. They are stable with capacitive loads up to 160pF. Figure 4 gives the stable operating region for capacitive loads. Figures 5 and 6show the response with capacitive loads and the results of adding an isolation resistor in series with the output (Figure 7). The resistor improves the circuit ’s phase margin by isolating the load capacitor from the op amp ’s output.INTIME (1µs/div)V O L T A G E (1V /d i v )OUTV CC = 3V, R L = 10k Ω to V EEFigure 3. Rail-to-Rail Input/Output Voltage RangeFigure 4. Capacitive-Load StabilityINTIME (200ns/div)V O L T A G E (50m V /d i v )OUTV CC = 5V R L = 10k Ω C L = 130pFFigure 5. MAX4131 Small-Signal Transient Response with Capacitive Load Figure 6. MAX4131 Transient Response to Capacitive Load with Isolation ResistorINTIME (500ns/div)V O L T A G E (50m V /d i v )OUTV CC = 5V C L = 1000pF R S = 39ΩM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 12______________________________________________________________________________________Power-Up and Shutdown ModeThe MAX4130–MAX4134 amplifiers typically settle with-in 1µs after power-up. Figures 9 and 10 show the out-put voltage and supply current on power-up, using the test circuit of Figure 8.The MAX4131 and MAX4133 have a shutdown option.When the shutdown pin (SHDN ) is pulled low, the sup-ply current drops below 25µA per amplifier and theamplifiers are disabled with the outputs in a high-impedance state. Pulling SHDN high or leaving it float-ing enables the amplifier. In the dual-amplifier MAX4133, the shutdown functions operate indepen-dently. Figures 11 and 12 show the output voltage and supply current responses of the MAX4131 to a shut-down pulse, using the test circuit of Figure 8.Figure 7. Capacitive-Load Driving CircuitFigure 8. Power-Up/Shutdown Test CircuitV CC TIME (5µs/div)V O L T A G E (1V /d i v )OUTFigure 9. Power-Up Output Voltage V CC (1V/div)TIME (5µs/div)I EE(500µA/div)Figure 10. Power-Up Supply CurrentMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________13Power Supplies and LayoutThe MAX4130–MAX4134 operate from a single +2.7V to +6.5V power supply, or from dual supplies of ±1.35V to ±3.25V. For single-supply operation, bypass the power supply with a 0.1µF ceramic capacitor in parallel with at least 1µF. For dual supplies, bypass each sup-ply to ground.Good layout improves performance by decreasing the amount of stray capacitance at the op amp ’s inputs and outputs. Decrease stray capacitance by placing external components close to the op amp ’s pins, mini-mizing trace lengths and resistor leads.UCSP Applications InformationFor the latest application details on UCSP construction,dimensions, tape carrier information, PC board tech-niques, bump-pad layout, and the recommended reflow temperature profile, as well as the latest informa-tion on reliability testing results, go to Maxim ’s website at /ucsp and search for the Application Note: UCSP –A Wafer-Level Chip-Scale Package .TIME (1µs/div)OUTFigure 11. Shutdown Output Voltage TIME (1µs/div)Figure 12. Shutdown Enable/Disable Supply CurrentM A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 14________________________________________________________________________________________________________________________________________________Pin ConfigurationsMAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________15Chip InformationOrdering Information (continued)MAX4130 TRANSISTOR COUNT: 170MAX4131 TRANSISTOR COUNT: 170MAX4132 TRANSISTOR COUNT: 340MAX4134 TRANSISTOR COUNT: 680*Dice are specified at T A = +25°C, DC parameters only.Package Information(The package drawing(s) in this data sheet may not reflect the most current specifications. For the latest package outline information,go to /packages .)M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps 16______________________________________________________________________________________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 .)MAX4130–MAX4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps______________________________________________________________________________________17Package 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 .)Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are M A X 4130–M A X 4134Single/Dual/Quad, Wide-Bandwidth, Low-Power,Single-Supply, Rail-to-Rail I/O Op Amps implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.18__________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600©2003 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.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 .)。

玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理。

MMSZ4686T1G MMSZ4686T1G.MMSZ4xxxT1G Series, SZMMSZ4xxxT1G Series Zener Voltage Regulators 500 mW, Low I ZT SOD−123 Surface MountThree complete series of Zener diodes are offered in the convenient, surface mount plastic SOD−123 package. These devices provide a convenient alternative to the leadless 34−package style.Features•500 mW Rating on FR−4 or FR−5 Board•Wide Zener Reverse V oltage Range − 1.8 V to 43 V•Low Reverse Current (I ZT) − 50 m A•Package Designed for Optimal Automated Board Assembly •Small Package Size for High Density Applications•ESD Rating of Class 3 (>16 kV) per Human Body Model•SZ Prefix for Automotive and Other Applications Requiring Unique Site and Control Change Requirements; AEC−Q101 Qualified and PPAP Capable•These Devices are Pb−Free and are RoHS Compliant*Mechanical Characteristics:CASE:V oid-free, transfer-molded, thermosetting plastic case FINISH:Corrosion resistant finish, easily solderableMAXIMUM CASE TEMPERATURE FOR SOLDERING PURPOSES: 260°C for 10 SecondsPOLARITY:Cathode indicated by polarity band FLAMMABILITY RATING:UL 94 V−0MAXIMUM RATINGSRating Symbol Max Units Total Power Dissipation on FR−5 Board,(Note 1) @ T L = 75°CDerated above 75°C P D5006.7mWmW/°CThermal Resistance, (Note 2) Junction−to−Ambient R q JA340°C/WThermal Resistance, (Note 2) Junction−to−Lead R q JL150°C/WJunction and Storage Temperature Range T J, T stg−55 to+150°CStresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected.1.FR−5 = 3.5 X 1.5 inches, using the minimum recommended footprint.2.Thermal Resistance measurement obtained via infrared Scan Method.*For additional information on our Pb−Free strategy and soldering details, please download the ON Semiconductor Soldering and Mounting Techniques Reference Manual, SOLDERRM/D.Cathode AnodeSee specific marking information in the device marking column of the Electrical Characteristics table on page 3 of this data sheet.DEVICE MARKING INFORMATIONSOD−123CASE 425STYLE 1Device Package Shipping†ORDERING INFORMATIONMARKING DIAGRAM†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our T ape and Reel Packaging Specifications Brochure, BRD8011/D.MMSZ4xxxT1G SOD−123(Pb−Free)3,000 /Tape & ReelMMSZ4xxxT3G SOD−123(Pb−Free)10,000 /Tape & Reel xx= Device Code (Refer to page 3)M= Date CodeG= Pb−Free Package(Note: Microdot may be in either location)1SZMMSZ4xxxT1G SOD−123(Pb−Free)3,000 /Tape & ReelSZMMSZ4xxxT3G SOD−123(Pb−Free)10,000 /Tape & ReelELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted, V F = 0.9 V Max. @ I F = 10 mA)Symbol ParameterV Z Reverse Zener Voltage @ I ZTI ZT Reverse CurrentI R Reverse Leakage Current @ V RVR Reverse VoltageI F Forward CurrentV F Forward Voltage @ I FProduct parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions.ELECTRICAL CHARACTERISTICS (T A = 25°C unless otherwise noted, V F = 0.9 V Max. @ I F = 10 mA)Device*DeviceMarkingZener Voltage (Note 3)Leakage CurrentV Z (Volts)@ I ZT I R @ V RMin Nom Max m A m A VoltsMMSZ4678T1G CC 1.71 1.8 1.89507.51 MMSZ4679T1G CD 1.90 2.0 2.105051 MMSZ4680T1G CE 2.09 2.2 2.315041 MMSZ4681T1G CF 2.28 2.4 2.525021 MMSZ4682T1G CH 2.565 2.7 2.8355011 MMSZ4683T1G CJ 2.85 3.0 3.15500.81 MMSZ4684T1G CK 3.13 3.3 3.47507.5 1.5 MMSZ4685T1G CM 3.42 3.6 3.78507.52 MMSZ4686T1G CN 3.70 3.9 4.105052 MMSZ4687T1G CP 4.09 4.3 4.525042 SZMMSZ4687T1G CG6 4.09 4.3 4.525042 MMSZ4688T1G CT 4.47 4.7 4.9450103 MMSZ4689T1G CU 4.85 5.1 5.3650103 MMSZ4690T1G/T3G CV 5.32 5.6 5.8850104 MMSZ4691T1G CA 5.89 6.2 6.5150105 MMSZ4692T1G CX 6.46 6.87.145010 5.1 MMSZ4693T1G CY7.137.57.885010 5.7 MMSZ4694T1G CZ7.798.28.61501 6.2 MMSZ4695T1G DC8.278.79.14501 6.6 MMSZ4696T1G DD8.659.19.56501 6.9 MMSZ4697T1G DE9.501010.505017.6 MMSZ4698T1G DF10.451111.55500.058.4 MMSZ4699T1G DH11.401212.60500.059.1 MMSZ4700T1G DJ12.351313.65500.059.8 MMSZ4701T1G DK13.301414.70500.0510.6 MMSZ4702T1G DM14.251515.75500.0511.4 MMSZ4703T1G†DN15.201616.80500.0512.1 MMSZ4704T1G DP16.151717.85500.0512.9 MMSZ4705T1G DT17.101818.90500.0513.6 MMSZ4706T1G DU18.051919.95500.0514.4 MMSZ4707T1G DV19.002021.00500.0115.2 MMSZ4708T1G DA20.902223.10500.0116.7 MMSZ4709T1G DX22.802425.20500.0118.2 MMSZ4710T1G DY23.752526.25500.0119.0 MMSZ4711T1G†EA25.652728.35500.0120.4 MMSZ4712T1G EC26.602829.40500.0121.2 MMSZ4713T1G ED28.503031.50500.0122.8 MMSZ4714T1G EE31.353334.65500.0125.0 MMSZ4715T1G EF34.203637.80500.0127.3 MMSZ4716T1G EH37.053940.95500.0129.6 MMSZ4717T1G EJ40.854345.15500.0132.6 3.Nominal Zener voltage is measured with the device junction in thermal equilibrium at T L = 30°C ±1°C.*Include SZ-prefix devices where applicable.†MMSZ4703 and MMSZ4711 Not Available in 10,000/Tape & ReelTYPICAL CHARACTERISTICSV Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θV Z , NOMINAL ZENER VOLTAGE (V)Figure 1. Temperature Coefficients (Temperature Range −55°C to +150°C)V Z , T E M P E R A T U R E C O E F F I C I E N T (m V /C )°θ100101V Z , NOMINAL ZENER VOLTAGE (V)Figure 2. Temperature Coefficients (Temperature Range −55°C to +150°C)1.21.00.80.60.40.20T, TEMPERATURE (5C)Figure 3. Steady State Power Derating P p k, P E A K S U R G E P O W E R (W A T T S )PW, PULSE WIDTH (ms)Figure 4. Maximum Nonrepetitive Surge PowerP D , P O W E R D I S S I P A T I O N (W A T T S )V Z , NOMINAL ZENER VOLTAGEFigure 5. Effect of Zener Voltage onZener ImpedanceZ Z T , D Y N A M I C I M P E D A N C E ()ΩTYPICAL CHARACTERISTICSC , C A P A C I T A N C E (p F )V Z , NOMINAL ZENER VOLTAGE (V)Figure 6. Typical Capacitance 1000100101V Z , ZENER VOLTAGE (V)1001010.10.01I Z , Z EN E R C U R R E N T (m A )V Z , ZENER VOLTAGE (V)1001010.10.01I R , L E A K A G E C U R R E N T (A )μV Z , NOMINAL ZENER VOLTAGE (V)Figure 7. Typical Leakage Current10001001010.10.010.0010.00010.00001I Z , Z E N E R C U R R E N T (m A )Figure 8. Zener Voltage versus Zener Current(V Z Up to 12 V)Figure 9. Zener Voltage versus Zener Current(12 V to 91 V)SOD−123CASE 425−04ISSUE GDATE 07 OCT 2009SCALE 5:1NOTES:1.DIMENSIONING AND TOLERANCING PER ANSIY14.5M, 1982.2.CONTROLLING DIMENSION: INCH.DIM MIN NOM MAXMILLIMETERSINCHESA0.94 1.17 1.350.037A10.000.050.100.000b0.510.610.710.020c1.600.150.055D 1.40 1.80E 2.54 2.69 2.840.100---3.680.140L0.253.860.0100.0460.0020.0240.0630.1060.1450.0530.0040.0280.0710.1120.152MIN NOM MAX3.56H E---------0.006------------GENERICMARKING DIAGRAM**For additional information on our Pb−Free strategy and solderingdetails, please download the ON Semiconductor Soldering andMounting Techniques Reference Manual, SOLDERRM/D.SOLDERING FOOTPRINT**This information is generic. Please refer to device datasheet for actual part marking. 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Application Note AN-1062IRPLMB1E - 25W 230VAC Small Size BallastUsing IR2520DBy Cecilia ContentiTable of ContentsPage Overview (1)Features (2)Electrical Characteristics (2)IR2520D Ballast Control IC (2)Circuit Description (3)Miniballast 1 Bill of Materials (4)Functional Description (5)Fault Conditions (6)Open Filaments Protection (7)Low AC Line Protection (8)Miniballast Layout (9)Design Tip: Auto Restart Option (11)Different Procedure to Adapt the Design (12)Small sizes ballasts (often called Matchbox ballasts) are becoming very common in Europe to drive a wide range of lamps with power between 18W and 26W like PLC 18W, PLT 18W, TC-L 18W, TC-L 24W, TC-F18W, TC-F 24W, TC-DEL/TEL 26W, T5 24W, T8 18W, T5C 22W and TR 22W. Limiting the maximum power to 25W the design does not need to conform to THD and PF requirements and this allows saving the PFC stage reducing the components count and maintaining a very small size.Topics CoveredOverview FeaturesElectrical Characteristics IR2520D Ballast Control IC Circuit DescriptionMiniballast Circuit Diagram Functional Description Fault Conditions Miniballast LayoutDesign Tip: AUto-restart Option Design Procedure to adapt the design to different lamp types1. OverviewSmall sizes ballasts (often called Matchbox ballasts) are becoming very common in Europe to drive a wide range of lamps with power between 18W and 26W like PLC 18W, PLT 18W, TC-L 18W, TC-L 24W, TC-F 18W,TC-F 24W, TC-DEL/TEL 26W, T5 24W, T8 18W, T5C 22W and TR 22W. Limiting the maximum power to 25W the design does not need to conform to THD and PF requirements and this allows saving the PFC stage reducing the components count and maintaining a very small size.The MINIBALLAST1 is an electronic ballast for driving 26W compact fluorescent lamps from 220VAC. The circuit provides all of the necessary functions for preheat, ignition and on-state operation of the lamp and also includes the EMI filter and the rectification stage. The ballast size is 36mmx55mm.The circuit is built around the IR2520D Ballast Control IC. The IR2520D provides adjustable preheat time,adjustable run frequency to set the lamp power, high starting frequency for soft start and to avoid lamp flash,fault protection for open filament condition and failure to strike, low AC line protection and auto-restart after line brownout conditions. The IR2520D is a low-cost solution with only 8 pins and allows the componentcount for the complete solution to be reduced down to 19 components.- 25W 230VAC small size ballast using IR2520DByCecilia Contenti 12AN10622. FeaturesProgrammable run frequency Programmable preheat timeOpen filaments and no-lamp protectionFailure to Strike and deactivated-lamp protection Low AC line protection3. Electrical CharacteristicsInput Power: 24W @ 220VACInput Current: 168mArms @ 220VAC Starting Frequency: 100KHz Average Run Frequency: 40KHz Ballast turn-on voltage: 120VAC Ballast turn-off voltage: 70VAC4. IR2520D Ballast Control ICThe IR2520D is intended for driving CFL and TL lamps in CFL or matchbox (small size ballasts)applications. The IR2520D integrates all of the necessary functions for preheat, ignition and on-state operation of the lamp, plus, lamp fault protection and low AC-line protection, together with a complete high and low-side 600V half-bridge driver. The IR2520D has only 8 pins and fits into a standard SOIC8 or DIP8 package. The IR2520D has been designed to overcome the disadvantage of discrete self-oscillating solutions while maintaining low cost.In the CFL market, the self-oscillating bipolar transistor solution is still more popular than a ballast control IC plus FETs solution due to lower cost. This approach is very simple in nature but has disadvantages including:DIAC or additional circuit required for starting,additional free-wheeling diodes required operating frequencies determined by bi-polar tran-sistor storage time and toroid saturation (not easy todesign, very dependent on tolerances in production and difficult to set the frequencies precisely),unreliable “always hot” PTC thermistor used for preheat that often fails in the field,no protection against lamp non-strike or open filaments conditions,no smooth frequency ramping during ignition, capacitive mode operations,high crest factor in the lamp current.These can result in high susceptibility to components and load tolerances and/or catastrophic failure of ballast output stage components and a short lamp life. The IR2520D includes adaptive zero-voltage switching (ZV, adaptive run frequency for zero-volt-age switching), internal crest factor and non-zero voltage switching (ZVS) protection, as well as an in-tegrated bootstrap diode. The heart of this IC is a voltage controlled oscillator (VCO) with externally programmable minimum frequency and a 0-5VDC analog voltage input. One of the biggest advantages of the IR2520 is that it uses the VS pin and the RDSon of the low-side half-bridge MOSFET for over-current protection and to detect non-ZVS conditions. An internal 600V FET connects the VS pin to the VS sens-ing circuitry and allows for the VS pin to be accu-rately measured during the time when pin LO is high, while withstanding the high DC bus voltage during the other portion of the switching cycle when the high-side FET is turned on and VS is at the DC bus potential. This eliminates the need for a high-precision current sensing resistor that is typically used to detect over current. Please refer to the IR2520D datasheet for further information on the IR2520D including electrical parameters, state diagram and complete functional description.As a result of the IR2520 features, the MINIBALLAST1circuit using the IR2520D is a complete matchbox solution that offers better reliability and longer lamp life than self oscillating solutions while reducing component count and ballast size.AN10625. Circuit DescriptionThe schematic for MINIBALLAST1 is shown in figure 5.1. The BOM with the components values is shown in table 5.2.The ballast incorporates a fuse, EMI filter, input recti-fier, bus capacitor, half-bridge, control and output stage. The output stage is the classical resonant circuit consisting of an inductor, LRES, and a capaci-tor, CRES. The circuit is built around the IR2520D Ballast Control IC. The IR2520 provides adjustable preheat time, adjustable run frequency to set the lamp power, high starting frequency (about 2.5 times fmin) to avoid lamp flash, capacitive mode protection for open filament condition and current crest factor protection for failure to strike or no lamp conditions.The AC line input voltage is rectified to provide a bus voltage of approximately 300 volts. The start up resistor, Rsupply (in the reference design we have 2 resistors, Rsupply and Rsupply 2 in series), is sized such that they can supply the micro-power current during under-voltage lockout (UVLO). When VCC exceeds the UVLO+ threshold, the IR2520 begins to oscillate and the charge pump circuit (CSNUB, DCP1 and DCP2) supplies the current to VCC that causes the internal 15.6V zener clamp to regulate.The IR2520 Ballast Control IC controls the frequency of the half-bridge programming the right parameters on the lamp to provide lamp preheat, lamp ignition, running mode, low AC line protection and lamp/ ballast fault protection.Fig. 5.1) MINIBALLAST1 Circuit Diagram34AN1062TABLE 5.2) MINIBALLAST1 Bill Of Materials.Lamp type: Spiral CFL 26W, Line Input Voltage: 190-240 VAC. Note: Different lamp types may require BOM changes.AN10626. Functional DescriptionFigure 6.1 shows the voltage across the lamp and the current in the resonant inductor LRES during Startup, Preheat, Ignition and Run Mode.Fig. 6.1:Voltage across the lamp(yellow waveform) and current in the resonant inductor (green waveform) during Startup, Preheat, Ignition and Run ModeWhen power is turned on, the IR2520D goes into Under Voltage Lockout (UVLO) mode.The UVLO mode is designed to maintain a very low (<200uA) supply current and to guarantee that the IC is fully functional before the high- and low-side out-put drivers are activated. During UVLO, the high- and low-side driver outputs (LO and HO) are both low and pin VCO is pulled down to COM for resetting the starting frequency to the maximum.Once VCC reaches the startup threshold (UVLO+), the IR2520D turns on and the half-bridge FETs startto oscillate. The IC goes into Frequency Sweep Mode.At startup, VCO is 0V and the frequency is very high (about 2.5 times fmin). This minimizes voltage spikes and lamp flash at startup. The frequency ramps down towards the resonant frequency of the high-Q ballast output stage, causing the lamp voltage and lamp current to increase. During this time, the filaments of the lamp are pre-heated to the emission tempera-ture to guarantee a long lamp life. The frequency keeps decreasing until the lamp ignites. If the lamp ignites successfully, the IR2520D enters RUN Mode. If the minimum frequency has been chosen below or very close to the resonant frequency, the IC will work near resonance and will adjust the frequency continuously to maintain ZVS at the half-bridge and to minimize the losses in the FETs. If the minimum frequency has been chosen higher than the reso-nant frequency the IR2520D will work at the mini-mum frequency.Figure 6.2 shows the current across the resonant inductor and the voltage across the lamp filamentsat the startup.Figure 6.2:Voltage across the lamp filaments (yellow) and current in the resonant inductor (green) at the startup.56AN1062Figure 6.3 shows the VS (HB) Voltage, the lamp voltage and the lamp current during Run Mode.Figure 6.3:VS (HB) Voltage (blue), Lamp Voltage (yellow) and the Lamp Current (green) during Run Mode.7. Fault ConditionsIn case of fault conditions such as open filaments,failure to strike, deactivated lamp or no lamp, the IR2520D will go into Fault Mode. In this mode the oscillator is latched off. To reset the IC back to pre-heat mode, VCC must be recycled below and above the UVLO thresholds. Resetting the mains does this.In case of low AC line, the IR2520D will automati-cally increase the frequency to maintain ZVS. In this way, the ballast will work at a lower power during a low AC line condition and will operate at the proper power again when the line increases again.7.1. Failure To Strike/ Deactivated Lamp Protection This protection relies on the crest factor protection together with the non-ZVS circuit of the IR2520D, bothenabled when the voltage in pin VCO reaches 4.6V.In order to detect failure to strike conditions, the IR2520D performs an internal crest factor measure-ment for detecting excessive dangerous currents or inductor saturation that can occur during a lamp non-strike fault condition or deactivated lamp condition.The IR2520D measures the VS pin during the entire on-time of the low-side MOSFET. Should the peak current exceed the average current by a factor of 4during the on-time of LO, the IC will enter Fault Mode and both gate driver outputs will be latched ‘low’.Performing the crest factor measurement provides a relative current measurement that cancels tem-perature and/or tolerance variations of the RDSon of the low-side half-bridge MOSFET and does not need to be programmed differently for different lamp types. During normal operation, the current will increase until the lamp ignites. After lamp ig-nition the current will decrease down to the nomi-nal current. Should a lamp non-strike condition occur where the filaments are intact but the lamp does not ignite, the lamp voltage and output stage current will increase during the ignition ramp until excessive currents occur or the resonant induc-tor saturates. The non-ZVS circuit or the crest factor circuit will detect this condition and the IC willenter Fault Mode and both gate driver outputs will be latched ‘low’. This will prevent damaging of the half-bridge MOSFET s.Fig. 7.1 shows the inductor current and the lamp voltage in case of failure to strike condition together with the VCO pin voltage. At initial turn-on of the bal-last, the frequency will ramp down from fmax, through resonance, to fmin. If the lamp does not ignite, the inductor current will saturate and high-voltages will occur across the lamp as the frequency sweeps through resonance. The voltages and currents in the output stage will decrease as the frequency contin-ues to decrease to the capacitive side of resonance.The voltages and currents will be low but hard-switch-ing will occur (non-ZVS). When the frequency reachesAN1062fmin (VCO > 4.6V), the non-ZVS and crest-factor pro-tection will be activated and the frequency will in-crease again to try and maintain ZVS. The frequency will sweep back through resonance (from the ca-pacitive side) and the crest-factor protection will shut-down the IC on the first event when the inductor satu-rates to a level where the crest factor exceeds 3 (see Fig. 7.1).Fig. 7.2 shows pin LO, pin VS and the current in the resonant inductor during shutdown, with a shorter time scale. The final shortened pulse of LO just be-fore shutdown (Fig. 7.2) occurs due to the internal 1us blank time of the crest-factor detection during each turn-on rising edge of LO (to provide immunityto noise and transients).Fig. 7.1:4 is the current in the resonant inductor, 2 is the lampvoltage, 3 is the voltage in pin VCOFig. 7.2:4 is the current in the resonant inductor, 2 is pin VS (HB Voltage), 3 is pin LO7.2. Open Filaments ProtectionThe open filament protection relies on the non-ZVS circuit of the IR2520D, enabled when pin VCO reaches 4.6V. Should an open filament lamp fault occur, hard-switching will occur at the half-bridge and the non-ZVS circuit inside the IR2520 will detect this condition, increase the frequency each cycle and shut down when VCO decreases below 1V; both gate driver outputs will be latched ‘low’. This will prevent hard-switching and damaging of the half-bridge MOSFET s.Fig. 7.3 shows the pin VCO and pin VS at the shut-down with open filament. As you can see, at startup pin VCO charges from 0V up to 4.6V, at 4.6V the non-ZVS circuit is enabled, CVCO discharges and the frequency increases. When the voltage on pin VCO decreases below 1V we have latched shutdown.78AN1062Fig. 7.4 shows pin VCO and pin VS (HB Voltage) at the shutdown with a shorter time scale. The FMIN pin can be used as trigger as this pin transitions from 5V to COM when the IC enters fault mode orUVLO-.Fig. 7.3:3 is the voltage in pin VCO and 2 is pin VSFig. 7.4:1 is the voltage in pin FMIN, 3 is the voltage in pin VCO,2 is pin VS7.3. Low AC line ProtectionAs you can see from figure 7.5, varying the AC line from 220V to 130VAC the ZVMCS circuit of the IR2520increases automatically the frequency to maintain ZVS.When the mains voltage decreases, the resonant frequency increases, becoming close to the run frequency. This will cause non-ZVS. The IR2520will detect non-ZVS and increase the frequency continuously as long as non-ZVS is detected. This will protect the half-bridge MOSFETs against hard-switching. 9AN1062Figure 7.5:VS PIN for AC line 220V (on the top) and AC line 130V (on the bottom)8. MINIBALLAST LayoutThe Layout of the Reference Kit MINIBALLAST1 is shown in Fig. 8.1.The critical components are CVCC, CVCO, RFMIN and CBOOT. They must be placed as close as possible to the pins of the IR2520D. The ground of CCVO, RFMIN and CVCC need to be connected to pin COM of the IR2520D and this ground pathmust be connected to the power ground at a single point10AN1062Figure 8.1: MINIBALLAST1 Layout 11AN10629. Design Tip: Auto-restart OptionThe design can be modified to include re-lamp/auto-restart option as shown in Fig. 9.1.The resistors Rsupply must be moved across the upper lamp filament and the lamp connected to the bus voltage, instead than to ground. When the lampFig. 9.1: Circuit Modification to include auto-restart optionis replaced, Rsupply together with the upper filament of the lamp provide a path from the DC bus to supply the micro-power current to the IR2520 and to restart the IR2520 as soon as VCC exceeds the UVLO+threshold. Rsupply need to be able to handle high voltage. If using SMD components, 2 resistors are needed.12AN106210. Design Procedure to adapt the design to different lamps typesThe design with the IR2520D is very simple because it only has 2 control pins: VCO (0-5VDC oscillator voltage input) and FMIN (minimum frequency set-ting). To modify the design for a higher lamp power,you will need to modify RFMIN, CVCO, LRES and CRES. Make sure that FET s and inductors are rated to the current you need with the new lamp and that VCC is stable. To modify the design to a lower lamp power, you will need to decrease RFMIN and only in some case to modify also CVCO, LRES and CRES.In most cases you can use FET s and inductors with lower current ratings.Pin FMIN is connected to ground through a resistor (RFMIN). The value of this resistor programs the mini-mum frequency (fmin) of the IC and the starting fre-quency of the IC (2.5xfmin). The IR2520 will work in run mode at the minimum frequency unless non-ZVS is detected. Generally, to work with constant fre-quency, the minimum frequency needs to be chosen above the resonant frequency of the low-Q R-C-L circuit. In this case, one can increase the value of RFMIN to decrease the frequency and increase the lamp power, or, decrease the value of RFMIN to in-crease the run frequency and decrease the lamp power.Pin VCO is connected to ground through a capacitor (CVCO). The value of this capacitor programs the time the frequency needs to ramp down from 2.5times fmin (fmax) to fmin.One can increase the capacitor value to increase the preheat time, or, decrease the capacitor value to de-crease the preheat time.The suggested design procedure is as follows:1)Use the BDA software to calculate LRESand CRES.Select the input configuration without PFC,select the IR2156 IC and select single lamp current mode configuration. Select the new lamp in the database or add the lamp pa rameters by hand selecting the “Advanced”option.Calculate the operating point and chose the right values of L and C that satisfy:1.1)Run frequency (best working range) 40-50KHz 1.2) C as small as possible to minimizelosses (suggested value 4.7nF)1.3)L values you have available2)While measuring LO, apply 15V from pinVCC to pin COM and adjust the value of RFMIN to obtain the right minimum fre-quency (it is suggested set fmin = run fre-quency obtained with the BDA software).Increase RFMIN to decrease the minimum frequency or decrease RFMIN to increase the minimum frequency.3)Apply the AC input and check preheat, igni-tion and run states of the lamp.3.1) If the lamp ignites during preheat, the preheat current is too small or the starting volt age across the lamp is too big, increase the value of CRES to decrease the voltage across the lamp during preheat and startup while increasing the preheat current. LRES may need to be decreased to maintain the same power and the same frequency.3.2) If the IC works at a frequency > fmin, increase CRES or LRES to decrease the reso nant frequency avoiding hard-switching, or,decrease the value of the snubber capaci tor CSNUBBER (a CSNUBBER minimum value of 680pF is suggested to make sure VCC stays above the UVLO-).AN1062 3.3) If VCC drops, increase the value ofCSNUBBER or CVCC4)Adjust the value of RFMIN to have the rightpower on the lamp (increase RFMIN to in-crease power or decrease RFMIN to de-crease power) and the value of CVCO to setthe correct preheat time (increase CVCO toincrease the preheat time and decreaseCVCO to decrease the preheat time).5)Test the ballast over the entire input rangeand make sure that the frequency does notchange dramatically in your working range.Select the value of RSUPPLY to have startupat the correct AC line voltage. Increase thevalue of RSUPPLY to start the IC at higherAC voltages and decrease the value ofRSUPPLY to start the IC at lower AC volt-ages.6)Test your lamp life (number of starts). A gooddesign should guarantee at least 5,000starts. To increase the number of starts, in-crease CRES or the preheat time (CVCO)WORLD HEADQUARTERS:233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105/ Data and specifications subject to change without notice. 3/2/200413。

25A Glass Passivated Bridge RectifierFeatures•Glass passivated chip junction•Integrally molded heatsink provides very low thermal Resistance for Maximm heat dissipation• Universal 3-way terminals; snap-on, wire wrap-around Or P.C.B mounting• Typical I R less than 0.3µA• High forward surge current capability• High temperature soldering guaranteed: 260˚C/10 seconds at 5lbs.(2.3kg) tension• This series is UL recognized under component index, File number E194718 • RoHS CompliantMechanical DataCase: GBPC35, Molded plastic with heatsink integrally mounted in the bridge encapsulation Epoxy: Plastic package has UL flammability classification 94V-0 Terminals: Plated 0.25” (6.35mm) faston lugs Polarity: Polarity symbols molded on body Mounting Position See note 2 Mounting Torque20in.-lb.Max Weight:21 gramsMaximum Ratings And Electrical Characteristics (T amb =25˚C)SymbolDescription GBPC 25-005GBPC 25-01GBPC 25-02GBPC 25-04GBPC 25-06GBPC 25-08GBPC 25-10UnitConditionsV RRM Max. Repetitive PeakReverse Voltage 50 100 200 400 600 800 1000 V V RMS Max. RMS Voltage 35 70 140 280 420 560 700 V V DCMax. DC blocking voltage501002004006008001000VGBPC35Fig.2-Max. Non-repetitive Peak Forward Surge Current Per LegNumber of Cycles at 60HzI F(AV) Max. Average ForwardRectified Output Current 25.0 A See Fig.1I FSMPeak Forward Surge Current300 A 8.3ms single halfsine-wavesuperimposed onrated load (JEDEC method)V F Max. InstantaneousForward Voltage drop per leg1.1 V I F(AV)=12.5A 5.0 µA T C = 25°C I R Max. Reverse DC Current At Rated DC Blocking Voltage per leg 500 µA T C = 125°CI²t Rating for Fusing (1ms<t<8.3ms) 375 A²s C J Typical junction capacitance 300 pFf=1MHz ,V R = 4VRth JCTypical Thermal Resistance per leg1.9 °C /W Note 1 T J,T STG Operating Junction andStorage TemperatureRange-65 to +150 ° CNote: 1. Thermal Resistance from junction to Case per leg.2. Bolt down on Heatsink with Silicone Thermal Compound Between and Mounting Surface for Maximum Heat Transfer with #10 Screw.Typical Characteristics CurvesI F , A v e r a g e F o r w a r d C u r r e n t (A )Fig.4-Typical Reverse Characteristics Per LegPercent of Rated Peak Reverse Voltage (%)I R , I ns t a n t a n e o u s R e v e r s e c u r r e n t (µA )Fig.3-Typical Instantaneous Forward Characteristic Per LegV F , Instantaneous forward voltage (V)I F , I n s t a n t a n e o u s F o r w a r d C u r r e n t (A )Fig.5-Typical Junction Capacitance Per LegReverse Voltage (V)C J , J u n c t i o n C a p a c i t a n c e (p F )Dimensions in inch (mm)GBPC35How to contact us。

2001G零件手册（Parts Manuel）39-1013513008夹线螺母止动板Tension disc stopper 14.送料分组件Feed mechanism components9-11O01050O型圈Ring14.5x1.5110135S11001夹线调节固定螺钉Screw11113612027挑线杆防护罩Thread tade-up lever cover 1序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量 Number12201S11016挑线杆护罩螺钉Screw11513613004松线钉Thread release pin 1113614003送布牙Feed dog11613613002松线棒Thread release pin 121350700300牙架小组件Feed bar asm 11713522001橡皮塞（φ19）Rubber plugφ191313528004牙架垫圈Washer 11810112002卷边器座Ruler stop seat 1413502005牙架曲柄偏心轴Feed bar shaft 119101S11002螺钉Screw25101S11018送布牙螺钉Screw220135S20001底板撑杆（尾部）Bed screw stud(tail)2613504003牙架曲柄Feed rocker asm.121W02004弹簧垫圈Spring washer 47101S11016曲柄螺钉Screw 224-113515002推板Slide plate 18101S11008牙架曲柄轴螺钉Screw124-213512007推板簧Slide plate spring 1913602003送布轴Feed rocker shaft 124-3101S11019推板螺钉Screw 210H03001轴用弹性挡圈Retaining ring22513615003针板Throat plate 11113603004送布轴前轴套Bushing for feed rock shaft(right)126101S17002针板螺钉Screw21213508001抬牙、送布轴紧圈2271143100100绕线器组件Bobbin winder unit 113135S15004紧圈螺钉Screw428114s11003绕线器组件固定螺钉Rubber plugφ10.531413504004送布轴轴柄（右）Feed rocker shaft crank asm 12911419001切线刀THREAD CUTTER 11513526001曲柄连杆短销Walking foot pin 130101s11005螺钉SCREW216101S11025曲柄连杆短销螺钉Screw 1311381300600绕线夹线器组件BOBBIN THREAD TENSION ASM 117105S11019送布轴轴柄（右）螺钉Screw132135S20010底板撑杆(头部)Bed screw stud(head)21813504017抬牙后曲柄Feed lifting rock shaft crank(right)11913502009抬牙曲柄铰链轴Hinge pin12013603005抬牙轴前轴套Bushing for feed rock shaft(right)12113528006抬牙、送料轴前轴套垫圈Washer22213505018抬牙叉Feed forked connection 122313602004抬牙轴Feed lifting rock shaft 224135S15009抬牙轴前轴套螺钉Screw 225101S11020抬牙叉夹紧螺钉Screw 12613510002针距调节连接销钉Hinge pin 12713509003针距座Feed regulator 128101S11020针距座长螺钉Screw 129135S11009针距座短螺钉Screw130********针距座衬套Feed regulator bushing 131********针距座轴Hinge pin for feed regulator 132********橡皮塞Rubber plug(φ19.5)1331350401400倒缝操作杆曲柄Slide block pin 134********操作杆曲柄弹簧Spring for feed crank 135135S15014操作杆曲柄螺钉Screw1361360100500倒缝扳手组件Reverse feed lever asm 136-113601005倒缝扳手 Reverse feed lever 13.压料分组件/Presser bar components36-213626002倒缝扳手销 Hinge pin137********倒缝扳手轴Reverse feed lever shaft 138O01045O型密封圈O-ring1序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量 Number39136S30004针距调节螺杆Feed regulator screw bar 140O01046O型密封圈O-ring 1113511005压脚扳手Presser bar lifter 14113511002针距盘Dial12135S15017压脚扳手螺钉Set screw142————电脑厚料平缝机系列产品 Heavy duty computerized lockstitchsewing machine313510008压紧杆提升凸轮Presser bar lifting cam 1431350700400牙架组件Feed bar asm 14O01009压紧杆提升凸轮油封O-ring144101S11022针距盘螺钉Dial screw 1513512013膝腔提升杠杆（左）Knee lifter lever (left)14513526002止动销Stopper pin1613510005松线凸轮Tension releasing cam14613527008止动销弹簧Spring for stopper pin 27135S11026膝腔提升杠杆（左）螺钉Knee lifter lever (left) screw 14713526004针距盘挡销Dial stopper pin 18135S11027铰链螺钉Hinged screw 148135S15007送布凸轮螺钉Screw3910112013膝腔提升拉杆Knee lifter rod 14913510007送布凸轮 Feed drive eccentric cam.110135S11028松线凸轮螺钉Screw150********送布连杆Rocker shaft connecting rod 11113512015膝腔提升杠杆（右）Knee lifter lever (right)151********针距调节连杆Feed regulator connecting rod 11213527010膝腔提升杠杆（右）弹簧Presser spring152********曲柄连杆长销Walking foot link 11313512016膝腔提升杠杆Knee lifter connecting rod 153********曲柄长连杆Walking foot pin 21413526005弹簧销Pin for spring154101S11025送布连杆螺钉Screw115135S12002膝腔提升杠杆（右）螺钉Knee lifter lever (right) screw 155********曲柄短连杆connecting link 21613503013压紧杆轴套Presser bar bushing 156********曲柄连杆短销Walking foot link 11713502019压紧杆Presser bar157201S11012短连杆销螺钉Screw 111813605003压紧杆导架Presser bar lifting bracket 158201S11007连杆偏心轴螺钉Screw 119135S15003压紧杆导架螺钉Set screw 159********连杆偏心轴 Hinge pin12. 上轴挑线分组件/Main shaft & thread take-up components2013527011压紧杆弹簧Presser spring 16013504007针距调节曲柄Walking foot adjusting link 121135S30004调压螺钉Lock nut 16113502016针距调节曲柄定位销（左）Adjusting link fulcrum shaft 122135S16003调压螺钉锁紧螺母Set screw162105S11019左右定位销螺钉Screw2序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量N b 231361600100压脚组件Presser loot complete 16313502017针距调节曲柄定位销（右）Adjusting link fulcrum shaft 124101S11009压脚螺钉Screw16413512011针距按键Feed regulator key-press 1113602010上轴Main shaft 12513513012大线勾Upper thread guide 16513527009针距按键簧Dial spring for stopper pin 1210122012上轴橡皮塞Rubber plug 126101S11002大线勾螺钉Screw166********抬牙凸轮Feed drive eccentric cam.1313508001上轴紧圈Thrust collar asm.1271351201200膝腔提升杠杆（左）组件Knee lifter lever (left)asm167135S15007抬牙凸轮螺钉Screw 34135S15004上轴紧圈螺钉Screw26813528002凸轮隔离片Thrust collar 1513603001上轴前轴套Main shaft bushing,front 16913505001抬牙连杆Connecting rod 1613503002上轴中轴套Brshing, intermediate 17013627003倒缝扳手拉簧Spring for feed crank 17135S15006上轴中套螺钉Screw17113626003弹簧挂销pin 1813603017上轴后套Main shaft bushing,back 17212926001倒缝扳手限位销pin1913522010上轴后轴套油封组件Main shaft 173********倒缝扳手板Reverse feed lever 11013635002主动轮Screw 174136S30001倒缝扳手轴螺钉Screw 111S10009主动轮螺钉Screw275101S11012送布轴前轴套螺钉Screw 11213538003挑线杆组件Thread take-up asm 147612921005销套bushing 11313502003挑线连杆铰链销Thread take-up crank shaft 177201S11027抬牙右曲柄螺钉Screw114135S15009挑线连杆铰链销螺钉Screw 21513504001针杆曲柄Counterweight 116135S12001挑线曲柄螺钉Screw 117101S15007挑线曲柄定位螺钉Screw 118101S15004针杆曲柄螺钉Screw 119135S11002针杆曲柄定位螺钉Screw12013503006针杆上衬套Needle bar metal,upper 12110122013针杆上衬套橡皮塞（φ8.5）Cap12213603003针杆下衬套Needle bar metal,lower 12311435013驱动轮BTW-DRIVING-WHEEL 12413602002针杆Needle bar12513513011针杆过线环Needle bar thread guide 12613517001机针Needle 127101S11006夹针螺钉Screw12813609001滑块槽Needle bar trough 11.机壳、外装分组件/Machine frame & miscellaneous cover components2911409001针杆接头滑块Slide block 130101S11008滑块导轨螺钉Screw231针杆接头组件Needle bar connection asm.1序号NO.公司件号 Part NO.名称 PartName零件描述 Description数量 Number31-110138002针杆接头Needle bar connection 131-2101S11005针杆接头螺钉Screw 1110112071面板Face plate arm 132201S11009软线固定板螺钉Screw11-113837002商标牌Head card 133********松线钢绳固定架12113S11001面板螺钉Screw134********松线压板1313813005面板线勾Arm thread guide 135********垫片Washer plate1413513009线勾Arm thread guide 136********针杆上轴套毛毡Oil felt for needle bar 25101S11005线勾螺钉Screw237101s11010松线钢绳固定架螺钉Screw261381300400小夹线组件BOBBIN THREAD TENSIONASM 138********铰链弹簧16-113812066小夹线过线板BOBBIN THREAD TENSION ROD 139********松线铰链16-213810008小夹线螺钉BOBBIN THREAD TENSION ROD 14013626001铰链销16-311212004小夹线板THREAD TENSION DISK 241H05024开口挡圈RETAINING RING 16-411227001小夹线弹簧CONNECTING ROD SPRING 142136S12001铰链螺钉Screw 16-5138S16019小夹线螺母NUT 14313603018联轴器17135S15001小夹线固定螺钉SCREW144S10037联轴器螺钉Screw4810122114面板垫face plate gasket 145114S13001电机安装螺钉491361300700夹线组件Thread tension asm 146弹簧垫圈49-1135S30002夹线螺钉Thread tension post 147垫圈49-2138S16013夹线螺母Tension nut150113S14002驱动轮螺钉BTW-DRIVING-WHEEL SCREW 29-313527002夹线弹簧Thread tension spring 1511363300200电机（琦星）（D型)Motor （QiXing）（D)19-413513004松线板Disk stopper 19-513513005夹线板Thread tension disk 29-613527003挑线簧Takeup spring19-713513006夹线调节座Thread tension post base 19-8101S15005夹线调节座螺钉Screw1596.润滑组件Oil lublication components序号NO.公司件号 Part NO.名称PartName零件描述Description数量Number3113601009刀架（左）Knife base (left)132101S11020驱动曲柄螺钉Screw11-11352000200油泵组件Oil pump asm 133********剪线电磁铁驱动曲柄Knife driving crank 1113520001油泵体Oil pump134136S20002刀架连杆螺钉Screw 2213525005油泵大齿轮Big gear for oil pump 135********刀架连杆 Link 1313525006油泵小齿轮Small gear for oil pump 136422S17006刀架螺钉Screw 34135S11037油泵调节板螺钉Screw33713628004刀架垫圈Washer1513512021油泵体盖板Cover for oil pump138********动刀片Movable knife (left)1613512022油泵调节板Adjusting plate for oil pump 139136S17003动刀片紧固螺钉Screw271351202300油泵滤网组件Filter complete 14013602008凸轮曲柄轴Knife driving shaft18105S11019油泵体螺钉Screw34113604002切线凸轮右曲柄1913502024油泵体短轴Shaft for oil pump 14213601010扭簧端盖110S02024油泵体盖板螺钉Screw24313627005曲柄轴弹簧 Spring 1111351202400油线固定板大组件Oil wick set plate complete 14413612011止动板Stopper plate 112101S11010油线固定板螺钉Screw245136S14002限位块螺钉Screw 2131352100700上轴油管组件Oil pipe complete for upper shaft 14613601011限位块 Stopper 11442221001回油管φ3Xφ4Oil return pipe 14713627006凸轮轴扭簧Spring 11513523003回油管滤油毡Oil felt148201S14002紧圈螺钉Screw21613512025回油管夹Pipe return pipe clamp 14920108001凸轮轴紧圈Thrusr collar asm 117201S11014回油管夹螺钉Screw150********塑料圈Washer1181362100100下轴油管组件Oil pipe for arm shaft 151********切线凸轮左曲柄118-113621001下轴油管 Oil pipe for shaft152136S20003滚轮螺钉Screw 218-213636001下轴油管接头153********滚轮 Cam follower 21910423004油线2.5x260/2.5x290Oil wick各154136S17005滚轮螺母Nut22013522001面板橡皮塞（φ19）Rubber plug(φ19)155********剪线电磁铁安装架12113522002面板橡皮塞（φ11.8）Rubber plug(φ11.8)45613628005密封垫圈（大）12213522003橡皮塞（φ8.8）Rubber plugφ8.8257136S17004剪线电磁铁紧固螺钉Screw 32313522004橡皮塞（φ27）Rubber plugφ2715813628006平垫片Washer 12413522005橡皮塞（φ5.7）Rubber plugφ5.715913628007密封垫圈（小）Washer12510111004油窗Oil sight window 160插头套126303484后盖板Side plate 161线罩12713522008橡皮塞（φ25.5）Rubber plugφ25.5162101S11025螺钉Screw 42813622016后盖板密封垫片Gasket 16313628011栏线板垫片129113S11001后盖板螺钉Screw 86411222001电线孔塞13010128003后盖板螺钉垫片Washer 865136S30002止动螺钉Screw 131********小挡油板Keep off plate 166********缓冲垫132101S11005小挡油板螺钉Screw 4671360100800刀架组件Knife holding bracket saddle asm 15.旋梭组件 Hook components3313522011小挡油板垫Gasket 168205S16002螺母Nut19.机头附件Machine head accessories3410122019油窗O型圈O-ring 13513522018大连杆橡胶垫Rubber gasket 1序号NO.公司件号 Part NO.名称PartName 零件描述Description数量Number36W02002油泵调节板螺钉弹簧垫圈Spring washer1序号NO.公司件号 Part NO.名称PartName零件描述Description数量Nb113502002竖轴Upring shaft 1140131017防尘罩M achine head cover 1213525001上轴伞齿轮Gear asm.18210131004螺钉起子（小）Screw driver(small)13101s15007螺钉Screw 8310131003螺钉起子（中）Screw driver(middle)1413525002竖轴伞齿轮（上）Gear asm.17410131002螺钉起子（大）Screw driver(large )1513525003下轴伞齿轮Pinion asm.1513517001机针Needle 4613525004竖轴伞齿轮（下）Gear asm.1610818501梭芯Bobbin5713503004竖轴轴套（上）Bushing,upper1711212001过线柱Needle bar crank 1813603005竖轴下轴套 Upring shaft bushing,ower 1813501007油盘Oil reservoir 19135S15008竖轴轴套螺钉Screw 29135S11041放油螺钉Screw 11013618001梭心套组件Hook asm 110O01047放油螺钉垫圈Washer 11110818501梭芯 Bobbin 11113523006油盘垫Gasket11213618003旋梭组件Hook asm11213511006膝控提升顶杆Knee press lifter rod 11313602006下轴 Hook driving shaft 11310131001磁块Magnet 11411423003下轴滤油塞Oil wick 11420131038小油壶Oil pot 115135S20007下轴滤油塞螺钉Screw 11510122060机壳铰链Rubber coat 21613603008下轴前轴套Bushing,front 1161011203100机壳铰链套Hing 217135S20008油量调节镙钉Oil adjusting screw 11710122023机头防震垫块（大）Cushion(big)21813527005油量调节弹簧Spring11810122022机头防震垫块（小）Cushion(small)21910108002下轴紧圈Thtust collar asm.1191011101200油箱Oil tank120101S11012下轴紧圈螺钉Screw 2201013100700线架组件Spool stand complete 12113603009下轴轴套（右）Bushing,rear 12110111011机头支柱F rame support bar 122135S15009下轴轴套螺钉Screw 22613502025膝控铰链轴Hinge pin 12313502008柱塞Plunger 12713527014膝控复位弹簧Spring12413527006柱塞弹簧Plunger spring 12813512026膝控限位架Knee lifter stop bracket 12513512009档板Guide plate 129135S15019膝控限位调节螺钉Screw 226135S11019档板螺钉Screw130N01029调节螺母Nut 22713612005旋梭定位勾Rotating hook positioner 131135S12003膝控限位架螺钉Screw 128101S11011旋梭定位勾螺钉Screw132********碰块弯杆接头Connector 12913603010下轴中轴套Bushing,middle 133101s12003碰块弯杆接头螺钉Screw 23013628003切线凸轮螺钉垫片Washer 23410112028膝控碰块弯杆Bent rod 131W02004档板螺钉弹簧垫圈Washer135********膝控碰块Bell 132********下轴轴套油管Oil pipe for hook shaft bushing 136********碰块架Bell bracket 133********下轴油封Plunger137101s12004碰块架螺钉Screw 134********切线凸轮Thread trimmer cam 138********碰块垫Pat135116S14005切线凸轮螺钉Screw239H05011开口挡圈Split stop ring 140电控散热板Heat sink141电控开关Electric control switch 142电路板Circuit board 143小电路板 A small circuit board 144电机罩壳The motor housings146操作面板Operation panel147电路板连接螺钉Circuit board connecting screws 648136S13001罩壳连接螺钉Casing connection screws 3649电控脚踏Electric control pedal 150电源线The power cord 18.自动倒送料开关组件Automatic reverse feed components51脚踏连杆Pedal connecting rod 15213633009002001G电控Machine electric control 17.剪线分组件53114S30001罩壳连接螺钉Casing connection screws1序号NO.公司件号Part NO.名称PartName零件描述Description数量Number序号NO.公司件号 Part NO.名称PartName零件描述Description数量Number11363000500倒缝电磁铁组件Backstitch electromagnet assembly 11-113630006插头Plug2113612006驱动板Thread trimmer driving lever 11-213626007倒缝电磁铁连杆销Backstitch electromagnet link pin 1 杰克缝纫机股份有限公司213612007软线支撑板Adapter 1213603011衬套Bush 43136S20001软线支撑板螺钉Screw 13136S15005衬套螺钉Screw4413612008软线连板Adapter 141360400400倒缝电磁铁曲柄组件Backstitch electromagnet crank assembly 1公司地址：台州市椒江区机场南路十五号5305S12005软线连板螺钉Screw 24-113604004倒缝电磁铁曲柄Backstitch electromagnet crank 1613602007驱动板轴shaft 14-2113S11002曲柄螺钉Screw 1邮编：318000713627004驱动板弹簧Spring14-313626006倒缝电磁铁曲柄连杆销link pin1830108004驱动板轴紧圈Thrusr collar asm 1513605002倒缝电磁铁连杆Backstitch solenoid rod 1国内销售部：9101S11005驱动板轴紧圈螺钉Screw 2613601012倒缝电磁铁罩Backstitch solenoid cover 110201S11020安装架连接螺钉Screw 17301S11011倒缝电磁铁螺钉Screw 4电话：0086-576-88177788 8817778911114S16005驱动轴螺母Nut1813628009倒缝电磁铁罩垫片Seals 1121363001200剪线电磁铁传动组件Thread electromagnet drive assembly 1913627007倒缝操作杆曲柄弹簧钩Spring hook 1传真：0086-576-8817775813201S11029安装架固定螺钉Screw 4101363001100双开关组件Switch assembly114线夹螺钉Screw 110-113612013倒缝电磁铁开关安装架Switch mounting bracket 1国贸部：15线夹Cable clip 110-213611002倒缝按键开关座Switch Block 116插头接头Plug connector 210-313611003倒缝按键开关 Key switch1电话：0086-576-88177782 881777741713626005剪线电磁铁销Pin 110-413611004倒缝电磁铁开关触件Switch contact member 118H05012挡圈Ring210-513630002倒缝开关组件Switch assembly 1传真：0086-576-88177787191361300300松线钢绳组件110-6136S11014倒缝按键开关座螺钉Screw 120116S16010软线螺母Nut211101s11004开关安装架螺钉Screw 1免费售后服务电话：400-88768582113612009软线座The mounting plate 11213612026线夹Clamps 322136S10004定刀座螺钉Screw 113101S11002线夹螺钉Screw 223136S16003定刀座螺母Screw114安全开关fety switch 12413601007定刀座Bracket for fixed blade 115接头（2）Plug1资料如有更改，恕不另行通知，以实物为准。

玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理玉林万顺达电脑芯片级维修资料 2010-07-20整理。

Features• Serial Peripheral Interface (SPI) Compatible • Supports SPI Modes 0 (0,0) and 3 (1,1) • Data Sheet Describes Mode 0 Operation • Low-voltage and Standard-voltage Operation⎯ 1.8 (V CC= 1.8V to 5.5V) • 20 MHz Clock Rate (5V)• 64-byte Page Mode and Byte Write Operation • Block Write Protection⎯ Protect 1/4, 1/2, or Entire Array• Write Protect (WP ) Pin and Write Disable Instructions for Both Hardware and Software Data Protection • Self-timed Write Cycle (5 ms Max) • High-reliability⎯ Endurance: 1 Million Write Cycles ⎯ Data Retention: >100 Years• 8-lead PDIP, 8-lead EIAJ SOIC, 8-lead JEDEC SOIC, 8-lead TSSOP, 8-ball dBGA2 and 8-lead Ultra Thin Mini MAP Packages • Lead-free/Halogen-free • Available in Automotive• Die Sales: Wafer Form, Waffle Pack, and Bumped DieDescriptionThe AT25128B/256B provides 131,072/262,144 bits of serial electrically-erasable programmable read only memory (EEPROM) organized as 16,384/32,768 words of 8 bits each. The device is optimized for use in many industrial and commercial applications where low-power and low-voltage operation are essential. The devices are available in space saving 8-lead PDIP, 8-lead EIAJ SOIC, 8-lead JEDEC SOIC, 8-lead TSSOP, 8-ball dBGA2 and 8-lead SAP packages. In addition, the entire family is available in 1.8V (1.8V to 5.5V).Serial Clock (SCK). All programming cycles are completely self-timed, and no separate Erase cycle is required before Write.BDTIC /ATMEL8593A–SEEPR–01/09Figure 1.Pin ConfigurationsV CC HOLD SCK SICS SO WP GND123487658-ball dBGA2Bottom View432156788-lead Ultra-Thin Mini-MAP Bottom View V CC HOLD SCK SI CS SOWP GNDCS SO WP GND123487658-lead TSSOPV CCHOLD SCK SICS SO WP GND123487658-lead SOICV CCHOLD SCK SICS SO WP GND123487658-lead PDIPV CCHOLD SCK SITable 1.Pin ConfigurationsBlock Write protection is enabled by programming the status register with top ¼, top ½ or entire array of write protection. Separate Program EAT25128B/256B[Preliminary]38593A–SEEPR–01/091.Absolute Maximum Ratings*Operating Temperature...........................–55°C to +125°CStorage Temperature ............................–65°C to + 150°CVoltage on Any Pinwith Respect to Ground................................–1.0 V +7.0VMaximum Operating Voltage....................................6.25VDC Output Current..................................................5.0 mA*NOTIC E: Stresses beyond those listed under“Absolute Maximum Ratings” may causepermanent damage to the device. This is astress rating only and functional operationof the device at these or any otherconditions beyond those indicated in theoperational sections of this specification arenot implied. E xposure to absolutemaximum rating conditions for extendedperiods may affect device reliability.Figure 2.Block DiagramV CC GNDTable 2.Pin Capacitance (1)Applicable over recommended operating range from T= 25°C, f = 1.0 MHz, V = +5.0V (unless otherwise noted)Note: 1. This parameter is characterized and is not 100% tested.8593A–SEEPR–01/09Table 3.DC CharacteristicsApplicable over recommended operating range from T A = −40°C to +85°C, V CC = +1.8V to +5.5V, V= +1.8V to +5.5V(unless otherwise noted) Note : 1. V IL min and V IH max are reference only and are not tested.AT25128B/256B[Preliminary]58593A–SEEPR–01/09Table 4.AC CharacteristicsApplicable over recommended operating range from TA= −40°C to + 85°C, VCC= As Specified,CL = 1 TTL Gate and 30 pF (unless otherwise noted)8593A–SEEPR–01/09Note : 1. This parameter is characterized and is not 100% tested. Contact Atmel for further information.2. Serial Interface DescriptionMASTER : The device that generates the serial clock.SLAVE :Because the serial clock pin (SCK) is always an input, the AT25128B/256B always operatesas a slave.TRANSMITTER/RECEIVER : The AT25128B/256B has separate pins designated for data transmission (SO) andreception (SI). MSB :The Most Significant Bit (MSB) is the first bit transmitted and received.SERIAL OP-CODE : INVALID OP-CODE :detected again. This will reinitialize the serial communication.CHIP SELECT :will not be accepted via the SI pin, and the serial output pin (SO) will remain in a high impedance state.HOLD :WRITE PROTECT :N bit is “1”, all write operations to the status register are N bit in the enabled when the WPEN bit is set to “1”.AT25128B/256B[Preliminary]78593A–SEEPR–01/09Figure 3.SPI Serial InterfaceSLAVE:AT25128B/256BMASTER:MICROCONTROLLER8593A–SEEPR–01/093.Functional DescriptionThe AT25128B/256B is designed to interface directly with the synchronous serial peripheral interface (SPI) of the 6800 type series of microcontrollers.The AT25128B/256B utilizes an 8-bit instruction register. The list of instructions and their operation codes areTable 5.Instruction Set for the AT25128B/256BInstruction Name Instruction FormatOperationWREN 0000 X110 Set Write Enable Latch WRDI 0000 X100 Reset Write Enable Register RDSR 0000 X101 Read Status Register WRSR 0000 X001 Write Status RegisterREAD 0000 X011 Read Data from Memory Array WRITE0000 X 010Write Data to Memory ArrayWRITE ENABLE (WREN): The device will power-up in the write disable state when V CC is applied. All programminginstructions must therefore be preceded by a Write Enable instruction. WRITE DISABLE (WRDI):READ STATUS REGISTER (RDSR): The Read Status Register instruction provides access to the status register. TheReady/Busy and Write E nable status of the device can be determined by the RDSR instruction. Similarly, the Block Write Protection bits indicate the extent of protection employed. These bits are set by using the WRSR instruction. Table 6.Status Register FormatTable 7.Read Status Register Bit DefinitionAT25128B/256B[Preliminary]98593A–SEEPR–01/09WRITE STATUS REGISTER (WRSR): The WRSR instruction allows the user to select one of four levels of protection.The AT25128B/256B is divided into four array segments. Top quarter (1/4), top half (1/2), or all of the memorysegments can be protected. Any of the data within any selected segment will therefore be read only. The block writeprotection levels and corresponding status register control bits are shown in Table 8.The three bits, BP0, BP1, and WPEN are nonvolatile cells that have the same properties and functions as the regularmemory cells (e.g. WREN, tWC, RDSR).Table 8.Block Write Protect BitsStatus Register BitsArray Addresses ProtectedLevelBP1 BP0AT25128B AT25256B0 0 0NoneNone1 (1/4) 0 1 3000 – 3FFF 6000 – 7FFF2 (1/2) 1 0 2000 – 3FFF 4000 – 7FFF3 (All) 1 1 0000 – 3FFF 0000 – 7FFFprotect enable (WPE N bit is “1”.N bit is “0”. When the device isN bit, and theblockprotected sections in the memory array are disabled. Writes are only allowed to sections of the memory which arenot block-protected.NOTE:held low.Table 9.WPEN OperationReading the AT25128B/256B via the SO pin requires the following sequence. After theTable 10 on page 10). Upon completion, any data on the SI line will beshifted out. When the highest address is reached, the address counter will roll over to the lowestaddress allowing the entire memory to be read in one continuous read cycle.WRITE SEQUENCE (WRITE): In order to program the AT25128B/256B, two separate instructions must be executed.First, the device must be write enabled via the Write E nable (WRE N) Instruction. Then a Writeinstruction may be executed. Also, the address of the memory location(s) to be programmed must beoutside the protected address field location selected by the Block Write Protection Level. During aninternal write cycle, all commands will be ignored except the RDSR instruction.8593A–SEEPR–01/09Table 10). The Ready/Busy status of the device can be determined by initiating a Read Status Register (RDSR) Instruction. If Bit 0 = 1, the Write cycle is still in progress. If Bit 0 = 0, the Write cycle has ended. Only the Read Status Register instruction is enabled during the Write programming cycle.The AT25128B/256B is capable of a 64-byte Page Write operation. After each byte of data is received, the six low order address bits are internally incremented by one; the high order bits of the address will remain constant. If more than 64 bytes of data are transmitted, the address counter will roll over and the previously written data will beoverwritten. The AT25128B/256B is automatically returned to the write disable state at the completion of a Write cycle. NOTE : communication. Table 10.Address KeyAddress AT25128B AT25256B A N A 13 − A 0 A 14 − A 0 Don’t Care Bits A 15 − A 14A 154. Timing Diagram (for SPI Mode 0 (0,0)Figure 4.Synchronous Data TimingV OHV OLV IHV ILV IH V ILV IHV IL t SCKCSSISO118593A–SEEPR–01/09Figure 5.WREN TimingSCKSISOCSWREN OP-CODEHI-ZFigure 6.WRDI TimingSCKSICSSOWRDI OP-CODEHI-ZFigure 7.RDSR TimingSCKSI SOCS8593A–SEEPR–01/09Figure 8.WRSR TimingSCKSISOCSHIGH IMPEDANCEINSTRUCTION DAT A IN7 6 5 4 3 2 1 0Figure 9.READ TimingSCKSISOCSMSBFigure 10.WRITE TimingSCKSISOCSHIGH IMPEDANCE138593A–SEEPR–01/09Figure 11.HDSCKSISOCS5.Package Ordering InformationAT25128B Ordering InformationTable 11.AT25128B Ordering InformationOrdering Code Package Voltage Range Operation RangeAT25128B-PU(1) AT25128BN-SU(1) AT25128BW-SU(1) AT25128B-TU(1) AT25128BU2-UU(1) AT25128BY6-YH(1)8P38S18S28A28U2-18Y61.81.81.81.81.81.8Lead-free/Halogen-free/Industrial Temperature(−40°C to 85°C)AT25128B-W-11(2)Die Sale 1.8 Industrial Temperature(−40°C to 85°C) Notes: 1. “U” designates Green package + RoHS compliant.2. Available in waffle pack and wafer form; order as SL788 for wafer form. Bumped die available uponrequest. Please Contact Serial Interface Marketing.Package Type8P3 8-lead, 0.300" Wide, Plastic Dual Inline Package (PDIP)8S1 8-lead, 0.150" Wide, Plastic Gull Wing Small Outline Package (JEDEC SOIC)8S2 8-lead, 0.200” Wide, Plastic Gull Wing Small Outline Package (EIAJ SOIC)8U2-1 8-ball, die Ball Grid Array Package (dBGA2)8A2 8-lead, 4.40 mm Body, Plastic Thin Shrink Small Outline Package (TSSOP)8Y6 8-lead, 2.00 mm x 3.00 mm Body, 0.50 mm Pitch, Ultra Thin Mini-MAP, Dual No Lead Package (DFN), (MLP 2x3mm)8593A–SEEPR–01/09158593A–SEEPR–01/09AT25256B Ordering InformationTable 12.AT25256B Ordering informationOrdering Code Package Voltage RangeOperation RangeAT25256B-PU (1)AT25256BN-SU (1)AT25256BW-SU (1)AT25256B-TU (1)AT25256BU2-UU (1) AT25256BY6-YH (1) 8P38S1 8S2 8A2 8U2-1 8Y6 1.8 1.8 1.8 1.8 1.8 1.8 Lead-free/Halogen-free/ Industrial Temperature (−40°C to 85°C)AT25256B-W-11(2)Die Sale1.8Industrial Temperature (−40°C to 85°C)Notes : 1. “U” designates Green package + RoHS compliant. 2. Available in waffle pack and wafer form; order as SL788 for wafer form. Bumped die available uponrequest. Please contact Serial Interface Marketing.Package Type8P3 8-lead, 0.300" Wide, Plastic Dual Inline Package (PDIP)8S1 8-lead, 0.150" Wide, Plastic Gull Wing Small Outline Package (JEDEC SOIC) 8S2 8-lead, 0.200” Wide, Plastic Gull Wing Small Outline Package (EIAJ SOIC) 8U2-1 8-ball, die Ball Grid Array Package (dBGA2)8A2 8-lead, 4.40 mm Body, Plastic Thin Shrink Small Outline Package (TSSOP)8Y6 8-lead, 2.00 mm x 3.00 mm Body, 0.50 mm Pitch, Ultra Thin Mini-MAP, Dual No Lead Package (DFN), (MLP 2x3mm)AT25128B Part MarkingsAT25128BU2-UU-T 8U2-1 dBGA2TOP MARK|---|---|---|---|5 D B U|---|---|---|---|---|P Y M X X|---|---|---|---|---|* <-- Pin 1 IndicatorP = Country of OriginY = One Digit Year CodeM = One Digit Month CodeXX = TRACE CODE (ATMEL LOTNUMBERS TO CORRESPONDWITH TRACE CODE LOG BOOK)(e.g. XX = AA, AB...YZ, ZZ)Y = ONE DIGIT YEAR CODE4: 2004 7: 20075: 2005 8: 20086: 2006 9: 2009M = SEAL MONTH (USE ALPHA DESIGNATOR A-L)A = JANUARYB = FEBRUARY"""""""J = OCTOBERK = NOVEMBERL = DECEMBER8593A–SEEPR–01/09178593A–SEEPR–01/09AT25128BY6-YH-T 8Y6 Ultra Thin Mini-MAP TOP MARK|---|---|---| 5 D B |---|---|---| H 1|---|---|---| Y X X |---|---|---| * |Pin 1 Indicator (Dot)Y = YEAR OF ASSEMBLYXX = TRACE CODE (ATMEL LOT NUMBERS TO CORRESPONDWITH TRACE CODE LOG BOOK) (e.g. XX = AA, AB...YZ, ZZ)Y = SEAL YEAR8: 2008 0: 2012 9: 2007 1: 2013 0: 2010 2: 2014 1: 2011 3: 2015AT25128B-PU 8P3 PDIP Seal YearTOP MARK | Seal Week | | | |---|---|---|---|---|---|---|---| A T M L U Y W W |---|---|---|---|---|---|---|---| 5 D B 1 @ |---|---|---|---|---|---|---|---| * Lot Number|---|---|---|---|---|---|---|---| |Pin 1 Indicator (Dot)Y = SEAL YEAR WW = SEAL WEEK WW = SEAL WEEK 8: 2008 2: 2012 02 = Week 2 02 = Week 2 9: 2009 3: 2013 04 = Week 4 04 = Week 4 0: 2010 4: 2014 :: : :::: : :: : :::: : 1: 2011 5: 2015 52 = Week 52 :: : :::: :: 50 = Week 50 52 = Week 52@ = Country of Assembly No Bottom MarkAT25128BN-SU-T/B 8S1 JEDEC SOICAT25128BW-SU-T/B 8S2 EIAJ SOICSeal YearTOP MARK | Seal Week| | ||---|---|---|---|---|---|---|---|A T M L H Y W W|---|---|---|---|---|---|---|---|5 D B 1 @|---|---|---|---|---|---|---|---|* Lot Number|---|---|---|---|---|---|---|---||Pin 1 Indicator (Dot)Y = SEAL YEAR WW = SEAL WEEK WW = SEAL WEEK8: 2008 2: 2012 02 = Week 2 02 = Week 29: 2009 3: 2013 04 = Week 4 04 = Week 40: 2010 4: 2014 :: : :::: : :: : :::: :1: 2011 5: 2015 52 = Week 52 :: : :::: ::50 = Week 5052 = Week 52@ = Country of AssemblyNo Bottom MarkAT25128B-TU-T/B8A2 TSSOPTOP MARKPin 1 Indicator (Dot)||---|---|---|---|---|---|* A T H Y W W|---|---|---|---|---|---|5 D B 1 @|---|---|---|---|---|---|---|ATMEL LOT NUMBER|---|---|---|---|---|---|---|Y = SEAL YEAR WW = SEAL WEEK8: 2008 2: 2012 02 = Week 29: 2009 3: 2013 04 = Week 40: 2010 4: 2014 :: : :::: :1: 2011 5: 2015 52 = Week 52@ = Country of AssemblyNo Bottom Mark8593A–SEEPR–01/09198593A–SEEPR–01/09AT25256B Part MarkingsAT25256BU2-UU-T 8U2-1 dBGA2TOP MARK|---|---|---|---|5 E B U|---|---|---|---|---| P Y M X X |---|---|---|---|---| * <-- Pin 1 IndicatorP = Country of OriginY = One Digit Year Code M = One Digit Month CodeXX = TRACE CODE (ATMEL LOT NUMBERS TO CORRESPONDWITH TRACE CODE LOG BOOK) (e.g. XX = AA, AB...YZ, ZZ)Y = ONE DIGIT YEAR CODE 4: 2004 7: 2007 5: 2005 8: 2008 6: 2006 9: 2009M = SEAL MONTH (USE ALPHA DESIGNATOR A-L) A = JANUARY B = FEBRUARY """"""" J = OCTOBER K = NOVEMBER L = DECEMBERAT25256BY6-YH-T 8Y6 Ultra Thin Mini-MAPTOP MARK|---|---|---|5 E B|---|---|---|H 1|---|---|---|Y X X|---|---|---|*|Pin 1 Indicator (Dot)Y = YEAR OF ASSEMBLYXX = TRACE CODE (ATMEL LOTNUMBERS TO CORRESPONDWITH TRACE CODE LOG BOOK)(e.g. XX = AA, AB...YZ, ZZ)Y = SEAL YEAR8: 2008 0: 20129: 2007 1: 20130: 2010 2: 20141: 2011 3: 2015AT25256B-PU 8P3 PDIPSeal YearTOP MARK | Seal Week| | ||---|---|---|---|---|---|---|---|A T M L U Y W W|---|---|---|---|---|---|---|---|5 E B 1 @|---|---|---|---|---|---|---|---|* Lot Number|---|---|---|---|---|---|---|---||Pin 1 Indicator (Dot)Y = SEAL YEAR WW = SEAL WEEK WW = SEAL WEEK8: 2008 2: 2012 02 = Week 2 02 = Week 29: 2009 3: 2013 04 = Week 4 04 = Week 40: 2010 4: 2014 :: : :::: : :: : :::: :1: 2011 5: 2015 52 = Week 52 :: : :::: ::50 = Week 5052 = Week 52@ = Country of AssemblyNo Bottom Mark8593A–SEEPR–01/09218593A–SEEPR–01/09AT25256BN-SU-T/B 8S1 JEDEC SOICAT25256BW-SU-T/B 8S2 EIAJ SOICSeal Year TOP MARK | Seal Week | | | |---|---|---|---|---|---|---|---| A T M L H Y W W |---|---|---|---|---|---|---|---| 5 E B 1 @ |---|---|---|---|---|---|---|---| * Lot Number|---|---|---|---|---|---|---|---| |Pin 1 Indicator (Dot)Y = SEAL YEAR WW = SEAL WEEK WW = SEAL WEEK 8: 2008 2: 2012 02 = Week 2 02 = Week 2 9: 2009 3: 2013 04 = Week 4 04 = Week 4 0: 2010 4: 2014 :: : :::: : :: : :::: : 1: 2011 5: 2015 52 = Week 52 :: : :::: :: 50 = Week 50 52 = Week 52@ = Country of Assembly No Bottom MarkAT25256B-TU -T/B 8A2 TSSOPTOP MARKPin 1 Indicator (Dot) ||---|---|---|---|---|---| * A T H Y W W |---|---|---|---|---|---| 5 E B 1 @ |---|---|---|---|---|---|---| ATMEL LOT NUMBER |---|---|---|---|---|---|---|Y = SEAL YEAR WW = SEAL WEEK 8: 2008 2: 2012 02 = Week 2 9: 2009 3: 2013 04 = Week 4 0: 2010 4: 2014 :: : :::: : 1: 2011 5: 2015 52 = Week 52@ = Country of Assembly No Bottom Mark6.Packaging Information8P3 – PDIPFigure 12.8P3 – PDIP8593A–SEEPR–01/09238593A–SEEPR–01/098S1 – JEDEC SOICFigure 13.8S1 – JEDEC SOIC8S2 – EIAJ SOICFigure 14.8S2 – EIAJ SOIC8593A–SEEPR–01/09258593A–SEEPR–01/098U2-1 – dBGA2Figure 15.8U2-1 – dBGA28A2 – TSSOPFigure 16.8A2 – TSSOP8593A–SEEPR–01/09278593A–SEEPR–01/098Y6 – Ultra Thin Mini-MAPFigure 17.8Y6 – Ultra Thin Mini-MAP7.Revision HistoryDoc. Rev. Date Comments8593A 01/2009 Initial document release.8593A–SEEPR–01/09。

1DS9013-05 August 2007Pin ConfigurationsApplicationsCDMA/GSM Cellular Handsets Portable Information AppliancesLaptop, Palmtops, Notebook Computers Hand-Held InstrumentsMini PCI & PCI-Express Cards PCMCIA & New Cards500mA, Low Dropout, Low Noise Ultra-Fast Without Bypass Capacitor CMOS LDO RegulatorOrdering InformationMarking InformationFor marking information, contact our sales representative directly or through a Richtek distributor located in your area, otherwise visit our website for detail.General DescriptionThe RT9013 is a high-performance, 500mA LDO regulator,offering extremely high PSRR and ultra-low dropout. Ideal for portable RF and wireless applications with demanding performance and space requirements.The RT9013 quiescent current as low as 25μA, further prolonging the battery life. The RT9013 also works with low-ESR ceramic capacitors, reducing the amount of board space necessary for power applications, critical in hand-held wireless devices.The RT9013 consumes typical 0.7μA in shutdown mode and has fast turn-on time less than 40μs. The other features include ultra-low dropout voltage, high output accuracy,current limiting protection, and high ripple rejection ratio.Available in the SOT-23-5, SC-70-5 and WDFN-6L 2x2package.(TOP VIEW)WDFN-6L 2x2FeaturesWide Operating Voltage Ranges : 2.2V to 5.5V Low Dropout : 250mV at 500mA Ultra-Low-Noise for RF ApplicationUltra-Fast Response in Line/Load Transient Current Limiting Protection Thermal Shutdown ProtectionHigh Power Supply Rejection RatioOutput Only 1μF Capacitor Required for Stability TTL-Logic-Controlled Shutdown InputRoHS Compliant and 100% Lead (Pb)-FreeSOT-23-5 / SC-70-5RT901312 : 1.2V 13 : 1.3V 15 : 1.5V 16 : 1.6V :32 : 3.2V 33 : 3.3V 1B : 1.25V 1H : 1.85V 2H : 2.85VNote :Richtek Pb-free and Green products are :`RoHS compliant and compatible with the current require- ments of IPC/JEDEC J-STD-020.`Suitable for use in SnPb or Pb-free soldering processes.`100% matte tin (Sn) plating.EN GND NC NC VOUTVINGND VIN EN2DS9013-05 August 2007 Typical Application CircuitFunctional Pin DescriptionFunction Block DiagramV OUTENVINAbsolute Maximum Ratings (Note 1)Supply Input Voltage------------------------------------------------------------------------------------------------------6VEN Input Voltage-----------------------------------------------------------------------------------------------------------6VPower Dissipation, P D @ T A= 25°CSOT-23-5--------------------------------------------------------------------------------------------------------------------0.4WSC-70-5----------------------------------------------------------------------------------------------------------------------0.3WWDFN-6L 2x2--------------------------------------------------------------------------------------------------------------0.606WPackage Thermal Resistance (Note 4)SOT-23-5, θJA---------------------------------------------------------------------------------------------------------------250°C/WSC-70-5, θJA----------------------------------------------------------------------------------------------------------------333°C/W WDFN-6L 2x2, θJA---------------------------------------------------------------------------------------------------------165°C/W WDFN-6L 2x2, θJC---------------------------------------------------------------------------------------------------------20°C/WLead Temperature (Soldering, 10 sec.)-------------------------------------------------------------------------------260°CJunction T emperature-----------------------------------------------------------------------------------------------------125°CStorage T emperature Range--------------------------------------------------------------------------------------------−65°C to 150°C ESD Susceptibility (Note 2)HBM--------------------------------------------------------------------------------------------------------------------------2kVMM----------------------------------------------------------------------------------------------------------------------------200V Recommended Operating Conditions (Note 3)Supply Input Voltage------------------------------------------------------------------------------------------------------2.2V to 5.5VJunction T emperature Range--------------------------------------------------------------------------------------------−40°C to 125°C Ambient T emperature Range--------------------------------------------------------------------------------------------−40°C to 85°C Electrical Characteristics(V= V + 0.5V, V= V, C= C= 1μF (Ceramic), T= 25°C unless otherwise specified)To be continuedDS9013-05 August 34DS9013-05 August 2007 Note 1. Stresses listed as the above “Absolute Maximum Ratings ” may cause permanent damage to the device. These are forstress ratings. 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 remain possibility to affect device reliability.Note 2. Devices are ESD sensitive. Handling precaution recommended.Note 3. The device is not guaranteed to function outside its operating conditions.Note 4. θJA is measured in the natural convection at T A = 25°C on a low effective thermal conductivity test board of JEDEC 51-3thermal measurement standard. The case position of θJC is on the exposed pad for the WDFN-6L 2x2 packages.Note 5. Quiescent, or ground current, is the difference between input and output currents. It is defined by I Q = I IN - I OUT under noload condition (I OUT = 0mA). The total current drawn from the supply is the sum of the load current plus the ground pin current.Note 6. The dropout voltage is defined as V IN -V OUT , which is measured when V OUT is V OUT(NORMAL) - 100mV.Note 7. Regulation is measured at constant junction temperature by using a 2ms current pulse. Devices are tested for loadregulation in the load range from 10mA to 500mA.5DS9013-05 August 2007Typical Operating CharacteristicsOutput Voltage vs. Temperature1.401.421.441.461.481.501.521.541.561.581.60-50-25255075100125Temperature O u t p u t V o l t a g e (V )(°C)(C IN = C OUT = 1μ/X7R, unless otherwise specified)Dropout Voltage vs. Load Current050100150200250300350050100150200250300350400450500Load Current (mA)D r o p o u t V o l t a ge (m V )V IN = 2.5V, I LOAD = 75mA Start UpTime (5μs/Div)E N P i n V o l t a g e (V )O u t p u t V o l t a g e (V )4201.00.50RT9013-15PQWV IN = 2.5V, I LOAD = 50mA EN Pin Shutdown ResponseE N P i n V o l t a g e (V )Time (100μs/Div)O u t p u t V o l t a g e (V )420210RT9013-15PQW Quiescent Current vs. Temperature1012141618202224262830-50-250255075100125Temperature Q u i e s c e n t C u r r e n t (u A )(°C)Dropout Voltage vs. Load Current50100150200250300350050100150200250300350400450500Load Current (mA)D r o p o u t V o l t a g e (m V )6DS9013-05 August 2007 V IN = 2.5V, I LOAD= 10mA to 100mAL o a d C u r r e n t (m A )Time (100μs/Div)O u t p u t V o l t a g e D e v i a t i o n (m V )100500500-50RT9013-15PQWV IN = 2.5V, I LOAD = 10mA to 300mAL o a d C u r r e n t (m A )Time (100μs/Div)O u t p u t V o l t a g e D e v i a t i o n (m V )4002000500-50RT9013-15PQWV IN = 2.6V to 3.6V, I LOAD = 10mAI n p u t V o l t ag e D e v i a t i o n (V )Time (100μs/Div)O u t p u t V o l t a g e D e v i a t i o n (m V )3.62.6200-20RT9013-15PQWI n p u t V o l t a g e De v i a t i o n (V )Time (100μs/Div)O u t p u t V o l t a g e D e v i at i o n (m V )3.62.6200-20V IN = 2.6V to 3.6V, I LOAD = 100mART9013-15PQWTime (10ms/Div)V IN = 3.0V (By Battery), No Load NoiseTime (10ms/Div)N o i s e (μV /D i v )3002001000-100-200-300RT9013-15PQW7DS9013-05 August 2007PSRR-70-60-50-40-30-20-1001020101001000100001000001000000Frequency (Hz)P S R R (d B )Time (10ms/Div)8DS9013-05 August 2007 Applications InformationLike any low-dropout regulator, the external capacitors used with the RT9013 must be carefully selected for regulator stability and performance. Using a capacitor whose value is > 1μF on the RT9013 input and the amount of capacitance can be increased without limit. The input capacitor must be located a distance of not more than 0.5 inch from the input pin of the IC and returned to a clean analog ground.Any good quality ceramic can be used for this capacitor.The capacitor with larger value and lower ESR (equivalent series resistance) provides better PSRR and line-transient response.The output capacitor must meet both requirements for minimum amount of capacitance and ESR in all LDOs application. The RT9013 is designed specifically to work with low ESR ceramic output capacitor in space-saving and performance consideration. Using a ceramic capacitor whose value is at least 1μF with ESR is > 20m Ω on the RT9013 output ensures stability. The RT9013 still works well with output capacitor of other types due to the wide stable ESR range. Figure 1. shows the curves of allowable ESR range as a function of load current for various output capacitor values. Output capacitor of larger capacitance can reduce noise and improve load transient response,stability, and PSRR. The output capacitor should be located not more than 0.5 inch from the VOUT pin of the RT9013and returned to a clean analog ground.Figure 1EnableThe RT9013 goes into sleep mode when the EN pin is in a logic low condition. During this condit ion, the RT9013 has an EN pin to turn on or turn off regulator, When the EN pin is logic hight, the regulator will be turned on. The supply current to 0.7μA typical. The EN pin may be directly tied to V IN to keep the part on. The Enable input is CMOS logic and cannot be left floating.PSRRThe power supply rejection ratio (PSRR) is defined as the gain from the input to output divided by the gain from the supply to the output. The PSRR is found to be⎟⎠⎞⎜⎝⎛×=ΔSupply Error ΔGain log 20 PSRR Note that when heavy load measuring, Δsupply will cause Δtemperature. And Δtemperature will cause Δoutput voltage. So the heavy load PSRR measuring is include temperature effect.Current limitThe RT9013 contains an independent current limiter, which monitors and controls the pass transistor's gate voltage,limiting the output current to 0.6A (typ.). The output can be shorted to ground indefinitely without damaging the part.Thermal ConsiderationsThermal protection limits power dissipation in RT9013.When the operation junction temperature exceeds 170°C,the OTP circuit starts the thermal shutdown function and turns the pass element off. The pass element turn on again after the junction temperature cools by 30°C.For continuous operation, do not exceed absolute maximum operation junction temperature 125°C. The power dissipation definition in device is :P D = (V IN − V OUT ) x I OUT + V IN x I QThe maximum power dissipation depends on the thermal resistance of IC package, PCB layout, the rate of surroundings airflow and temperature difference between junction to ambient. The maximum power dissipation can be calculated by following formula :P D(MAX) = ( T J(MAX) − T A ) /θJARegion of Stable C OUT ESR vs. Load Current0.0010.010.1110100100200300400500Load Current (mA)R e g i o n o f S t a b l e C O U T E S R (Ω)9DS9013-05 August 2007Figure 2. Derating Curves for RT9013 PackagesWhere T J(MAX) is the maximum operation junction temperature, T A is the ambient temperature and the θJA is the junction to ambient thermal resistance.For recommended operating conditions specification of RT9013, where T J(MAX) is the maximum junction temperature of the die (125°C) and T A is the operated ambient temperature. The junction to ambient thermal resistance θJA (θJA is layout dependent) for WDFN-6L 2x2package is 165°C/W, SOT-23-5 package is 250°C/W and SC-70-5 package is 333°C/W on the standard JEDEC 51-3 single-layer thermal test board. The maximum power dissipation at T A = 25°C can be calculated by following formula :P D(MAX) = (125°C − 25°C) / 165 = 0.606 W for WDFN-6L 2x2 packagesP D(MAX) = (125°C − 25°C) / 250 = 0.400 W for SOT-23-5packagesP D(MAX) = (125°C − 25°C) / 333 = 0.300 W for SC-70-5packagesThe maximum power dissipation depends on operating ambient temperature for fixed T J(MAX) and thermal resistance θJA . For RT9013 packages, the Figure 2 of derating curves allows the designer to see the effect of rising ambient temperature on the maximum power allowed.00.10.20.30.40.50.60.7012.52537.55062.57587.5100113125Ambient Temperature P o w e r D is s i p a t i o n (W )(°C)10DS9013-05 August 2007Outline DimensionA1HLSOT-23-5 Surface Mount PackageRT9013Preliminary11DS9013-05 August 2007A1HLSC -70-5 Surface Mount Package12DS9013-05 August 2007Richtek Technology CorporationHeadquarter5F, No. 20, Taiyuen Street, Chupei City Hsinchu, Taiwan, R.O.C.Tel: (8863)5526789 Fax: (8863)5526611Richtek Technology CorporationTaipei Office (Marketing)8F, No. 137, Lane 235, Paochiao Road, Hsintien City Taipei County, Taiwan, R.O.C.Tel: (8862)89191466 Fax: (8862)89191465Email: marketing@W-Type 6L DFN 2x2 Package。