The Datasheet Archive

10ELS1 datasheet (3)

Part Manufacturer Description Type PDF
10ELS1 EIC Semiconductor Fast Recovery Rectifier Diodes Original PDF
10ELS1 Nihon Inter Electronics 100 V, diode Original PDF
10ELS1 Others The Diode Data Book with Package Outlines 1993 Scan PDF

10ELS1 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2001 - 10ELS2

Abstract: No abstract text available
Text: FRD Type : 10ELS1 10ELS1 OUTLINE DRAWING FEATURES * Miniature Size * Fast Recovery , VRRM VRSM IO IF(RMS) IFSM Tjw Tstg 1 30 10ELS1 100 250 Ta=26°C Half Sine Wave Resistive Load 1.57 , Rth(j-a) Without Fin or P.C.Board* :L=3mm, Print Lands = 7x7 mm,Both Sides 10ELS1 OUTLINE DRAWING (Dimensions in mm) FORWARD CURRENT VS. VOLTAGE 10ELS1 /10ELS2 10 , 10ELS1 /10ELS2 AVERAGE FORWARD POWER DISSIPATION (W) D.C. 1.6 RECT 180° 1.2 HALF SINE


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PDF 10ELS1 10ELS1 100volts 600volts 10ELS1/10ELS2 10ELS2
2001 - 10els2

Abstract: No abstract text available
Text: FRD Type10ELS1 10ELS1 OUTLINE DRAWING , =26 Approx Net Weight:0.17g 10ELS1 100 250 50Hz Half Sine Wave Resistive Load 1.57 Unit V V A , . VOLTAGE 10ELS1 /10ELS2 10 INSTANTANEOUS FORWARD CURRENT (A) 5 2 Tj=25°C Tj=150°C 1 , ANGLE 180° AVERAGE FORWARD POWER DISSIPATION 10ELS1 /10ELS2 AVERAGE FORWARD POWER , Sides) 10ELS1 /10ELS2 1.6 1.4 D.C. AVERAGE FORWARD CURRENT (A) 1.2 1.0 0.8 RECT 180


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PDF Type10ELS1 10ELS1 10ELS1/10ELS2 10els2
2001 - 10ELS2

Abstract: No abstract text available
Text: FORWARD CURRENT VS. VOLTAGE 10ELS1 /10ELS2 10 INSTANTANEOUS FORWARD CURRENT (A) 5 2 , ) 0° CONDUCTION ANGLE 180° AVERAGE FORWARD POWER DISSIPATION 10ELS1 /10ELS2 , =3mm,Print Land=7×7mm,Both Sides) 10ELS1 /10ELS2 1.6 1.4 D.C. AVERAGE FORWARD CURRENT (A , 10ELS1 /10ELS2 SURGE FORWARD CURRENT (A) 30 25 20 15 10 I FSM 0.02s 5


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PDF Type10ELS2 10ELS2 10ELS1/10ELS2 10ELS2
2001 - Not Available

Abstract: No abstract text available
Text: (Dimensions in mm) FORWARD CURRENT VS. VOLTAGE 10ELS1 /10ELS2 10 INSTANTANEOUS FORWARD CURRENT , VOLTAGE (V) 0° 180° CONDUCTION ANGLE AVERAGE FORWARD POWER DISSIPATION 10ELS1 /10ELS2 , =7×7mm,Both Sides) 10ELS1 /10ELS2 1.6 1.4 D.C. AVERAGE FORWARD CURRENT (A) 1.2 1.0 0.8 RECT 180 , ) SURGE CURRENT RATINGS f=50Hz,Half Sine Wave,Non-Repetitive,No Load 35 10ELS1 /10ELS2 30 SURGE


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PDF 10ELS2 10ELS2 100volts 600volts 10ELS1/10ELS2
2001 - 10ELS1

Abstract: No abstract text available
Text: FRD 10ELS1 Type : 10ELS1 OUTLINE DRAWING FEATURES * Miniature Size * Fast Recovery and Low Price * High Surge Capability * 100volts trough 600volts Types Available * 26mm and 52mm Inside Tape Spacing Maximum Ratings Approx Net Weight:0.17g Rating Symbol Repetitive Peak Reverse , 10ELS1 VRRM VRSM 100 250 IO IF(RMS) IFSM Tjw Tstg 1 30 Unit V V Ta=26°C Half , 1.1 150 µA V ns - - 100 °C/W 10ELS1 OUTLINE DRAWING (Dimensions in mm


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PDF 10ELS1 100volts 600volts 10ELS1
2005 - 10ELS4

Abstract: 10ELS1 10ELS2 10ELS6
Text: 10ELS1 ~ 10ELS6 FAST RECOVERY DIODE D2 PRV : 100 ~ 400 Volts Io : 1.0 Amperes * * * * * * * 1.00 (25.4) MIN. 0.161 (4.1) 0.154 (3.9) FEATURES : High current capability High surge current capability High reliability Low reverse current Low forward voltage drop Fast switching for , current by 20%. RATING SYMBOL 10ELS1 Maximum Recurrent Peak Reverse Voltage VRRM 100 , CHARACTERISTIC CURVES ( 10ELS1 ~ 10ELS6 ) FIG.1 - REVERSE RECOVERY TIME CHARACTERISTIC AND TEST CIRCUIT DIAGRAM


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PDF 10ELS1 10ELS6 UL94V-O MIL-STD-202, 10ELS4 10ELS1 10ELS2 10ELS6
2003 - Not Available

Abstract: No abstract text available
Text: BL GALAXY ELECTRICAL 10ELS1-10ELS2 VOLTAGE RANGE: 100 - 200 V CURRENT: 1.0 A FAST RECOVERY RECTIFIERS FEATURES ◇ Low cost ◇ Diffused junction ◇ Low leakage R- 1 ◇ Low forward voltage drop ◇ High current capability ◇ Easily cleaned with Freon Alcohol,Isopropanol and , „ƒ www.galaxycn.com BLGALAXY ELECTRICAL 1. RATINGS AND CHARACTERISTIC CURVES 10ELS1-10ELS2 FIG.1 - , inductive load. For capacitive load,derate by 20%. 10ELS1 10ELS2 UNITS Maximum recurrent peak


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PDF 10ELS1---10ELS2 STD-202 007ounces,
10M15

Abstract: 10EF2 10KF20B 10KF20 10KF10B 10KF10 10ELS6 10ELS4 10ELS2 11DF2
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm VR IFM Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


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PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M15 10EF2 10KF20B 10KF20 10KF10B 10KF10 11DF2
10MA80

Abstract: 10KF20B 10KF20 10KF10B 10KF10 10ELS6 10ELS4 10ELS2 10ELS1 10M15
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm VR IFM Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


OCR Scan
PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10MA80 10KF20B 10KF20 10KF10B 10KF10 10M15
10M60

Abstract: 10M15 10M10 10EF2 10KF10 10ELS6 10ELS4 10ELS2 10ELS1 10MA80
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm vr ifm Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


OCR Scan
PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M60 10M15 10M10 10EF2 10KF10 10MA80
10M15

Abstract: 10MA80 10ELS4 10MA120 10EF2 10KF20 10KF10B 11DF2 10ELS6 10ELS2
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm vr ifm Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


OCR Scan
PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M15 10MA80 10MA120 10EF2 10KF20 10KF10B 11DF2
10M15

Abstract: 10EF2 10KF20B 10KF20 10KF10B 10KF10 10ELS6 10ELS4 10ELS2 10MA40
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm vr ifm Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


OCR Scan
PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M15 10EF2 10KF20B 10KF20 10KF10B 10KF10 10MA40
10M80

Abstract: 10M60 10MA80 10M40 10M15 10EF2 10V-200 1s785 10ELS6 10ELS4
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm vr ifm Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


OCR Scan
PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M80 10M60 10MA80 10M40 10M15 10EF2 10V-200 1s785
10M80

Abstract: 10M15 10ELS4 10EF2 11DF2 10ELS2 10KF10 10KF10B 10KF20 10KF20B
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm vr ifm Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


OCR Scan
PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M80 10M15 10EF2 11DF2 10KF10 10KF10B 10KF20 10KF20B
10M15

Abstract: 1S783 10EF2 10KF20 10KF10B 10KF10 10ELS6 10ELS4 10ELS2 10MA40
Text: -38- « * ■s. « 11« 15 fa # tfe a n |S] # ti ffi « tt a Vrsm Vrrm vr ifm Io, If* Tfcft Ifsm T&tt VFmax Igmax * © fft ® t4 «S W' (V) (V) (V) (A) CC) (A) CC) (A) CC) (V) If(A) TCC) <«A> Vr(V) TCC) 10EF2 300 200 1 40 1. 05 1 10 200 T 'lil-Sfi^r lOXIOmm. 1.rr<200ns 506C 10ELS1 B^-i-JÌ- 250 100 1 30 1. 1 1 10 100 r 'mS®7>K 7X7m, trr<150ns 506C 10ELS2 B^/S- 400 200 1 30 1. 1 1 10 200 r 'mafi^r 7X7nm, trr<150ns 50 6C 10ELS4 H 600 400 1


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PDF 10EF2 200ns 10ELS1 150ns 10ELS2 10ELS4 10ELS6 10M15 1S783 10EF2 10KF20 10KF10B 10KF10 10MA40
NIKKO NR 9600

Abstract: Triac bt 808 600cw GDS C25/0 sony KSM 213 DCP BYX36 NEC 10F triac SEMICON INDEXES BT135 gi 934 diod 2U12
Text: No file text available


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