1 8etl06 8etl06s 8etl06-1 8etl06fp bulletin pd-20698 rev. c 10/06 ? benchmark ultra-low forward voltage drop ? hyperfast recovery time ? low leakage current ? 175c operating junction temperature ? fully isolated package (v ins = 2500 v rms ) ? ul e78996 approved features description ultra-low v f hyperfast rectifier for discontinuous mode pfc state of the art, ultra-low v f , soft-switching hyperfast rectifiers optimized for discontinuous (critical) mode (dcm) power factor correction (pfc). the minimised conduction loss, optimized stored charge and low recovery current minimize the switching losses and reduce over dissipation in the switching element and snubbers. the device is also intended for use as a free wheeling diode in power supplies and other power switching applications. 8etl06 to-220ac case styles 8etl06s d 2 pak 8etl06-1 to-262 anod e 1 3 base cathode 2 n /c anode 1 3 c athode base cathode 2 anode 1 3 2 n/c applications ac-dc smps 70w-400w e.g. laptop & printer ac adaptors, desktop pc, tv & monitor, games units and dvd ac-dc power supplies. v f = 0.96v typ. i f(av) = 8amp v r = 600v 8etl06fp to-220 fullpack anode 1 3 c athode www.irf.com absolute maximum ratings v rrm peak repetitive reverse voltage 600 v i f(av) average rectified forward current @ t c = 160c 8 a @ t c = 142c (fullpack) i fsm non repetitive peak surge current @ t j = 25c 175 i fm peak repetitive forward current 16 t j , t stg operating junction and storage temperatures - 65 to 175 c parameters max units
2 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com v br , v r breakdown voltage, 600 - - v i r = 100 a blocking voltage v f forward voltage - 0.96 1.05 v i f = 8a, t j = 25c - 0.81 0.86 v i f = 8a, t j = 150c i r reverse leakage current - 0.05 5 av r = v r rated - 20 100 at j = 150c, v r = v r rated c t junction capacitance - 17 - pf v r = 600v l s series inductance - 8.0 - nh measured lead to lead 5mm from package body electrical characteristics @ t j = 25c (unless otherwise specified) parameters min typ max test conditions parameters min typ max units t j max. junction temperature range - - 175 c t stg max. storage temperature range - 65 - 175 r thjc thermal resistance, junction to case per leg - 1.4 2 c/w fullpack (per leg) - 3.4 4.3 r thja thermal resistance, junction to ambient per leg - - 70 r thcs thermal resistance, case to heatsink - 0.5 - weight - 2.0 - g - 0.07 - (oz) mounting torque 6.0 - 12 kg-cm 5.0 - 10 lbf.in thermal - mechanical characteristics typical socket mount mounting surface, flat, smooth and greased units t rr reverse recovery time - 60 100 ns i f = 1a, di f /dt = 100a/ s, v r = 30v - 150 250 i f = 8a, di f /dt = 100a/ s, v r = 30v - 170 - t j = 25c - 250 - t j = 125c i rrm peak recovery current - 15 - a t j = 25c -20- t j = 125c q rr reverse recovery charge - 1.3 - ct j = 25c - 2.6 - t j = 125c dynamic recovery characteristics @ t c = 25c (unless otherwise specified) i f = 8a di f /dt = 200a/ s v r = 390v parameters min typ max test conditions units
3 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com fig. 1 - typical forward voltage drop characteristics fig. 4 - max. thermal impedance z thjc characteristics forward voltage drop - v fm (v) instantaneous forward current - i f (a) reverse voltage - v r (v) reverse voltage - v r (v) junction capacitance - c t ( p f ) t 1 , rectangular pulse duration (seconds) thermal impedance z thjc (c/w) fig. 3 - typical junction capacitance vs. reverse voltage reverse current - i r ( a) fig. 2 - typical values of reverse current vs. reverse voltage 0 .001 0.01 0.1 1 10 100 100 200 300 400 500 600 100?c 75?c 50?c 25?c tj = 175?c 125?c 150?c 10 1 00 0 100 200 300 400 500 600 t = 25?c j 0 .01 0.1 1 10 0.00001 0.0001 0.001 0.01 0.1 1 single pulse (thermal resistance) d = 0.50 d = 0.20 d = 0.10 d = 0.05 d = 0.02 d = 0.01 2 t 1 t p dm notes: 1. duty factor d = t1/ t2 2. peak tj = pdm x zthjc + tc 0.1 1 10 1 00 0.4 0.8 1.2 1.6 2 t = 175?c t = 150?c t = 25?c j j j
4 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com fig. 6 - max. allowable case temperature vs. average forward current average forward current - i f (av) (a) allowable case temperature (c) 1 50 1 55 1 60 1 65 1 70 1 75 1 80 02468101214 dc see note (3) square wave (d = 0.50) rated vr applied fig. 5 - max. thermal impedance z thjc characteristics (fullpack) t 1 , rectangular pulse duration (seconds) thermal impedance z thjc (c/w) fig. 7 - max. allowable case temperature vs. average forward current (fullpack) fig. 8 - forward power loss characteristics average forward current - i f (av) (a) average forward current - i f (av) (a) allowable case temperature (c) average power loss ( watts ) 0 2 4 6 8 1 0 1 2 024681012 dc rms limit d = 0.01 d = 0.02 d = 0.05 d = 0.1 d = 0.2 d = 0.5 (3) formula used: t c = t j - (pd + pd rev ) x r thjc ; pd = forward power loss = i f(av) x v fm @ (i f(av) / d) (see fig. 8); pd rev = inverse power loss = v r1 x i r (1 - d); i r @ v r1 = rated v r 0 .01 0.1 1 10 0.00001 0.0001 0.001 0.01 0.1 1 10 10 0 single pulse (thermal resistance) d = 0.50 d = 0.20 d = 0.10 d = 0.05 d = 0.02 d = 0.01 2 t 1 t p dm notes: 1. duty factor d = t1/ t2 2. peak tj = pdm x zthjc + tc 80 1 00 1 20 1 40 1 60 1 80 02468101214 dc see note (3) square wave (d = 0.50) rated vr applied
5 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com fig. 10 - typical stored charge vs. di f /dt fig. 9 - typical reverse recovery vs. di f /dt trr ( ns ) qrr ( nc ) di f /dt (a/ s ) di f /dt (a/ s ) 0 50 1 00 1 50 2 00 2 50 3 00 3 50 4 00 4 50 100 1000 if = 16 a if = 8 a r j j v = 390v t = 125?c t = 25?c 500 1 000 1 500 2 000 2 500 3 000 3 500 4 000 4 500 5 000 100 1000 if = 16 a if = 8 a r j j v = 390v t = 125?c t = 25?c irfp250 d.u.t. l = 70h v = 200v r 0.01 g d s dif/dt adjust fig. 11- reverse recovery parameter test circuit reverse recovery circuit di f /dt
6 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com t a t b t rr q rr i f i rrm i rrm 0.5 di(rec)m/dt 0.75 i rrm 5 4 3 2 0 1 di /dt f fig. 12 - reverse recovery waveform and definitions di f /dt 4. q rr - area under curve defined by t rr and i rrm 5. di (rec) m / dt - peak rate of change of current during t b portion of t rr 1. di f /dt - rate of change of current through zero crossing 2. i rrm - peak reverse recovery current 3. t rr - reverse recovery time measured from zero crossing point of negative going i f to point where a line passing through 0.75 i rrm and 0.50 i rrm extrapolated to zero current q rr = t rr x i rrm 2 conforms to jedec outline to-220ac dimensions in millimeters and (inches) outline table
7 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com conforms to jedec outline d 2 pak dimensions in millimeters and (inches) outline table conforms to jedec outline to-262 dimensions in millimeters and (inches)
8 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com 5 0.5 3 . 1 3 . 3 1 3 . 5 1 3 . 7 r0.5 r0.7 (2 places) 3.1 hole ? 3.4 10.4 0.7 4 . 6 typ. 5 0.5 4 . 8 0.9 2.54 typ. 2.54 10.6 1 6 . 4 1 6 . 0 3 . 7 7 . 1 0.48 2.85 2.8 1.4 1.15 1 5 . 4 3 . 2 6 . 7 1 5 . 8 1.05 1.3 0.44 2.65 2.6 typ 10 outline table conforms to jedec outline to-220 fullpack dimensions in millimeters and (inches) anode 1 3 c athode tape & reel information dimensions in millimeters and (inches)
9 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com international rectifier assembly lot code example: assembled on ww 19, 2001 in the assembly line "c" lot code 1789 logo line c part number year 1 = 2001 week 19 date code this is a 8etl06 assembly lot code international rectifier logo example: in the assembly line "c" assembled on ww 19, 1999 lot code 1789 line c week 19 date code year 9 = 1999 part number this is a 8etl06-1 assembled on ww 02, 2000 lot code 8024 in the assembly line "l" logo lot code assembly rectifier international line l week 02 year 0 = 2000 date code part number this is a 8etl06s part marking information to-220ac d 2 pak to-262 lot code rectifier international assembled on ww 19, 2000 lot code 1789 in the assembly line "c" example: date code year 0 = 2000 part number assembly logo week 19 line c this is a 8etl06fp fullpack
10 8etl06, 8etl06s, 8etl06-1, 8etl06fp bulletin pd-20698 rev. c 10/06 www.irf.com ir world headquarters: 233 kansas st., el segundo, california 90245, usa tel: (310) 252-7105 tac fax: (310) 252-7309 visit us at www.irf.com for sales contact information. 10/06 data and specifications subject to change without notice. this product has been designed and qualified for industrial level. qualification standards can be found on ir's web site. ordering information table device code 1 5 24 3 1 - current rating (8 = 8a) 2 - e = single diode 3 - t = to-220 4 - l = ultra low v f hyperfast recovery 5 - voltage rating (06 = 600v) 6 - none = to-220ac s= d 2 pak -1 = to-262 option fp = to-220 fullpack 7 - none = tube (50 pieces) trl = tape & reel (left oriented - for d 2 pak only) trr = tape & reel (right oriented - for d 2 pak only) 8 - none = standard production pbf = lead-free 8 e t l 06 -1 trl - 6 7 8
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