S-THOMSON re ay 4. THOMSON-CSF - _ DIVISION SEMICONDUCTEURS DISCRETS ~ ~.c rd. 59C 02348 0 T-p3-/3 _. PLR 810~PLR 818 FAST RECOVERY RECTIFIER DIODES DIODES DE REORESSEMENT RAPIDES THEIR HIGH EFFICIENCY AND HIGH RELIABILITY COMBINED WITH ( SMALL SIZE AND LOW COST MAKE THESE FAST RECOVERY RECTI- FIER DIODES VERY ATTRACTIVE COMPONENTS FOR MANY DEMAN- DING APPLICATIONS. : FEATURES ~ LOW FORWARD VOLTAGE DROP. HIGH REVERSE BLOCKING VOLTAGE. HIGH SURGE CURRENT CAPABILITY. APPLICATIONS ~ AC-DC POWER SUPPLIES AND CONVERTERS. CHOPPERS. . LEURS HAUTES PERFORMANCES ET LEUR FIABILITE ASSOCIEES A UN ~ 10: 1A/Tamb = 75C VRRM : 50 V to 1000 V FAIBLE ENCOMBREMENT ET A UN FAIBLE COUT FONT DE CES DIODES DE REDRESSEMENT RAPIDE DES COMPOSANTS TRES ATTRAYANTS DANS DE NOMBREUSES APPLICATIONS. PARTICULARITES FAIBLE CHUTE DE TENSION DIRECTE. TENSION DE BLOCAGE INVERSE ELEVEE. COURANT DE SURCHARGE ELEVE. APPLICATIONS ~ ALIMENTATIONS DE PUISSANCE ET CONVER- TISSEURS CONTINU-ALTERNATIF. HACHEURS. DIODES ROVE LIBRE, ETC. ) KM trr : DO ns J ~ FREE WHEELING DIODES, ETC. \ gee, : F 126 plastic (ABSOLUTE RATINGS (LIMITING VALUES) Symbol VALEURS LIMITES ABSOLUES D'UTILISATION PLA 810 PLR 818 Units Mean forward current (half wave rectification - resistive load}* 1 Courent mayen red) trede by - cherge rsistive)* lo Tamb = 78 : 1 A D.C. forward current 1 Courant direct continu* F Tamb = 75C : 1.2 A Non repetitive surge peak forward current - Courant direct non rptitt de surcharge accidentelle {t= 10. ms) 'rsm Tjinitial = 25C : 45 A Tjinitiel = 150C : 20 I? t for fusing (t= 10 ms} Valeur de fa constante P t pour t= 10 ms initial = 25C : 10 Tinta 2 150C: 45 ats Lead temperature for soldeting for 3 5 lligaq = 5 mim) Temprature des connexions pendant la soudure durant 3 $ fLeon, = mm) TL 300 *c Storage and junction temperature range . Tstg \ Tempratures extrmes de stockage et de jonction Tj -65 +150 oy, Symbots PLR 810 PLR 811 PLR 812 PLR 813 PLR 814 PLR 816 PLR 817 PLR 818 Units) VawM = VRRM = VR 50 100 200 300 400 600 800 1000 v \VRsM 100 200 300 400 500 00 1000 1200 v Junction-connexions thermal resistance* Rsistance thermique jonction-connexions* Rthj-e 6 =) ELECTRICAL CHARACTERISTICS (maximum values) CARACTERISTIQUES ELECTRIQUES (valeurs maximales} Symbols Values Units Test VEM 4 v Tjinitial = 25 C lpm = 1A 10 Tamb = 25C specified ig BA VR og ne 100 Tamb = 100C spcifi 300 ns Tjinitial = 25 C p= 1A Va = 30V dip/dt = 25A/us hy = 0.2 1AM tr aM 3 A Tj initial = 25 C P= tA VR = 30V dig/dt = 25 A/ps on infinite heatsink with 10 mm lead length. * sur radiateur intini avec longueur des conmexions = 10 mm. * 50. rue Jean-Pierre Timbaud - B.P.5 1 F-92403 Courbevoie Cedex FRANCE 387 t Tl. :(1) 788-50-01 Telex : 610560 F October 1981 - 1/3 #.\ THOMSON @ COMPOSANTS ee sic D i ?9e9e3? DOOGes4s afS G S=THOMSON y Sac D i 7942923? OOO2344 PLR 810-PLA 818 cee - tee To 59C 02349 DT-03-/3 ow) __ ~ Fithj - a) (C/W) . 100 og 06 04 50 0,2 Q 10 Fig. 1. - Mean forward current 9 versus ambient temperature Fig. 2. Thermal resistance junction-ambient lead (maximum values). (typical values) junction-ambient versus lead length L Mounting n 1-: INFINITE HEATSINK = Mounting n 2 : PRINTED CIRCUIT y Welding Test point of tconnexion . Zthj - a) 0 (% Rent 102 1 0 0,2 0,4 06 08 14,0 10- 10 4 10 3. - Mean power dissipation versus mean forward current Fig. 4. Transient thermat impedance junction-ambient fer aitoront sxceving tyne 0 2th) ~ a) versus pulse duration for mounting n* and 4) in the case of a resistive foad(a= 1,57) Ir L= 10 mm (typical values). 2) in the case of a capacitive load la> 1,57) th #=)5 je (A) = 150% )TO=0.9 Fig. 5. Peak forward 1 =0,075 current versus peak forward voltage drop at low level. ____ Maximum values 3 typical values 2 ' Fig. 6. - Peak forward current versus peak forward voltage drop at high level. eee maxi TRE values ob a a a typical values 06 08 1,0 12 14 09 13 17 2,1 25 29 2/3 388597C of eqeqea? go02e350 0 L S G S-THOMSON DO 0 reer 59C (02350 p 7-03-13 _ PURStOPLA STE . ese (Ak 22 (A2s) Fig. 7. - Non repetitive surge peak forward current versus ing value of 2t. 4 number of cycles. Fig. 8. - Non repetitive . surge peak forward current I for a sinusoidal pulse with : Cipr} width: t<10 ms, and f Gar (-C) 1o-1 the eemermenmemtew 187 20 40 60 Fig. 9. Capacity C versus reverse applied voltage VR (typical values). 10-2 1 . CASE DESCRIPTION Fig. 10, ~ Recovered charge versus diF/dt (typical values), : DESCRIPTION DU BOITIER F G od lar- Cooling method: by convection (method A). Mode de refroidissernent : par convection (mode A. Marking: type number, white band indicates cathode. Marquage : n du type, enneau blanc cbt cathode. 1 i ' t 1 1 t ) t note 2 Weight . t Mase: 049 Miltimatres inches Ref. Notes Min. Max. Min. Max. Db 0,76 0.86 0.029 0.034 1, The lead diameter @ bz is not controlled over zone L 1. oo 2,95 3,05 0.116 0.120 Zone 8 Fintrieur de laquelle le D bz n'est pes controle. 2. The minimum axial length within which the devica may G 6.05 5.35 0.238 0.250 placed with fs leads Dent at ght angles GSO. TG ek L 26 - 1024 - Longueur minimale du dispasitif avec ses sorties plies & angle ui - 127 - 0.050 cro: 16 mun (0.69") Code France : F 126 3/3 389