TI, MBS/YJ SERIES Voltage Range 200 to 1000 Volts Current 0.5 Amperes MBS 193(4.90) Features ern | aie Ideal for printed circuit board 22(0.56) ue Fy Reliable low cast construction utilizing Fe [ | molded plastic technique 457(4.00) ~ =) 2767.0) High surge current capability eo qf Me High temperature soldering guaranteed: a py] | 260C / 10 seconds at 5 lbs.,(2.3kg) Hu tension | 102(2.60) Small size,simple installation 087(2.20) Leads solderable per MIL-STD-202 Method 208 doh SAY), 053(1.53) 014(0.35) ae 037(0.95) 006(0.15) - r | | : | : Sean. -008(0.20) 118(3.0) FF MAX MAX "~ .083(2.12) .043(1.10) 043(1.10) 028(0.70) Dimensions in inches and (millimeters) MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS Rating at 25C ambient tem Pau unless otherwise specified. single phase, half wave, 60Hz, resistive or inductive load. For capacitive load, derate current by 20% MB2S MB4S MBES MB8S MB1OS Gnive Type Number yP YJ2J YJaJ YJ5J YJ6J YJTd Maximum Repetitive Peak Reverse Voltage VeRmM 300 400 600 ano 1000 V Maximum RMS Voltage VRMS 140 280 420 560 700 V Maximum DC Blocking Voltage Voc 200 400 600 800 1000 V Maximunm Average Forward Rectified Current o5 (tv On glass-epoxy P.C.B. IFiaV) A On aluminum substrate 0.6 (2 Peak Forward Surge Current, 8.3 ms Single A Half Sinewave Superimposed on Rated Load lesa 35 (JEDEC method) Maximum Instantaneous Forward Voltage 10 V Drop Per Leg@0 4A VE : Maximun DC Reverse Current Ta= 25C ! 5.0 uA, at Rated DC Blocking Voltage Ta= 100C R 100 uA Typical Junction Capacitance Per Leg (Note3) Cy 15 pF Typical Thermal Resistance Per Leg Rea 5 CW Operating Temperature Range T -55 to +150 C storage Temperature Range TsT -55 ta +150 C Note: 1.0n glass epoxy P.C_B mounted on 0.05x 0.05"(1.3x1 3mm)pads 2.On aluminum substrate P.C_B with on area of 0.8" 0.5"(20x20mm) mounted on 0.05x 0.05"(1.3x1_3mm)solder pad 3.Measured at 1.0MHz and applied reverse valtage of 4.0 volts. RATING AND CHARACTERISTIC CURVES : MBS/YJ SERIES(TA=25C unless atheswise noted : . I FIG.1:- BERATING CURVE OUTPUT RECTIFIED FIG.2-MAXIMUN NON-REPETITIVE PEAK FORWARD _ CURRENE POR SURGE CURRENT PER LEG , = as as N | < = eT e OF F Aluminum Substrate > 30 Single Half Sine-Wave H NS woOC 7 (JEDEC Method} ty 0.6 7 r i Pe = 25 N 4 2 os =! ~~ @ 0 Mi || f60Hz o 0.4L Glass as = mT a fe Fpoxy NJ = is ne Ps e O35) PCB. nae 2 na | MIS kk 3 0.2 | Ps, : 10 a. a a | - Fs 2 J | NA ~ Fi Cycle Th w O-1 / Resistive or Inductive Load ~ S 50 S a S 0 | | | | SA t 2 0 20 40 60 80 100 120 140 160 i 10 100 AMBIENT TEMPERATURE (C} NUMBER OF CYCLES FIG.3 - TYPICAL FORWARD VOLTAGE CHARACTERISTICS PER LEG < 10 G = FitG_4-TYPICAL REVERSE LEAKAGE fe T=150'c 3 CHARACTERISTICS PER LEG 5 = 400 a te fe . acl = tr se Tjei25 uu oO o ut 2 a 0.1 ft Oo 1 y Tu=25"C ul z Pulse Width=300us ma < oot 1% Duty Cycle Gj u3 02 O04 06 08 10 42 14 16 = 0.1 Fa : u. as : ah 7 Oo a . INSTANTANEOUS FORWARD VOLTAGE(V) uy Tl=75C : 0.01 5 0 20 40 60 0 700 FIG.5-TYPICAL JUNCTION CAPACTITANCE = PERCENT OF RATED PEAK REVERSE VOLTAGE(%) PER LEG 30 I TT Ty T=25 C = 35 f=1MHz B S Pa Wsig=5SimVp_p ; PJ LU 2 20 PS i 1 a PL 3 mt z PP % 10 <= r Py 2 mee = 5.0 h| = 0 0.1 1 10 1 200 REVERE VOLTAGE (V)