DIODE MODULE DD130F UL;E76102 (M) Power Diode Module DD130F series are designed for various rectifier circuits. DD130F has two diode chips connected in series in a package and the mounting base is elctrically isolated from elements for simple heatsink construction. Wide voltage rating up to, 1,600V is avaiable for various input voltage. 92±0.5 12 26 26 4-φ6(M5) mounting base elements in a package for simple (single and three phase) bridge connections ● Highly reliable glass passivated chips ● High surge current capability 60±0.5 48±0.3 24 ● Isolated ● Two 18 2 R8.0 M8×14 5 2 42max 34max (Applications) Various rectifiers, Battery chargers, DC motor drives DD 80±0.3 3 1 2 ■Maximum Ratings Symbol Unit:a (Tj=25℃ unless otherwise specified) Item Ratings DD130F40 DD130F80 DD130F120 DD130F160 Unit VRRM Repetitive Peak Reverse Voltage 400 800 1200 1600 V VRSM Non-Repetitive Peak Reverse Voltage 480 960 1300 1700 V Symbol Item Ratings Unit Conditions IF(AV) Average Forward Current Single phase, half wave, 180°conduction, Tc:90℃ 130 A IF (RMS) R.M.S. Forward Current Single phase, half wave, 180°conduction, Tc:90℃ 205 A Surge Forward Current 1 /2 cycle, I2t Value for one cycle of surge current IFSM I2t VISO 50/60HZ, peak value, non-repetitive Isolation Breakdown Voltage(R.M.S) A.C.1minute Tj Junction Temperature Tstg Storage Temperature Mounting Torque Mounting(M5) Recommended Value 1.5-2.5(15-25) Terminal(M8) Recommended Value 8.8-10 (90-105) Mass A 4000/4400 80000 A2S 2500 ℃ −40 to +125 ℃ −40 to +125 V 2.7(28) N・m 11(115) (㎏f・B) 510 g ■Electrical Characteristics Symbol Item IRRM Repetitive Peak Reverse Current, max. at VDRM, single phase, half wave. Tj=125℃ VFM Forward Voltage Drop, max. Forward current 400A,Tj=25℃,Inst. measurement 1.40 V Junction to case 0.20 ℃/W Rth(j-c) Thermal Impedance, max. SanRex Conditions Ratings Unit 50 mA ® 50 Seaview Blvd. Port Washington, NY 11050-4618 PH.(516)625-1313 FAX(516)625-8845 E-mail: [email protected] DD130F Maximum Forward Characteristics 260 240 220 200 180 160 140 120 100 80 60 40 20 Power Dissipation Pav(W) 2 103 5 2 102 5 2 101 0.5 1.0 1.5 2.0 2.5 Per one element Single Phase Three Phase Max. 0 3.0 20 40 60 80 100 120 140 160 180 200 220 Average Forward Current(A) Average Forward Current vs. Allowable Case Temperature 5000 Per one element 120 Surge Forward Current(A) Allowable Case Temperature Tc(℃) Forward Voltage Drop(V) 130 110 100 D.C. Three Phase 70 Single Phase 90 80 60 50 0 Cycle Surge Forward Current Rating (Non-Repetitive) Per one element 4000 T j=25℃ start 60Hz 3000 50Hz 2000 1000 0 100 20 40 60 80 100 120 140 160 180 200 220 2 101 5 Average Forward Current(A) 2 102 5 Time(Cycles) Transient Thermal Impedance Per one element 0.2 Junction to Case 0.1 10ー2 10ー1 Time t(sec) 101 B2;Two Pluse Bridge connection Output Current Total Power Dissipation(W) 100 1000 Id(Av) 800 Rth:0.5℃/W Rth:0.4℃/W Rth:0.3℃/W Rth:0.1℃/W Rth:0.1℃/W Rth:0.05℃/W B2 600 90 100 400 110 200 0 100 200 300 Output Current(A) 0 20 40 60 80100120 120 125 Ambient Temperature(℃) B6;Six pulse Bridge connection Output Current 90 Total Power Dissipation(W) 0 ー3 10 Allowable Case Temperature(℃) Transient Thermal Impedance θj-c(℃/W) D.C. 1000 B6 800 Id(AV) Rth:0.5℃/W Rth:0.4℃/W Rth:0.3℃/W Rth:0.2℃/W Rth:0.1℃/W Rth:0.05℃/W 600 100 110 400 200 120 0 100 200 300 Output Current(A) 0 20 40 60 80100120 Allowable Case Temperature(℃) Forward Current I(A) F Average Forward Current vs. Power Dissipation 125 Ambient Temperature(℃) SanRex 50 Seaview Blvd. Port Washington, NY 11050-4618 PH.(516)625-1313 FAX(516)625-8845 E-mail: [email protected]