DIODE MODULE DD(KD)60HB120/160 UL;E76102 (M) Power Diode Module DD60HB series are designed for various rectifier circuits. DD60HB has two diode chips connected in series and the mounting base is elctrically isolated from elements for simple heatsink construction. Wide voltage ratage up to, 1,600V is avaiable for various input voltage. (Applications) Various rectifiers, Battery chargers, DC motor drives DD 2 3 1 2- 6.5 2 1 13 26MAX 3 ~ + 16.5 – 23 23 3M5 21 mounting base elements in a package for simple (single and three phase) bridge connections ● Highly reliable glass passivated chips ● High surge current capability ● Two 30MAX ● Isolated 93.5MAX 80 2 3 1 KD Unit:a ■Maximum Ratings Symbol (Tj=25℃ unless otherwise specified) Ratings Item DD60HB120 DD60HB160 Unit VRRM Repetitive Peak Reverse Voltage 1200 1600 V VRSM Non-Repetitive Peak Reverse Voltage 1350 1700 V Symbol Item Conditions Ratings Unit IF(AV) Average Forward Current Single phase, half wave, 180°conduction, Tc:111℃ 60 A IF (RMS) R.M.S. Forward Current Single phase, half wave, 180°conduction, Tc:111℃ 95 A Surge Forward Current 1 /2 cycle, I2t I2t Value for one cycle of surge current IFSM Tj Junction Temperature Tstg Storage Temperature VISO Isolation Breakdown Voltage(R.M.S.) Mounting Torque 50/60HZ, peak value, non-repetitive A.C.1minute A 1100/1200 6000 A2S −40 to +150 ℃ −40 to +125 ℃ 2500 V Mounting(M6) Recommended Value 2.5-3.9(25-40) 4.7(48) Terminal(M5) Recommended Value 1.5-2.5(15-25) 2.7(28) N・m (㎏f・B) 170 g Ratings Unit 20 mA Mass ■Electrical Characteristics Symbol Item IRRM Repetitive Peak Reverse Current, max. at VFM Forward Voltage Drop, max. Foward current 180A,Tj=25℃,Inst. measurement 1.35 V Junction to case 0.50 ℃/W Rth(j-c) Thermal Impedance, max. SanRex Conditions VDRM, single phase, half wave. Tj=150℃ ® 50 Seaview Blvd. Port Washington, NY 11050-4618 PH.(516)625-1313 FAX(516)625-8845 E-mail: [email protected] DD(KD)60HB120/160 10 Maximum Forward Characteristics 120 Power Dissipation Pav(W) 3 Forward Current(A) 5 2 2 10 5 2 101 Average Forward Current vs. Power Dissipation Per one element D.C. 100 Max. 80 Single Phase Three Phase 60 40 20 5 0. 6 0. 8 1. 0 1. 2 1. 4 1. 6 1. 8 2. 0 0 0 2. 2 20 Average Forward Current vs. Allowable Case Temperature 1200 Surge Forward Current(A) 60 140 Per one element 120 110 100 Single Phase Three Phase 90 80 0 20 40 60 D.C. 80 120 140 160 Cycle Surge Forward Current Rating (Non-Repetitive) Per one element T j=25℃ start 800 60Hz 600 50Hz 400 200 0 1 100 2 5 10 20 50 100 Time(Cycles) Average Forward Current(A) Transient Thermal Impedance 0. 6 0. 5 100 2 5 101 Junction to Case Per one element 0. 4 0. 3 0. 2 Maximum 0. 1 600 10−3 2 5 10−2 2 5 10−1 2 Time t(sec) Output Current 5 100 B2;Two Pluse Bridge connection Id(Aav.) 500 Rth:0.8C/W Rth:0.4C/W Rth:0.3C/W Rth:0.2C/W Rth:0.1C/W 400 300 110 B2 120 200 130 100 0 140 50 100 150 200 Output Current(A) 0 25 50 150 75 100 125 150 Ambient Temperature(℃) 600 B6;Six pulse Bridge connection Output Current Total Power Dissipation(W) 0 Allowable Case Temperature(℃) Transient Thermal Impedance θj-c(℃/W) 100 1000 130 Total Power Dissipation(W) 80 B6 500 Id(Aav.) B6 400 Rth:0.8C/W Rth:0.4C/W Rth:0.3C/W Rth:0.2C/W Rth:0.1C/W 110 120 300 130 200 140 100 0 0 50 100 150 200 0 25 50 Allowable Case Temperature(℃) Allowable Case Temperature Tc(℃) 150 40 Average Forward Current(A) Forward Voltage Drop(V) 150 75 100 125 150 Output Current(A) Ambient Temperature(℃) SanRex 50 Seaview Blvd. Port Washington, NY 11050-4618 PH.(516)625-1313 FAX(516)625-8845 E-mail: [email protected]