Powerex General Purpose, Low Profile Rectifier Diode designed with high blocking voltage capability and low forward voltage drop to minimize conduction losses. These are packaged in hermetic, ceramic Pow-R-Disc packages which can be mounted using commercially available clamps and heatsinks or fully assembled to a variety of air or water cooled heat exchangers. FEATURES: Low On-State Voltage Hermetic Ceramic Package Excellent Surge and I 2 t s ORDERING INFORMATION APPLICATIONS: DC Power Supplies Select the complete 12 digit Part Number using the table below. EXAMPLE: R9S263XXOO is a 2V-3A General Purpose Diode with a typical reverse recovery time of 25µs. PART Voltage Voltage Code Current Current Code V DRM -V RRM I tavg t RR Reverse Recovery Lead Code R9S 2V 26 3A 3 XX OO 24V 24 22V 22 25µs typical 2V 2 V 18 Revised: 8/16/27 Page 1 of 7
Absolute Maximum s Characteristic Symbol Units Repetitive Peak Reverse Voltage V RRM 2 Volts Average On-State Current, T C = 115 C I F(Avg.) 3 A RMS On-State Current, T C = 115 C I F(RMS) 4712 A Average On-State Current, T C = 85 C I F(Avg.) 3935 A RMS On-State Current, T C = 85 C I F(RMS) 6181 A Peak One Cycle Surge Current, Hz, V R =V RRM I FSM 22, A Fuse Coordination I 2 t, Hz I 2 t 2.2E+6 A 2 s Peak One Cycle Surge Current, Hz, V R =V I FSM 28, A Fuse Coordination I 2 t, 5Hz I 2 t 3.41E+6 A 2 s Peak 3 Cycle Surge Current, Hz, V R =V I FSM 25,8 A Peak 1 Cycle Surge Current, Hz, V R =V I FSM 2,13 A Operating Temperature Tj -4 to+175 C Storage Temperature T Stg. -5 to+2 C Approximate Weight.6 lb.27 Kg Mounting Force 55- lbs 24.5-26.7 Knewtons Per NEMA Std. RS-282 Information presented is based upon limited testing or projected capabilities. This information is subject to change without notice. The manufacturer makes no claim as to suitability for use, reliability, capability or future availability of this product. Page 2 of 7
Electrical Characteristics, Tj=25 C unless otherwise specified Characteristic Symbol Test Conditions min typ max Units Repetitive Peak Reverse Leakage Current I RRM Tj=175 C, V RRM =Rated 75 ma Peak On-State Voltage V FM Tj=25 C, I FM =15A 1.1 V V FM Model, Low Level V Tj=175 C.912 V VFM = V O + r I FM r 15% I FM - π I FM 8.85E-2 mω V FM Model, High Level V Tj=175 C 1.59 V VFM = V O + r I FM r π I FM - I FSM 6.32E-2 mω V FM Model, 4-Term A Tj=175 C.652 V FM = A + B Ln(I FM ) + B 15%I FM - I FSM.381 C (I FM ) + D (I FM ) ½ C 5.73E-5 D.111 Reverse Recovery Time t RR Tj=25 C, I FM =15A 25 µs di R /dt = 25 A/µs Thermal Characteristics Characteristic Symbol Test Conditions min typ max Units Thermal Resistance Junction to Case RΘ jc Double side cooled.12.145 C/Watt Case to Sink RΘ cs Double side cooled.4.6 C/Watt Thermal Impedance Model ZΘ jc Double side cooled ZΘ jc (t) = Σ(A(N) (1-exp(-t/Tau(N)))) where: N = 1 2 3 4 A(N) = 1.418E-3 2.968E-3 6.66E-3 9.527E-3 Tau(N) = 5.947E-5 2.762E-2 4.11E-1 4.12E+ Page 3 of 7
3. Maximum On-State Voltage Drop Tj = 175 C 2. VFM (V) 1.. 1 1 1 1 IFM 1.E-2 MAXIMUM TRANSIENT THERMAL IMPEDANCE 1.4E-2 Thermal Impedance ( C/Watt) 1.2E-2 1.E-2 8.E-3 6.E-3 4.E-3 2.E-3.E+.1.1 1 1 Time (sec) Page 4 of 7
8 Maximum On-State Power Dissipation Sinusoidal Waveform 7 Pavg (Watts) 5 4 3 9 2 3 1 5 1 15 2 25 3 35 4 45 Maximum Allowable Case Temperature Sinusoidal Waveform 1 Tc ( C) 14 3 1 8 9 5 1 15 2 25 3 35 4 45 Page 5 of 7
Maximum On-State Power Dissipation Pavg (Watts) 9 8 7 5 4 Square Waveform 9 3 3 2 3 1 1 2 3 4 5 Maximum Allowable Case Temperature Square Waveform 1 Tc ( C) 14 3 1 8 9 3 1 2 3 4 5 Page 6 of 7
MULTI-CYCLE SURGE 25 SURGE, I TSM 2 15 1 5 Hz 5Hz 1 1 1 No. of Surge Cycles SUB-CYCLE SURGE -- I 2 t 4.5E+6 SURGE, ITSM 5 4 3 2 I TSM I 2 t 3.8E+6 3.E+6 2.3E+6 1.5E+6 I 2 t (A 2 -sec) 1 7.5E+5.E+..2.4..8.1 TIME (sec) VR=V VR=%VRRM Page 7 of 7