INTERNATIONAL RECTIFIER 55 DE yassuse ooo0s1ua3 ? I sore ene 855452. INTERNATIONAL RECTIFIER 55C 05133 OD Data Sheet No. PD-2.072A T- 23-97 INTERNATIONAL RECTIFIER |TaR}. 200CNG AND 201 CNG SERIES 200 Amp Schottky Center Tap Rectifier Module Major Ratings and Characteristics Characteristic 200CNQ | 201CNQ Units : lo Rectangular Waveform 200 A i Sinusoidal Waveform ~ 180 ipsm @ 80 Hz 1530 1900 | @ 60 Hz 1600 2000 A } 12, @50 Hz 5800 9100 A2s : @ 60 Hz 5300 8300 i Nn 2,000 | 129,000 | Az~/s | i VRWM 20 to 45 20 to 45 Vv Ty 755 to 150 | -85 10175 | C : C @ -5V 6800 pf CASE STYLE AND DIMENSIONS 23.54 (0.927) MAX. Description/Features Dual diode; may be paralleled for higher current output. Up to 175C operating junction temperature. High current (200A) at high temperature. Guard ring reverse protection. Guaranteed reverse avalanche. [a 22-71 12.85), ia uEa> Is 01 LIS Pl | 2032050) 7 Wrjp@| prs lo egy TEL) ou. mo A Tie ay Tao CES cCOMMDR CATHODE AHODE2 AHODET 124-20 SLOTTED HEX 2384 (0929) 1587.0 625) mae) | | t46t 10575) | 335 (0132) (119) Note: A DATUM FEATURE 8 OATUM FEATURE . C POSITIONAL TOLERANGE FOR TERMINAL HOLES: [e Loosen @ [xT +@ [+ @] D POSITIONAL TOLERANCE FOR MOUNTING HOLE AND SLOT. 9] por oon MH) |x] a@] 6@ E POSITIONAL TOLERANCE FOR ENCAPSULATED PORTION. - [s [saan [x] OO) % QATUM SURFACE AND SEATING PLAKE DYMENSIOMAG 1M TOLEGANCING PER ANS! YIC5 1973_ Conforms te JEDEC Outline TO-244A8 Dimensions in Millimeters and (Inches) ANQDE1 t ~ I COMMON CATHODE C-93Spee NEAT ON tet ee mtneNR ape LENT INTERNATIONAL RECTIFIER gs DE Bp usssuse go05134 4 i 4855452 INTERNATIONAL RECTIFIER 55C 05134 0 | 200/201 CNOQ Series INTERNATIONAL RECTIFIER ToaR ] - , - . en . . 7-Aa3-OF VOLTAGE RATINGS : . Vero Max. VRwM Max. Repetitive Peak VR Max. Working Peak Reverse Voltage Direct Reverse - Reverse Voltage (YO@ Voltage Part Numbers MOQ {tp = 200 ns Max.) MOO 200CNQ020 201CNQ020 20 24 20 200CNQ030 201CNQ030 30 36 . 30 200CN0035 201CNQ035 35 42 35 200CNQ040 201CNQ040 40 48 40 200CNQ045 201CNQ045 45 5A 45 Per circuit element (leg). @ Tg = 0 to 1419C (180 conduction) for ZOOCNOQ series. @ Te = -55 to 141C (180 conduction) for 200CNQ series. Te = 0 to 169C (180 conduction) for 201CNQ series. To = -55 to 169C (180 conduction) for 201CNQ series. == @) Tg = -85 to 117C for 200CNOQ series. Te = -55 to 155C for 201CNQ series. ELECTRICAL SPECIFICATIONS 200CNQ 201CNQ Units Conditions lo Max, average output current 180C conduction @ Tc = ~55 to 107C for from center tap circuit 200 200CNO, Tc = -55 to 133C for 201CNQ, rectangular waveform . 180C conduction @ Tg = -56 to 105C for 180 200CNQ, Tc = -55 to 132C for 201CNO, sinusoidal waveform 'eSM = Max. peak one cycle non- 60 Hz half cycle Following any rated load repetitive surge current 1530 1900 sine wave or 6ms_ condition, With rated per circuit element (leg) - rectangular pulse Vpyyry applied following surge, initial 60 Hz halfcycle 45096 for 200CNO, , 1600 2000 sine wave or 5 ms rectangular pulse Ty < 175C for 201CNQ, 50 Hz half cycle Following any rated load 1820 2300 sine wave or 6 ms_condition. With Vay = 0 rectangular pulse following surge, initial 60 Hz half cycle Ty< 150C for 200CNO, _ 1900 2400 sine wave or 5 ms Ty < 175C for 201CNQ. rectangular pulse i2 Max. 12 for fusing per 5800 9100 t=10ms With rated Vay applied follow- circuit element {leg} A2s {-__ ing surge, initial Ty < 150C for 5300 B300 t=8.3ms 200CNQ, Ty < 175C for 201CNQ. I2t Max, 12t for individual 8200 12,900 t=10 ms With Vawry = 0 following surge, ' leg fusing AZ; |- initial Ty < 150C for 200CNQ, i ; 7500 11,700 t=83ms TJS 175C for 201CNQ. | 2.7 Max. 12./t for individual t=0.1 to 10 ms. With Vayyy =0 following i leg fusing 82,000 | 129,000 | A2/s | surge, Tj <150C for 200CNQ, t Ty <1750C for 201CNQ. { Vem Max. peak forward voltage 0.72 0.81 Ty = 25C per leg Ion Rated !F (ayy (200A peak), 0.61 = Vv Ty= 150C 4800 rectangular waveform. = 0.65 Ty = 175C 0.56 0.67 Ty = 25C, IF = 100A. rt tortimet,=2Vt + Vt. -C-94 . \1 RRL RT 68m HP NRE RIIES # INTERNATIONAL RECTIFIER [Tea INTERNATIONAL RECTIFIER ELECTRICAL SPECIFICATIONS (Continued) 4855452 INTERNATLONAL RECTIFIER 55 DE Busssuse 0005135 o i 55C 05135 D 200/201 CNQ Series T-a3-oF reverse voltage, per leg 200CNQ 201CNQ Units Conditions IRM Max. peak reverse current 75 40 A Tye 25C M av I m ax, rate : perso 400 20 Ty = 126C RWM InaM Max. repetitive peak : To = 25C, f= 1 kHz, reverse current, . 2.0 A | see fig. 15 for test circuit. per leg C; Max. total capacitance, 5800 F To = 25C, Vp = 5 VDG @ 100 kHz to 1 MHz per leg : P test signal. dv/dt Max. rate of application of 1000 Vius To = 25C, Vary = rated Vawn - THERMAL-MECHANICAL SPECIFICATIONS Ty Max. operating junction - - temperature range 55 to 150} -55to 175 Cc Tstg Max. storage temperature -5B to 150| -5S to 175 oc range Rthuc Max. thermal resistance, Based on power dissipated in one leg, junction-to-case, 0.5 . " . both legs operating. DC operation deg. CW Max. composite thermal a resistance, junction-to- 0.25 Based on power dissipated in both legs. case, DC operation Rtnes Max. thermal resistance 0.1 deg. CAV | Mounting surface flat, smooth, and greased. Tm Mounting torque 4 (36) pein) Adequate hardware required. Ty Terminal torque Min.: 5.6 (50) Nem Max.: 8.5 (75) (Ibf-in.) |- wt Approximate weight 113 (4.0) g (0z.) Cas style TO-244AB JEDEC 200CNQ Series 160 140 130 160 L& 190! MAXIMUM ALLOWABLE CASE TEMPERATURE (C) 9 20 40 0 40 100 120 140Ss*60 180 AVERAGE CURRENT OVER FULL CYCLE {AMPERES} Fig. 1 Maximum Allowable Case Temperature Vs. Average Forward Current, Per Leg, 200CNQ Series 200 C-95 360 320 F- 309 & WAVE peo | te0f 1 & aan FT LAY aan 11809 7) WAVE 180 +1900 [Wave 120 80 40 8 G0 20 42 60 80 100 120 140 160 180 200 220 240 AVERAGE FORWARD CURRENT OVER FULL CYCLE (AMPERES) AVERAGE FORWARD POWER LOSS OVER FULL CYCLE (WATTS) Fig. 2 Maximum Forward Power Loss Vs. Average Forward Current, Per Leg, ZOOCNQ Series ren wnepnat eon meetin sate7 INTERNATIONAL RECTIFIER gs DE B)yassuse oooS13b 2 i } . - - - "4855452 INTERNATIONAL RECTIFIER 55C 05136 OD 200/201 CNOQ Series INTERNATIONAL RECTIFIER 200CNQ Series _ T-23- OP a 1800 a = 1600 = = BOTH = E AND WITH RATED APPLIED FOLLOWING SURGE. = & 1400 a a 5 = 1200 = = 1900 2 z z i s z 600 a : = 10 2 a0 i a 02 04 06 08 10 12 14 1 2 4 6 8 10 20 40.60 ; INSTANTANEQUS FGRWARD VOLTAGE (VOLTS) NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES (N} ; Fig. 3 Maximum [nstantaneous Forward Voltage Vs. Fig. 4 Maximum Non-Repetitive Surge Current Vs. I Instantaneous Forward Current, Per Leg, 200CNQ Series Number of Current Pulses, Per Lag, 200CNQ Series wh2 5142 103 2 5 w22 6 to! 5 102 2 : = 10-1 10 gos 5 a 104 co a 2 3 2 2 = z 9 3 & 10" 10 2 7 = 5 = 6 5 3 - 2 a - 2 & : G 49-3 10 fe fi - F 2 t 5 5 5 2 ia 7 a t z 1 + E tet 10- 103 ' ws2 5 2 S412 549 2 5 1 2 192 10 2 6 10 2 5 102 i SQUARE WAVE PULSE DURATION (SECONDS) REVERSE VOLTAGE (VOLTS) 1 i Fig. 5 Maximum Transient Thermal Impedance, Junction- Fig. 6 Typical Total Capacitance Vs. Reverse Voltage, : to-Case Vs. Square Wave Pulse Duration, 200CNQ Series Per Leg, ZOOCNQ Series } 4 > ny RELATIVE REVERSE CURRENT, lnm (PER UNIT) 2 in 9% 09 110 120 130 140 180 JUNCTION TEMPERATURE (C) 20 40 60 80 100 RATED Vpawm {PERCENT} Fig. 7 Typical Variation of Reverse Current Vs. Junction Temperature and Reverse Voltage, Per Leg, 200CNQ Series C-96- AR Rete eT 168 eng fat TPP RRM pt a INTERNATIONAL RECTIFIER 4855452 LNTERNATIONAL RECTIFIER INTERNATIONAL RECTIFIER 201CNQ Series MAXIMUM ALLOWABLE CASE TEMPERATURE (C) 160 140 120 +180 WAVE tol" Le +1809] WAVE ap | (7) WAVE 120 [| & 807 wave 0 20 40 0 eo 100 1270 4140 6160 671800200 AVERAGE GUARENT OVER FULL CYCLE (AMPERES) Fig. 8 Maximum Allowable Case Temperature Vs. Average Forward Current, Per Leg, 201CNQ Series INSTANTANEOUS FORWARD CURRENT (AMPERES) 0 02 oa 0.6 08 10 12 14 INSTANTANEOUS FORWARD VOLTAGE (VOLTS) Fig. 10 Maximum Instantaneous Forward Voltage Vs. Instantaneous Forward Current, Per Leg, 201CNO Series wh2 s 142 50-3 2 5 1022 6 10-1 6 102 10-1 1.0 6 2 10-1 5 192 DURA w32 5922 Stot2 19 2 5 10 2 SQUARE WAVE PULSE DURATION (SECONDS) TRANSIENT THERMAL IMPEDANCE (DEG, C/W) Fig. 12 Maximum Transient Thermal impedance, Junction-to-Case Vs. Square Wave Pulse Duration, 201CNQ Series AVERAGE FORWARD POWER LOSS OVER FULL CYCLE (WATTS) PEAK HALF SINE WAVE FORWARD CURRENT (AMPERES) 55 DEF 4855452 0005137 55C 05137 0 200/201 CNQ Series 500 300 200 0 40 80 120 160 = 200 240s 280 320 360. - 400 AVERAGE FORWARD CURRENT OVER FULL CYCLE (AMPERES) Fig. 9 Maximum Forward Power Loss Vs. Average Forward Current, Per Leg, 201CNQ Series 2800 2400 ATANY AND WITH RATED APPLIED FOLLOWING SURGE. 2000 1600 1200 800 400 1 2 4 6 a1 20 40 60 NUMBER OF EQUAL AMPLITUDE HALF CYCLE CURRENT PULSES (N) Fig. 11 Maximum Non-Repetitive Surge Current Vs. Number of Current Pulses, Per Leg, 201CNQ Series TYPICAL CAPACITANCE (pF} on 103 1.0 2 5 10 2 5 102 REVERSE VOLTAGE (VOLTS) Fig. 13 Typical Total Capacitance Vs. Reverse Voltage, Per Leg, 207CNQ Series C-97 T-23-OF97 _.INTERNATIONAL RECTIFIER 200/201 CNQ Series RELATIVE REVERSE CURRENT, Ipqy (PER UNIT) 4855452 INTERNATIONAL RECTIFIER 55 DE Bp ssssuse 0005138 & rr 55C 05138 OD INTERNATIONAL RECTIFIER | 1-Q3-097 201CNQ Series 2 to? 100 110 120 130 140 150 160 170 JUNCTION TEMPERATURE (C) . } 30 40 50 60 70 80 90 100 . RATED Vawy (PERCENT) Fig. 14 Typical Variation of Reverse Current Vs. Junction Temperature and Reverse Voltage, Per Lag, 201CNQ Series i INPUT PULSE i 1 10v | Je 30 Bs , DUTY CYCLE <1% IRF230 260 nH CURRENT SENSE ouTPUT 4) eee VOLTAGE | ana SENSE = tov 0.12 iN1801 : Ww (180v) Fig. 15 lnRM Test Circuit C-98