DISCRETE SEMICONDUCTORS DATA SHEET handbook, 2 columns M3D116 BYV27 series Ultra fast low-loss controlled avalanche rectifiers Product specification Supersedes data of 1996 Oct 02 1997 Nov 24 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series FEATURES DESCRIPTION * Glass passivated Rugged glass SOD57 package, using a high temperature alloyed construction. * High maximum operating temperature * Low leakage current * Excellent stability * Guaranteed avalanche energy absorption capability * Available in ammo-pack. 2/3 page k(Datasheet) This package is hermetically sealed and fatigue free as coefficients of expansion of all used parts are matched. a MAM047 Fig.1 Simplified outline (SOD57) and symbol. LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 134). SYMBOL VRRM PARAMETER CONDITIONS - 50 V BYV27-100 - 100 V - 150 V BYV27-200 - 200 V BYV27-300 - 300 V BYV27-400 - 400 V BYV27-500 - 500 V BYV27-600 - 600 V - 50 V continuous reverse voltage BYV27-100 - 100 V BYV27-150 - 150 V BYV27-200 - 200 V BYV27-300 - 300 V BYV27-400 - 400 V BYV27-500 - 500 V BYV27-600 - 600 V - 2.0 A - 1.9 A - 1.6 A - 1.30 A - 1.25 A - 1.10 A average forward current BYV27-50 to 200 BYV27-300 and 400 Ttp = 85 C; lead length = 10 mm; see Figs 2, 3 and 4; averaged over any 20 ms period; see also Figs 14, 15 and 16 BYV27-500 and 600 IF(AV) UNIT BYV27-150 BYV27-50 IF(AV) MAX. repetitive peak reverse voltage BYV27-50 VR MIN. average forward current BYV27-50 to 200 BYV27-300 and 400 BYV27-500 and 600 1997 Nov 24 Tamb = 60 C; printed-circuit board mounting (see Fig. 25); see Figs 5, 6 and 7; averaged over any 20 ms period; see also Figs 14, 15 and 16 2 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers SYMBOL IFRM IFRM PARAMETER repetitive peak forward current CONDITIONS MIN. MAX. UNIT Ttp = 85 C; see Figs 8, 9 and 10 BYV27-50 to 400 - 20 A BYV27-500 and 600 - 16 A repetitive peak forward current Tamb = 60 C; see Figs 11, 12 and 13 - 14 A BYV27-300 and 400 - 13 A BYV27-500 and 600 - 11 A BYV27-50 to 200 IFSM BYV27 series non-repetitive peak forward current BYV27-50 to 400 BYV27-500 and 600 ERSM non-repetitive peak reverse avalanche energy Tstg storage temperature Tj junction temperature t = 10 ms half sine wave; Tj = Tj max prior to surge; VR = VRRMmax - 50 A - 40 A - 20 mJ -65 +175 C -65 +175 C MIN. TYP. MAX. - - 0.78 V - - 0.82 V - - 1.00 V - - 0.98 V - - 1.05 V - - 1.25 V 55 - - V L = 120 mH; Tj = Tj max prior to surge; inductive load switched off see Fig. 17 ELECTRICAL CHARACTERISTICS Tj = 25 C unless otherwise specified. SYMBOL VF PARAMETER forward voltage BYV27-50 to 200 CONDITIONS IF = 2 A; Tj = Tj max; see Figs 18, 19 and 20 BYV27-300 and 400 BYV27-500 and 600 VF forward voltage BYV27-50 to 200 IF = 2 A; see Figs 18, 19 and 20 BYV27-300 and 400 BYV27-500 and 600 V(BR)R reverse avalanche breakdown voltage IR = 0.1 mA BYV27-50 BYV27-100 110 - - V BYV27-150 165 - - V BYV27-200 220 - - V BYV27-300 330 - - V BYV27-400 440 - - V BYV27-500 560 - - V - 675 - VR = VRRMmax; see Fig. 21 - - 5 A VR = VRRMmax; Tj = 165 C; see Fig. 21 - - 150 A BYV27-600 IR reverse current 1997 Nov 24 UNIT 3 V Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers SYMBOL trr PARAMETER reverse recovery time BYV27-50 to 200 BYV27-300 to 600 Cd BYV27 series diode capacitance BYV27-50 to 200 CONDITIONS when switched from IF = 0.5 A to IR = 1 A; measured at IR = 0.25 A; see Fig. 27 f = 1 MHz; VR = 0; see Figs 22, 23 and 24 BYV27-300 and 400 BYV27-500 and 600 dI R -------dt maximum slope of reverse recovery current MIN. when switched from IF = 1 A to VR 30 V and dIF/dt = -1 A/s; see Fig. 26 TYP. MAX. UNIT - - 25 ns - - 50 ns - 100 - pF - 80 - pF - 65 - pF - - 4 A/s THERMAL CHARACTERISTICS SYMBOL PARAMETER CONDITIONS VALUE UNIT Rth j-tp thermal resistance from junction to tie-point lead length = 10 mm 46 K/W Rth j-a thermal resistance from junction to ambient note 1 100 K/W Note 1. Device mounted on an epoxy-glass printed-circuit board, 1.5 mm thick; thickness of Cu-layer 40 m, see Fig. 25. For more information please refer to the "General Part of associated Handbook". 1997 Nov 24 4 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series GRAPHICAL DATA MGA849 2.0 I F(AV) I F(AV) (A) 20 15 (A) 10 lead length (mm) lead length 10 mm 1.6 1.6 1.2 1.2 0.8 0.8 0.4 0.4 0 MLC293 2.0 handbook, halfpage handbook, halfpage 0 0 100 Ttp (o C) 200 0 100 BYV27-50 to 200 a = 1.42; VR = VRRMmax; = 0.5. Switched mode application. BYV27-300 and 400 a = 1.42; VR = VRRMmax; = 0.5. Fig.2 Fig.3 200 Ttp (o C) Switched mode application. Maximum permissible average forward current as a function of tie-point temperature (including losses due to reverse leakage). MGK648 3 Maximum permissible average forward current as a function of tie-point temperature (including losses due to reverse leakage). MGA848 2.0 handbook, halfpage handbook, halfpage I F(AV) (A) IF(AV) (A) 1.6 lead length 10 mm 2 1.2 0.8 1 0.4 0 0 0 100 Ttp (C) 200 0 100 T amb ( o C) 200 BYV27-50 to 200 a = 1.42; VR = VRRMmax; = 0.5. Device mounted as shown in Fig. 25. BYV27-500 and 600 a = 1.42; VR = VRRMmax; = 0.5. Switched mode application. Switched mode application. Fig.4 Maximum permissible average forward current as a function of tie-point temperature (including losses due to reverse leakage). 1997 Nov 24 Fig.5 5 Maximum permissible average forward current as a function of ambient temperature (including losses due to reverse leakage). Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MLC294 1.6 I F(AV) IF(AV) (A) (A) 1.2 1.2 0.8 0.8 0.4 0.4 0 0 MGK649 1.6 handbook, halfpage handbook, halfpage 100 0 200 Tamb ( o C) 100 0 BYV27-300 and 400 a = 1.42; VR = VRRMmax; = 0.5. Device mounted as shown in Fig. 25. Switched mode application. BYV27-500 and 600 a = 1.42; VR = VRRMmax; = 0.5. Device mounted as shown in Fig. 25. Switched mode application. Fig.6 Fig.7 Maximum permissible average forward current as a function of ambient temperature (including losses due to reverse leakage). Tamb (C) 200 Maximum permissible average forward current as a function of ambient temperature (including losses due to reverse leakage). MLC297 20 handbook, full pagewidth = 0.05 I FRM (A) 16 0.1 12 0.2 8 0.5 4 1 0 10 2 10 1 1 10 10 2 10 3 t p (ms) 10 4 BYV27-50 to 200 Ttp = 85 C; Rth j-tp = 46 K/W. VRRMmax during 1 - ; curves include derating for Tj max at VRRM = 200 V. Fig.8 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor. 1997 Nov 24 6 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MLC299 20 handbook, full pagewidth = 0.05 I FRM (A) 16 12 0.1 8 0.2 4 0.5 1 0 10 2 10 1 1 10 10 2 10 3 t p (ms) 10 4 BYV27-300 and 400 Ttp = 85 C; Rth j-tp = 46 K/W. VRRMmax during 1 - ; curves include derating for Tj max at VRRM = 400 V. Fig.9 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor. MGK650 20 handbook, full pagewidth IFRM (A) 16 = 0.05 12 0.1 8 0.2 4 0.5 1 0 10-2 10-1 1 10 102 103 tp (ms) 104 BYV27-500 and 600 Ttp = 85 C; Rth j-tp = 46 K/W. VRRMmax during 1 - ; curves include derating for Tj max at VRRM = 600 V. Fig.10 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor. 1997 Nov 24 7 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MLC298 16 handbook, full pagewidth I FRM (A) = 0.05 12 0.1 8 0.2 4 0.5 1 0 10 2 10 1 1 10 10 2 10 3 10 4 t p (ms) BYV27-50 to 200 Tamb = 60 C; Rth j-a = 100 K/W. VRRMmax during 1 - ; curves include derating for Tj max at VRRM = 200 V. Fig.11 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor. MLC300 16 handbook, full pagewidth I FRM (A) = 0.05 12 8 0.1 0.2 4 0.5 1 0 10 2 10 1 1 10 10 2 10 3 t p (ms) 10 4 BYV27-300 and 400 Tamb = 60 C; Rth j-a = 100 K/W. VRRMmax during 1 - ; curves include derating for Tj max at VRRM = 400 V. Fig.12 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor. 1997 Nov 24 8 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MGK651 20 handbook, full pagewidth IFRM (A) 16 12 = 0.05 8 0.1 0.2 4 0.5 1 0 10-2 10-1 1 102 10 103 tp (ms) 104 BYV27-500 and 600 Tamb = 60 C; Rth j-a = 100 K/W. VRRMmax during 1 - ; curves include derating for Tj max at VRRM = 600 V. Fig.13 Maximum repetitive peak forward current as a function of pulse time (square pulse) and duty factor. MGA870 2.0 2.4 P (W) 2.0 1.6 1.6 2.4 handbook, halfpage a=3 P (W) 2.5 MLC292 handbook, halfpage 2 1.57 a=3 2.5 2 1.57 1.42 1.42 1.2 1.2 0.8 0.8 0.4 0.4 0 0 0 1 I F(AV) (A) 2 0 1 BYV27-50 to 200 BYV27-300 and 400 a = IF(RMS)/IF(AV); VR = VRRMmax; = 0.5. a = IF(RMS)/IF(AV); VR = VRRMmax; = 0.5. Fig.14 Maximum steady state power dissipation (forward plus leakage current losses, excluding switching losses) as a function of average forward current. 1997 Nov 24 I F(AV) (A) 2 Fig.15 Maximum steady state power dissipation (forward plus leakage current losses, excluding switching losses) as a function of average forward current. 9 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MGK652 2.0 handbook, halfpage P (W) a=3 2.5 Tj (C) 1.57 1.6 MGK645 200 handbook, halfpage 2 1.42 1.2 100 0.8 0.4 0 0 0 1 IF(AV)(A) 0 2 BYV27-500 and 600 a = IF(RMS)/IF(AV); VR = VRRMmax; = 0.5. MGA864 6 MLC291 6 handbook, halfpage IF (A) IF (A) 4 4 2 2 1 V F (V) 0 2 BYV27-50 to 200 Dotted line: Tj = 175 C. Solid line: Tj = 25 C. 0 1 V F (V) 2 BYV27-300 and 400 Dotted line: Tj = 175 C. Solid line: Tj = 25 C. Fig.18 Forward current as a function of forward voltage; maximum values. 1997 Nov 24 100 Fig.17 Maximum permissible junction temperature as a function of maximum reverse voltage percentage. handbook, halfpage 0 VR (%VRmax) Solid line = VR. Dotted line = VRRM; = 0.5. Fig.16 Maximum steady state power dissipation (forward plus leakage current losses, excluding switching losses) as a function of average forward current. 0 50 Fig.19 Forward current as a function of forward voltage; maximum values. 10 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MBH649 handbook, halfpage 103 handbook, halfpage IF (A) IR (A) 6 4 102 2 10 0 MGC550 1 0 1 2 V F (V) 0 BYV27-500 and 600 Dotted line: Tj = 175 C. Solid line: Tj = 25 C. 100 200 Tj (C) VR = VRRMmax. Fig.20 Forward current as a function of forward voltage; maximum values. Fig.21 Reverse current as a function of junction temperature; maximum values. MLC295 102 handbook, halfpage MLC296 2 10halfpage handbook, Cd (pF) Cd (pF) 10 10 1 1 10 102 V R (V) 1 103 1 BYV27-50 to 200 f = 1 MHz; Tj = 25 C. 102 V R (V) 103 BYV27-300 and 400 f = 1 MHz; Tj = 25 C. Fig.22 Diode capacitance as a function of reverse voltage; typical values. 1997 Nov 24 10 Fig.23 Diode capacitance as a function of reverse voltage; typical values. 11 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series MGK653 102 handbook, halfpage 50 handbook, halfpage 25 Cd (pF) 7 50 10 2 3 1 1 102 10 VR (V) 103 MGA200 BYV27-500 and 600 f = 1 MHz; Tj = 25 C. Dimensions in mm. Fig.24 Diode capacitance as a function of reverse voltage; typical values. Fig.25 Device mounted on a printed-circuit board. IF halfpage ndbook, dI F dt t rr 10% t dI R dt 100% IR MGC499 Fig.26 Reverse recovery definitions. 1997 Nov 24 12 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers handbook, full pagewidth BYV27 series IF (A) DUT + 10 0.5 25 V t rr 1 50 0 t 0.25 0.5 IR (A) 1.0 Input impedance oscilloscope: 1 M, 22 pF; tr 7 ns. Source impedance: 50 ; tr 15 ns. Fig.27 Test circuit and reverse recovery time waveform and definition. 1997 Nov 24 13 MAM057 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers PACKAGE OUTLINE BYV27 series Hermetically sealed glass package; axial leaded; 2 leads SOD57 (1) k D G L a b L DIMENSIONS (mm are the original dimensions) UNIT b max. D max. G max. L min. mm 0.81 3.81 4.57 28 0 2.5 5 mm scale Note 1. The marking band indicates the cathode. OUTLINE VERSION REFERENCES IEC JEDEC EIAJ EUROPEAN PROJECTION ISSUE DATE 97-10-14 SOD57 DEFINITIONS Data Sheet Status Objective specification This data sheet contains target or goal specifications for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specifications. Limiting values Limiting values given are in accordance with the Absolute Maximum Rating System (IEC 134). Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. Application information Where application information is given, it is advisory and does not form part of the specification. LIFE SUPPORT APPLICATIONS These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Philips for any damages resulting from such improper use or sale. 1997 Nov 24 14 Philips Semiconductors Product specification Ultra fast low-loss controlled avalanche rectifiers BYV27 series NOTES 1997 Nov 24 15 Philips Semiconductors - a worldwide company Argentina: see South America Australia: 34 Waterloo Road, NORTH RYDE, NSW 2113, Tel. +61 2 9805 4455, Fax. +61 2 9805 4466 Austria: Computerstr. 6, A-1101 WIEN, P.O. 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The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any consequence of its use. Publication thereof does not convey nor imply any license under patent- or other industrial or intellectual property rights. Printed in The Netherlands 117027/1200/04/pp16 Date of release: 1997 Nov 24 Document order number: 9397 750 02663