Download: DISCRETE SEMICONDUCTORS DATA SHEET BY8400 series Fast high-voltage soft-recovery rectifiers Product specification 1996 May 24 Supersedes data of June 1994

DISCRETE SEMICONDUCTORS DATA SHEET handbook, 2 columns M3D117 BY8400 series Fast high-voltage soft-recovery rectifiers Product specification 1996 May 24 Supersedes data of June 1994 File under Discrete Semiconductors, SC01 Fast high-voltage soft-recovery BY8400 series rectifiers FEATURES • Glass passivated • High maximum operating temperature • Low leakage current handbook, halfpkage a • Excellent stability • MAM163Soft-recovery switching characteristics • Compact construction. APPLICATIONS Fig.1 Simplified outline (SOD61) and symbol. • For colour television and monitors up to 25 kHz • High-vo...
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DISCRETE SEMICONDUCTORS

DATA SHEET

handbook, 2 columns M3D117

BY8400 series Fast high-voltage soft-recovery

rectifiers Product specification 1996 May 24 Supersedes data of June 1994 File under Discrete Semiconductors, SC01,

Fast high-voltage soft-recovery BY8400 series

rectifiers

FEATURES

• Glass passivated • High maximum operating temperature • Low leakage current handbook, halfpkage a • Excellent stability • MAM163Soft-recovery switching characteristics • Compact construction. APPLICATIONS Fig.1 Simplified outline (SOD61) and symbol. • For colour television and monitors up to 25 kHz • High-voltage applications for: MARKING – Multipliers Cathode band colour codes – Slot-wound diode-split- PACKAGE transformers. TYPE NUMBER INNER BAND OUTER BANDCODE BY8404 SOD61AB black black DESCRIPTION BY8406 SOD61AC black green Rugged glass package, using a high BY8408 SOD61AD black red temperature alloyed construction. BY8410 SOD61AE black violet This package is hermetically sealed BY8412 SOD61AF black orange and fatigue free as coefficients of BY8414 SOD61AG black lilac expansion of all used parts are matched. BY8416 SOD61AH black grey BY8418 SOD61AI black brown The package is designed to be used in an insulating medium such as BY8420 SOD61AJ black dark blue resin, oil or SF6 gas. BY8424 SOD61AK black no band 1996 May 24 2, LIMITING VALUES In accordance with the Absolute Maximum Rating System (IEC 134). SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT VRSM non-repetitive peak reverse voltage BY8404 − 5 kV BY8406 − 8 kV BY8408 − 10 kV BY8410 − 12 kV BY8412 − 14 kV BY8414 − 17 kV BY8416 − 19 kV BY8418 − 22 kV BY8420 − 24 kV BY8424 − 30 kV VRRM repetitive peak reverse voltage BY8404 − 5 kV BY8406 − 8 kV BY8408 − 10 kV BY8410 − 12 kV BY8412 − 14 kV BY8414 − 17 kV BY8416 − 19 kV BY8418 − 22 kV BY8420 − 24 kV BY8424 − 30 kV VRW working reverse voltage BY8404 − 4 kV BY8406 − 6 kV BY8408 − 8 kV BY8410 − 10 kV BY8412 − 12 kV BY8414 − 14 kV BY8416 − 16 kV BY8418 − 18 kV BY8420 − 20 kV BY8424 − 24 kV 1996 May 24 3, SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT IF(AV) average forward current averaged over any BY8404 20 ms period; see Figs 2 to 11 − 20 mA BY8406 − 10 mA BY8408 − 5 mA BY8410 − 5 mA BY8412 − 5 mA BY8414 − 5 mA BY8416 − 3 mA BY8418 − 3 mA BY8420 − 3 mA BY8424 − 3 mA IFRM repetitive peak forward current note 1 − 500 mA Tstg storage temperature −65 +120 °C Tj junction temperature −65 +120 °C Note 1. Withstands peak currents during flash-over in a picture tube. 1996 May 24 4, ELECTRICAL CHARACTERISTICS Tj = 25 °C; unless otherwise specified. SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT VF forward voltage IF = 100 mA; Tj = Tj max; BY8404 see Figs 12 to 21 − − 20 V BY8406 − − 25 V BY8408 − − 35 V BY8410 − − 42 V BY8412 − − 52 V BY8414 − − 60 V BY8416 − − 70 V BY8418 − − 77 V BY8420 − − 88 V BY8424 − − 98 V IR reverse current VR = VRWmax; Tj = 120 °C − − 3 µA Qr recovery charge when switched from IF = 100 mA to − − 1 nC VR ≥ 100 V and dIF/dt = −200 mA/µs; see Fig.22 tf fall time when switched from IF = 100 mA to 100 − − ns VR ≥ 100 V and dIF/dt = −200 mA/µs; see Fig.22 trr reverse recovery time when switched from IF = 2 mA to − − 100 ns IR = 4 mA; measured at IR = 1 mA; see Fig.23 Cd diode capacitance VR = 0 V; f = 1 MHz BY8404 − 1.20 − pF BY8406 − 0.80 − pF BY8408 − 0.60 − pF BY8410 − 0.50 − pF BY8412 − 0.40 − pF BY8414 − 0.35 − pF BY8416 − 0.30 − pF BY8418 − 0.28 − pF BY8420 − 0.28 − pF BY8424 − 0.28 − pF 1996 May 24 5,

GRAPHICAL DATA

MBD315 MBD317 20 10 handbook, halfpage handbook, halfpage I F(AV) I F(AV) (mA) a = 1.57 (mA) a = 1.57 16 8 12684a= 6.32 a = 6.3242000100 200 0 100 200Tamb( o C) Taomb( C) BY8404. BY8406. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = 1.57: half sinewave. a = 1.57: half sinewave. a = 6.32: line output transformer application; see Fig.24. a = 6.32: line output transformer application; see see Fig.24.

Fig.2 Maximum permissible average forward Fig.3 Maximum permissible average forward

current as a function of ambient temperature. current as a function of ambient temperature. MBD319 MBD32155handbook, halfpage handbook, halfpage I F(AV) I F(AV) (mA) a = 6.32 a = 1.57 (mA) a = 6.32 a = 1.5744332211000100 o 200 0 100 200Tam( C) Tobam b ( C) BY8408. BY8410. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = 1.57: half sinewave. a = 1.57: half sinewave. a = 6.32: line output transformer application; see Fig.24. a = 6.32: line output transformer application; see see Fig.24.

Fig.4 Maximum permissible average forward Fig.5 Maximum permissible average forward

current as a function of ambient temperature. current as a function of ambient temperature. 1996 May 24 6, MBD323 MBD32555handbook, halfpage handbook, halfpage I F(AV) I F(AV) (mA) a = 6.32 a = 1.57 (mA) a = 6.32 a = 1.5744332211000100To200 0 100 200 am b ( C) Tamb( o C) BY8412. BY8414. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = 1.57: half sinewave. a = 1.57: half sinewave. a = 6.32: line output transformer application; see Fig.24. a = 6.32: line output transformer application; see Fig.24.

Fig.6 Maximum permissible average forward Fig.7 Maximum permissible average forward

current as a function of ambient temperature. current as a function of ambient temperature. MBD327 MBD32955handbook, halfpage handbook, halfpage I F(AV) I F(AV) (mA) (mA) 4433a= 6.32 a = 1.57 a = 6.32 a = 1.572211000100 200 0 100 200Tamb( o C) Taomb( C) BY8416. BY8418. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = 1.57: half sinewave. a = 1.57: half sinewave. a = 6.32: line output transformer application; see Fig.24. a = 6.32: line output transformer application; see Fig.24.

Fig.8 Maximum permissible average forward Fig.9 Maximum permissible average forward

current as a function of ambient temperature. current as a function of ambient temperature. 1996 May 24 7, MBD331 MBD33355handbook, halfpage handbook, halfpage I F(AV) I F(AV) (mA) (mA) 4433a= 6.32 a = 1.57 a = 6.32 a = 1.572211000100 o 200 0 100 200Tamob( C) Tamb( C) BY8420. BY8424. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = IF(RMS)/IF(AV); VR = VRWmax; Rth j-a ≤ 120 K/W. a = 1.57: half sinewave. a = 1.57: half sinewave. a = 6.32: line output transformer application; see Fig.24. a = 6.32: line output transformer application; see Fig.24.

Fig.10 Maximum permissible average forward Fig.11 Maximum permissible average forward

current as a function of ambient temperature. current as a function of ambient temperature. MBD314 MBD316 handbook, halfpage 200handbook, halfpageIFIF(mA) (mA) 160 160 120 120 80 80 40 4000010 20 30 40 50 60 0 10 20 30 40 50 60VF(V) V F (V) BY8404. BY8406. Dotted line: Tj = 120 °C. Dotted line: Tj = 120 °C. Solid line: Tj = 25 °C. Solid line: Tj = 25 °C.

Fig.12 Forward current as a function of maximum Fig.13 Forward current as a function of maximum

forward voltage. forward voltage. 1996 May 24 8, MBD318 MBD320 200 200 handbook, halfpage handbook, halfpageIFIF(mA) (mA) 160 160 120 120 80 80 40 4000020 40 60 80 100 120 0 20 40 60 80 100 120VF(V) V F (V) BY8408. BY8410. Dotted line: Tj = 120 °C. Dotted line: Tj = 120 °C. Solid line: Tj = 25 °C. Solid line: Tj = 25 °C. Fig.14 Forward current as a function of maximum Fig.15 Forward current as a function of maximum forward voltage. forward voltage. MBD322 MBD324 200 200 handbook, halfpage handbook, halfpageIFIF(mA) (mA) 160 160 120 120 80 80 40 4000040 80 120 160 200 0 40 80 120 160 200VF(V) V F (V) BY8412. BY8414. Dotted line: Tj = 120 °C. Dotted line: Tj = 120 °C. Solid line: Tj = 25 °C. Solid line: Tj = 25 °C. Fig.16 Forward current as a function of maximum Fig.17 Forward current as a function of maximum forward voltage. forward voltage. 1996 May 24 9, MBD326 MBD328 200 200 handbook, halfpage handbook, halfpageIFIF(mA) (mA) 160 160 120 120 80 80 40 4000040 80 120 160 200 0 40 80 120 160 200VF(V) V F (V) BY8416. BY8418. Dotted line: Tj = 120 °C. Dotted line: Tj = 120 °C. Solid line: Tj = 25 °C. Solid line: Tj = 25 °C. Fig.18 Forward current as a function of maximum Fig.19 Forward current as a function of maximum forward voltage. forward voltage. MBD330 MBD332 200 200 handbook, halfpage handbook, halfpageIFIF(mA) (mA) 160 160 120 120 80 80 40 4000040 80 120 160 200 0 50 100 150 200 250VF(V) V F (V) BY8420. BY8424. Dotted line: Tj = 120 °C. Dotted line: Tj = 120 °C. Solid line: Tj = 25 °C. Solid line: Tj = 25 °C. Fig.20 Forward current as a function of maximum Fig.21 Forward current as a function of maximum forward voltage. forward voltage. 1996 May 24 10, handbIFook, halfpage dIF dt 10% t Qr 90% IR tf MRC129 - 1 Fig.22 Reverse recovery definitions. handbook, full pagewidth MBH420

IF

(mA) 0.1 µF trr 2 mA 50Ω0t

IR

(mA) Rise time oscilloscope: tr < 7 ns. Generator pulse width: 1.0 µs. Fig.23 Test circuit and reverse recovery time waveform and definition. 1996 May 24 11, APPLICATION INFORMATION

V

handbook, full pagewidth R

VR

DUT IoVIVo V VRW RRM t Tnom MAM105 - 1 Fig.24 Typical operation circuit and voltage waveform. 1996 May 24 12, PACKAGE OUTLINE 5 max handbook, full pagewidth 0.6kamax 2.5LGLMBC899 - 1 max Dimensions in mm. Fig.25 SOD61. SOD61 package specification TYPE PACKAGE Lmin Gmax NUMBER CODE (mm) (mm) BY8404 SOD61AB 31.8 5.5 BY8406 SOD61AC 30.4 8.3 BY8408 SOD61AD 30.2 8.7 BY8410 SOD61AE 30.0 9.1 BY8412 SOD61AF 29.8 9.5 BY8414 SOD61AG 29.6 9.9 BY8416 SOD61AH 29.3 10.5 BY8418 SOD61AI 28.8 11.5 BY8420 SOD61AJ 28.3 12.5 BY8424 SOD61AK 27.8 13.5 1996 May 24 13,

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. 1996 May 24 14]
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