Symbols C J I F I (AV) I FSM I R I RSM I O I T I PPM

Transcript

1 Introduction EIC is a major international manufacturer and distributor of power discrete semiconductors. With over 15,000 parts and more than 50 package types, EIC offers one of the most comprehensive diode portfolios in the industry. EIC provides its customers with superb service and technical support, as well as high quality products at competitive prices. The company's processes and procedures from design to after sales service are fully ISO 9001, ISO 14001, and ISO/TS16949 certified and all products are RoHS compliant. With sales offices worldwide, and a reliable logistics process, EIC is able to offer customers quick responses to both technical enquiries and product delivery. The EIC Engineering team is focused on developing superior discrete products to satisfy the variety of requirements of new customer systems. The company also offers an extensive capability for research and development of special purpose devices, to satisfy unique customer applications. These are achieved with close attention to cost reduction and fast time to market. EIC had expanded a wafer fabrication plant in Bangkok. Together with the existing assembly facility, EIC will be able to offer customers full end to end manufacturing and product development support. This will allow the company to have even better control over product quality, cost and flexibility of supply. Faster development of new technologies and products will also result from this centralised manufacturing process. Electronics Industry Public Company Limited, established since 1984, is listed on the Stock Exchange of Thailand in the Electronics Component section under Technology Group, using 'EIC' as its trading abbreviation. To help you to choose the best components for your application, this product selection guide contains numerical, product and packaging information; plus contact addresses for additional support. 1

2 Symbols C J I F I (AV) I FSM I R I RSM I O I T I PPM I 2 t P D P PK R ӨJA R ӨJC R ӨJL Ta Tc T J T L Ttp Trr V (BR) V F V R V RM V RMS V RSM V RRM V RWM V Z Z ZK Z ZT Junction Capacitance DC Forward Current Average Forward Rectifier Current Peak Forward Surge Current Reverse Current Maximum Non-Repetitive Peak Current Mean Forward Current On-State Test Current Maximum peak impulse Current Rating for Fusing Steady State Power Dissipation Peak Power Dissipation Thermal Resistance (Junction to Ambient) Thermal Resistance (Junction to Case) Thermal Resistance (Junction to Lead) Ambient Temperature Case Temperature Junction Temperature Lead Temperature Tie-Point Temperature Reverse Recovery Time Reverse Breakdown Voltage Forward Voltage Reverse Voltage Maximum Recurrent Peak Reverse Voltage RMS Input Voltage Maximum Reverse Voltage (Clamping Voltage) at I RSM Repetitive Peak Reverse Voltage Working Peak Reverse Voltage (Stand-off Voltage) Zener Voltage Zener Impedance at I ZK Zener Impedance at I ZT 2

3 Contents Numerical Index Silicon Rectifier Diodes 14 Glass Passivated Rectifier Diodes 22 High Speed Switching Diodes High Voltage Rectifier Diodes 30 High Voltage Fast Recovery Rectifier Diodes 31 Cell Rectifier Diodes 33 Automotive Rectifier Diodes 34 Avalanche Rectifier Diodes Avalanche Fast Recovery Rectifier Diodes 36 Fast Recovery Rectifier Diodes.. 39 Fast Recovery Glass Passivated Rectifier Diodes 49 High Efficient Rectifier Diodes 51 Super Fast Rectifier Diodes 53 Super Fast Glass Passivated Rectifier Diodes 59 Schottky Barrier Rectifier Diodes 60 Zener Diodes 74 Transient Voltage Suppressor Diodes 148 Low Capacitance Transient Voltage Suppressor Diodes. 195 Ultra Low Capacitance Transient Voltage Suppressor Diodes. 204 Automotive Transient Suppressor Diodes 206 Silicon Bridge Rectifiers 208 Glass Passivated Bridge Rectifiers Mini Bridge Rectifiers 218 Avalanche Bridge Rectifiers 220 Fast Recovery Bridge Rectifiers 222 Bi-directional Trigger - DIACS 224 Thyristor - SIDAC 224 Packaging Information Package Outlines 234 EIC Worldwide Sales Offices and Representatives 244 3

4 Numerical Index Page Page 05NU41 to 05NU N5338B to 1N5388B KE Series N5391 to 1N A01 to 10A N5391G to 1N5399G 24 10ELS1 to 10ELS6 41 1N5400 to 1N KP Series N5400G to 1N5408G 24 10MQ040N 61 1N5415 to 1N MQ100N 61 1N5610 to 1N DF1 to 11DF4 53 1N DQ03 to 11DQ N5802 to 1N E1 to 11E6 14 1N5802US to 1N5806US 59 11ES1 to 11ES2 14 1N5807 to 1N DF4 to 15DF8 43 1N5807US to 1N5811US 56 15KP Series N5817 to 1N A1 to 1A7 14 1N5817WB to 1N5819WB 71 1F1 to 1F7 39 1N5820 to 1N G1 to 1G7 22 1N5820S to 1N5822S 63 1H1G to 1H8G 51 1N5913A to 1N5956A 139 1N4001 to 1N N5913B to 1N5956B 139 1N4001G to 1N4007G 22 1N N4148 to 1N N6267 to 1N N4148S 25 1N6267A to 1N6303A N4148W 27 1N6267C to 1N6303C N4148WS 27 1N6267CA to 1N6303CA N4148WT 27 1N746A to 1N759A 98 1N4447 to 1N N914,A,B 25 1N4448W 27 1N914W 27 1N4531 to 1N N914WT 28 1N4728 to 1N N957B to 1N984B 99 1N4728A to 1N4764A 120 1R5JH N4728AG to 1N4764AG 123 1R5JU N4728C to 1N4764C 120 1S1585 to 1S N4728G to 1N4764G 123 1S1885 to 1S N4933 to 1N S20 to 1SB0 60 1N4933G to 1N4937G 49 1S2076A 25 1N4954 Series 146 1SMA4728A to 1SMA4764A 124 1N5221 to 1N SMA5913A to 1SMA5957A 136 1N5221B to 1N5267B 96 1SMA5913B to 1SMA5957B 136 1N5338A to 1N5388A 145 1SMB5913A to 1SMB5956A 140 4

5 Numerical Index Page Page 1SMB5913B to 1SMB5956B 140 ABR1500 to ABR SR to 1SR ABR1500W to ABR1510W 221 1SR to 1SR ABR2500 to ABR SR to 1SR ABR2500W to ABR2510W 221 1SR to 1SR ABR3500 to ABR SR to 1SR ABR3500W to ABR3510W 221 1SS106 to 1SS ABR5000 to ABR SS130 to 1SS ABR5000W to ABR5010W 221 1SS165 to 1SS ABR600 to ABR SS176 to 1SS ABR800 to ABR SS181 to 1SS AG01 Series 53 1SS198 to 1SS AK03 to AK SS AKBL400 to AKBL SS270A 26 AM01A 22 1SS AP01C 39 1SS AR2500 to AR SS AR2500L to AR2512L 34 1SS AR3500 to AR SS AR3500L to AR3512L 34 1SS AR5000 to AR SS AR5000L to AR5012L 34 1SS88 69 AU01Series 39 21DQ09-21DQ10 61 AU02 Series 40 2EZ3.6D10 to 2EZ330D BA157 to BA EZ3.6D5 to 2EZ330D5 137 BAS SMCJ11 to 3.0SMCJ220A BAS SMCJ11C to 3.0SMCJ220CA BAS DF6 46 BAS16WS 27 30KP Series BAS19 to BAS DQ03 to 31DQ10 64 BAS216WS 27 3EZ3.9D10 to 3EZ200D BAS216WT 28 3EZ3.9D5 to 3EZ200D5 141 BAS316WS 27 3JH45 46 BAS KE Series BAS40/04/ 05/ TH41 32 BAS40W/04W/ 05W/ 06W 73 5KP Series BAS A05 to 6A10 20 BAS70-00 to BAS ABR1000 to ABR BAS81 to BAS

6 Numerical Index Page Page BAS85 to BAS86 69 BY BAT400D 73 BY133G 22 BAT41 to BAT48 69 BY251 to BY BAT42W to BAT43W 71 BY296 to BY BAT42WS 71 BY396 to BY BAT42WS to BAT43WS 71 BY to BY BAT42WT 71 BY8004 to BY BAT43WS 71 BYD13D to BYD13M 35 BAT43WT 71 BYD17D to BYD17M 35 BAT46W 71 BYD33D to BYD33M 36 BAT54 Series. 73 BYD37D to BYD37M 37 BAT54W 71 BYD37DA to BYD37MA 37 BAT54WS 71 BYD57D to BYD57V 37 BAT54WT 71 BYD77A to BYD77G 38 BAT81 to BAT86 69 BYG10D to BYG10M 36 BAV10 to BAV21 26 BYG20D to BYG20J 37 BAV100 to BAV BYG24D to BYG24J 37 BAV19W to BAV21W 27 BYT52A to BYT52M 43 BAV19WS to BAV21WS 27 BYT56A to BYT56M 46 BAV23 Series 29 BYV26A to BYV26E 36 BAV70 29 BYV to BYV BAV99 29 BYV36A to BYV36E 36 BAW56 29 BYV95A to BYV95C 36 BAW62 to BAW76 26 BYV96D to BYV96E 36 BAX12 to BAX12A 36 BYW27-50 to BYW BAX14 to BAX18 26 BYW32 to BYW36 44 BAY80 26 BYW54 to BYW56 35 BR1000 to BR BYW95A to BYW95C 38 BR1500 to BR BYW96D to BYW95E 36 BR1500W to BR1510W 212 BYX134GPL 35 BR2500 to BR BYX134PL 35 BR2500W to BR2510W 213 BZG03 Series 142 BR3500 to BR BZG04 Series 143 BR3500W to BR3510W 215 BZG05 Series 144 BR5000 to BR BZV55B Series 101 BR5000W to BR5010W 215 BZV55C Series 101 BR600 to BR BZW04 Series BR800 to BR BZW06 Series

7 Numerical Index Page Page BZW50 Series 181 EM2 Series 17 BZX55B Series 100 EP01C 39 BZX55C Series 100 EPS Series 168 BZX79B Series 102 ERA15-01 to ERA BZX79C Series 102 ERA22-02 to ERA BZX85B Series 132 ERA32-01 to ERA BZX85C Series 132 ERA CN18A to CN18M 33 ERA CN25A to CN25M 33 ERA to ERA CN3A to CN3M 33 ERA CN5A to CN5M 33 ERB12-01 to ERB CN8A to CN8M 33 ERB38-04 to ERB06 41 D20XB20 to D20XB ERB43-02 to ERB D25XB20 to D25XB ERB44-02 to ERB D32P to D60P 224 ERB D3SB10 to D3SB ERB to ERB D3SBA10 to D3SBA ERB D3SBA ERC04-02 to ERC D5SBA10 to D5SBA ERC05-06 to ERC DB101 to DB ERC25-04 to ERC DB3 224 ERC to ERC DB4 224 ERC DF005M to DF10M 219 ERD07-13 to ERD DF005S to DF10S 218 ERD28-04 to ERD DF15005M to DF1510M 219 ES1 Series 40 DF15005S to DF1510S 219 ES1A to ES1M 54 DL201 to DL ES2A to ES2D 56 DL4001 to DL ES2AA to ES2DA 56 DL4933 to DL ES3A to ES3M 57 DR200 to DR ESAC25 Series 48 DR200G to DR210G 24 EU1 Series 31 EG01 Series 53 EU2 Series 41 EG1 Series 53 F1200A 48 EGP20A to EGP20D 55 F1200D 48 EK03 to EK04 61 FBR1000 to FBR EL1 Series 55 FBR1500 to FBR EM01 Series 15 FBR1500W to FBR1510W 223 EM1Series 15 FBR2500 to FBR

8 Numerical Index Page Page FBR2500W to FBR2510W 223 GBPC6005 to GBPC FBR3500 to FBR GBU4A to GBU4M 209 FBR3500W to FBR3510W 223 GBU6A-M Series, 209 FBR5000 to FBR GBU8A to GBU8M 209 FBR5000W to FBR5010W 223 GF1A to GF1M 23 FBR600 to FBR GL41Y 23 FBR800 to FBR GLZ Series FEP16AP to FEP16JP 58 GN13 22 FEP30AP to FEP30JP 58 GN1A to GN1M 22 FES16AT to FES16JT 58 GN2A to GN2M 24 FES8AT to FES8JT 58 GN3A to GN3M 24 FHVR GNOA to GNOM 24 FKBL400 to FKBL GNTA to GNTM 24 FR101 to FR107-STR 42 GP02-20 to GP FR101G to FR107G-STR 49 GP10A to GP01Y 23 FR151 to FR157-STR 43 GP15A to GP15M 18 FR151G to FR157G-STR 49 GR15-G 32 FR201 to FR207-STR 45 GR1A to GR1M 49 FR201G to FR207G-STR 47 GR20-G 32 FR251 to FR257-STR 50 GR2A to GR2M 50 FR251G to FR257G-STR 45 GR3A to GR3M 50 FR301 to FR307-STR 50 GRN3 to GRN7 49 FR301G to FR307G-STR 46 GS1S 32 FR501 to FR HER101 to HER FR601 to FR HER151 to HER FR801 to FR HER201 to HER FST10120 to FST HER251 to HER FST20120 to FST HER301 to HER FST31120 to FST HER501 to HER FTB2000AA to FTB2000AG 48 HER601 to HER FTB2000KA to FTB2000KG 48 HFR125 to HFR G105 to G HFR G105C to G270C 224 HSS100 to HSS GBJ2500 to GBJ HUF GBPC15005 to GBPC HVR112 to HVR GBPC25005 to GBPC HVR125 to HVR GBPC25005W to GBPC HVR230 to HVR GBPC35005 to GBPC HVR312 to HVR

9 Numerical Index Page Page HVR MBR0520L 71 HVR3509H 30 MBR HVR MBR HVR512 to HVR MBR1035 to MBR HZKxxL Series MBR150 to MBR HZKxxLL Series 76 MBR1635 to MBR HZSxx Series 77 MBR1660CT to MBR16100CT 65 HZSxxL Series MBR20200CT 68 HZSxxLL Series 78 MBR2035CT to MBR2060CT 60 HZxx Series 105 MBR2535CT to MBR2560CT 66 HZxxL Series 86 MBR3035PT to MBR3060PT 66 KBL400 to KBL MBR3045CT 66 KBL400G to KBL410G 216 MBR320 to MBR KBP200 to KBP MBR4035PT to MBR4060PT 66 KBPC1000 to KBPC MBR735 to MBR KBPC1500 to KBPC MBRB KBPC2500 to KBPC MBRB KBPC3500 to KBPC MBRB3045CT 66 KBPC5000 to KBPC MBRF16H35 to MBRF16H60 65 KBU4A to KBU4M 208 MBRF20200CT 68 KBU6A to KBU6M 208 MBRS KBU8A to KBU8M 209 MBRS120T3 67 LCE Series MBRS130LT3 67 LL101A to LL101C 70 MBRS LL103A to LL103C 70 MBRS240LT3G 67 LL41 to LL48 69 MBRS LL4148 to LL MBRS LL MBRS LL MBRS330T3 67 LL5817 to LL MBRS340T3 67 LL MBRS360T3 67 LMN1A to LMN1M 22 MBRS LMR1A to LMR1M 49 MM1Z2V0B Series 107 LMS1A to LMS1M 59 MM1Z2V4 Series 106 MA700 to MA700A 70 MM1Z4678 Series 108 MB1M to MB10M 128 MM1Z52xxB Series 109 MB1S to MB10S 128 MM3Z2V0 Series 79 MBR MM3Z2V0B Series 80 9

10 Numerical Index Page Page MM5Z2B4 Series 75 PTZ Series 125 MM5Z2V4 Series, 74 R15KP Series MMBD4148 Series 29 R2G to R2M 35 MMBD R2KY 35 MMBD RB441Q MMBZ5221B Series 85 RB501V MMZJ Series 110 RB520S MR2500 to MR RB521G MR2500L to MR2512L 34 RB521S MR2535 to MR RB521S MR2535L to MR2540L 206 RB721Q MR RB751S MR3501 to MR RBV1000 to RBV MR3501L to MR3512L 34 RBV1000D to RBV1010D 212 MR5000 to MR RBV1500 to RBV MR5000L to MR5012L 34 RBV1500D to RBV1510D 212 MR750 to MR RBV2500 to RBV MR850 to MR RBV2500D to RBV2510D 214 MRA4003 to MRA RBV3500 to RBV MS10180 to MS RBV401 to RBV MS16180 to MS RBV5000 to RBV MS20180 to MS RBV600 to RBV MTZJ Series 110 RBV600D to RBV610D 211 MUR120 to MUR RBV800 to RBV MUR1520/S 58 RBV800D to RBV810D 211 MUR3020WT to MUR3040WT 59 RD2.0E to RD39E MZ1110 to MZ RD2.0ES to RD39ES MZ4728 to MZ RD2.0F to RD82F MZ55C3V0 to MZ55C RD2A 51 MZ5913A to MZ5956A 135 RD4.7JS to RD39JS MZ5913B to MZ5956B 135 RG10 Series 53 MZ85C3V0 to MZ85C RG2 Series 55 NS8AT to NS8MT 21 RG4 Series 55 P4KE Series RGF1A to RGF1M 42 P600A to P600M 21 RGL1A to RGL1M 43 P6KE Series RGP02-12E to RGP02-20E 32 P6SMB Series 165 RGP10A to RGP10M 41 P800A to P800K 21 RGP15A to RG15M 43 10

11 Numerical Index Page Page RGP20A to RGP20J 45 SB220 to SB2B0 62 RGP30A to RGP30M 47 SB220S to SB2B0S 62 RH1 Series 40 SB320 to SB3B0 63 RHRP660F 59 SB320S to SB3B0S 63 RK13 to RK19 61 SB5150 to SB RK33 to RK39 62 SB520 to SB5B0 64 RK43 to RK49 64 SB520S to SB5B0S 64 RL251 to RL SBL1030 to SBL RLZ Series 115 SBL1030CT to SBL1640CT 65 RM10 Series 18 SBL2030PT to SBL2040PT 66 RM11A to RM11C 17 SBL3030PT to SBL3040PT 66 RM2 Series 17 SBL4030PT to SBL4040PT 66 RM25 35 SBO20 to SBOB0 62 RM3 Series 19 SBT20 to SBTB0 63 RM4 Series 19 SD101A to SD101C 70 RS1A to RS1M 42 SD101AW - CW 71 RS3A to RS3K 46 SD101AWS to SD101CWS 71 RU1 Series 39 SD103A to SD103C 70 RU2 Series 43 SD103AW - CW 71 RU3 Series 44 SD103AWS to SD103CWS 71 RU4 Series 44 SD S15VB20 to S15VB SD S1A to S1M 16 SD S1T 30 SDB412WS 72 S1ZB20 to S1ZB SE1A to SE1M 51 S25VB20 to S25VB SE2A to SE2M 51 S2A to S2M 18 SE3A to SE3M 52 S2L20U 59 SE5A to SE5M 52 S5277B to S5277N 16 SEOA to SEOM 51 S5295B to S5295J 40 SETA to SETM 52 S5566B to S5566N 16 SF11 to SF19 54 S5688B to S5688N 16 SF11G to SF19G 59 S5KP Series SF21 to SF29 56 SA Series SF31 to SF39 57 SAC Series 195 SF51 to SF59 57 SB A 70 SF61 to SF69 57 SB A 70 SF61G to SF69G 59 SB120 to SB1B0 60 SFO1 to SFO

12 Numerical Index Page Page SFT1 to SFT9 56 SMCJLCE6.5 to SMCJLCE170A SHV- 02JN 30 SMF5.0A Series 150 SHV SML4728 to SML SHV- 03S 31 SML4728A to SML4764A 130 SHV- 05EN 31 SMLJ-LCxx Series SHV- 06EN 31 SN13 14 SHV- 06JN 30 SN1A to SN1M 14 SHV- 08EN 31 SN1N to SN1R 30 SHV-01JN 30 SN21 to SN25 20 SHV SN2A to SN2M 19 SHV SN3A to SN3M 20 SHV-05J 30 SN3AS to SN3MS 20 SHV-06HK 30 SN3N to SN3R 31 SK SN5A to SN5M 20 SK12 to SK1B 60 SN5N to SN5R 31 SK SNOA to SNOM 18 SK22 to SK2B 62 SNWA to SNWM 14 SK22S to SK2BS 62 SR1A to SR1M 42 SK32 to SK3B 63 SR1N - SR1R 32 SK32A to SK3BA 63 SR220 to SR SK32S to SK3BS 63 SR26 to SR29 45 SK52 to SK5B 64 SR2A to SR2M 45 SK52S to SK5BS 6 SR36 to SR39 45 SKN0 to SKN2 63 SR3A to SR3M 46 SKN0S to SKN2S 63 SR520 to SR SKN7 to SKN9 60 SRA7 to SRA9 42 SL12 to SL13 61 SRN3 to SRN7 42 SM8S Series 184 SROA to SROM 43 SMAJ5.0 Series SRR0 to SRR6 46 SMAZ Series 129 SRTA to SRTM 45 SMBJ5.0 Series SS1A to SS1M 54 SMBJ5338A to SMBJ5388A 147 SS2A to SS2M 56 SMBJ5338B to SMBJ5388B 147 SS3A to SS3M 57 SMBJ-LC5.0 to SMBJ-LC188A SS5A to SS5M 57 SMC1200D 50 SSOA to SSOM 55 SMC SSTA to SSTM 56 SMC2000D 50 STB6 Series SMCJ5.0 Series STBB Series

13 Numerical Index Page Page STBK Series Z1110A to Z1300A 120 STBN Series Z1T-100B Series 121 STBP Series ZM4728A to ZM4764A 123 STBS Series ZMM2.4 to ZMM STU6 Series ZMM5225 to ZMM STUB Series ZMM5225B to ZMM5267B 96 STUK Series ZMU100 to ZMU STUN Series ZMY Series 131 STUP Series ZPD Series 119 STUS Series ZPY Series 134 SZ10 Series 120 ZY Series 138 SZ15 Series 120 SZ25 Series 132 SZ30 Series 139 SZ35 Series 139 SZ40 Series 137 SZ45 Series 137 SZ50 Series 141 SZ55 Series 141 SZ60 Series 145 SZ65 Series 145 TGL34 Series TGL41 Series TPSMC Series 207 TVR1B to TVR1J 40 TVR2B to TVR2J 40 TZMC Series 116 TZS4678 to TZS UF1001 to UF UF4001 to UF UF5404 to UF UG2A to UG2D 55 ULCE Series W005G to W10G 216 Z043 to Z Z043A to Z0200A 118 Z043B to Z0200B 118 Z1110 to Z

14 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) 1A1 Series, 1 A, Case Type: R-1 1A A A A A A A N4001/SN1A Series, 1 A, Case Type: DO-41/SMA 1N4001 SN1A N4002 SN1B N4003 SN1D N4004 SN1G N4005 SN1J N4006 SN1K N4007 SN1M BY133 SN BYW27/SNWA Series, 1 A, Case Type: DO-41/SMA BYW27-50 SNWA BYW SNWB BYW SNWD BYW SNWG BYW SNWJ BYW SNWK BYW SNWM E1 Series, 1 A, Case Type: DO-41 11E E E E ES1 Series, 1 A, Case Type: DO-41 11ES ES

15 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) 1SR Series, 1 A, Case Type: DO-41 1SR SR SR SR Series, 1 A, Case Type: DO-41 1SR SR SR SR SR Series, 1 A, Case Type: SMA 1SR SR EM01 Series, 1 A, Case Type: DO-41 EM EM01A EM01Z EM1 Series, 1 A, Case Type: DO-41 EM EM1A EM1B EM1C ERA15-01 Series, 1 A, Case Type: DO-41 ERA ERA ERA ERA ERA ERA

16 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) ERB12-01 Series, 1 A, Case Type: DO-41 ERB ERB ERB ERB ERB MRA4003 Series, 1 A, Case Type: SMA MRA (T L ) MRA (T L ) MRA (T L ) MRA (T L ) MRA (T L ) S1A Series, 1 A, Case Type: SMA S1A (T L ) S1B (T L ) S1D (T L ) S1G (T L ) S1J (T L ) S1K (T L ) S1M (T L ) S5277 Series, 1.0 A, Case Type: DO-41 S5277B S5277G S5277J S5277N S5566B Series, 1 A, Case Type: DO-41 S5566B S5566G S5566J S5566N S5688B Series, 1 A, Case Type: R-1 S5688B S5688G S5688J S5688N

17 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) 1S1885 Series, 1 A, Case Type: D2 1S S S S EM2 Series, 1.2 A, Case Type: DO-41 EM EM2A EM2B ERC04-02 Series, 1.2 A, Case Type: D2A ERC ERC ERC ERC ERC05-06 Series, 1.2 A, Case Type: D2 ERC ERC ERC ERC25-04 Series, 1.2 A, Case Type: D2 ERC ERC RM11A Series, 1.2 A, Case Type: D2 RM11A RM11B RM11C RM2 Series, 1.2 A, Case Type: D2A RM2Z RM RM2A RM2B RM2C

18 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) RM10 Series, A, Case Type: D2 RM RM10A RM10B RM10Z N5391/SNOA Series, 1.5 A, Case Type: DO-41/SMA 1N5391 SNOA N5392 SNOB N5393 SNOD N5394 SNOE N5395 SNOG N5396 SNOH N5397 SNOJ N5398 SNOK N5399 SNOM GP15A Series, 1.5 A, Case Type: D2 GP15A GP15B GP15D GP15G GP15J GP15K GP15M S2A Series, 1.5 A, Case Type: SMB S2A (T L ) S2B (T L ) S2D (T L ) S2G (T L ) S2J (T L ) S2K (T L ) S2M (T L ) ERD07-13 Series, 1.5 A, Case Type: DO-201AD ERD (TL) ERD (TL)

19 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) RM4 Series, 1.7 A, Case Type: DO-201AD RM4Y RM4Z RM DL201 Series, 2 A, Case Type: D2 DL DL DL DL DL DL DL DR200/SN2A Series, 2 A, Case Type: D2/SMB DR200 SN2A DR201 SN2B DR202 SN2D DR204 SN2G DR206 SN2J DR208 SN2K DR210 SN2M RL251 Series, 2.5 A, Case Type: D2A RL RL RL RL RL RL RL RM3 Series, 2.5 A, Case Type: DO-201AD RM RM3A RM3B

20 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) BY251/SN21 Series, 3 A, Case Type: DO-201AD/SMC BY251 SN BY252 SN BY253 SN BY254 SN BY255 SN N5400 /SN3A Series, 3 A, Case Type: DO-201AD/SMC 1N5400 SN3A N5401 SN3B N5402 SN3D N5404 SN3G N5406 SN3J N5407 SN3K N5408 SN3M SN3AS Series, 3.0 A, Case Type: SMB SN3AS SN3BS SN3DS SN3GS SN3JS SN3KS SN3MS BY550/SN5A Series, 5 A, Case Type: DO-201AD/SMC BY SN5A BY SN5B BY SN5D BY SN5G BY SN5J BY SN5K BY SN5M A05 Series, 6 A, Case Type: D6 6A A A A A A A

21 Silicon Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta = 25 C at Ta = 25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (µa) P600A Series, 6 A, Case Type: D6 P600A P600B P600D P600G P600J P600K P600M P800A Series, 8 A, Case Type: D6 P800A P800B P800D P800G P800J P800K NS8AT Series, 8 A, Case Type: TO-220AC NS8AT (Tc) NS8BT (Tc) NS8DT (Tc) NS8GT (Tc) NS8JT (Tc) NS8KT (Tc) NS8MT (Tc) A01 Series, 10 A, Case Type: D6 10A A A A A A A

22 Glass Passivated Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) GL34A Series, 0.5 A, Case Type: Mini MELF (Plastic) GL34A (T T ) GL34B (T T ) GL34D (T T ) GL34G (T T ) GL34J (T T ) G1 Series, 1 A, Case Type: R-1 1G G G G G G G AM01A, 1 A, Case Type: M1A AM01A LMN1A Series, 1 A, Case Type: M1A LMN1A LMN1B LMN1D LMN1G LMN1J LMN1K LMN1M N4001G/GN1A Series, 1 A, Case Type: DO-41/SMA 1N4001G GN1A N4002G GN1B N4003G GN1D N4004G GN1G N4005G GN1J N4006G GN1K N4007G GN1M BY133G GN

23 Glass Passivated Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) GF1A Series, 1 A, Case Type: SMA GF1A GF1B GF1D GF1G GF1J GF1K GF1M DL4001 Series, 1 A, Case Type: MELF (Plastic) DL DL DL DL DL DL DL GP10A Series, 1 A, Case Type: DO-41 GP10A GP10B GP10D GP10G GP10J GP10K GP10M GP10N GP10Q GP10T GP10V GP10W GP10Y GL41Y, 1 A, Case Type: MELF GL41Y

24 Glass Passivated Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) 1N5391G/GNOA Series, 1.5 A, Case Type: DO-41/SMA 1N5391G GNOA N5392G GNOB N5393G GNOD N5394G GNOE N5395G GNOG N5396G GNOH N5397G GNOJ N5398G GNOK N5399G GNOM DR200G/GN2A Series, 2 A, Case Type: D2/SMB DR200G GN2A DR201G GN2B DR202G GN2D DR204G GN2G DR206G GN2J DR208G GN2K DR210G GN2M GNTA Series, 2.5 A, Case Type: SMB GNTA GNTB GNTD GNTG GNTJ GNTK GNTM N5400G/GN3A Series, 3 A, Case Type: DO-201AD/SMC 1N5400G GN3A N5401G GN3B N5402G GN3D N5404G GN3G N5406G GN3J N5407G GN3K N5408G GN3M BY GS, 6 A, Case Type: DO-201AD BY GS

25 High Speed Switching Diodes Max. Average Max. Max. Repetitive Max. Max. Forward Max. Reverse Max. Reverse Max. Forward Reverse Peak Forward Repetitive Voltage Drop Current Recovery Power Rectified Current Voltage Current Surge Current at Ta=25 C at Ta=25 C Time (1) Dissipation Ta VRM IFRM IFSM IF IR Trr PD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (ns) (mw) 1N4148 Series, Case Type: DO-35 1N N na N N N N N N4447 Series, Case Type: DO-35 1N N N N N N4531 Series, Case Type: DO-34 1N na N na N4148S N914 Series, Case Type: DO-35 1N na N914A na N914B na S1585 Series, Case Type: DO-35 1S S S S S2076A SS130 Series, Case Type: DO-34 1SS SS SS SS Note : (1) Reverse Recovery test conditions : I F = 1A, di/dt = 50 A/ms 25

26 High Speed Switching Diodes Max. Average Max. Max. Repetitive Max. Max. Forward Max. Reverse Max. Reverse Max. Forward Reverse Peak Forward Repetitive Voltage Drop Current Recovery Power Rectified Current Voltage Current Surge Current at Ta=25 C at Ta=25 C Time (1) Dissipation Ta VRM IFRM IFSM IF IR Trr PD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (ns) (mw) 1SS176 Series, Case Type: DO-34 1SS SS SS SS270A BAS BAV10 Series, Case Type: DO-35 BAV BAV BAV BAV BAW62 Series, Case Type: DO-35 BAW BAW BAW BAV100 Series, Case Type: Mini MELF BAV BAV BAV BAV BAV BAX14 Series, Case Type: DO-35 BAX A BAX A BAY LL4148 Series, Case Type: Mini MELF LL LL LL LL LL

27 High Speed Switching Diodes Max. Average Max. Max. Repetitive Max. Max. Forward Max. Reverse Max. Reverse Max. Forward Reverse Peak Forward Repetitive Voltage Drop Current Recovery Power Rectified Current Voltage Current Surge Current at Ta=25 C at Ta=25 C Time (1) Dissipation Ta VRM IFRM IFSM IF IR Trr PD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (ns) (mw) BAV19W - 21W, Case Type: SOD-123 BAV19W BAV20W BAV21W N4448W, Case Type: SOD-123 1N4448W N914W, Case Type: SOD-123 1N914W N4148W/WS/WT, Case Type: SOD-123, SOD-323, SOD-523 1N4148W N4148WS N4148WT SS355 Series, Case Type: SOD-323 1SS BAS16WS, Case Type: SOD-323 BAS16WS BAV19WS Series, Case Type: SOD-323 BAV19WS BAV20WS BAV21WS BAS216WS - 316WS, BAS321, Case Type: SOD-323 BAS216WS BAS316WS BAS SS352 Series, Case Type: SOD-323 1SS

28 High Speed Switching Diodes Max. Average Max. Max. Repetitive Max. Max. Forward Max. Reverse Max. Reverse Max. Forward Reverse Peak Forward Repetitive Voltage Drop Current Recovery Power Rectified Current Voltage Current Surge Current at Ta=25 C at Ta=25 C Time (1) Dissipation Ta VRM IFRM IFSM IF IR Trr PD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (ns) (mw) RB520S-30, Case Type: SOD-523 RB520S BAS216WT, Case Type: SOD-523 BAS216WT N914WT, Case Type: SOD-523 1N914WT BAS521, Case Type: SOD-523 BAS SS181-7 Series, Case Type: SOT-23 1SS SS SS SS226, Case Type: SOT-23 1SS BAS16, Case Type: SOT-23 BAS BAS (nA) 3(µs) 250 BAS19-21, Case Type: SOT-23 BAS BAS BAS

29 High Speed Switching Diodes Max. Average Max. Max. Repetitive Max. Max. Forward Max. Reverse Max. Reverse Max. Forward Reverse Peak Forward Repetitive Voltage Drop Current Recovery Power Rectified Current Voltage Current Surge Current at Ta=25 C at Ta=25 C Time (1) Dissipation Ta VRM IFRM IFSM IF IR Trr PD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (ns) (mw) BAS70 Series, Case Type: SOT-23 BAS BAS BAS BAS BAV23 Series, Case Type: SOT-23 BAV BAV23SE BAV23CC BAV23CA BAV70 & BAV99, Case Type: SOT-23 BAV BAV BAW56, Case Type: SOT-23 BAW BAT400D, Case Type: SOT-23 BAT400D MMBD914/MMBD7000, Case Type: SOT-23 MMBD MMBD MMBD4148, Case Type: SOT-23 MMBD MMBD4148SE MMBD4148CC MMBD4148CA

30 High Voltage Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) HVR125 Series, A, Case Type: DO-41 HVR HVR HVR HVR HVR HVR HVR GP02-20 Series, 0.25 A, Case Type: DO-41 GP GP GP GP GP HVR230 Series, A, Case Type: D2 HVR HVR HVR112/SN1N Series, 1 A, Case Type: DO-41/SMA HVR112 SN1N HVR114 SN1O HVR116 SN1P HVR118 SN1Q HVR120 SN1R S1T SHV-01JN - SHV-06HN, 2-30 ma, Case Type: M1A & DO-41 SHV-01JN* SHV-02JN SHV-06JN SHV-05J SHV SHV-06HN * M1A Package HVR3509/HVR3509H, 0.35A, Case Type: DO-201AD HVR A HVR3509H 0.35A

31 High Voltage Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C Ta VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) HVR4509, 0.45A, Case Type: DO-201AD HVR A HVR312/SN3N Series, 3 A, Case Type: DO-201AD/SMC HVR312 SN3N HVR314 SN3O HVR316 SN3P HVR318 SN3Q HVR320 SN3R HVR512/SN5N Series, 5 A, Case Type: DO-201AD/SMC HVR512 SN5N HVR514 SN5O HVR516 SN5P HVR518 SN5Q HVR520 SN5R Note: V RRM > 2000 V is available on special request High Voltage Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Reverse Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Recovery Forward Surge Voltage Drop Current Current Voltage Time Current at Ta=25 C at Ta=25 C Ta VRRM Trr IFSM IF IR Axial Lead SMD (A) ( C) (V) (ns) (A) (V) (A) (μa) SHV-02 -SHV-03S, 2 ma, Case Type: M1A SHV (1) SHV (1) SHV-03S (1) SHV- 05EN - SHV- 08EN, 2 ma, Case Type: DO-41 SHV-05EN (1) SHV-06EN (1) SHV-08EN (2) Notes: (1) Reverse Recovery Test Conditions : I F = 10 ma, I RP = 10 ma. (2) Reverse Recovery Test Conditions : I F = 0.5A, I R = 1 A, Irr = 0.25 A 31

32 High Voltage Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time (1) Ta VRRM IFRM IFSM IF IR Trr (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) BY8004 Series, Case Type: DO-41 BY * BY * * Tj=120 C HFR125 Series, A, Case Type: DO HFR HFR HFR HUF150, 0.5 A, Case Type: DO-41 HUF GS1S, 0.2 A, Case Type: SMA GS1S RGP02 Series, 0.5 A, Case Type: DO-41 RGP02-12E RGP02-14E RGP02-16E RGP02-18E RGP02-20E SR1P Series, 0.5 A, Case Type: SMA SR1N SR1O SR1P SR1R GR15 Series, 1 A, Case Type: DO-215AC GR15-G GR20-G UHVR112, 1.0A Case Type: DO-41 UHVR TH41 Series, 3 A, Case Type: DO-201AD 3TH µs (2) FHVR1120, 0.2A Case Type: D2 FHVR Notes: (1) Reverse Recovery test conditions : I F = 0.5A, I R = 1 A, Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 100 ma, I R = 100 ma

33 Cell Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C I Ta V RRM I FRM I FSM V I F I R (A) ( C) (V) (A) (A) (V) (A) (μa) CN3 Series, 3 A, Case Type: C3A CN3A CN3B CN3D CN3G CN3J CN3K CN3M CN5 Series, 5 A, Case Type: C5A CN5A CN5B CN5D CN5G CN5J CN5K CN5M CN8 Series, 8 A, Case Type: C8A CN8A CN8B CN8D CN8G CN8J CN8K CN8M CN18 Series, 18 A, Case Type: C18A CN18A CN18B CN18D CN18G CN18J CN18K CN18M CN25 Series, 25 A, Case Type: C18A CN25A CN25B CN25D CN25G CN25J CN25K CN25M

34 Automotive Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C Ta VRRM IFRM IFSM IF IR (A) ( C) (V) (A) (A) (V) (A) (μa) AR2500/MR2500 Series, 25 A, Case Type: BUTTON/MR AR2500 (1) MR2500 (1) AR2501 (1) MR2501 (1) AR2502 (1) MR2502 (1) AR2504 (1) MR2504 (1) AR2506 (1) MR2506 (1) AR2508 (1) MR2508 (1) AR2510 (1) MR2510 (1) AR2512 (1) MR2512 (1) AR3500/MR3500 Series, 35 A, Case Type: BUTTON/MR AR3500 (1) MR3500 (1) AR3501 (1) MR3501 (1) AR3502 (1) MR3502 (1) AR3504 (1) MR3504 (1) AR3506 (1) MR3506 (1) AR3508 (1) MR3508 (1) AR3510 (1) MR3510 (1) AR3512 (1) MR3512 (1) AR5000/MR5000 Series, 50 A, Case Type: BUTTON/MR AR5000 (1) MR5000 (1) AR5001 (1) MR5001 (1) AR5002 (1) MR5002 (1) AR5004 (1) MR5004 (1) AR5006 (1) MR5006 (1) AR5008 (1) MR5008 (1) AR5010 (1) MR5010 (1) AR5012 (1) MR5012 (1) MR750 Series, 22 A, Case Type: D6 MR (T L ) MR (T L ) MR (T L ) MR (T L ) MR (T L ) MR (T L ) MR (T L ) Note: (1) Wire leads version available in case type D6 ; Add suffix "L" e.g. AR2500L 34

35 Avalanche Rectifier Diodes Max. Allowable Max. Repetitive Min. Avalanche Max. Avalanche Max. Peak Max. Reverse Avalanche Current Peak Reverse Breakdown Breakdown Forward Surge Current (Note 1) Voltage 1 ma 1 ma Current at Ta=25 C IZSM (A) VRRM VBR(Min) VBR(Max) IFSM IR (V) (V) (V) (A) (μa) R2G Series, 1 A, Case Type: D2 R2G R2M R2KN R2KS R2K BYD13D Series, 1.4 A, Case Type: DO-41 BYD13D BYD13G BYD13J BYD13K BYD13M BYD17D Series, 1.5 A, Case Type: MELF(Pastic) BYD17D BYD17G BYD17J BYD17K BYD17M BYW54 Series, 2.0 A, Case Type: D2 BYW BYW BYW R2KY Series, A, Case Type: D2 R2KY RM BYX134PL Series, 0.05 A, Case Type: D2 BYX134PL * For case type DO-41 ; Add suffix "G" e.g. BYX134GPL Note : (1) 100 µs single square pulse 35

36 Avalanche Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Min. Avalanche Max. Peak Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Breakdown Forward Surge Voltage Drop Current Recovery Current Voltage 100 μa Current at Ta=25 C at Ta=25 C Time Ttp VRRM VBR(Min) IFSM IF IR Trr (1) (A) ( C) (V) (V) (A) (V) (A) (ma) (ns) BAX12 Series, 0.4 A, Case Type: DO-35 BAX BAX12A BYV26A Series, 1 A, Case Type: DO-41 BYV26A BYV26B BYV26C BYV26D BYV26E BYD33D Series, 1.3 A, Case Type: DO-41 BYD33D BYD33G BYD33J BYD33K BYD33M BYV36 Series, A, Case Type: DO-15 BYV36A BYV36B BYV36C BYV36D BYV36E BYV95 Series, 1.5 A, Case Type: D2 BYV95A BYV95B BYV95C BYV96D BYV96E BYG10D - M Series, 1.5 A, Case Type: SMA BYG10D μs BYG10G μs BYG10J μs BYG10K μs BYG10M μs Note : (1) Reverse Recovery test conditions : I F = 0.5A, I R = 1 A, Irr = 0.25 A 36

37 Avalanche Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Min. Avalanche Max. Peak Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Breakdown Forward Surge Voltage Drop Current Recovery Current Voltage 100 μa Current at Ta=25 C at Ta=25 C Time Ttp VRRM VBR(Min) IFSM IF IR Trr (1) (A) ( C) (V) (V) (A) (V) (A) (ma) (ns) BYG20D - J Series, 1.5 A, Case Type: SMA BYG20D BYG20G BYG20J BYG24D - J Series, 1.5 A, Case Type: SMA BYG24D BYG24G BYG24J BYD37D - M Series, 1.5 A, Case Type: MELF(Pastic) BYD37D (Ttp) BYD37G (Ttp) BYD37J (Ttp) BYD37K (Ttp) BYD37M (Ttp) BYD37DA - MA Series, 1.5 A, Case Type: SMA BYD37DA (Ttp) BYD37GA (Ttp) BYD37JA (Ttp) BYD37KA (Ttp) BYD37MA (Ttp) BYD57D - V Series, A, Case Type: MELF(Pastic) BYD57D (Ttp) BYD57G (Ttp) BYD57J (Ttp) BYD57K (Ttp) BYD57M (Ttp) BYD57U (Ttp) BYD57V (Ttp) Note : (1) Reverse Recovery test conditions : I F = 0.5A, I R = 1 A, Irr = 0.25 A 37

38 Avalanche Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Min. Avalanche Max. Peak Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Breakdown Forward Surge Voltage Drop Current Recovery Current Voltage 100 μa Current at Ta=25 C at Ta=25 C Time Ttp VRRM VBR(Min) IFSM IF IR Trr (1) (A) ( C) (V) (V) (A) (V) (A) (ma) (ns) BYD77A - G Series, A, Case Type: MELF(Pastic) BYD77A (Ttp) BYD77B (Ttp) BYD77C (Ttp) BYD77D (Ttp) BYD77E (Ttp) BYD77F (Ttp) BYD77G (Ttp) BYD77AA - GA Series, A, Case Type: SMA BYD77AA (Ttp) BYD77BA (Ttp) BYD77CA (Ttp) BYD77DA (Ttp) BYD77EA (Ttp) BYD77FA (Ttp) BYD77GA (Ttp) BYV27 Series, 2 A, Case Type: DO-41 BYV BYV BYV BYW95 Series, 3.0 A, Case Type: DO-201AD BYW95A BYW95B BYW95C BYW96D BYW96E Note : (1) Reverse Recovery test conditions : I F = 0.5A, I R = 1 A, Irr = 0.25 A 38

39 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) 1F1 Series, 1 A, Case Type: R-1 1F (1) 1F (1) 1F (1) 1F (1) 1F (1) 1F (1) 1F (1) ERA34-10/EP01C A, Case Type: DO-41 ERA (3) EP01C (3) AP01C (3) EU1 Series, A, Case Type: DO-41 EU1Z (2) EU (2) EU1A (2) EU1C (2) RU1 Series, A, Case Type: D2 RU (2) RU1A (2) RU1B (2) RU1C (2) AU01 Series, 0.5 A, Case Type: DO-41 AU (2) AU01A (2) AU01Z (2) ERA22-02 Series, 0.5 A, Case Type: DO-41 ERA (3) ERA (3) ERA (3) ERA (3) ERA (3) ERB43-02 Series, 0.5 A, Case Type: DO-41 ERB (3) ERB (3) ERB (3) ERB (3) Notes: (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma (3) Reverse recovery test conditions : I F = 100 ma, I R = 100 ma 39

40 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) TVR1 Series, 0.5 A, Case Type: DO-41 TVR1B (1) 300 (3) TVR1G (1) 300 (3) TVR1J (1) 300 (3) TVR2 Series, 0.5 A, Case Type: D2 TVR2B (4) TVR2D (4) TVR2G (4) TVR2J (4) S5295B Series, 0.5 A, Case Type: DO-41 S5295B μs (4) S5295G μs (4) S5295J μs (4) 05NU41 Series, 0.5 A, Case Type: DO-41 05NU (5) 05NU (5) RH1 Series, 0.6 A, Case Type: D2 RH μs (2) RH1A μs (2) RH1B μs (2) RH1C μs (2) ES1 Series, A, Case Type: DO-41 ES1Z μs (2) ES μs (2) ES1 A μs (2) ES1F μs (2) AU02 Series, 0.8 A, Case Type: DO-41 AU (3) AU02A (3) AU02Z (3) Notes : (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma (3) Reverse recovery test conditions : I F = 100 ma, I R = 100 ma (4) Reverse recovery test conditions : I F = 20 ma, I R = 1 ma (5) Reverse recovery test conditions : I F = 1 A, di/dt = -30 A/ms. 40

41 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) ERB38-04 Series, 0.8 A, Case Type: DO-41 ERB (4) ERB (4) ERB (4) 1SR Series, 0.8 A, Case Type: DO-41 1SR (3) 250 (1) 1SR (3) 250 (1) 1SR (3) 250 (1) 1SR Series, 1 A, Case Type: DO-41 1SR (3) 250 (1) 1SR (3) 250 (1) 1SR (3) 250 (1) ERB44-02 Series, 1 A, Case Type: DO-41 ERB (2) ERB (2) ERB (2) ERB (2) ERB (2) EU2 Series, A, Case Type: DO-41 EU2YX (3) EU2Z (3) EU (3) EU2A (3) RGP10A Series, 1 A, Case Type: DO-41 RGP10A (1) RGP10B (1) RGP10D (1) RGP10G (1) RGP10J (1) RGP10K (1) RGP10M (1) 10ELS1 Series, 1 A, Case Type: D2 10ELS (1) 10ELS (1) 10ELS (1) 10ELS (1) Notes: (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 100 ma, I R = 100 ma (3) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma (4) Reverse recovery test conditions : I F = 100 ma, I R = 200 ma 41

42 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) BA157/SRA7 Series, 1 A, Case Type: DO-41/SMA BA157 SRA (2) 150 (1) BA158 SRA (2) 150 (1) BA159 SRA (2) 250 (1) FR101/SR1A Series, 1 A, Case Type: DO-41/SMA FR101 SR1A (1) FR102 SR1B (1) FR103 SR1D (1) FR104 SR1G (1) FR105 SR1J (1) FR106 SR1K (1) FR107 SR1M (1) FR107-STR (1) RS1 Series, 1 A, Case Type: SMA RS1A (1) RS1B (1) RS1D (1) RS1G (1) RS1J (1) RS1K (1) RS1M (1) 1N4933/SRN3 Series, 1 A, Case Type: DO-41/SMA 1N4933 SRN (1) 1N4934 SRN (1) 1N4935 SRN (1) 1N4936 SRN (1) 1N4937 SRN (1) DL4933 Series, 1 A, Case Type: MELF (Plastic) DL (1) DL (1) DL (1) DL (1) DL (1) RGF1A Series, 1 A, Case Type: SMA RGF1A (T L ) (1) RGF1B (T L ) (1) RGF1D (T L ) (1) RGF1G (T L ) (1) RGF1J (T L ) (1) RGF1K (T L ) (1) RGF1M (T L ) (1) Notes : (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma 42

43 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) RU2 Series, A, Case Type: D2 RU2Z (2) RU (2) RU2B (2) RU2M (2) RU2AM (2) RU2YX (2) RU20A (3) RGL1A Series, 1 A, Case Type: Mini MELF (Plastic) RGL1A (1) RGL1B (1) RGL1D (1) RGL1G (1) RGL1J (1) RGL1K (1) RGL1M (1) 15DF4 Series, 1.3 A, Case Type: D2 15DF (1) 15DF (1) 15DF (1) BYT52A Series, 1.4 A, Case Type: D2 BYT52A (T L ) (1) BYT52B (T L ) (1) BYT52D (T L ) (1) BYT52G (T L ) (1) BYT52J (T L ) (1) BYT52K (T L ) (1) BYT52M (T L ) (1) RGP15A Series, 1.5 A, Case Type: D2 RGP15A (1) RGP15B (1) RGP15D (1) RGP15G (1) RGP15J (1) RGP15K (1) RGP15M (1) FR151/SROA Series, 1.5 A, Case Type: DO-41/SMA FR151 SROA (1) FR152 SROB (1) FR153 SROD (1) FR154 SROG (1) FR155 SROJ (1) FR156 SROK (1) FR157 SROM (1) FR157-STR (1) Notes: (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma (3) Reverse recovery test conditions : I F = 100 ma, I R = 100 ma 43

44 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) 1R5J Series, 1.5 A, Case Type: D2 1R5JH R5JU (4) 100 (4) ERD28-04 Series, 1.5 A, Case Type: D2A ERD (3) ERD (3) ERD (3) RU3 Series, A, Case Type: D2A RU (2) RU3A (2) RU3B (2) RU3C (2) RU3M (2) RU3AM (2) RU3YX (2) RU4 Series, A, Case Type: DO-201AD RU (2) RU4A (2) RU4B (2) RU4C (2) RU4Y (2) RU4Z (2) RU4M (3) RU4AM (3) RU4YX (3) RU4DS (3) BYW32 Series, 2 A, Case Type: D2 BYW (1) BYW (1) BYW (1) BYW (1) BYW (1) Notes : (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma (3) Reverse recovery test conditions : I F = 100 ma, I R = 100 ma (4) Reverse recovery test conditions : I F = 1 A, di/dt = -30 A/ms 44

45 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) BY296/SR26 Series, 2 A, Case Type: DO-201AD/SMB BY296 SR (2) 250 (1) BY297 SR (2) 250 (1) BY298 SR (2) 250 (1) BY299 SR (2) 250 (1) FR201/SR2A Series, 2 A, Case Type: D2/SMB FR201 SR2A (1) FR202 SR2B (1) FR203 SR2D (1) FR204 SR2G (1) FR205 SR2J (1) FR206 SR2K (1) FR207 SR2M (1) FR207-STR (1) RGP20A-J Series, 2 A, Case Type: D2A RGP20A RGP20B RGP20D RGP20G RGP20J (1) 150 (1) 150 (1) 150 (1) 250 (1) FR251/SRTA Series, 2.5 A, Case Type: D2A/SMB FR251 SRTA (1) FR252 SRTB (1) FR253 SRTD (1) FR254 SRTG (1) FR255 SRTJ (1) FR256 SRTK (1) FR257 SRTM (1) FR257-STR (1) BY228/SR36 Series, 3 A, Case Type: DO-201AD/SMC BY396 SR (2) 250 (1) BY397 SR (2) 250 (1) BY398 SR (2) 250 (1) BY399 SR (2) 250 (1) Notes : (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 10 ma, I R = 10 ma recover to 1 ma 45

46 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) BYT56A Series, 3 A, Case Type: DO-201AD BYT56A (1) BYT56B (1) BYT56D (1) BYT56G (1) BYT56J (1) BYT56K (1) BYT56M (1) FR301/SR3A Series, 3 A, Case Type: DO-201AD/SMC FR301 SR3A (1) FR302 SR3B (1) FR303 SR3D (1) FR304 SR3G (1) FR305 SR3J (1) FR306 SR3K (1) FR307 SR3M (1) FR307-STR (1) RS3A Series, 3 A, Case Type: SMC (1) RS3A (1) RS3B (1) RS3D (1) RS3G (1) RS3J (1) RS3K (1) MR850/SRR0 Series, 3 A, Case Type: DO-201AD/SMC MR850 SRR (2) 150 (1) MR851 SRR (2) 150 (1) MR852 SRR (2) 150 (1) MR854 SRR (2) 150 (1) MR856 SRR (2) 150 (1) MR (2) 150 (1) 3JH45 Series, 3 A, Case Type: DO-201AD 3JH DF Notes : (1) Reverse recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse recovery test conditions : I F = 1 A, to V R = 30 V (3) Reverse Recovery test conditions : I F = 1 A, to V R = 30 V (4) Reverse Recovery test conditions : I F = 1 A, di/dt = -30 A/ms 200 (4) 200 (3) 46

47 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) RGP30 Series, 3 A, Case Type: DO-201AD RGP30A (1) RGP30B (1) RGP30D (1) RGP30G (1) RGP30J (1) RGP30K (1) RGP30M (1) 1N5415 Series, 3 A, Case Type: D2A 1N (1) 1N (1) 1N (1) 1N (1) 1N (1) 1N (1) FR501 Series, 5 A, Case Type: DO-201AD FR (1) FR (1) FR (1) FR (1) FR (1) FR (1) FR (1) FR601 Series, 6 A, Case Type: D6 FR (1) FR (1) FR (1) FR (1) FR (1) FR (1) FR (1) FR801 Series, 8 A, Case Type: D6 FR (Tc) (1) FR (Tc) (1) FR (Tc) (1) FR (Tc) (1) FR (Tc) (1) Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A 47

48 Fast Recovery Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) ESAC25 Series, 10 A, Case Type: TO - 220AB ESAC25-02C (Tc) ESAC25-02D (Tc) ESAC25-02N (Tc) ESAC25-04C (Tc) ESAC25-04D (Tc) ESAC25-04N (Tc) (2) 400 (2) 400 (2) 400 (2) 400 (2) 400 (2) F1200A Series, 12 A, Case Type: D6 F1200A (1) F1200D (1) FTB2000AA /FTB2000KG, 20 A, Case Type: D2PAK FTB2000KA/AA (3) (Tc) (1) FTB2000KB/AB (3) (Tc) (1) FTB2000KD/AD (3) (Tc) (1) FTB2000KG/AG (3) (Tc) (1) Notes : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, with Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 100 ma, I R = 100 ma (3) K (Standard) is p/n FTB2000KA, FTB2000KB,, KG, A (Reverse) is p/n FTB2000AA, FTB2000AB,, AG 48

49 Fast Recovery Glass Passivated Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Rectified Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr (1) Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) LMR1A Series, 1 A, Case Type: M1A LMR1A LMR1B LMR1D LMR1G LMR1J LMR1K LMR1M FR101G/GR1A Series, 1 A, Case Type: DO-41/SMA FR101G GR1A FR102G GR1B FR103G GR1D FR104G GR1G FR105G GR1J FR106G GR1K FR107G GR1M FR107G-STR FR151G Series, 1.5 A, Case Type: DO-41 FR151G FR152G FR153G FR154G FR155G FR156G FR157G FR157G-STR N4933G/GRN3 Series, 1 A, Case Type: DO-41/SMA 1N4933G GRN N4934G GRN N4935G GRN N4936G GRN N4937G GRN Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A 49

50 Fast Recovery Glass Passivated Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Rectified Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr (1) Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) FR201G/GR2A Series, 2 A, Case Type: D2/SMB FR201G GR2A FR202G GR2B FR203G GR2D FR204G GR2G FR205G GR2J FR206G GR2K FR207G GR2M FR207G-STR FR251G Series, 2.5 A, Case Type: D2A FR251G FR252G FR253G FR254G FR255G FR256G FR257G FR257G-STR FR301G/GR3A Series, 3 A, Case Type: DO-201AD/SMC FR301G GR3A FR302G GR3B FR303G GR3D FR304G GR3G FR305G GR3J FR306G GR3K FR307G GR3M FR307G-STR SMC1200D/SMC2000D, A, Case Type: SMC SMC1200D SMC2000D Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A 50

51 High Efficient Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Rectified Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr (1) Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) 1H1G Series, 1 A, Case Type: M1A 1H1G H2G H3G H4G H5G H6G H7G H8G RD2A, 1.2 A, Case Type: D2A RD2A HER101/SE1A Series, 1 A, Case Type: DO-41/SMA HER101 SE1A HER102 SE1B HER103 SE1D HER104 SE1E HER105 SE1G HER106 SE1J HER107 SE1K HER108 SE1M HER151/SEOA Series, 1.5 A, Case Type: DO-41/SMA HER151 SEOA HER152 SEOB HER153 SEOD HER154 SEOE HER155 SEOG HER156 SEOJ HER157 SEOK HER158 SEOM HER201/SE2A Series, 2 A, Case Type: D2/SMB HER201 SE2A HER202 SE2B HER203 SE2D HER204 SE2E HER205 SE2G HER206 SE2J HER207 SE2K HER208 SE2M Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A 52

52 High Efficient Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Rectified Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr (1) Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) HER251/SETA Series, 2.5 A, Case Type: D2A/SMB HER251 SETA HER252 SETB HER253 SETD HER254 SETE HER255 SETG HER256 SETJ HER257 SETK HER258 SETM HER301/SE3A Series, 3 A, Case Type: DO-201AD/SMC HER301 SE3A HER302 SE3B HER303 SE3D HER304 SE3E HER305 SE3G HER306 SE3J HER307 SE3K HER308 SE3M HER501/SE5A Series, 5 A, Case Type: DO-201AD/SMC HER501 SE5A HER502 SE5B HER503 SE5D HER504 SE5E HER505 SE5G HER506 SE5J HER507 SE5K HER508 SE5M HER601 Series, 6 A, Case Type: D6 HER HER HER HER HER HER HER HER Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A 53

53 Super Fast Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) AG01 Series, A, Case Type: DO-41 AG01Y (2) AG01Z (2) AG (2) AG01A (2) EG01 Series, A, Case Type: DO-41 EG01Y (2) EG01Z (2) EG (2) EG01A (2) EG01C (2) EG1 Series, A, Case Type: DO-41 EG1Y (2) EG1Z (2) EG (2) EG1A (2) ERA32-01 Series, 1 A, Case Type: DO-41 ERA (2) ERA (2) 11DF1 Series, 1 A, Case Type: DO-41 11DF (1) 11DF (1) 11DF (1) 11DF (1) MUR120 Series, 1 A, Case Type: DO-41 MUR (1) MUR (1) MUR (1) RG10 Series, A, Case Type: D2 RG10Y (1) RG (1) RG10A (1) Notes: (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 100 ma, I R = 100 ma 53

54 Super Fast Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) UF1001 Series, 1 A, Case Type: DO-41 UF (1) UF (1) UF (1) UF (1) UF (1) UF (1) UF (1) UF4001 Series, 1 A, Case Type: DO-41 UF (1) UF (1) UF (1) UF (1) UF (1) UF (1) UF (1) SF11/SS1A Series, 1 A, Case Type: DO-41/SMA SF11 SS1A (1) SF12 SS1B (1) SF13 SS1C (1) SF14 SS1D (1) SF15 SS1E (1) SF16 SS1G (1) SF17 SS1J (1) SF18 SS1K (1) SF19 SS1M (1) ES1A Series, 1 A, Case Type: SMA ES1A (T L ) (1) ES1B (T L ) (1) ES1C (T L ) (1) ES1D (T L ) (1) ES1E (T L ) (1) ES1G (T L ) (1) ES1J (T L ) (1) ES1K (1) ES1M (1) Notes: (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 100 ma, I R = 100 ma 54

55 Super Fast Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) RG2 Series, A, Case Type: D2 RG2Y (1) 100 (2) RG2Z (1) 100 (2) RG (1) 100 (2) RG2A (1) 100 (2) RG4 Series, A, Case Type: DO-201AD RG4Y (1) 100 (2) RG4Z (1) 100 (2) RG (1) 100 (2) RG4A (1) 100 (2) EL1 Series, 1.5 A, Case Type: DO-41 EL1Z (2) EL (2) SFO1/SSOA Series, 1.5 A, Case Type: DO-41/SMA SFO1 SSOA (1) SFO2 SSOB (1) SFO3 SSOC (1) SFO4 SSOD (1) SFO5 SSOE (1) SFO6 SSOG (1) SFO7 SSOJ (1) SFO8 SSOK (1) SFO9 SSOM (1) EPG20A Series, 2 A, Case Type: D2 EGP20A (1) EGP20B (1) EGP20C (1) EGP20D (1) UG2A-D Series, 2 A, Case Type: DO-41 UG2A (1) UG2B (1) UG2C (1) UG2D (1) Notes: (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 100 ma, I R = 100 ma 55

56 Super Fast Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) SF21/SS2A Series, 2 A, Case Type: D2/SMB SF21 SS2A (1) SF22 SS2B (1) SF23 SS2C (1) SF24 SS2D (1) SF25 SS2E (1) SF26 SS2G (1) SF27 SS2J (1) SF28 SS2K (1) SF29 SS2M (1) ES2A Series, 2 A, Case Type: SMB ES2A (T L ) (1) ES2B (T L ) (1) ES2C (T L ) (1) ES2D (T L ) (1) * For SMA package add suffix "A" e.g. ES2AA, ES2BA SFT1/SSTA Series, 2.5 A, Case Type: D2A/SMB SFT1 SSTA (1) SFT2 SSTB (1) SFT3 SSTC (1) SFT4 SSTD (1) SFT5 SSTE (1) SFT6 SSTG (1) SFT7 SSTJ (1) SFT8 SSTK (1) SFT9 SSTM (1) 1N5807/1N5807US Series, 3.0 A, Case Type: D2A/SMB 1N5807 1N5807US (2) 1N5809 1N5809US (2) 1N5811 1N5811US (2) UF5404 Series, 3 A, Case Type: DO-201AD UF (1) UF (1) UF (1) UF (1) UF (1) Notes: (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 100 ma, I R = 100 ma 56

57 Super Fast Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) ES3A-M Series, 3 A, Case Type: SMC ES3A (1) ES3B (1) ES3C (1) ES3D (1) ES3E (1) ES3G (1) ES3J (1) ES3K (1) ES3M (1) SF31/SS3A Series, 3 A, Case Type: DO-201AD/SMC SF31 SS3A (1) SF32 SS3B (1) SF33 SS3C (1) SF34 SS3D (1) SF35 SS3E (1) SF36 SS3G (1) SF37 SS3J (1) SF38 SS3K (1) SF39 SS3M (1) SF51/SS5A Series, 5 A, Case Type: DO-201AD/SMC SF51 SS5A (1) SF52 SS5B (1) SF53 SS5C (1) SF54 SS5D (1) SF55 SS5E (1) SF56 SS5G (1) SF57 SS5J (1) SF58 SS5K (1) SF59 SS5M (1) SF61 Series, 6 A, Case Type: D6 SF (1) SF (1) SF (1) SF (1) SF (1) SF (1) SF (1) SF (1) SF (1) Note: (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A 57

58 Super Fast Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Reverse Axial Lead Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Recovery Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr (1) (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) FES8AT Series, 8 A, Case Type: TO-220AC FES8AT (2) (Tc) (1) FES8BT (2) (Tc) (1) FES8CT (2) (Tc) (1) FES8DT (2) (Tc) (1) FES8FT (2) (Tc) (1) FES8GT (2) (Tc) (1) FES8HT (2) (Tc) (1) FES8JT (2) (Tc) (1) FES16AT Series, 16 A, Case Type: TO-220AC FES16AT (2) (Tc) (1) FES16BT (2) (Tc) (1) FES16CT (2) (Tc) (1) FES16DT (2) (Tc) (1) FES16FT (2) (Tc) (1) FES16GT (2) (Tc) (1) FES16HT (2) (Tc) (1) FES16JT (2) (Tc) (1) FEP16AT Series, 16 A, Case Type: TO-220AB FEP16AT (Tc) FEP16BT (Tc) FEP16CT (Tc) FEP16DT (Tc) FEP16FT (Tc) FEP16GT (Tc) FEP16HT (Tc) FEP16JT (Tc) FEP30AP Series, 30 A, Case Type: TO-247AD FEP30AP (Tc) FEP30BP (Tc) FEP30CP (Tc) FEP30DP (Tc) FEP30FP (Tc) FEP30GP (Tc) FEP30HP (Tc) FEP30JP (Tc) MUR1520/S, Case Type: TO-220AC MUR Tc MUR1520S Tc Notes : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A (2) For wire leads (case type ITO-220AC) add suffix "F" e.g. FESF8AT,FESF8BT, FESF8JT and FESF16AT,FESF16BT, FESF16JT

59 Super Fast Glass Passivated Rectifier Diodes Max. Average Max. Repetitive Max. Repetitive Max. Surge Max. Forward Max. Reverse Max. Reverse Forward Peak Reverse Peak Forward Forward Voltage Drop Current Recovery Rectified Current Voltage Current Current at Ta=25 C at Ta=25 C Time Ta VRRM IFRM IFSM IF IR Trr (1) Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (μa) (ns) LMS1A Series, 1 A, Case Type: M1A LMS1A LMS1B LMS1D LMS1G LMS1J LMS1K LMS1M SF11G Series, 1 A, Case Type: DO-41 SF11G SF12G SF13G SF14G SF15G SF16G SF17G SF18G SF19G S2L20U, 1.5 A, Case Type: D2A S2L20U N5802/1N5802US Series, 2.5 A, Case Type: DO-41 1N5802 1N5802US (T L ) N5803 1N5803US (T L ) N5804 1N5804US (T L ) N5805 1N5805US (T L ) N5806 1N5806US (T L ) RHRP660F, 6 A, Case Type: ITO-220AC RHRP660F (T C ) SF61G Series, 6 A, Case Type: D6 SF61G SF62G SF63G SF64G SF65G SF66G SF67G SF68G SF69G SMC1520, 15 A, Case Type: SMC SMC (T C ) MUR3020WT Series, Case Type: TO-247AD (TO-3P) MUR3020WT 30 A 150 Tc MUR3040WT 30 A 150 Tc Notes : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A (2) Reverse Recovery test conditions : I F = 1A, di/dt = 50 A/ms 30 (2) 60 (2) 59

60 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) AK03 Series, A, Case Type: DO-41 AK AK AK AK N5817/SKN7 Series, 1 A, Case Type: DO-41/SMA 1N5817 SKN N5818 SKN N5819 SKN LL5817 Series, 1 A, Case Type: MELF(Plastic) LL LL LL S20-1SB0 Series, 1.0 A, Case Type: M1A 1S S S S S S SB ERA Series, 1 A, Case Type: DO-41 ERA ERA ERA ERA SB120/SK12 Series, 1 A, Case Type: DO-41/SMA SB120 SK SB130 SK SB140 SK SB150 SK SB160 SK SB170 SK SB180 SK SB190 SK SB1B0 SK1B

61 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) MBR150 Series, 1 A, Case Type: DO-41 MBR (Ta) MBR (Ta) EK Series, A, Case Type: DO-41 EK EK EK EK EK EK DQ03 Series, 1.1 A, Case Type: DO-41 11DQ (Tc) DQ (Tc) DQ (Tc) DQ (Tc) DQ (Tc) DQ (Tc) MQ Series, 1.5 A, Case Type: SMA 10MQ040N MQ100N SL12 Series, 1.5 A, Case Type: SMA SL SL RK13 Series, A, Case Type: D2 RK RK RK RK DQ09 Series, 1.7 A, Case Type: DO-41 21DQ DQ

62 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) SBO20 Series, 1.5 A, Case Type: DO-41 SBO SBO SBO SBO SBO SBO SBO SBO SBOB ERB81 Series, 2.0 A, Case Type: D2 ERB (Ta) ERB (Ta) ERB ERB (Ta) SB220/SK22 Series, 2.0 A, Case Type: D2/SMB SB220 SK SB230 SK SB240 SK SB250 SK SB260 SK SB270 SK SB280 SK SB290 SK SB2B0 SK2B Also available in Axial DO-41 and SMD SMA Case Types. Use suffix "S" to order (e.g. SB220S, SK22S) SR220 - SR2100 Series, 2.0 A, Case Type: DO-41 SR SR SR SR SR SR SR RK33 Series, A, Case Type: D2A RK RK RK RK

63 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) SBT20 Series, 2.5 A, Case Type: D2A SBT SBT SBT SBT SBT SBT SBT SBT SBTB ERC Series, A, Case Type: DO-201AD ERC ERC ERC RB055L A, Case Type: SMA RB055L N5820/SKN0 Series, 3 A, Case Type: DO-201AD/SMC 1N5820 SKN N5821 SKN N5822 SKN Also available in Axial D2A and SMD SMB Case Types. Use suffix "S" to order (e.g. 1N5820S, SKN0S) SB320/SK32 Series, 3 A, Case Type: DO-201AD/SMC SB320 SK SB330 SK SB340 SK SB350 SK SB360 SK SB370 SK SB380 SK SB390 SK SB3B0 SK3B Also available in Axial D2A and SMD SMB Case Types. Use suffix "S" to order(e.g. SB320S, SK32S), SMA Case Types. Use suffix "A" to order (e.g. SK32A). MBR320 Series, 3 A, Case Type: DO-201AD MBR (Ta) MBR (Ta) MBR (Ta) MBR (Ta) MBR (Ta)

64 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) RK43 Series, A, Case Type: DO-201AD RK RK RK RK DQ03 Series, 3.3 A, Case Type: DO-201AD 31DQ (Tc) DQ (Tc) DQ (Tc) DQ (Tc) SB520/SK52 Series, 5 A, Case Type: DO-201AD/SMC SB520 SK SB530 SK SB540 SK SB550 SK SB560 SK SB570 SK SB580 SK SB590 SK SB5B0 SK5B Also available in Axial D2A and SMD SMB Case Types. Use suffix "S" to order (e.g. SB520S, SK52S) SR520 Series, 5.0 A, Case Type: DO-201AD SR SR SR SR SR SB5150-SB5200, 5.0 A, Case Type: DO-201AD SB (Ta) SB (Ta) MBR735 Series, 7.5 A, Case Type: TO-220AC MBR (Tc) MBR (Tc) MBR (Tc) MBR (Tc) SBL1030 Series, 10 A, Case Type: TO-220AC SBL (Tc) SBL (Tc)

65 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) SD1045/SD1645, A, Case Type: DO-201AD SD SD (Tc) SD (Tc) SK1045/SK1545, A, Case Type: SMC SK SK (Tc) MBRB1045/MBRB1545, A, Case Type: D2PAK MBRB (Tc) MBRB (Tc) MBR1035 Series, 10 A, Case Type: TO-220AC MBR (Tc) MBR (Tc) MBR (Tc) MBR (Tc) SBL1030CT Series, A, Case Type: TO-220AB SBL1030CT 10 95(Tc) SBL1040CT 10 95(Tc) SBL1630CT 16 95(Tc) SBL1640CT 16 95(Tc) MBR1660CT Series, 16 A, Case Type: TO-220AB MBR1660CT (Tc) MBR16100CT (Tc) MBR1635 Series, 16 A, Case Type: TO-220AC MBR (Tc) MBR (Tc) MBR (Tc) MBR (Tc) MBRF16H35 Series, 16 A, Case Type: ITO-220AC MBRF16H (Tc) MBRF16H (Tc) MBRF16H (Tc) MBRF16H (Tc)

66 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) MBR2035CT Series, 20 A, Case Type: TO-220AB MBR2035CT (Tc) MBR2045CT (Tc) MBR2050CT (Tc) MBR2060CT (Tc) MBR2535CT Series, 30 A, Case Type: TO-220AB MBR2535CT (Tc) MBR2545CT (Tc) MBR2550CT (Tc) MBR2560CT (Tc) MBRB3045CT Series, 30 A, Case Type: D 2 PAK MBRB3045CT (Tc) MBR3045CT Series, 30 A, Case Type: TO-220AB MBR3045CT (Tc) SBL2030PT Series, A, Case Type: TO-247AD SBL2030PT (Tc) SBL2040PT (Tc) SBL3030PT (Tc) SBL3040PT (Tc) SBL4030PT (Tc) SBL4040PT (Tc) MBR3035PT Series, 30 A, Case Type: TO-247AD MBR3035PT (Tc) MBR3045PT (Tc) MBR3050PT (Tc) MBR3060PT (Tc) MBR4035PT Series, 40 A, Case Type: TO-247AD MBR4035PT (Tc) MBR4045PT (Tc) MBR4050PT (Tc) MBR4060PT (Tc)

67 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) MBRS1 Series, 1 A, Case Type: SMB MBRS120T MBRS130LT MBRS MBRS MBRS240LT3G, 2 A, Case Type: SMB MBRS240LT3G (Tc) MBRS3200, 3 A, Case Type: SMB MBRS MBRS3 Series, 3 A, Case Type: SMC MBRS330T MBRS340T MBRS360T MBRS MBRS (Tc) MBRS4201, 4 A, Case Type: SMC MBRS SB5150/SB5200, 5 A, Case Type: DO-201AD SB (Ta) SB (Ta) FST10 Series, 10 A, Case Type: TO-220AB FST FST FST FST FST MS10 Series, 10 A, Case Type: TO-220AC MS MS

68 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Current Voltage Current Current at Ta=25 C at Ta=25 C TL VRRM IFRM IFSM IF IR Axial Lead SMD (A) ( C) (V) (A) (A) (V) (A) (ma) MS16 Series, 16 A, Case Type: TO-220AC MS MS FST20 Series, 20 A, Case Type: TO-220AB FST FST FST FST FST MBR20200CT, 20 A, Case Type: TO-220AB MBR20200CT (Tc) * For package ITO-220AB part number MBRF20200CT MS20 Series, 20 A, Case Type: TO-220AC MS MS FST31 Series, 30 A, Case Type: TO-220AB FST FST FST FST FST

69 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Power Current Voltage Current Current at Ta=25 C at Ta=25 C Dissipation Ta VRRM IFRM IFSM IF IR PD Axial Lead SMD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (mw) 1N5711/LL5711, Case Type: DO-35 / MiniMELF 1N5711 LL N6263 LL SS88 Series, Case Type: DO-35 1SS SS SS SS165 Series, Case Type: DO-34 1SS SS SS SS SS BAT41 / LL41 Series, Case Type: DO-35 / MiniMELF BAT41 LL BAT42 LL / BAT43 LL / BAT46 LL /200 BAT48 LL A BAT81 Series, Case Type: DO-34 BAT BAT BAT BAT85/BAS85 Series, Case Type: DO-35 / MiniMELF BAT85 BAS BAT86 BAS HSS100 Series, Case Type: DO-34 HSS HSS HSS

70 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Power Current Voltage Current Current at Ta=25 C at Ta=25 C Dissipation Ta VRRM IFRM IFSM IF IR PD Axial Lead SMD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (mw) MA700 Series, Case Type: DO-34 MA MA700A RB441Q-40 & RB721Q-40. Case Type: DO-34 RB441Q RB721Q mA SB A & SB A. Case Type: DO-34 SB A SB A SD101A/LL101A Series, Case Type: DO-35/MiniMELF SD101A LL101A SD101B LL101B SD101C LL101C BAS81 - BAS83, Case Type: MiniMELF BAS mA BAS mA BAS mA SD103A/LL103A Series, Case Type: DO-35/MiniMELF SD103A LL103A SD103B LL103B SD103C LL103C

71 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Power Current Voltage Current Current at Ta=25 C at Ta=25 C Dissipation Ta VRRM IFRM IFSM IF IR PD SMD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (mw) BAT42W Series, Case Type: SOD-123 BAT42W* BAT43W* BAT54W* BAT46W * Also available in SMD SOD-323 Case Types. Use suffix "S" to order (e.g. BAT42WS, BAT43WS, BAT54WS) and SOD-523 Case Types. Use suffix "T" to order (e.g. BAT42WT, BAT43WT, BAT54WT) MBR0520L, MBR , Case Type: SOD-123 MBR0520L MBR (T L ) MBR MBR N5817WB Series, 1 A, Case Type: SOD-123 1N5817WB 1(A) N5818WB 1(A) N5819WB 1(A) MBR130W, Case Type: SOD-123 MBR130W 1(A) 65(T L ) SD101AW-CW Series, Case Type: SOD-123 SD101AW SD101BW SD101CW SD103AW-CWS Series, Case Type: SOD-123 SD103AW SD103BW SD103CW

72 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Power Current Voltage Current Current at Ta=25 C at Ta=25 C Dissipation Ta VRRM IFRM IFSM IF IR PD SMD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (mw) SD101AWS Series, Case Type: SOD-323 SD101AWS SD101BWS SD101CWS SD103AWS Series, Case Type: SOD-323 SD103AWS SD103BWS SD103CWS RB751V-40/RB501V-40, Case Type: SOD-323 RB751V-40* RB501V * Also available in SMD SOD-523 Case Types. Use suffix "S" to order p/n RB751S-40 1SS367, Case Type: SOD-323 1SS SDB412WS, Case Type: SOD-323 SDB412WS RB520S-30/RB521S-30, -40, Case Type: SOD-523 RB520S RB521S RB521S SS388, Case Type: SOD-523 1SS RB521G-30, Case Type: SOD-523 RB521G

73 Schottky Barrier Rectifiers Max. Average Max. Repetitive Max. Repetitive Max. Forward Max. Forward Max. Reverse Max. Forward Rectified Peak Reverse Peak Forward Surge Voltage Drop Current Power Current Voltage Current Current at Ta=25 C at Ta=25 C Dissipation Ta VRRM IFRM IFSM IF IR PD SMD (ma) ( C) (V) (ma) (A) (V) (ma) (μa) (mw) 1SS294, Case Type: SOT-23 1SS BAT400D, Case Type: SOT-23 BAT400D BAT54 Series, Case Type: SOT-23 BAT BAT54A BAT54C BAT54S BAS40 Series, Case Type: SOT-23 BAS BAS BAS BAS BAS40W Series, Case Type: SOT-23 BAS40W BAS40-04W BAS40-05W BAS40-06W BAS70 Series, Case Type: SOT-23 BAS BAS l BAS BAS

74 Zener Diodes 0.20 W Marking Test Test Zener Voltage (Note 1) Zener Impedance Leakage Current Current Current V I ZT (V) I ZT Z I ZT Z I ZK I ZK I V R Min. Nom. Max. (ma) (Ω) (Ω) (ma) (μa) (V) MM5Z2V4 Series, 0.2 W, Case Type : SOD-523 MM5Z2V4 Z MM5Z2V7 A MM5Z3V0 B MM5Z3V3 C MM5Z3V6 D MM5Z3V9 E MM5Z4V3 F MM5Z4V7 G MM5Z5V1 H MM5Z5V6 I MM5Z6V2 J MM5Z6V8 K MM5Z7V5 L MM5Z8V2 M MM5Z9V1 N MM5Z10V O MM5Z11V P MM5Z12V Q MM5Z13V R MM5Z15V S MM5Z16V T MM5Z18V U MM5Z20V V MM5Z22V W MM5Z24V X MM5Z27V Y MM5Z30V Z MM5Z33V A MM5Z36V B MM5Z39V C MM5Z43V D MM5Z47V E MM5Z51V F MM5Z56V G MM5Z62V H MM5Z68V I MM5Z75V J Note : (1) Zener voltage is measured with a pulse test current I Z at an ambient temperature of 25 C. 74

75 Zener Diodes 0.20 W Marking Test Test Zener Voltage (1) Zener Impedance Leakage Current Current Current V I ZT (V) I ZT Z I ZT I ZT I V R Min. Nom. Max. (ma) (Ω) (ma) (μa) (V) MM5Z2B4 Series, 0.2 W, Case Type : SOD-523 MM5Z2B4 XY MM5Z2B7 XZ MM5Z3B0 FR MM5Z3B3 FX MM5Z3B6 FY MM5Z3B9 FZ MM5Z4B3 HA MM5Z4B7 HB MM5Z5B1 HC MM5Z5B6 HD MM5Z6B2 HE MM5Z6B8 HF MM5Z7B5 HH MM5Z8B2 HJ MM5Z9B1 HK MM5ZB10 HM MM5ZB11 HN MM5ZB12 HP MM5ZB13 HR MM5ZB15 HX MM5ZB16 HY MM5ZB18 HZ MM5ZB20 JA MM5ZB22 JB MM5ZB24 JC MM5ZB27 JD MM5ZB30 JE MM5ZB33 JF MM5ZB36 JH MM5ZB39 JJ MM5ZB43 JK MM5ZB47 JM MM5ZB51 YA MM5ZB56 YB MM5ZB62 YC MM5ZB68 YD MM5ZB75 YE Note : (1) Tested with pulses tp = 20 ms. 75

76 Zener Diodes 0.25 W Suffix (1) Zener Voltage HZK-LL Series, 0.25 W, Case Type : MiniMELF Test Maximum Dymamic Maximum Typical Temperature Current Resistance Reverse Current Coefficient * Vz (V) I ZT I Z I V R I Z γ Z (mv/ C) min. max. (ma) (Ω) (ma) (μa) (V) (ma) A HZK2LL B C A HZK3LL B C A HZK4LL B C A HZK5LL B C * Δ V Z1 = V Z (I Z = 0.5 ma) - V Z1 (I Z = 0.05 ma) Δ V Z2 = V Z1 (I Z = 0.05 ma) - V Z2 (I Z = ma) Note: (1) When placing an order for an HZK-LL type, enter "A", "B" or "C" suffix e.g. HZK2ALL, HZK2BLL... HZK5CLL

77 Zener Diodes 0.25 W Grade Zener Voltage Test Maximum Dynamic Maximum V I ZT Current Resistance Reverse Suffix -1 Suffix -2 Suffix -3 Current min. max. min. max. min. max. I ZT I Z I V R (V) (V) (V) (V) (V) (V) (ma) (W) (ma) (μa) (V) HZS Series, 0.25 W, Case Type : DO-34 Note : HZS2 HZS3 HZS4 HZS5 A B C A B C A B C A B C A HZS6 B C A HZS7 B C A HZS9 B C A HZS11 B C A HZS12 B C HZS HZS HZS HZS HZS HZS HZS HZS HZS HZS The lower voltage types (HZS2 - HZS12) are available in 3 grades, "A" to "C", each with suffix "-1", "-2" or "-3" For example the type with Vz = V is HZS9B-2 The higher voltage types are only available with suffix "-1", "-2" or "-3" (no grade) e.g. HZS

78 Zener Diodes 0.25 W Suffix (1) Zener Voltage HZS-LL Series, 0.25 W, Case Type : DO-34 Test Maximum Dymamic Maximum Typical Temperature Current Resistance Reverse Current Coefficient * Vz (V) I ZT I Z I V R I Z γ Z (mv/ C) min. max. (ma) (Ω) (ma) (μa) (V) (ma) A HZS2LL B C A HZS3LL B C A HZS4LL B C A HZS5LL B C * Δ V Z1 = V Z (I Z = 0.5 ma) - V Z1 (I Z = 0.05 ma) Z1 Z Z Z1 Z Δ V Z1 = V Z1 (I Z = 0.5 ma) - V Z2 (I Z = 0.05 ma) Note: (1) When placing an order for HZS-LL type, enter suffix "A", "B" or "C" e.g. HZS2ALL, HZS2BLL. HZS5CLL

79 Zener Diodes 0.30 W Marking Zener Voltage (1) Test Current Zener Impedance (2) Test Current Leakage Current Temp. coefficient of Zener Voltage V I ZT (V) I ZT Z I Z I Z I V R TKvz (%/K) Min. Nom. Max. (ma) (Ω) (ma) (μa) (V) Min. Max. MM3Z2V0 Series, 0.3 W, Case Type : SOD-323 MM3Z2V0 B MM3Z2V2 C MM3Z2V4 1C MM3Z2V7 1D MM3Z3V0 1E MM3Z3V3 1F MM3Z3V6 1H MM3Z3V9 1J MM3Z4V3 1K MM3Z4V7 1M MM3Z5V1 1N MM3Z5V6 1P MM3Z6V2 1R MM3Z6V8 1X MM3Z7V5 1Y MM3Z8V2 1Z MM3Z9V1 2A MM3Z10 2B MM3Z11 2C MM3Z12 2D MM3Z13 2E MM3Z15 2F MM3Z16 2H MM3Z18 2J MM3Z20 2K MM3Z22 2M MM3Z24 2N MM3Z27 2P MM3Z30 2R MM3Z33 2X MM3Z36 2Y MM3Z39 2Z MM3Z43 3A MM3Z47 3B MM3Z51 3C MM3Z56 3D MM3Z62 3E MM3Z68 3F MM3Z75 3H MM3Z82 3J MM3Z91 3K MM3Z100 3M MM3Z110 3N MM3Z120 3P Note : (1) Vz is tested with pulses (20 ms). 79

80 Zener Diodes 0.30 W Marking Zener Voltage (1) Test Dynamic Test Reverse Temp. coefficient Current Impedance (2) Current Leakage Current of Zener Voltage V I ZT (V) I ZT Z I Z I Z I V R TK VZ (%/K) Min. Nom. Max. (ma) (Ω) (ma) (μa) (V) Min. Max. MM3Z2V2B Series, 0.3 W, Case Type : SOD-323 MM3Z2V2B MF MM3Z2V4B 7C MM3Z2V7B 7D MM3Z3V0B 7E MM3Z3V3B 7F MM3Z3V6B 7H MM3Z3V9B 7J MM3Z4V3B 7K MM3Z4V7B 7M MM3Z5V1B 7N MM3Z5V6B 7P MM3Z6V2B 7R MM3Z6V8B 7X MM3Z7V5B 7Y MM3Z8V2B 7Z MM3Z9V1B 8A MM3Z10B 8B MM3Z11B 8C MM3Z12B 8D MM3Z13B 8E MM3Z15B 8F MM3Z16B 8H MM3Z18B 8J MM3Z20B 8K MM3Z22B 8M MM3Z24B 8N MM3Z27B 8P MM3Z30B 8R MM3Z33B 8X MM3Z36B 8Y MM3Z39B 8Z Notes : (1) V Z is tested with pulses (20 ms). (2) Z Z is measured at I Z by given a very small A.C. current signal. 80

81 Zener Diodes 0.30 W V Z1 V Z2 Z ZT1 Z ZT2 Z ZT3 Max. Reverse V I ZT1 = 5 I ZT1 I ZT2 = 1 I ZT2 I ZT1 = 20 I ZT3 = Leakage (mv/k) C (pf) (Note 1) 5 ma (Note 1) 1 ma (Note 1) 20 ma I ZT1 = 5 V R =0 Marking (V) (V) (V) I V R f = 1 MHz (Ω) (Ω) (Ω) Min Nom Max Min Max Min Max (μa) (V) Min Max Ө VZ BZX84Cxx Series, 0.30 W, Case Type : SOT-23 BZX84C2V4 C BZX84C2V7 D BZX84C3V0 E BZX84C3V3 F BZX84C3V6 H BZX84C3V9 J BZX84C4V3 K BZX84C4V7 M BZX84C5V1 N BZX84C5V6 P BZX84C6V2 R BZX84C6V8 X BZX84C7V5 Y BZX84C8V2 Z BZX84C9V1 A BZX84C10 B BZX84C11 C BZX84C12 D BZX84C13 E BZX84C15 F BZX84C16 H BZX84C18 J BZX84C20 K BZX84C22 M BZX84C24 N V Z1 Below Z ZT1 V Z2 Below Z ZT2 V Z3 Below Z ZT3 Max. I ZT1 = 2 I ZT1 = 2 ma I ZT2 =0.1mA I ZT1 = 10 ma Below Leakage (mv/k) Below C (pf) TYPE NO. Marking (Note I ZT1 = (Note I ZT4 = (Note I ZT3 = V R =0 (V) 2 ma (V) 0.5mA (V) 10 ma I V R f = 1 MHz Min Nom Max (Ω) Min Max (Ω) Min Max (Ω) (μa) (V) Min Max BZX84C27 P BZX84C30 R BZX84C33 X BZX84C36 Y BZX84C39 Z BZX84C43 A BZX84C47 B BZX84C51 C BZX84C56 D BZX84C62 E BZX84C68 F BZX84C75 H Note: (1) Zener voltage is measured with pulse test current IZ at an ambient temperature of 25 C Ө VZ 81

82 Zener Diodes 0.35 W V Z1 Z ZT1 V Z2 Z ZT2 V Z3 Z ZT3 Max. I ZT1 = 5 I ZT1 I ZT2 = 1 I ZT2 I ZT1 = 20 I ZT3 = Leakage (mv/k) C (pf) TYPE NO. Marking (Note 1) 5 ma (Note 1) 1 ma (2) (Note 1) 20 ma I ZT1 = 5 V R =0 (V) (V) (V) I V R f = 1 MHz (Ω) (Ω) (Ω) Min Nom Max Min Max Min Max (μa) (V) Min Max Ө VZ BZX84Bxx Series, 0.35 W, Case Type : SOT-23 BZX84B2V4 CR BZX84B2V7 CX BZX84B3V0 CY BZX84B3V3 CZ BZX84B3V6 DA BZX84B3V9 DB BZX84B4V3 DC BZX84B4V7 DD BZX84B5V1 DE BZX84B5V6 DF BZX84B6V2 DH BZX84B6V8 DJ BZX84B7V5 DK BZX84B8V2 DM BZX84B9V1 DN BZX84B10 DP BZX84B11 DR BZX84B12 DX BZX84B13 DY BZX84B15 DZ BZX84B16 EA BZX84B18 EB BZX84B20 EC BZX84B22 ED BZX84B24 EE V Z1 Below Z ZT1 V Z2 Below Z ZT2 V Z3 Below Z ZT3 Max. I ZT1 = 2 ma I ZT2 =0.1mA I ZT1 = 10 ma Below Leakage (mv/k) Below C (pf) TYPE NO. Marking (Note I ZT1 = (Note I ZT4 = (Note I ZT3 = I ZT1 = 2 V R =0 (V) 2 ma (V) 0.5mA (V) 10 ma I V R f = 1 MHz Min Nom Max (Ω) Min Max (Ω) Min Max (Ω) (μa) (V) Min Max BZX84B27 EF BZX84B30 EH BZX84B33 EJ BZX84B36 EK BZX84B39 EM BZX84B43 EN BZX84B47 EP Notes : (1) Tested with pulses tp = 20 ms. (1) The Zener impedance, Z ZT2 for the 27 through 75 volt types is tested at 0.5 ma rather than the test current of 0.1mA used for V Z2 Ө VZ 82

83 Zener Diodes 0.35 W Marking Code Zener Voltage (1) V I ZT (V) Test Max. Dynamic Test Maximum Reverse Maximum Current Resistance Current Voltage Zener Current I ZT Z I ZT Z I ZK I ZK I R at V R I ZM Min. Max. (ma) (Ω) (Ω) (ma) (µa) (V) (ma) BZX84CxxCA Series, 0.35 W, Case Type : SOT-23 BZX84C3V0CA MR BZX84C3V3CA MX BZX84C3V6CA MY BZX84C3V9CA MZ BZX84C4V3CA NA BZX84C4V7CA NB BZX84C5V1CA NC BZX84C5V6CA ND BZX84C6V2CA NE BZX84C6V8CA NF BZX84C7V5CA NH BZX84C8V2CA NJ BZX84C9V1CA NK BZX84C10CA NM BZX84C11CA NN BZX84C12CA NP BZX84C13CA NX BZX84C15CA NY BZX84C16CA NZ BZX84C18CA PA BZX84C20CA PB BZX84C22CA PC BZX84C24CA PD BZX84C27CA PE BZX84C30CA PF BZX84C33CA PH BZX84C36CA PJ BZX84C39CA PM BZX84C43CA PN BZX84C47CA PP Note : (1) Tested with pulses tp = 20 ms. 83

84 Zener Diodes 0.35 W Marking Code Zener Voltage (1) V I ZT (V) Test Max. Dynamic Maximum Reverse Current Resistance Voltage I ZT Z I ZT I R at V R Min. Nom. Max. (ma) (Ω) (µa) (V) BZX84CxxCC Series, 0.35 W, Case Type : SOT-23 BZX84C2V4CC JH BZX84C2V7CC JJ BZX84C3V0CC JK BZX84C3V3CC JM BZX84C3V6CC JN BZX84C3V9CC JP BZX84C4V3CC JR BZX84C4V7CC JX BZX84C5V1CC JY BZX84C5V6CC JZ BZX84C6V2CC KA BZX84C6V8CC KB BZX84C7V5CC KC BZX84C8V2CC KD BZX84C9V1CC KE BZX84C10CC KF BZX84C11CC KH BZX84C12CC KJ BZX84C13CC KK BZX84C15CC KM BZX84C16CC KN BZX84C18CC KP BZX84C20CC KR BZX84C22CC KX BZX84C24CC KY BZX84C27CC KZ BZX84C30CC MA BZX84C33CC MB BZX84C36CC MC BZX84C39CC MD BZX84C43CC ME BZX84C47CC MF BZX84C51CC MH BZX84C56CC MJ BZX84C62CC MK BZX84C68CC MM BZX84C75CC MN Note : (1) Tested with pulses tp = 20 ms. 84

85 Zener Diodes 0.35 W Marking Zener Voltage (1) V I ZT (V) Test Maximum Zener Test Maximum Reverse Current Impedance Current Leakage Current I ZT Z I ZT Z I ZK I ZK I V R Min. Nom. Max. (ma) (Ω) (Ω) (ma) (μa) (V) MMBZ5221B Series, 0.35 W, Case Type : SOT-23 MMBZ5221B Y MMBZ5223B Z MMBZ5225B AA MMBZ5226B AB MMBZ5227B AC MMBZ5228B AD MMBZ5229B AE MMBZ5230B AF MMBZ5231B AH MMBZ5232B AJ MMBZ5233B AK MMBZ5234B AM MMBZ5235B AN MMBZ5236B AP MMBZ5237B AR MMBZ5238B AX MMBZ5239B AY MMBZ5240B AZ MMBZ5241B BA MMBZ5242B BB MMBZ5243B BC MMBZ5245B BE MMBZ5246B BF MMBZ5247B BH MMBZ5248B BJ MMBZ5249B BK MMBZ5250B BM MMBZ5251B BN MMBZ5252B BP MMBZ5253B BR MMBZ5254B BX MMBZ5255B BY MMBZ5256B BZ MMBZ5257B CA MMBZ5258B CB MMBZ5259B CC MMBZ5260B CD MMBZ5261B CE Note : (1) Tested with pulses pulses tp = 20 ms 85

86 Zener Diodes 0.40 W Zener Voltage Test Maximum Dynamic Maximum V I ZT Current Resistance Reverse Grade Suffix -1 Suffix -2 Suffix -3 Current min. max. min. max. min. max. I ZT I Z I V R (V) (V) (V) (V) (V) (V) (ma) (Ω) (ma) (μa) (V) HZ6L Series, 0.4 W, Case Type : DO-35 A HZ6L B C A HZ7L B C A HZ9L B C A HZ11L B C A HZ12L B C HZ15L HZ16L HZ18L HZ20L HZ22L HZ24L HZ27L HZ30L HZ33L HZ36L Note : The lower voltage types (HZ6L - HZ12L) are available in 3 grades, "A" to "C", each with suffix "-1", "-2" or "-3" For example the type with Vz = V is HZ9B2L The higher voltage types are only available with suffix "-1", "-2" or "-3" (no grade) e.g. HZ30-3L 86

87 Zener Diodes 0.40 W Suffix (1) Zener Voltage Test Maximum Dymamic Maximum Typical Temperature Current Resistance Reverse Current Coefficient * Vz (V) I ZT I Z I V R I Z γ Z (mv/ C) min. max. (ma) (Ω) (ma) (μa) (V) (ma) HZK-L Series, 0.4 W, Case Type : Mini MELF A A A B HZK6L B B C C C A A A B HZK7L B B C C C A A A B HZK9L B B C C C A A A B HZK11L B B C C C A A A B HZK12L B B C C C Note : (1) When placing an order for HZK-L type, enter suffix as follows: HZK6A1L, HZK6A2L.HZK36-3L 87

88 Zener Diodes 0.40 W Suffix (1) Zener Voltage Test Maximum Dymamic Maximum Typical Temperature Current Resistance Reverse Current Coefficient * Vz (V) I ZT I Z I V R I Z γ Z (mv/ C) min. max. (ma) (Ω) (ma) (μa) (V) (ma) HZK-L Series, 0.4 W, Case Type : Mini MELF HZK15L HZK16L HZK18L HZK20L HZK22L HZK24L HZK27L HZK30L HZK33L HZK36L Note: (1) When placing an order for HZK-L type, enter suffix as follows: HZK6A1L, HZK6A2L.HZK36-3L 88

89 Zener Diodes 0.40 W Suffix (1) Zener Voltage Test Maximum Dymamic Maximum Typical Temperature Current Resistance Reverse Current Coefficient * Vz (V) I ZT I Z I V R I Z γ Z (mv/ C) min. max. (ma) (Ω) (ma) (μa) (V) (ma) HZS-L Series, 0.4 W, Case Type : DO-34 A A A B HZS6L B B C C C A A A B HZS7L B B C C C A A A B HZS9L B B C C C A A A B HZS11L B B C C C A A A B HZS12L B B C C C Note: (1) When placing an order for HZS-L type, enter suffix as follows: HZS6A1, HZS6A2L HZS36-3L 89

90 Zener Diodes 0.40 W Suffix (1) Zener Voltage Test Maximum Dymamic Maximum Typical Temperature Current Resistance Reverse Current Coefficient * Vz (V) I ZT I Z I V R I Z γ Z (mv/ C) min. max. (ma) (Ω) (ma) (μa) (V) (ma) HZS-L Series, 0.4 W, Case Type : DO HZS15L HZS16L HZS18L HZS20L HZS22L HZS24L HZS27L HZS30L HZS33L HZS36L Note: (1) When placing an order for HZS-L type, enter suffix as follows: HZS6A1, HZS6A2L HZS36-3L 90

91 Zener Diodes 0.40 W Test Maximum Zener (2) Maximum Zener Voltage (1) Current Impedance Reverse Current Type Suffix (3) V Z (V) at I ZT I ZT Z I ZT Z I ZK I ZK I R at V R min. max. (ma) (Ω) (Ω) (ma) (μa) (V) RD2.0ES Series, 0.4 W, Case Type : DO-34 AB RD2.0ES AB AB AB RD2.2ES AB AB AB RD2.4ES AB AB AB RD2.7ES AB AB AB RD3.0ES AB AB AB RD3.3ES AB AB AB RD3.6ES AB AB AB RD3.9ES AB AB AB RD4.3ES AB AB AB AB RD4.7ES AB AB AB AB RD5.1ES AB AB AB AB RD5.6ES AB AB AB AB RD6.2ES AB AB AB

92 Zener Diodes 0.40 W Test Maximum Zener (2) Maximum Zener Voltage (1) Current Impedance Reverse Current Type Suffix (3) V Z (V) at I ZT I ZT Z I ZT Z I ZK I ZK I R at V R min. max. (ma) (Ω) (Ω) (ma) (μa) (V) RD2.0ES Series, 0.4 W, Case Type : DO-34 AB RD6.8ES AB AB AB AB RD7.5ES AB AB AB AB RD8.2ES AB AB AB AB RD9.1ES AB AB AB AB RD10ES AB AB AB AB RD11ES AB AB AB AB RD12ES AB AB AB AB RD13ES AB AB AB AB RD15ES AB AB AB AB RD16ES AB AB AB AB RD18ES AB AB AB

93 Zener Diodes 0.40 W Test Maximum Zener (2) Maximum Zener Voltage (1) Current Impedance Reverse Current Type Suffix (3) V Z (V) at I ZT I ZT Z I ZT Z I ZK I ZK I R at V R min. max. (ma) (Ω) (Ω) (ma) (μa) (V) RD2.0ES Series, 0.4 W, Case Type : DO-34 AB RD20ES AB AB AB AB AB RD22ES AB AB AB AB AB RD24ES AB AB AB AB AB RD27ES AB AB AB AB AB RD30ES AB AB AB AB AB RD33ES AB AB AB AB AB RD36ES AB AB AB AB AB RD39ES AB AB AB Notes : (1) Tested with pulse (40 ms) (2) Z Z and Z ZK are measured at I Z by applying a very small AC current signal (3) When placing an order for an RD2.0ES type, please add suffix e.g. RD2.0ESAB, RD2.0ESAB1 RD39ESAB4 93

94 Zener Diodes 0.40 W Suffix (3) Zener Voltage (1) Dynamic Knee Dynamic Reverse Impedance Impedance Current V Z (V) Z Z (Ω) Z ZK (Ω) I R (μa) Min. Max. I Z (ma) Max. Iz (ma) Max. Iz (ma) Max. V R (V) RD4.7JS Series, 0.4 W, Case Type : DO-34 AB RD4.7JS AB AB AB AB RD5.1JS AB AB AB AB RD5.6JS AB AB AB AB RD6.2JS AB AB AB AB RD6.8JS AB AB AB AB RD7.5JS AB AB AB AB RD8.2JS AB AB AB AB RD9.1JS AB AB AB AB RD10JS AB AB AB AB RD11JS AB AB AB AB RD12JS AB AB AB AB RD13JS AB AB AB

95 Zener Diodes 0.40 W Suffix (3) Zener Voltage (1) Dynamic Knee Dynamic Reverse Impedance Impedance Current V Z (V) Z Z (Ω) Z ZK (Ω) I R (μa) Min. Max. I Z (ma) Max. Iz (ma) Max. Iz (ma) Max. V R (V) RD4.7JS Series, 0.4 W, Case Type : DO-34 AB RD15JS AB AB AB AB RD16JS AB AB AB AB RD18JS AB AB AB AB RD20JS AB AB AB AB RD22JS AB AB AB AB RD24JS AB AB AB AB RD27JS AB AB AB AB RD30JS AB AB AB AB RD33JS AB AB AB AB RD36JS AB AB AB AB RD39JS AB AB AB Notes: (1) Tested with pulse (40 ms). (2) Z Z and Z ZK are measured at I Z by applying a very small AC current signal. (3) When placing an order for an RD4.7JS type, please add suffix e.g. RD4.7JSAB, RD4.7JSAB1 RD39JSAB3 95

96 Zener Diodes 0.50 W Nominal Zener Test Maximum Zener Maximum Reverse Typical Maximum Voltage Current Impedance (1) Leakage Current Temperature Regulator Z ZK Coefficient V Current (2) I ZT I ZT Z I ZT at I ZK = 0.25mA I V R α VZ (%/ C) I ZM Axial Lead SMD (V) (ma) (Ω) (Ω) (μa) (V) (ma) 1N5221/ZMM5221 Series,Case Type: DO-35/Mini MELF 1N5221 ZMM N5222 ZMM N5223 ZMM N5224 ZMM N5225 ZMM N5226 ZMM N5227 ZMM N5228 ZMM N5229 ZMM N5230 ZMM ± N5231 ZMM ± N5232 ZMM N5233 ZMM N5234 ZMM N5235 ZMM N5236 ZMM N5237 ZMM N5238 ZMM N5239 ZMM N5240 ZMM N5241 ZMM N5242 ZMM N5243 ZMM N5244 ZMM N5245 ZMM N5246 ZMM N5247 ZMM N5248 ZMM N5249 ZMM N5250 ZMM N5251 ZMM N5252 ZMM N5253 ZMM N5254 ZMM N5255 ZMM N5256 ZMM N5257 ZMM N5258 ZMM N5259 ZMM N5260 ZMM N5261 ZMM N5262 ZMM N5263 ZMM N5264 ZMM N5265 ZMM N5266 ZMM N5267 ZMM Notes : (1) The Zener impedance is derived from the 1 KHz AC voltage which results when an AC current having an RMS value equal to 10% of the Zener current (I ZT or I ZK ) is superimposed on I ZT or I ZK. Zener impedance is measured at two points to ensure a sharp knee on the breakdown curve and to eliminate unstable units (2) VF = 1.1 IF = 200 ma (3) Standard Zener voltage tolerance is ± 10%. Add suffix B for ± 5% tolerance, Add suffix C for ± 2% tolerance. 96

97 Zener Diodes 0.50 W Zener Voltage Maximum DC Voltage Maximum Reverse V I ZT Zener Current Regulation Leakage Current Min. Nom. (1) Max. I ZT (2) I ZM (4) ΔV Z (3) I R at V R SMD (V) (V) (V) (µa) (ma) (V) (μa) (V) TZS4678 Series,Case Type: Mini MELF TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS TZS Notes : (1) The type number shown have a standard tolerance of ± 5% on the nominal zener voltage. (2) Maximum zener current ratings are based on maximum zener voltage of the individual unit. (3) Reverse leakage current are guaranteed and measured at V R as shown on the table. (4) Voltage change is equal to the difference between V Z at 100 µa and V Z at 10 µa. 97

98 Zener Diodes 0.50 W Nominal Test Maximum Maximum Reverse Maximum DC Zener Voltage (3) Current Zener Leakage Current Zener Current (2) Impedance I V R =1V V I ZT I ZT (1) Z I ZT Ta=25 C Ta=150 C I ZM (V) (ma) (Ω) (μa) (μa) (ma) 1N746A Series, 0.5 W, Case Type : DO-35 1N746A N747A N748A N749A N750A N751A N752A N753A N754A N755A N756A N757A N758A N759A Notes : (1) The Zener impedance is derived from the 1 KHz AC voltage which results when an AC current having an RMS value equal to 10% of the Zener current (I ZT ) is superimposed on I ZT. Zener impedance is measured at two points to ensure a sharp knee on the breakdown curve and to eliminate unstable units (2) Valid provided that leads are at a distance of 3/8 from case and kept at ambient temperature. (3) Measured with device junction in thermal equilibrium (4) Standard zener voltage tolerance is ± 5% for suffix A. Other tolerances are available upon request (5) VF = 1.5 IF = 200 ma 98

99 Zener Diodes 0.50 W Zener Voltage Maximum Zener Maximum Reverse Maximum DC (3) V I ZT Impedance (1) Leakage Current Zener Current Nominal I ZT Z I ZT Z I ZK I ZK I V R (2) I ZM (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 1N957B Series, 0.5 W, Case Type : DO-35 1N957B N958B N959B N960B N961B N962B N963B N964B N965B N966B N967B N968B N969B N970B N971B N972B N973B N974B N975B N976B N977B N978B N979B N980B N981B N982B N983B N984B Notes : (1) The Zener Impedance is derived from the 1 KHz AC voltage which results when an AC current having an RMS value equal to 10% of the Zener current (I ZT ) is superimposed on I ZT. Zener Impedance is measured at two points to ensure a sharp knee on the breakdown curve and to eliminate unstable units. (2) Valid provided that leads are at a distance of 3/8 from case and kept at 25 C ambient temperature. (3 Measured with device junction in thermal equilibrium. (4) Standard zener voltage tolerance is ± 5% for suffix B. Other tolerances are available upon request. (5) VF = 1.5 IF = 200 ma 99

100 Zener Diodes 0.50 W Zener Voltage Maximum Zener Maximum Reverse Temp. coefficient Admissible V I ZT Impedance Leakage Current, I R of Zener Voltage Zener Nom (1) Min Max I ZT Z I ZT Z I ZK I ZK Ta=25 C Ta=150 C At V R at Iz = 5mA Current (2) (V) (V) (V) (ma) (Ω) (Ω) (ma) (μa) (μa) (V) αvz(% / C) I ZM (ma) BZX55 Series, 0.5 W, Case Type : DO-35 BZX55C2V BZX55C2V BZX55C2V BZX55C2V BZX55C3V BZX55C3V BZX55C3V BZX55C3V BZX55C4V BZX55C4V BZX55C5V BZX55C5V BZX55C6V BZX55C6V BZX55C7V BZX55C8V BZX55C9V BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C BZX55C typ. 0.1 (4) 7.8 BZX55C typ. 0.1 (4) 7.0 BZX55C typ. 0.1 (4) 6.4 BZX55C typ. 0.1 (4) 5.9 BZX55C typ. 0.1 (4) 5.3 BZX55C typ. 0.1 (4) 4.8 BZX55C typ. 0.1 (4) 4.4 Notes: (1) Tested with pulse tp = 20 ms (2) Valid provided that leads are kept at ambient temperature at a distance of 8 mm from case (3) For ± 2% tolerance replace the sixth letter of the type from "C" to "B" e.g. BZX55B15 (4) At I Z = 2.5 ma (5) V F = 1 I F = 100 ma 100

101 Zener Diodes 0.50 W Zener Voltage Maximum Zener Maximum Reverse Temp. coefficient V I ZT Impedance, f = 1kHz Leakage Current of Zener Voltage Nom (1) I ZT Z I ZT Z I ZK I ZK I R at V R at I ZT (V) (ma) (Ω) (Ω) (ma) (μa) (V) α vz (% / C) BZV55 Series, 0.5 W, Case Type : Mini MELF BZV55C2V BZV55C2V BZV55C3V BZV55C3V BZV55C3V BZV55C3V BZV55C4V BZV55C4V BZV55C5V BZV55C5V BZV55C6V BZV55C6V BZV55C7V BZV55C8V BZV55C9V BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C BZV55C (typ.) BZV55C (typ.) BZV55C (typ.) BZV55C (typ.) Notes. (1) Tested with pulse tp = 5 ms (2) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 5% For ± 2% tolerance replace the sixth letter of the type from "C" to "B" e.g. BZV55B15 (3) VF = 0.9 IF = 10 ma 101

102 Zener Diodes 0.50 W Zener Voltage Maximum Zener Maximum Reverse Temp. coefficient Admissible Maximum V I ZT Impedance, f = 1kHz Leakage Current of Zener Voltage Zener Current (2) Capacitance Nom (1) I ZT Z I ZT Z I ZK I ZK I R at V R at I ZT I Z V R =0, f=1mhz (V) (ma) (Ω) (Ω) (ma) (μa) (V) α mvz (% / C) (ma) (pf) BZX79 Series, 0.5 W, Case Type : DO-35 BZX79C2V BZX79C2V BZX79C3V BZX79C3V BZX79C3V BZX79C3V BZX79C4V BZX79C4V BZX79C5V BZX79C5V BZX79C6V BZX79C6V BZX79C7V BZX79C8V BZX79C9V BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C BZX79C (typ.) BZX79C (typ.) BZX79C (typ.) BZX79C (typ.) Notes: (1) Tested with pulse tp = 5 ms (2) Valid provided that leads are kept at ambient temperature at a distance of 8 mm from case (3) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 5% For ± 2% tolerance replace the sixth letter of the type from "C" to "B" e.g. BZX79B13 (4) VF = 0.9 IF = 10 ma 102

103 Zener Diodes 0.50 W Test Maximum Zener Maximum Zener Voltage Current Impedance, f = 1kHz Reverse Current Suffix (2) (1) V Z (V) at I ZT I ZT Z I ZT Z I ZK I ZK I R at V R min. max. (ma) (Ω) (Ω) (ma) (μa) (V) GLZ Series, 0.5 W, Case Type : Mini MELF GLZ3.3 A B GLZ3.6 A B GLZ3.9 A B A GLZ4.3 B C A GLZ4.7 B C A GLZ5.1 B C A GLZ5.6 B C A GLZ6.2 B C A GLZ6.8 B C A GLZ7.5 B C A GLZ8.2 B C A GLZ9.1 B C A GLZ10 B C D A GLZ11 B C A GLZ12 B C A GLZ13 B C

104 Zener Diodes 0.50 W Test Maximum Zener Maximum Zener Voltage Current Impedance, f = 1kHz Reverse Current Suffix (2) (1) V Z (V) at I ZT I ZT Z I ZT Z I ZK I ZK I R at V R min. max. (ma) (Ω) (Ω) (ma) (μa) (V) GLZ Series, 0.5 W, Case Type : Mini MELF A GLZ15 B C A GLZ16 B C A GLZ18 B C A GLZ20 B C D A GLZ22 B C D A GLZ24 B C D A GLZ27 B C D A GLZ30 B C D A GLZ33 B C D A GLZ36 B C D A GLZ39 B C D Notes: (1) The Zener voltage is measured 40ms after power is supplied (2) When ordering use suffix "A", "B", "C" or "D" to specify zener voltage e.g. GLZ3.3A.GLZ39D 104

105 Zener Diodes 0.50 W Zener Voltage Test Maximum Dynamic Maximum V I ZT Current Resistance Reverse Grade Suffix -1 Suffix -2 Suffix -3 Current min. max. min. max. min. max. I ZT I Z I V R (V) (V) (V) (V) (V) (V) (ma) (Ω) (ma) (μa) (V) HZ Series, 0.5 W, Case Type : DO-35 A HZ2 B C A HZ3 B C A HZ4 B C A HZ5 B C A HZ6 B C A HZ7 B C A HZ9 B C A HZ11 B C A HZ12 B C HZ HZ HZ HZ HZ HZ HZ HZ HZ HZ Note : The lower voltage types (HZ2 - HZ12) are available in 3 grades, "A" to "C", each with suffix "-1", "-2" or "-3" For example the type with Vz = V is HZ9B-2 The higher voltage types are only available with suffix "-1", "-2" or "-3" (no grade) e.g. HZ

106 Zener Diodes 0.50 W Marking Test Max. Reverse Temp. Coefficient Zener Voltage (2) Dynamic Impedance (3) Current Leakage Current of Zener Voltage V I ZT (V) Z I ZT I V R TK VZ (%/K) I ZT Min. Nom. Max. (ma) (Ω) (ma) (μa) (V) Min. Max. MM1Z2V4 Series, 0.5 W, Case Type : SOD-123 MM1Z2V4 4C MM1Z2V7 4D MM1Z3V0 4E MM1Z3V3 4F MM1Z3V6 4H MM1Z3V9 4J MM1Z4V3 4K MM1Z4V7 4M MM1Z5V1 4N MM1Z5V6 4P MM1Z6V2 4R MM1Z6V8 4X MM1Z7V5 4Y MM1Z8V2 4Z MM1Z9V1 5A MM1Z10 5B MM1Z11 5C MM1Z12 5D MM1Z13 5E MM1Z15 5F MM1Z16 5H MM1Z18 5J MM1Z20 5K MM1Z22 5M MM1Z24 5N MM1Z27 5P MM1Z30 5R MM1Z33 5X MM1Z36 5Y MM1Z39 5Z MM1Z43 6A MM1Z47 6B MM1Z51 6C MM1Z56 6D MM1Z62 6E MM1Z68 6F MM1Z75 6H Notes : (1) The type number shown have a standard tolerance of ±5% on the nominal Zener Voltage. (2) V Z is tested with pulses (20ms). (3) V Z is measured at I Z by given a very small A.C. current signal. 106

107 Zener Diodes 0.50 W TYPE NO. Marking Test Max. Reverse Temp. Coefficient Zener Voltage (1) Dynamic Impedance (2) Current Leakage Current of Zener Voltage V I ZT (V) I ZT Z I ZT I V R TK VZ (%/K) Min. Nom. Max. (ma) (Ω) (ma) (μa) (V) Min. Max. MM1Z2V7B Series, 0.5 W, Case Type : SOD-123 MM1Z2V7B 9D MM1Z3V0B 9E MM1Z3V3B 9F MM1Z3V6B 9H MM1Z3V9B 9J MM1Z4V3B 9K MM1Z4V7B 9M MM1Z5V1B 9N MM1Z5V6B 9P MM1Z6V2B 9R MM1Z6V8B 9X MM1Z7V5B 9Y MM1Z8V2B 9Z MM1Z9V1B 0A MM1Z10B 0B MM1Z11B 0C MM1Z12B 0D MM1Z13B 0E MM1Z15B 0F MM1Z16B 0H MM1Z18B 0J MM1Z20B 0K MM1Z22B 0M MM1Z24B 0N MM1Z27B 0P MM1Z30B 0R MM1Z33B 0X MM1Z36B 0Y MM1Z39B 0Z MM1Z36B 0Y MM1Z39B 0Z Notes : (1) V Z is tested with pulses (20ms). (2) V Z is measured at I Z by given a very small A.C. current signal. 107

108 Zener Diodes 0.50 W Marking Zener Voltage (1,2) Test Current I ZT Maximum Reverse Leakage Current V I ZT (V) I V R Min. Nom. Max. (µa) (μa) (V) MM1Z4689 Series, 0.5 W, Case Type : SOD-123 MM1Z4689 BX MM1Z4690 BY MM1Z4691 BZ MM1Z4692 CA MM1Z4693 CB MM1Z4694 CC MM1Z4696 CE MM1Z4697 CF MM1Z4698 CH MM1Z4699 CJ MM1Z4700 CK MM1Z4702 CN MM1Z4703 CP MM1Z4705 CX MM1Z4707 CZ MM1Z4708 DA MM1Z4709 DB MM1Z4711 DD MM1Z4713 DF MM1Z4714 DH MM1Z4715 DJ MM1Z4716 DK MM1Z4717 DM Notes : (1) Tested with pulses tp = 20 ms 108

109 Zener Diodes 0.50 W Marking Zener Voltage V I ZT (V) Test Maximum Zener Test Maximum Reverse Current Impedance Current Leakage Current I ZT Z I ZT Z I ZK I ZK I V R Min. Nom. Max. (ma) (Ω) (Ω) (ma) (μa) (V) MM1Z5221B Series, 0.5 W, Case Type : SOD-123 MM1Z5221B A MM1Z5223B B MM1Z5225B C MM1Z5226B D MM1Z5227B E MM1Z5228B F MM1Z5229B H MM1Z5230B J MM1Z5231B K MM1Z5232B M MM1Z5234B N MM1Z5235B P MM1Z5236B R MM1Z5237B X MM1Z5239B Y MM1Z5240B Z MM1Z5241B A MM1Z5242B B MM1Z5243B C MM1Z5245B D MM1Z5246B E MM1Z5248B F MM1Z5249B K MM1Z5250B H MM1Z5251B J MM1Z5252B K MM1Z5253B M MM1Z5254B M MM1Z5256B N MM1Z5257B P MM1Z5258B R MM1Z5259B X MM1Z5260B Y MM1Z5261B Z MM1Z5262B A MM1Z5263B B MM1Z5265B C MM1Z5266B D MM1Z5267B E Notes: (1) V Z is tested with pulses (20 ms) (2) Nominal Zener voltage is measured with the device junction in thermal equilibrium at T L = 30 C ±1 C (3) Z ZT and Z ZK are measured by divice drop across the device by the AC current appliced. The specified limits are for I Z(AC) = 0.1 I Z(DC) with the AC frequency 1 KHz 109

110 Zener Diodes 0.50 W Zener Voltage Test Maximum Zener Maximum (1) V I ZT Current Impedance Reverse Suffix A (2) Suffix B (2) Suffix C (2) Suffix D Current Min. Nom. Max. Min. Nom. Max. Min. Nom. Max. Min. Nom. Max. I ZT Z I ZT Z I ZK I ZK I V R Axial Lead SMD (V) (V) (V) (V) (V) (V) (V) (V) (V) (V) (V) (V) (ma) (Ω) (Ω) (ma) (μa) (V) MTZJ / MMZJ Series, Case Type : DO-34 / Mini MELF MTZJ2.0 MMZJ MTZJ2.2 MMZJ MTZJ2.4 MMZJ MTZJ2.7 MMZJ MTZJ3.0 MMZJ MTZJ3.3 MMZJ MTZJ3.6 MMZJ MTZJ3.9 MMZJ MTZJ4.3 MMZJ MTZJ4.7 MMZJ MTZJ5.1 MMZJ MTZJ5.6 MMZJ MTZJ6.2 MMZJ MTZJ6.8 MMZJ MTZJ7.5 MMZJ MTZJ8.2 MMZJ MTZJ9.1 MMZJ MTZJ10 MMZJ MTZJ11 MMZJ MTZJ12 MMZJ MTZJ13 MMZJ MTZJ15 MMZJ MTZJ16 MMZJ MTZJ18 MMZJ MTZJ20 MMZJ MTZJ22 MMZJ MTZJ24 MMZJ MTZJ27 MMZJ MTZJ30 MMZJ MTZJ33 MMZJ MTZJ36 MMZJ MTZJ39 MMZJ Note : (1) The Zener voltage is measured 40ms after power is supplied (2) When placing an order for an MTZJ or MMZJ type, please add suffix e.g. MTZJ2.0A, MTZJ2.0B..MMZJ39C 110

111 Zener Diodes 0.50 W Type Zener Voltage Maximum Zener Max. Reverse V I ZT Impedance Leakage Current Temp. coefficient of Zener Voltage Admissible Zener Number Nom. Min Max I ZT Z I ZT Z I ZK I ZK I R at V R TK VZ Current (V) (V) (V) (ma) (Ω) (Ω) (ma) (μa) (V) (% / K) I ZM (ma) MZ55C Series, 0.5 W, Case Type : M1A MZ55C3V MZ55C3V MZ55C3V MZ55C3V MZ55C4V MZ55C4V MZ55C5V MZ55C5V MZ55C6V MZ55C6V MZ55C7V MZ55C8V MZ55C9V MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C MZ55C Note : (1) The type number listed have a standard tolerance on the nominal zener voltage of ± 5.0%. For ± 2% tolerance altered the fifth letter of type from "C" to be "B" 111

112 Zener Diodes 0.50 W Suffix (2) Dynamic Knee Dynamic Reverse Zener Voltage Zener Voltage (1) Impedance Impedance Current Temperature V Z (V) Z Z (Ω) Z ZK (Ω) I R (μa) γz(mv/ C) Min. Max. I Z (ma) Max. Iz (ma) Max. Iz (ma) Max. V R (V) Max. Iz (ma) RD2.0E Series, 0.5 W, Case Type : DO-35 B RD2.0E B B B RD2.2E B B B RD2.4E B B B RD2.7E B B B RD3.0E B B B RD3.3E B B B RD3.6E B B B RD3.9E B B B RD4.3E B B B B RD4.7E B B B B RD5.1E B B B B RD5.6E B B B B RD6.2E B B B

113 Zener Diodes 0.50 W Suffix (2) Dynamic Knee Dynamic Reverse Zener Voltage Zener Voltage (1) Impedance Impedance Current Temperature V Z (V) Z Z (Ω) Z ZK (Ω) I R (μa) γz(mv/ C) Min. Max. I Z (ma) Max. Iz (ma) Max. Iz (ma) Max. V R (V) Max. Iz (ma) RD2.0E Series, 0.5 W, Case Type : DO-35 B RD6.8E B B B B RD7.5E B B B B RD8.2E B B B B RD9.1E B B B B RD10E B B B B RD11E B B B B RD12E B B B B RD13E B B B B RD15E B B B B RD16E B B B B RD18E B B B

114 Zener Diodes 0.50 W Suffix (2) Dynamic Knee Dynamic Reverse Zener Voltage Zener Voltage (1) Impedance Impedance Current Temperature V Z (V) Z Z (Ω) Z ZK (Ω) I R (μa) γz(mv/ C) Min. Max. I Z (ma) Max. Iz (ma) Max. Iz (ma) Max. V R (V) Max. Iz (ma) RD2.0E Series, 0.5 W, Case Type : DO-35 B B RD20E B B B B B RD22E B B B B B RD24E B B B B B RD27E B B B B B RD30E B B B B B RD33E B B B B B RD36E B B B B B RD39E B B B Notes: (1) The zener voltage (Vz) is tested for 40 ms after power is supplied (2) When placing an order for an RD2.0E type, please add suffix e.g. RD2.0EB, RD2.0EB1.. RD39EB4 The B grade is a wide specification, covering full voltage range for suffix "B1" to "B4" 114

115 Zener Diodes 0.50 W Zener Voltage Test Maximum Zener Maximum (1) V I ZT Current Impedance Reverse Current At VR Min. Max. I ZT Z I ZT Z I ZK I ZK I R V R (V) (V) (ma) (Ω) (Ω) (ma) (μa) (V) RLZ Series, Case Type : MiniMELF RLZ3.6B RLZ3.9B RLZ4.3B RLZ4.7B RLZ5.1B RLZ5.6B RLZ6.2B RLZ6.8B RLZ7.5B RLZ8.2B RLZ9.1B RLZ10B RLZ11B RLZ12B RLZ13B RLZ15B RLZ16B RLZ18B RLZ20B RLZ22B RLZ24B RLZ27B RLZ30B RLZ33B RLZ36B RLZ39B Note : (1) The Zener voltage is measured 40ms after power is supplied 115

116 Zener Diodes 0.50 W Zener Voltage Maximum Zener Maximum Reverse Temp. coefficient Type V I ZT Impedance Leakage Current of Zener Voltage Nom I ZT V ZT Z I ZT Z I ZK I ZK I R I R (2) at V R (V) (ma) (V) (1) (Ω) (Ω) (ma) (μa) (μa) (V) α vz (% / Κ) TZMC Series, 0.5 W, Case Type : Mini MELF TZMC2V to 2.56 < 85 < < 50 < TZMC2V to 2.9 < 85 < < 10 < TZMC3V to 3.2 < 90 < < 4 < TZMC3V to 3.5 < 90 < < 2 < TZMC3V to 3.8 < 90 < < 2 < TZMC3V to 4.1 < 90 < < 2 < TZMC4V to 4.6 < 90 < < 1 < TZMC4V to 5.0 < 80 < < 0.5 < TZMC5V to 5.4 < 60 < < 0.1 < TZMC5V to6.0 < 40 < < 0.1 < TZMC6V to 6.6 < 10 < < 0.1 < TZMC6V to 7.2 < 8 < < 0.1 < TZMC7V to 7.9 < 7 < < 0.1 < TZMC8V to8.7 < 7 < < 0.1 < TZMC9V to 9.6 < 10 < < 0.1 < TZMC to 10.6 < 15 < < 0.1 < TZMC to 11.6 < 20 < < 0.1 < TZMC to 12.7 < 20 < < 0.1 < TZMC to 14.1 < 26 < < 0.1 < TZMC to 15.6 < 30 < < 0.1 < TZMC to 17.1 < 40 < < 0.1 < TZMC to 19.1 < 50 < < 0.1 < TZMC to 21.2 < 55 < < 0.1 < TZMC to 23.3 < 55 < < 0.1 < TZMC to 25.6 < 80 < < 0.1 < TZMC to 28.9 < 80 < < 0.1 < TZMC to 32 < 80 < < 0.1 < TZMC to 35 < 80 < < 0.1 < TZMC to 38 < 80 < < 0.1 < TZMC to 41 < 90 < < 0.1 < TZMC to 46 < 90 < < 0.1 < TZMC to 50 < 110 < < 0.1 < TZMC to 54 < 125 < < 0.1 < TZMC to 60 < 135 < < 0.1 < TZMC to 66 < 150 < < 0.1 < TZMC to 72 < 200 < < 0.1 < TZMC to 79 < 250 < < 0.1 < Notes : (1) Tighter tolerances are available on request: TZMA ± 1% of VZnom TZMB ± 2% of VZnom TZMF ± 3% of VZnom (2) At Tj = 150 ºC 116

117 Zener Diodes 0.50 W Zener Voltage Dynamic Resistance Maximum Reverse Temp. coefficient of Admissible V I ZT at I Z = 5mA at I Z = 1mA Leakage Current Zener Voltage At I ZT Zener Current (2) Nom (1) I ZT f = 1 khz f = 1 khz I R at V R α vz (10-4 / C) I Z (V) (ma) rzj (Ω) rzj (Ω) (μa) (V) min. max. (ma) ZMM Series, 0.5 W, Case Type : Mini MELF ZMM < 100 < ZMM (< 83) < ZMM (< 95) < ZMM (< 95) < ZMM (< 95) < ZMM (< 95) < ZMM (< 95) < ZMM (< 78) < ZMM (< 60) < ZMM (< 40) < ZMM (< 10) < ZMM (< 8) < ZMM (< 7) < ZMM (< 7) < ZMM (< 10) < ZMM (< 15) < ZMM (< 20) < ZMM (< 20) < ZMM (< 25) < ZMM (< 30) < ZMM (< 40) < ZMM (< 50) < ZMM (< 50) < ZMM (< 55) < ZMM (< 80) < ZMM (< 80) < ZMM (< 80) < ZMM (< 80) < ZMM (< 90) < ZMM (< 90) < ZMM (< 100) < ZMM (< 100) < ZMM (< 100) < ZMM < 135 (3) < 1000 (4) (typ.) 7.1 ZMM < 150 (3) < 1000 (4) (typ.) 6.4 ZMM < 200 (3) < 1000 (4) (typ.) 5.8 ZMM < 250 (3) <1500 (4) (typ.) 5.3 Notes: (1) Tested with pulse tp = 5 ms (2) Valid provided that leads are kept at ambient temperature (3) At I Z = 2.5mA (4) At I Z = 0.5mA (5) Standard zener voltage tolerance is ± 5%. Other tolerances are available upon request (6) VF = 1.25 IF = 200 ma 117

118 Zener Diodes 0.50 W Nominal Zener Test Maximum Zener Maximum Reverse Maximum DC Maximum Voltage Current Impedance Leakage Current Zener Current Surge Current V I ZT I ZT Z I ZT Z I ZK I ZK I V R I ZM I RM (2) (V) (ma) (Ω) (ma) (μa) (V) (ma) (mapk) Z043 Series, 0.5 W, Case Type : DO-41 Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Z Notes : (1) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 10% Add suffix "A" for ± 5% tolerance, add suffix "B" for ± 2% tolerance (2) Surge current is a non-repetitive 8.3ms square pulse width wave or equivalent sine-wave superimposed on I ZT as per JEDEC method 118

119 Zener Diodes 0.50 W Zener Voltage Dynamic Resistance Reverse Temp. coefficient Admissible V I ZT at I Z =5mA at I Z =1mA Voltage of Zener Voltage At I ZT Zener Current (2) Nom (1) I ZT f = 1 khz f = 1 khz at I R = 100 na α vz (10-4 / C) I Z (V) (ma) rzj (Ω) rzj (Ω) V R (V) min. max. (ma) ZPD Series, 0.5 W, Case Type : DO-35 ZPD (<8) < ZPD (<83) < ZPD (<95) < ZPD (<95) < ZPD (<95) < ZPD (<95) < ZPD (<78) < ZPD (<60) < 480 > ZPD (<40) < 400 > ZPD (<10) < 200 > ZPD (<8) < 150 > ZPD (<7) < 50 > ZPD (<7) < 50 > ZPD (<10) < 50 > ZPD (<15) < 70 > ZPD (<20) < 70 > ZPD (<20) < 90 > ZPD (<25) < 110 > ZPD (<30) < 110 > ZPD (<40) < 170 > ZPD (<50) < 170 > ZPD (<50) < 220 > ZPD (<55) < 220 > ZPD (<80) < 220 > ZPD (<80) < 250 > ZPD (<80) < 250 > ZPD (<80) < 250 > ZPD (<90) < 250 > ZPD (<90) < 300 > ZPD (<100) < 700 > ZPD (<100) < 750 > ZPD (<100) < 750 > ZPD <135 (3) < 1000 (4) > (typ.) 7.1 ZPD <150 (3) < 1000 (4) > (typ.) 6.4 ZPD <200 (3) < 1000 (4) > (typ.) 5.8 ZPD <250 (3) <1500 (4) > (typ.) 5.3 Notes : (1) Tested with pulse tp = 5 ms (2) Valid provided that leads are at distance of 4 mm from case and kept at ambient temperature (3) At I Z = 2.5mA (4) At I Z = 0.5mA (5) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 5.0% 119

120 Zener Diodes 1.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current VZ@IZT (2) IZT IZT IZK IZK VR IZM Axial Lead SMD (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 1N4728/SZ10 Series, 1 W, Case Type : DO-41/SMA 1N4728 SZ103D N4729 SZ103G N4730 SZ103J N4731 SZ104D N4732 SZ104H N4733 SZ105B N4734 SZ105G N4735 SZ106C N4736 SZ106I N4737 SZ107F N4738 SZ108C N4739 SZ109B N4740 SZ N4741 SZ N4742 SZ N4743 SZ N4744 SZ N4745 SZ N4746 SZ N4747 SZ N4748 SZ N4749 SZ N4750 SZ N4751 SZ N4752 SZ N4753 SZ N4754 SZ N4755 SZ N4756 SZ N4757 SZ N4758 SZ N4759 SZ N4760 SZ N4761 SZ N4762 SZ N4763 SZ N4764 SZ10B Z1110 SZ10B Z1120 SZ10B Z1130 SZ10B Z1150 SZ10B Z1160 SZ10B Z1180 SZ10B Z1200 SZ10D Z1220 SZ10D Z1240 SZ10D Z1250 SZ10D Z1270 SZ10D Z1300 SZ10E Notes : (1) For Vz 200 V; VF = 1.2 IF = 200 ma and for Vz > 200 V; VF = 2 IF = 200 ma. (2) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 10%. A standard tolerance of ± 5% is also available by adding suffix "A" to the standard type for Axial Lead or by replacing the fourth digit of standard type from "0" to "5" for SMD. (3) "SZ" for SMD parts will be omitted on marking of the diode (4) Use suffix "C" for tolerance ± 2% (Axial Lead) 120

121 Zener Diodes 1.0 W (2) Nominal Zener Maximum Zener Maximum Reverse Voltage Impedance Leakage Current V ZT (1) I ZT Z I ZT Z I ZK I ZK I V R Axial Lead (V) (ma) (Ω) (Ω) (ma) (μa) (V) Z1T-100B Series, 1 W, Case Type : DO-41 Z1T-100B Z1T-110B Z1T-115B Z1T-120B Z1T-130B Z1T-140B Z1T-150B Z1T-160B Z1T-170B Z1T-180B Z1T-190B Z1T-200B Z1T-210B Z1T-220B Z1T-230B Z1T-240B Z1T-250B Z1T-260B Z1T-270B Z1T-280B Z1T-290B Z1T-300B Z1T-310B Z1T-320B Z1T-330B Notes : (1) VF = 1.2 IF = 200 ma (2) Suffix " B " indicates ± 5.0% tolerance," A " indicates ± 10% tolerance. 121

122 Zener Diodes 1.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Maximum Voltage Impedance Leakage Current Zener Current Surge Current V Z I ZT I ZT Z I ZT Z I ZK I ZK I V R I ZM I RM Axial Lead (V) (ma) (Ω) (Ω) (ma) (µa) (V) (ma) (mapk) MZ4728 Series, 1.0 W, Case Type : M1A MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ MZ Note : (1) The type number listed have a standard tolerance on the nominal zener voltage of ± 10%. Suffix "A" indicates ± 5% tolerance, suffix "C" indicates ± 2% tolerance 122

123 Zener Diodes 1.0 W Nominal Zener Maximum Reverse Maximum Maximum Maximum Zener Impedance (1) Voltage (3) Leakage Current Regulator Current Surge Current V I ZT I ZT Z I ZT Z I ZK I ZK I V R I ZM (2) Axial Lead SMD (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) (ma) IRM 1N4728AG/ZM4728A Series, Case Type : DO-41G / MELF 1N4728AG ZM4728A N4729AG ZM4729A N4730AG ZM4730A N4731AG ZM4731A N4732AG ZM4732A N4733AG ZM4733A N4734AG ZM4734A N4735AG ZM4735A N4736AG ZM4736A N4737AG ZM4737A N4738AG ZM4738A N4739AG ZM4739A N4740AG ZM4740A N4741AG ZM4741A N4742AG ZM4742A N4743AG ZM4743A N4744AG ZM4744A N4745AG ZM4745A N4746AG ZM4746A N4747AG ZM4747A N4748AG ZM4748A N4749AG ZM4749A N4750AG ZM4750A N4751AG ZM4751A N4752AG ZM4752A N4753AG ZM4753A N4754AG ZM4754A N4755AG ZM4755A N4756AG ZM4756A N4757AG ZM4757A N4758AG ZM4758A N4759AG ZM4759A N4760AG ZM4760A N4761AG ZM4761A N4762AG ZM4762A N4763AG ZM4763A N4764AG ZM4764A Notes: (1) The Zener impedance is derived from the 1kHZ AC voltage which results when an AC current having an RMS value equal to 10% of the Zener current (I ZT or I ZK ) is superimposed on I ZT or I ZK. Zener impedance is measured at two points to ensure a sharp knee on the breakdown curve and to eliminate unstable units (2) Valid provided that electrodes are at a distance of 10mm from case and kept at ambient temperature (3) Measured under thermal equilibrium and DC test conditions (4) Standard Zener voltage tolerance is ± 5% tolerance. Other Zener voltages and tolerances are available upon request. (5) VF = 1.2 IF = 200 ma 123

124 Zener Diodes 1.0 W Nominal Zener Test Maximum Zener Maximum Reverse Maximum DC Maximum Voltage Current Impedance Leakage Current Zener Current Surge Current V I ZT I ZT Z I ZT Z I ZK I ZK I V R I ZM I RM (2) (V) (ma) (Ω) (ma) (μa) (V) (ma) (mapk) 1SMA4728A Series, 1 W, Case Type : SMA 1SMA4728A SMA4729A SMA4730A SMA4731A SMA4732A SMA4733A SMA4734A SMA4735A SMA4736A SMA4737A SMA4738A SMA4739A SMA4740A SMA4741A SMA4742A SMA4743A SMA4744A SMA4745A SMA4746A SMA4747A SMA4748A SMA4749A SMA4750A SMA4751A SMA4752A SMA4753A SMA4754A SMA4755A SMA4756A SMA4757A SMA4758A SMA4759A SMA4760A SMA4761A SMA4762A SMA4763A SMA4764A Notes : (1) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 5%. (2) Surge current is a non-repetitive 8.3ms square pulse width wave or equivalent sine-wave superimposed on I ZT as per JEDEC method 124

125 Zener Diodes 1.0 W Zener Voltage Test Current Maximum Zener Maximum Typical Temperature Impedance Reverse Current Coefficient V Z (V) (1) I ZT Z I Z I V R γ Z I Z Min. Typ. Max. (ma) (Ω) (ma) (μa) (V) (mv/ºc) (ma) PTZ3.6B Series, 1 W, Case Type : SMA PTZ3.6B PTZ3.9B PTZ4.3B PTZ4.7B PTZ5.1B PTZ5.6B PTZ6.2B PTZ6.8B PTZ7.5B PTZ8.2B PTZ9.1B PTZ10B PTZ11B PTZ12B PTZ13B PTZ15B PTZ16B PTZ18B PTZ20B PTZ22B PTZ24B PTZ27B PTZ30B PTZ33B PTZ36B Note : (1) The Zener Voltage V Z is measured 40 ms after power is supplied 125

126 Zener Diodes 1.0 W Suffix (3) Zener Voltage Dynamic Impedance Reverse Current (1) (2) V Z Z Z I R Min. Max. I Z Max. Iz Max. V R V V ma Ω ma (μa) (V) RD2.0F Series, 1 W, Case Type : DO-41 Glass B RD2.0F B B B RD2.2F B B B RD2.4F B B B RD2.7F B B B RD3.0F B B B RD3.3F B B B RD3.6F B B B RD3.9F B B B RD4.3F B B B B RD4.7F B B B B RD5.1F B B B B RD5.6F B B B B RD6.2F B B B

127 Zener Diodes 1.0 W Suffix (3) Zener Voltage Dynamic Impedance Reverse Current (1) (2) V Z Z Z I R Min. Max. I Z Max. Iz Max. V R V V ma Ω ma (μa) (V) RD2.0F Series, 1 W, Case Type : DO-41 Glass B RD6.8F B B B B RD7.5F B B B B RD8.2F B B B B RD9.1F B B B B RD10F B B B B RD11F B B B B RD12F B B B B RD13F B B B B RD15F B B B B RD16F B B B B RD18F B B B

128 Zener Diodes 1.0 W Suffix (3) Zener Voltage Dynamic Impedance Reverse Current (1) (2) V Z Z Z I R Min. Max. I Z Max. Iz Max. V R V V ma Ω ma (μa) (V) RD2.0F Series, 1 W, Case Type : DO-41 Glass B B RD20F B B B B RD22F B B B B RD24F B B B B RD27F B B B B RD30F B B B B RD33F B B B B RD36F B B B B RD39F B B RD43F B RD47F B RD51F B RD56F B RD62F B RD68F B RD75F B RD82F B Notes: (1) Test with pulse (40 ms) (2) Z Z is measured at I Z given an very small AC Current Signal (3) When placing an order for an RD2.0F type, please add suffix e.g. RD2.0FB, RD2.0FB1.. RD82FB4 The B grade is a wide specification, covering full voltage range for suffix "B1" to "B3" 128

129 Zener Diodes 1.0 W Zener Voltage (2) Maximum Zener Maximum Reverse Maximum V I ZT Impedance Leakage Current, I R DC Zener Nom Min Max I ZT Z I ZT Z I ZK I ZK I V R Current (1) (V) (V) (V) (ma) (Ω) (Ω) (ma) (μa) (V) I ZM (ma) SMAZ5V1 Series, 1 W, Case Type : SMA SMAZ5V SMAZ5V SMAZ6V SMAZ6V SMAZ7V SMAZ8V SMAZ9V SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ SMAZ Notes : (1) PCB mounted on 1" x 0.85" x 0.062" copper area pads (2) Short duration test pulse used to minimize self-heating effect (3) "SMA" will be omitted in marking on the diode. 129

130 Zener Diodes 1.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Maximum Voltage Impedance Leakage Current Zener Current Surge Current VZ IZT IZT IZT IZK IZK VR IZM IRM (2) (V) (ma) (Ω ) (Ω ) (ma) (μa) (V) (ma) (mapk) SML4728 Series, 1 W, Case Type : SMA SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML SML Notes : (1) Standard voltage tolerance is 10%, add suffix "A" for ± 5% tolerance (2) Surge current is a non-repetitive 8.3ms square pulse width wave or equivalent sine-wave superimposed on I ZT per JEDEC method (3) " SML " will be omitted on marking of the diode 130

131 Zener Diodes 1.0 W Test Dynamic Reverse Admissible Temp. Coeff. of Zener Voltage (1) Current Resistance at I ZT Voltage at Zener current (2) Zener Voltage at I ZT V I ZT f = 1kHz I R = 0.5 μa Min Max I ZT rzj V R I Z α VZ (10 4 / C) (V) (V) (ma) (Ω) (V) (ma) Min. Max. ZMU Series, 1 W, Case Type : MELF ZMU (<300) > ZMU (<330) > ZMU (<360) > ZMU (<380) > ZMY Series, 1 W, Case Type : MELF ZMY (<7) ZMY (<7) ZMY (<7) ZMY (<5) > ZMY (<2) > ZMY (<2) > ZMY (<2) > ZMY (<2) > ZMY (<2) > ZMY (<4) > ZMY (<4) > ZMY (<7) > ZMY (<7) > ZMY (<9) > ZMY (<9) > ZMY (<10) > ZMY (<11) > ZMY (<12) > ZMY (<13) > ZMY (<14) > ZMY (<15) > ZMY (<20) > ZMY (<20) > ZMY (<60) > ZMY (<60) > ZMY (<80) > ZMY (<80) > ZMY (<100) > ZMY (<100) > ZMY (<130) > ZMY (<130) > ZMY (<160) > ZMY (<160) > ZMY (<250) > ZMY (<250) > Notes: (1) Tested with pulse tp = 5ms (2) Valid provided that electrodes are kept at ambient temperature (3) For ZMY Series standard zener voltage tolerance is ± 5%. Add suffix C for ± 2% tolerance. 131

132 Zener Diodes 1.3 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM Axial Lead SMD (V) (ma) (W) (W) (ma) (ma) (V) (ma) BZX85/SZ25 Series, 1.3 W, Case Type : DO-41/SMA BZX85C2V4 SZ252D BZX85C2V7 SZ252H BZX85C3V0 SZ253A BZX85C3V3 SZ253D BZX85C3V6 SZ253G BZX85C3V9 SZ253J BZX85C4V3 SZ254D BZX85C4V7 SZ254H BZX85C5V1 SZ255B BZX85C5V6 SZ255G BZX85C6V2 SZ256C BZX85C6V8 SZ256I BZX85C7V5 SZ257F BZX85C8V2 SZ258C BZX85C9V1 SZ259B BZX85C10 SZ BZX85C11 SZ BZX85C12 SZ BZX85C13 SZ BZX85C15 SZ BZX85C16 SZ BZX85C18 SZ BZX85C20 SZ BZX85C22 SZ BZX85C24 SZ BZX85C27 SZ BZX85C30 SZ BZX85C33 SZ BZX85C36 SZ BZX85C39 SZ BZX85C43 SZ BZX85C47 SZ BZX85C51 SZ BZX85C56 SZ BZX85C62 SZ BZX85C68 SZ BZX85C75 SZ BZX85C82 SZ BZX85C91 SZ BZX85C100 SZ25B BZX85C110 SZ25B BZX85C120 SZ25B BZX85C130 SZ25B BZX85C150 SZ25B BZX85C160 SZ25B BZX85C180 SZ25B BZX85C200 SZ25D Notes: (1) VF = 1.2 IF = 200 ma. (2) The type numbers listed have a standard tolerance on the nominal zener voltage of ± 5%. Add suffix B for ± 2% tolerance for axial lead. (3) "BZX" for Axial Lead / "SZ" for SMD will be omitted on marking of the diode. 132

133 Zener Diodes 1.3 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current V I ZT I ZT Z I ZT Z I ZK I ZK I V R I ZM Axial Lead (V) (ma) (Ω) (Ω) (ma) (µa) (V) (ma) MZ85C Series, 1.3 W, Case Type : M1A MZ85C3V MZ85C3V MZ85C3V MZ85C3V MZ85C4V MZ85C4V MZ85C5V MZ85C5V MZ85C6V MZ85C6V MZ85C7V MZ85C8V MZ85C9V MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C MZ85C Note : (1) The type number listed have a standard tolerance on the nominal zener voltage of ± 5.0%. 133

134 Zener Diodes 1.3 W Zener Voltage (1) Test Dynamic Reverse Voltage Admissible Temp. coefficient V I ZT Current Resistance at I R = 0.5mA Zener Current of Zener Voltage Min. Max. I ZT at I ZT, f = 1kHz V R I (2) Z α vz (10-4 / C) (V) (V) (ma) rzj (Ω) (V) (ma) min. max. ZPY Series, 1.3 W, Case Type : DO-41 Glass ZPY (< 7) ZPY (< 7) ZPY (< 5) ZPY (< 2) > ZPY (< 2) > ZPY (< 2) > ZPY (< 2) > ZPY (< 2) > ZPY (< 2) > ZPY (< 4) > ZPY (< 4) > ZPY (< 7) > ZPY (< 7) > ZPY (< 9) > ZPY (< 9) > ZPY (< 10) > ZPY (< 11) > ZPY (< 12) > ZPY (< 13) > ZPY (< 14) > ZPY (< 15) > ZPY (< 20) > ZPY (<20) > ZPY (< 60) > ZPY (< 60) > ZPY (< 80) > ZPY (< 80) > ZPY (< 100) > ZPY (< 100) > ZPY (< 130) > ZPY (< 130) > ZPY (< 160) > ZPY (< 160) > ZPY (< 250) > ZPY (< 250) > Notes: (1) Tested with pulse tp = 5 ms (2) Valid provided that leads are kept at ambient temperature at a distance of 10 mm from case. For devices in glass DO-41 case with higher Zener voltage but same power dissipation see types ZPU100 ZPU

135 Zener Diodes 1.5 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) MZ5913A Series, 1.5 W, Case Type : M1A MZ5913A MZ5914A MZ5915A MZ5916A MZ5917A MZ5918A MZ5919A MZ5920A MZ5921A MZ5922A MZ5923A MZ5924A MZ5925A MZ5926A MZ5927A MZ5928A MZ5929A MZ5930A MZ5931A MZ5932A MZ5933A MZ5934A MZ5935A MZ5936A MZ5937A MZ5938A MZ5939A MZ5940A MZ5941A MZ5942A MZ5943A MZ5944A MZ5945A MZ5946A MZ5947A MZ5948A MZ5949A MZ5950A MZ5951A MZ5952A MZ5953A MZ5954A MZ5955A MZ5956A Note : (1) Suffix "A" is for ± 10% tolerance. Use suffix "B" for ± 5% tolerance (Axial lead) 135

136 Zener Diodes 1.5 W Nominal Zener Test Maximum Zener Maximum Reverse Maximum DC Voltage Current Impedance Leakage Current Zener Current V I ZT I ZT Z I ZT Z I ZK I ZK I V R I ZM (V) (ma) (Ω) (ma) (μa) (V) (ma) 1SMA5913A Series, 1.5 W, Case Type : SMA 1SMA5913A SMA5914A SMA5915A SMA5916A SMA5917A SMA5918A SMA5919A SMA5920A SMA5921A SMA5922A SMA5923A SMA5924A SMA5925A SMA5926A SMA5927A SMA5928A SMA5929A SMA5930A SMA5931A SMA5932A SMA5933A SMA5934A SMA5935A SMA5936A SMA5937A SMA5938A SMA5939A SMA5940A SMA5941A SMA5942A SMA5943A SMA5944A SMA5945A SMA5946A SMA5947A SMA5948A SMA5949A SMA5950A SMA5951A SMA5952A SMA5953A SMA5954A SMA5955A SMA5956A SMA5957A Notes: (1) Suffix "A" indicates ± 10% tolerance, change to suffix "B" for ± 5% tolerance. (2) "1SMA5" will be omitted in marking on the diode. 136

137 Zener Diodes 2.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM Axial Lead SMD (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 2EZ / SZ45 Series, 2.0 W, Case Type : DO-41/SMA 2EZ2.7D5 SZ452H EZ3.0D5 SZ453A EZ3.3D5 SZ453D EZ3.6D5 SZ453G EZ3.9D5 SZ453J EZ4.3D5 SZ454D EZ4.7D5 SZ454H EZ5.1D5 SZ455B EZ5.6D5 SZ455G EZ6.2D5 SZ456C EZ6.8D5 SZ456I EZ7.5D5 SZ457F EZ8.2D5 SZ458C EZ9.1D5 SZ459B EZ10D5 SZ EZ11D5 SZ EZ12D5 SZ EZ13D5 SZ EZ14D5 SZ EZ15D5 SZ EZ16D5 SZ EZ17D5 SZ EZ18D5 SZ EZ19D5 SZ EZ20D5 SZ EZ22D5 SZ EZ24D5 SZ EZ27D5 SZ EZ30D5 SZ EZ33D5 SZ EZ36D5 SZ EZ39D5 SZ EZ43D5 SZ EZ47D5 SZ EZ51D5 SZ EZ56D5 SZ EZ62D5 SZ EZ68D5 SZ EZ75D5 SZ EZ82D5 SZ EZ91D5 SZ EZ100D5 SZ45B EZ110D5 SZ45B EZ120D5 SZ45B EZ130D5 SZ45B EZ140D5 SZ45B EZ150D5 SZ45B EZ160D5 SZ45B EZ170D5 SZ45B EZ180D5 SZ45B EZ190D5 SZ45B EZ200D5 SZ45D EZ220D5 SZ45D EZ270D5 SZ45D EZ300D5 SZ45E EZ330D5 SZ45E Notes : (1) For Vz 200 V; VF = 1.2 IF = 200 ma and for Vz > 200 V; VF = 2 IF = 200 ma. (2) Suffix "5" indicates ± 5% tolerance, suffix "10" indicates ± 10% tolerance (Axial lead ) / replace the fourth digit of type from "0" for ± 10% tolerance to "5" for ± 5% tolerance (SMD) (3) "EZ" for Axial Lead / "SZ" for SMD will be omitted on marking of the diode 137

138 Zener Diodes 2.0 W Zener Voltage (2) Test Dynamic Temp. coeff. Maximum Admissible at I ZT Current resistance of Zener Reverse Zener Current (1) V Z (V) at I ZT Voltage at I ZT at I R = 1 μa at Ta = 25 C min. max. I ZT (ma) max. rzj (Ω) α VZ (10-4 /K) V R (V) I Z (ma) ZY3.6 Series, 2 W, Case Type : DO-41 ZY ZY ZY ZY ZY ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY >12 98 ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY > ZY >123 9 ZY > ZY >149 8 ZY > Notes : (1) Valid provided that leads are kept at ambient temperature at a distance of 10 mm from case (2) Tested with pulse tp = 5 ms 138

139 Zener Diodes 3.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM Axial Lead SMD (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 1N5913A/SZ303D Series, 3.0/1.5 W, Case Type : DO-41/SMA 1N5913A SZ303D N5914A SZ303G N5915A SZ303J N5916A SZ304D N5917A SZ304H N5918A SZ305B N5919A SZ305G N5920A SZ306C N5921A SZ306I N5922A SZ307F N5923A SZ308C N5924A SZ309B N5925A SZ N5926A SZ N5927A SZ N5928A SZ N5929A SZ N5930A SZ N5931A SZ N5932A SZ N5933A SZ N5934A SZ N5935A SZ N5936A SZ N5937A SZ N5938A SZ N5939A SZ N5940A SZ N5941A SZ N5942A SZ N5943A SZ N5944A SZ N5945A SZ N5946A SZ N5947A SZ N5948A SZ N5949A SZ30B N5950A SZ30B N5951A SZ30B N5952A SZ30B N5953A SZ30B N5954A SZ30B N5955A SZ30B N5956A SZ30D Notes : (1) VF = 1.5 IF = 200mA (2) Suffix "A" is for ± 10% tolerance. Use suffix "B" for ± 5% tolerance (Axial lead) / replace the fourth digit of type from "0" for ± 10% tolerance to "5" for ± 5% tolerance (SMD) (3) "SZ" for SMD will be omitted on marking of the diode. 139

140 Zener Diodes 3.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM Axial Lead (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 1SMB5913A Series, 3.0W, Case Type : SMB 1SMB5913A SMB5914A SMB5915A SMB5916A SMB5917A SMB5918A SMB5919A SMB5920A SMB5921A SMB5922A SMB5923A SMB5924A SMB5925A SMB5926A SMB5927A SMB5928A SMB5929A SMB5930A SMB5931A SMB5932A SMB5933A SMB5934A SMB5935A SMB5936A SMB5937A SMB5938A SMB5939A SMB5940A SMB5941A SMB5942A SMB5943A SMB5944A SMB5945A SMB5946A SMB5947A SMB5948A SMB5949A SMB5950A SMB5951A SMB5952A SMB5953A SMB5954A SMB5955A SMB5956A Notes : (1) VF = 1.5 IF = 200mA (2) Suffix "A" is for ± 10% tolerance. Use suffix "B" for ± 5% tolerance. (3) "SMB59" for SMD will be omitted on marking of the diode. 140

141 Zener Diodes 3.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM Axial Lead SMD (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 3EZ / SZ55 Series, 3.0 W, Case Type : DO-41/SMA 3EZ3.9D5 SZ553J EZ4.3D5 SZ554D EZ4.7D5 SZ554H EZ5.1D5 SZ555B EZ5.6D5 SZ555G EZ6.2D5 SZ556C EZ6.8D5 SZ556I EZ7.5D5 SZ557F EZ8.2D5 SZ558C EZ9.1D5 SZ559B EZ10D5 SZ EZ11D5 SZ EZ12D5 SZ EZ13D5 SZ EZ14D5 SZ EZ15D5 SZ EZ16D5 SZ EZ17D5 SZ EZ18D5 SZ EZ19D5 SZ EZ20D5 SZ EZ22D5 SZ EZ24D5 SZ EZ27D5 SZ EZ28D5 SZ EZ30D5 SZ EZ33D5 SZ EZ36D5 SZ EZ39D5 SZ EZ43D5 SZ EZ47D5 SZ EZ51D5 SZ EZ56D5 SZ EZ62D5 SZ EZ68D5 SZ EZ75D5 SZ EZ82D5 SZ EZ91D5 SZ EZ100D5 SZ55B EZ110D5 SZ55B EZ120D5 SZ55B EZ130D5 SZ55B EZ140D5 SZ55B EZ150D5 SZ55B EZ160D5 SZ55B EZ170D5 SZ55B EZ180D5 SZ55B EZ190D5 SZ55B EZ200D5 SZ55D Notes : (1) VF = 1.5 IF = 200mA. (2) Suffix "5" indicates ± 5% tolerance, suffix "10" indicates ± 10% tolerance ( Axial lead ) / replace the fourth digit of type from "0" for ± 10% tolerance to "5" for ± 5% tolerance (SMD) (3) " 3EZ" for Axial Lead / "SZ " for SMD will be omitted on marking of the diode 141

142 Zener Diodes 3.0 W Working Voltage Test Differental Temperature Maximum Reverse Current Resistance Coefficient Leakage Current V I Z rdiff(ω) at I Z S Z (%/K) at I Z I Z I V R Min. Nom. Max. (ma) Typ. Max. Min. Max. (μa) (V) BZG03-C Series, 3 W, Case Type : SMA BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C BZG03-C Note : (1) "BZG03-" will be omitted in marking on the diode, e.g. p/n BZG03-C10 marking "C10". 142

143 Zener Diodes 3.0 W Standoff Voltage Min. Breakdown Voltage T I R Max. Clamping Voltage Typical Junction Capacitance V R I R(max) V I R (% / K) V I I V R = 0 V, f = 1MHz V ( µa) V ma typ Max V (1) A (1) C J (pf) BZG04- Series, 3 W, Case Type : SMA BZG04-8V BZG04-9V BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG BZG Note : (1) "BZG0 - " will be omitted in marking on the diode, e.g. p/n BZG04-8V2 marking "48V2". 143

144 Zener Diodes 3.0 W Zener Voltage V I ZT Test Maximum Dynamic Test Temp. coefficient Maximum Reverse Current Resistance Current of Zener Voltage Leakage Current r r Min typ Max I ZT I ZK I ZK I ZK I V R (V) (V) (V) (ma) (Ω) (Ω) (ma) Min Max (µa) ZT (% / K) BZG05C Series, 3 W, Case Type : SMA BZG05C3V BZG05C3V BZG05C3V BZG05C4V BZG05C4V BZG05C5V BZG05C5V BZG05C6V BZG05C6V BZG05C7V BZG05C8V BZG05C9V BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C BZG05C Note : (1) "BZG0 C " will be omitted in marking on the diode, e.g. p/n BZG05C3V3 marking "53V3". 144

145 Zener Diodes 5.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC. Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK I V R (V) IZM Axial Lead SMD (V) (ma) (Ω) (Ω) (ma) (μa) Suffix "A" Suffix "B" (ma) 1N5333A/SZ60 Series, 5 W, Case Type : DO-15/SMB 1N5338A SZ605B N5339A SZ605G N5340A SZ606A N5341A SZ606C N5342A SZ606I N5343A SZ607F N5344A SZ608C N5345A SZ608H N5346A SZ609B N5347A SZ N5348A SZ N5349A SZ N5350A SZ N5351A SZ N5352A SZ N5353A SZ N5354A SZ N5355A SZ N5356A SZ N5357A SZ N5358A SZ N5359A SZ N5360A SZ N5361A SZ N5362A SZ N5363A SZ N5364A SZ N5365A SZ N5366A SZ N5367A SZ N5368A SZ N5369A SZ N5370A SZ N5371A SZ N5372A SZ N5373A SZ N5374A SZ N5375A SZ N5376A SZ N5377A SZ N5378A SZ60B N5379A SZ60B N5380A SZ60B N5381A SZ60B N5382A SZ60B N5383A SZ60B N5384A SZ60B N5385A SZ60B N5386A SZ60B N5387A SZ60B N5388A SZ60D Notes : (1) V F = 1.2 I F = 1 A(3.3V to 200V) (2) V F = 2.0 I F = 1 A(220V to 240V) (3) Use suffix "A" for ± 10% tolerance and suffix "B" for ± 5% tolerance (Axial lead) / replace the fourth digit of type from "0" for ± 10% tolerance to "5" for ± 5% tolerance (SMD). (4) "SZ" for SMD will be omitted on marking of the diode 145

146 Zener Diodes 5.0 W Nominal Zener Maximum Zener Maximum Reverse Maximum DC. Voltage Impedance Leakage Current Zener Current IZT IZT IZT IZK IZK VR IZM (V) (ma) (Ω) (Ω) (ma) (μa) (V) (ma) 1N4954 Series, 5 W, Case Type : DO-15 1N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N N Notes : (1) Maximum voltage change Δ VZ between 10% of I ZM and 50% of I ZM (2) Standard voltage tolerance is ± 5% 146

147 Zener Diodes 5.0 W Nominal Zener Test Maximum Zener Maximum Reverse Maximum DC Voltage Current Impedance Leakage Current Zener Current V I ZT I ZT Z I ZT Z I ZK I ZK I V R (V) I ZM (V) (ma) (Ω) (Ω) (ma) (μa) Suffix "A" Suffix "B" (ma) SMBJ5333A Series, 5 W, Case Type : SMB SMBJ5338A SMBJ5339A SMBJ5340A SMBJ5341A SMBJ5342A SMBJ5343A SMBJ5344A SMBJ5345A SMBJ5346A SMBJ5347A SMBJ5348A SMBJ5349A SMBJ5350A SMBJ5351A SMBJ5352A SMBJ5353A SMBJ5354A SMBJ5355A SMBJ5356A SMBJ5357A SMBJ5358A SMBJ5359A SMBJ5360A SMBJ5361A SMBJ5362A SMBJ5363A SMBJ5364A SMBJ5365A SMBJ5366A SMBJ5367A SMBJ5368A SMBJ5369A SMBJ5370A SMBJ5371A SMBJ5372A SMBJ5373A SMBJ5374A SMBJ5375A SMBJ5376A SMBJ5377A SMBJ5378A SMBJ5379A SMBJ5380A SMBJ5381A SMBJ5382A SMBJ5383A SMBJ5384A SMBJ5385A SMBJ5386A SMBJ5387A SMBJ5388A Note : Suffix "A" indicates ± 10% tolerance, change to suffix "B" for ± 5% tolerance. "SMBJ53" will be omitted on marking of the diode. 147

148 Transient Voltage Suppressor Diodes Breakdown I T Working Peak Maximum Maximum Maximum Reverse Reverse Peak Pulse Clamping Voltage Leakage Surge Current I V WM V BR (V) I T V WM I R I PPM V C Unidirectional Min. Max. (ma) (V) (μa) (A) (V) TGL34 Series, 150W, Case Type: Mini MELF (Plastic) TGL TGL34-6.8A TGL TGL34-7.5A TGL TGL34-8.2A TGL TGL34-9.1A TGL TGL34-10A TGL TGL34-11A TGL TGL34-12A TGL TGL34-13A TGL TGL34-15A TGL TGL34-16A TGL TGL34-18A TGL TGL34-20A TGL TGL34-22A TGL TGL34-24A TGL TGL34-27A TGL TGL34-30A TGL TGL34-33A TGL TGL34-36A TGL TGL34-39A Note : (1) For bidirectional use suffix "C" or "CA" 148

149 Transient Voltage Suppressor Diodes Breakdown I T Working Peak Maximum Maximum Maximum Reverse Reverse Peak Pulse Clamping Voltage Leakage Surge Current I V WM V BR (V) I T V WM I R I PPM V C Unidirectional Min. Max. (ma) (V) (μa) (A) (V) TGL34 Series, 150W, Case Type: Mini MELF (Plastic) TGL TGL34-43A TGL TGL34-47A TGL TGL34-51A TGL TGL34-564A TGL TGL34-62A TGL TGL34-68A TGL TGL34-75A TGL TGL34-82A TGL TGL34-91A TGL TGL34-100A TGL TGL34-110A TGL TGL34-120A TGL TGL34-130A TGL TGL34-150A TGL TGL34-160A TGL TGL34-170A TGL TGL34-180A TGL TGL34-200A Note : (1) For bidirectional use suffix "C" or "CA" 149

150 Transient Voltage Suppressor Diodes Working Peak Test Max. Reverse Max. Clamping Max. Reverse Reverse Breakdown I T Current Leakage Current Voltage at I PP Peak Pulse Voltage (1) Current (3) V RWM V I T I T I V RWM V C I PP (V) Min Nom Max. (ma) (μa) (V) (ma) SMF5.0A Series, 200W, Case Type: SOD-123FL SMF5.0A SMF6.0A SMF6.5A SMF7.0A SMF7.5A SMF8.0A SMF8.5A SMF9.0A SMF10A SMF11A SMF12A SMF13A SMF14A SMF15A SMF16A SMF17A SMF18A SMF20A SMF22A SMF24A SMF26A SMF28A SMF30A SMF33A SMF36A SMF40A SMF43A SMF45A SMF48A SMF51A SMF54A SMF58A SMF60A SMF64A SMF70A SMF75A SMF78A SMF85A SMF90A SMF100A SMF110A SMF120A SMF130A SMF150A SMF160A SMF170A Note : (1) A transient suppressor is normally selected according to the Working Peak Reverse Voltage (V RWM ) which should be equal to or greater than the DC or continuous peak operating voltage level. 150

151 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature (Note 1) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) BZW04 / STUB Series, 400W, Case Type: DO-41/SMA BZW04P5V8 STUB06I BZW04-5V8 STUB56I BZW04P6V4 STUB07F BZW04-6V4 STUB57F BZW04P7V0 STUB08C BZW04-7V0 STUB58C BZW04P7V8 STUB09B BZW04-7V8 STUB59B BZW04P8V5 STUB BZW04-8V5 STUB BZW04P9V4 STUB BZW04 9V4 STUB BZW04P10 STUB BZW04-10 STUB BZW04P11 STUB BZW04-11 STUB BZW04P13 STUB BZW04-13 STUB BZW04P14 STUB BZW04-14 STUB BZW04P15 STUB BZW04-15 STUB BZW04P17 STUB BZW04-17 STUB BZW04P19 STUB BZW04-19 STUB BZW04P20 STUB BZW04-20 STUB BZW04P23 STUB BZW04-23 STUB BZW04P26 STUB BZW04-26 STUB BZW04P28 STUB BZW04-28 STUB BZW04P31 STUB BZW04-31 STUB BZW04P33 STUB BZW04-33 STUB BZW04P37 STUB BZW04-37 STUB BZW04P40 STUB BZW04-40 STUB BZW04P44 STUB BZW04-44 STUB BZW04P48 STUB BZW04-48 STUB BZW04P53 STUB BZW04-53 STUB

152 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature (Note 1) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) BZW04 / STUB Series, 400W, Case Type: DO-41/SMA BZW04P58 STUB BZW04-58 STUB BZW04P64 STUB BZW04-64 STUB BZW04P70 STUB BZW04-70 STUB BZW04P78 STUB BZW04-78 STUB BZW04P85 STUB0B BZW04-85 STUB5B BZW04P94 STUB0B BZW04-94 STUB5B BZW04P102 STUB0B BZW STUB5B BZW04P111 STUB0B BZW STUB5B BZW04P128 STUB0B BZW STUB5B BZW04P136 STUB0B BZW STUB5B BZW04P145 STUB0B BZW STUB5B BZW04P154 STUB0B BZW STUB5B BZW04P171 STUB0D BZW STUB5D BZW04P188 STUB0D BZW STUB5D BZW04P213 STUB0D BZW STUB5D BZW04P239 STUB0D BZW STUB5D BZW04P256 STUB0E BZW STUB5E BZW04P273 STUB0E BZW STUB5E BZW04P299 STUB0E BZW STUB5E BZW04P342 STUB0G BZW STUB5G BZW04P376 STUB0G BZW STUB5G Notes: (1) VBR measured after It applied for 300 μs, It = square wave pulse or equivalent (2) VF = 3.5 Vmax., IF = 25 A (6.8 V to 110 V) VF = 5.0 Vmax., IF = 25 A (120 V to 400 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use "B" suffix (Axial Lead) / replace the third digit of type from "U" to "B" (SMD) (4) "ZW04" for Axial lead / "STU" or "STB" for SMD will be omitted on marking of the diode (5) For bidirectional types having V R of 10 V and under, the IR limit is doubled 152

153 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) P4KE / STUP Series, 400W, Case Type: DO-41/SMA P4KE6.8 STUP06I P4KE6.8A STUP56I P4KE7.5 STUP07F P4KE7.5A STUP57F P4KE8.2 STUP08C P4KE8.2A STUP58C P4KE9.1 STUP09B P4KE9.1A STUP59B P4KE10 STUP P4KE10A STUP P4KE11 STUP P4KE11A STUP P4KE12 STUP P4KE12A STUP P4KE13 STUP P4KE13A STUP P4KE15 STUP P4KE15A STUP P4KE16 STUP P4KE16A STUP P4KE17 STUP P4KE17A STUP P4KE18 STUP P4KE18A STUP P4KE20 STUP P4KE20A STUP P4KE22 STUP P4KE22A STUP P4KE24 STUP P4KE24A STUP P4KE27 STUP P4KE27A STUP P4KE30 STUP P4KE30A STUP P4KE33 STUP P4KE33A STUP P4KE36 STUP P4KE36A STUP P4KE39 STUP P4KE39A STUP P4KE43 STUP P4KE43A STUP P4KE47 STUP P4KE47A STUP P4KE51 STUP P4KE51A STUP P4KE56 STUP P4KE56A STUP

154 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) P4KE / STUP Series, 400W, Case Type: DO-41/SMA P4KE62 STUP P4KE62A STUP P4KE68 STUP P4KE68A STUP P4KE75 STUP P4KE75A STUP P4KE82 STUP P4KE82A STUP P4KE91 STUP P4KE91A STUP P4KE100 STUP0B P4KE100A STUP5B P4KE110 STUP0B P4KE110A STUP5B P4KE120 STUP0B P4KE120A STUP5B P4KE130 STUP0B P4KE130A STUP5B P4KE150 STUP0B P4KE150A STUP5B P4KE160 STUP0B P4KE160A STUP5B P4KE170 STUP0B P4KE170A STUP5B P4KE180 STUP0B P4KE180A STUP5B P4KE200 STUP0D P4KE200A STUP5D P4KE220 STUP0D P4KE220A STUP5D P4KE250 STUP0D P4KE250A STUP5D P4KE300 STUP0E P4KE300A STUP5E P4KE350 STUP0E P4KE350A STUP5E P4KE400 STUP0G P4KE400A STUP5G P4KE440 STUP0G P4KE440A STUP5G Notes: (1) VBR measured after It applied for 300 μs, It = square wave pulse or equivalent (2) V F = 3.5 Vmax., I F = 25 A (6.8 V to 91 V) V F = 5.0 Vmax., I F = 25 A ( 100 V to 400 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use "C" or "CA" suffix (Axial Lead) / replace the third letter of type from "U" to "B" (SMD) (4) "4KE" for Axial lead / "STU" or "STB" for SMD will be omitted on marking of the diode (5) For bidirectional types having V R of 10 V and under, the IR limit is doubled 154

155 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient VBR (V) It VRWM IR IRSM VRSM of VBR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (% / C) TGL41 Series, 400W, Case Type: MELF(Plastic) TGL TGL41-6.8A TGL TGL41-7.5A TGL TGL41-8.2A TGL TGL41-9.1A TGL TGL41-10A TGL TGL41-11A TGL TGL41-12A TGL TGL41-13A TGL TGL41-15A TGL TGL41-16A TGL TGL41-18A TGL TGL41-20A TGL TGL41-22A TGL TGL41-24A TGL TGL41-27A TGL TGL41-30A TGL TGL41-33A TGL TGL41-36A TGL TGL41-39A TGL TGL41-43A

156 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient VBR (V) It VRWM IR IRSM VRSM of VBR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (% / C) TGL41 Series, 400W, Case Type: MELF(Plastic) TGL TGL41-47A TGL TGL41-51A TGL TGL41-564A TGL TGL41-62A TGL TGL41-68A TGL TGL41-75A TGL TGL41-82A TGL TGL41-91A TGL TGL41-100A TGL TGL41-110A TGL TGL41-120A TGL TGL41-130A TGL TGL41-150A TGL TGL41-160A TGL TGL41-170A TGL TGL41-180A TGL TGL41-200A Note : (1) Pulse test: tp 50 ms (2) For bidirectional use "C" or "CA" suffix 156

157 Transient Voltage Suppressor Diodes Working Peak Max. Reverse Maximum Maximum Breakdown It (1) Reverse Leakage Peak Pulse Clamping VRWM Surge Current IPPM VBR (V) It VRWM IR (3) IPPM VC Unidirectional Min. Max. (ma) (V) (μa) (A) (V) SMAJ Series, 400W, Case Type: SMA SMAJ SMAJ5.0A (4) SMAJ SMAJ6.0A SMAJ SMAJ6.5A SMAJ SMAJ7.0A SMAJ SMAJ7.5A SMAJ SMAJ8.0A SMAJ SMAJ8.5A SMAJ SMAJ9.0A SMAJ SMAJ10A SMAJ SMAJ11A SMAJ SMAJ12A SMAJ SMAJ13A SMAJ SMAJ14A SMAJ SMAJ15A SMAJ SMAJ16A SMAJ SMAJ17A SMAJ SMAJ18A SMAJ SMAJ20A SMAJ SMAJ22A SMAJ SMAJ24A SMAJ SMAJ26A SMAJ SMAJ28A SMAJ SMAJ30A SMAJ SMAJ33A SMAJ SMAJ36A

158 Transient Voltage Suppressor Diodes Working Peak Max. Reverse Maximum Maximum Breakdown It (1) Reverse Leakage Peak Pulse Clamping VRWM Surge Current IPPM VBR (V) It VRWM IR (3) IPPM VC Unidirectional Min. Max. (ma) (V) (μa) (A) (V) SMAJ Series, 400W, Case Type: SMA SMAJ SMAJ40A SMAJ SMAJ43A SMAJ SMAJ45A SMAJ SMAJ48A SMAJ SMAJ51A SMAJ SMAJ54A SMAJ SMAJ58A SMAJ SMAJ60A SMAJ SMAJ64A SMAJ SMAJ70A SMAJ SMAJ75A SMAJ SMAJ78A SMAJ SMAJ85A SMAJ SMAJ90A SMAJ SMAJ100A SMAJ SMAJ110A SMAJ SMAJ120A SMAJ SMAJ130A SMAJ SMAJ150A SMAJ SMAJ160A SMAJ SMAJ170A SMAJ SMAJ188A Notes : (1) Pulse test : tp 50ms (2) For bidirectional use "C" or "CA" suffix (3) For bi-directional types having V R of 10 V and less, the I R limit is doubled (4) For the bidirectional SMAJ5.0CA, the maximum V BR is 7.25V (5) "SMAJ" will be omitted on marking of the diode 158

159 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Voltage ( Note 1 ) VRWM Current IRSM Temperature Unidirectional VBR (V) It VRWM IR IRSM VRSM Variation of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (mv / C) SA / STUS Series, 500W, Case Type: DO-41/SMA SA5.0 STUS06H SA5.0A STUS56H SA6.0 STUS07A SA6.0A STUS57A SA6.5 STUS07G SA6.5A STUS57G SA7.0 STUS08C SA7.0A STUS58C SA7.5 STUS08I SA7.5A STUS58I SA8.0 STUS09B SA8.0A STUS59B SA8.5 STUS SA8.5A STUS SA9.0 STUS SA9.0A STUS SA10 STUS SA10A STUS SA11 STUS SA11A STUS SA12 STUS SA12A STUS SA13 STUS SA13A STUS SA14 STUS SA14A STUS SA15 STUS SA15A STUS SA16 STUS SA16A STUS SA17 STUS SA17A STUS SA18 STUS SA18A STUS SA20 STUS SA20A STUS SA22 STUS SA22A STUS SA24 STUS SA24A STUS SA26 STUS SA26A STUS SA28 STUS SA28A STUS SA30 STUS SA30A STUS SA33 STUS SA33A STUS SA36 STUS SA36A STUS

160 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Voltage ( Note 1 ) VRWM Current IRSM Temperature Unidirectional VBR (V) It VRWM IR IRSM VRSM Variation of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (mv / C) SA / STUS Series, 500W, Case Type: DO-41/SMA SA40 STUS SA40A STUS SA43 STUS SA43A STUS SA45 STUS SA45A STUS SA48 STUS SA48A STUS SA51 STUS SA51A STUS SA54 STUS SA54A STUS SA58 STUS SA58A STUS SA60 STUS SA60A STUS SA64 STUS SA64A STUS SA70 STUS SA70A STUS SA75 STUS SA75A STUS SA78 STUS SA78A STUS SA85 STUS SA85A STUS SA90 STUS0B SA90A STUS5B SA100 STUS0B SA100A STUS5B SA110 STUS0B SA110A STUS5B SA120 STUS0B SA120A STUS5B SA130 STUS0B SA130A STUS5B SA150 STUS0B SA150A STUS5B SA160 STUS0B SA160A STUS5B SA170 STUS0D SA170A STUS5D Notes: (1) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent (2) VF = 3.5 Vmax., IF = 35 A (6.8 V to 91 V) VF = 5.0 Vmax., IF = 35 A (150 V to 200 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use suffix "C" or "CA" (Axial Lead) / replace the third digit of type from "U" to "B" (SMD) (4) "STU" or "STB" will be omitted on marking of the diode. (5) For bidirectional types having VR of 10 V and under, the IR limit is doubled 160

161 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum It Reverse Reverse Leakage Peak pulse Clamping ( Note 1 ) VRWM Current IRSM VBR (V) It VRWM IR IPP VRSM Unidirectional Min. Max. (ma) (V) (μa) (A) (V) BZW06 Series, 600W, Case Type: DO-15 BZW06P5V BZW06-5V BZW06P6V BZW06-6V BZW06P7V BZW06-7V BZW06P7V BZW06-7V BZW06P8V BZW06-8V BZW06P9V BZW06-9V BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW

162 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum It Reverse Reverse Leakage Peak pulse Clamping ( Note 1 ) VRWM Current IRSM VBR (V) It VRWM IR IPP VRSM Unidirectional Min. Max. (ma) (V) (μa) (A) (V) BZW06 Series, 600W, Case Type: DO-15 BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW BZW06P BZW Notes: (1) Pulse test : tp < 50 ms (2) For Bidirectional use suffix "B" (Axial Lead) (3) For bidirectional types having VR of 10 V and under, the IR limit is doubled (4) "ZW06" will be omitted on marking of the diode. (5) For case type D2 (Axial Lead), we can support until the end of

163 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) P6KE/STU6 Series, 600W, Case Type: DO-15/SMB P6KE6.8 STU606I P6KE6.8A STU656I P6KE7.5 STU607F P6KE7.5A STU657F P6KE8.2 STU608C P6KE8.2A STU658C P6KE9.1 STU609B P6KE9.1A STU659B P6KE10 STU P6KE10A STU P6KE11 STU P6KE11A STU P6KE12 STU P6KE12A STU P6KE13 STU P6KE13A STU P6KE15 STU P6KE15A STU P6KE16 STU P6KE16A STU P6KE18 STU P6KE18A STU P6KE20 STU P6KE20A STU P6KE22 STU P6KE22A STU P6KE24 STU P6KE24A STU P6KE27 STU P6KE27A STU P6KE30 STU P6KE30A STU P6KE33 STU P6KE33A STU P6KE36 STU P6KE36A STU P6KE39 STU P6KE39A STU P6KE43 STU P6KE43A STU P6KE47 STU P6KE47A STU P6KE51 STU P6KE51A STU P6KE56 STU P6KE56A STU P6KE62 STU P6KE62A STU

164 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) P6KE/STU6 Series, 600W, Case Type: DO-15/SMB P6KE68 STU P6KE68A STU P6KE75 STU P6KE75A STU P6KE82 STU P6KE82A STU P6KE91 STU P6KE91A STU P6KE100 STU60B P6KE100A STU65B P6KE110 STU60B P6KE110A STU65B P6KE120 STU60B P6KE120A STU65B P6KE130 STU60B P6KE130A STU65B P6KE150 STU60B P6KE150A STU65B P6KE160 STU60B P6KE160A STU65B P6KE170 STU60B P6KE170A STU65B P6KE180 STU60B P6KE180A STU65B P6KE200 STU60D P6KE200A STU65D P6KE220 STU60D P6KE220A STU65D P6KE250 STU60D P6KE250A STU65D P6KE300 STU60E P6KE300A STU65E P6KE320 STU60E P6KE320A STU65E P6KE350 STU60E P6KE350A STU65E P6KE400 STU60G P6KE400A STU65G P6KE440 STU60G P6KE440A STU65G Notes: (1) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent (2) VF = 3.5 Vmax., IF = 50 A ( 6.8 V to 91 V) VF = 5.0 Vmax., IF = 50 A (100 V to 440 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use suffix "C" or "CA" (Axial Lead) / replace the third digit of type from "U" to "B" (SMD) (4) "6KE" for Axial lead / "STU" or "STB" for SMD will be omitted on marking of the diode (5) For bidirectional types having VR of 10 V and under, the IR limit is doubled (6) For case type D2A (Axial Lead), we can support until the end of

165 Transient Voltage Suppressor Diodes Breakdown It Working Peak Maximum Maximum Maximum Maximum ( Note 1 ) Reverse Reverse Leakage Reverse Clamping Temperature V RWM Current I RSM Coefficient V BR (V) It V RWM I R I RSM V RSM of V BR Unidirectional Min. Max. (ma) (V) (ma) (A) (V) (% / C) P6SMB Series, 600W, Case Type: SMB P6SMB6.8A P6SMB7.5A P6SMB8.2A P6SMB9.1A P6SMB10A P6SMB11A P6SMB12A P6SMB13A P6SMB15A P6SMB16A P6SMB18A P6SMB20A P6SMB22A P6SMB24A P6SMB27A P6SMB30A P6SMB33A P6SMB36A P6SMB39A P6SMB43A P6SMB47A P6SMB51A P6SMB56A P6SMB62A P6SMB68A P6SMB75A P6SMB82A P6SMB91A P6SMB100A P6SMB110A P6SMB120A P6SMB130A P6SMB150A P6SMB160A P6SMB170A P6SMB180A P6SMB200A P6SMB220A P6SMB250A P6SMB300A P6SMB350A P6SMB400A P6SMB440A P6SMB480A P6SMB510A P6SMB540A Notes: ( 1 ) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent ( 2 ) VF = 3.5 Vmax., IF = 50 A ( 6.8 V to 91 V) VF = 5.0 Vmax., IF = 50 A (100 V to 540 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum ( 3 ) For bidirectional use suffix "CA".Bidirectional types having VR of 10 V and under, the IR limit is doubled ( 4 ) "P6SMB" will be omitted in marking on the diode 165

166 Transient Voltage Suppressor Diodes Breakdown IT (1) Reverse Maximum Maximum Maximum Stand-off Reverse Peak Pulse Clamping Voltage Leakage Surge Current VWM VBR (V) IT VWM IR (3) IPPM (2) VC Unidirectional Min. Max. (ma) (V) (μa) (A) (V) SMBJ Series, 600W, Case Type: SMB SMBJ SMBJ5.0A SMBJ SMBJ6.0A SMBJ SMBJ6.5A SMBJ SMBJ7.0A SMBJ SMBJ7.5A SMBJ SMBJ8.0A SMBJ SMBJ8.5A SMBJ SMBJ9.0A SMBJ SMBJ10A SMBJ SMBJ11A SMBJ SMBJ12A SMBJ SMBJ13A SMBJ SMBJ14A SMBJ SMBJ15A SMBJ SMBJ16A SMBJ SMBJ17A SMBJ SMBJ18A SMBJ SMBJ20A SMBJ SMBJ22A SMBJ SMBJ24A SMBJ SMBJ26A SMBJ SMBJ28A SMBJ SMBJ30A SMBJ SMBJ33A SMBJ SMBJ36A

167 Transient Voltage Suppressor Diodes Breakdown IT (1) Reverse Maximum Maximum Maximum Stand-off Reverse Peak Pulse Clamping Voltage Leakage Surge Current VWM VBR (V) IT VWM IR (3) IPPM (2) VC Unidirectional Min. Max. (ma) (V) (μa) (A) (V) SMBJ Series, 600W, Case Type: SMB SMBJ SMBJ40A SMBJ SMBJ43A SMBJ SMBJ45A SMBJ SMBJ48A SMBJ SMBJ51A SMBJ SMBJ54A SMBJ SMBJ58A SMBJ SMBJ60A SMBJ SMBJ64A SMBJ SMBJ70A SMBJ SMBJ75A SMBJ SMBJ78A SMBJ SMBJ85A SMBJ SMBJ90A SMBJ SMBJ100A SMBJ SMBJ110A SMBJ SMBJ120A SMBJ SMBJ130A SMBJ SMBJ150A SMBJ SMBJ160A SMBJ SMBJ170A SMBJ SMBJ188A Notes: (1) Pulse test : tp 50ms (2) For bidirectional use suffix "C" or "CA" (3) For bidirectional types with VWM of 10 Volts and less, the I R limit is doubled (4) For the bidirectional SMBJ5.0CA, the maximum VBR is 7.25V (5) "SMBJ" will be omitted on marking of the diode 167

168 Transient Voltage Suppressor Diodes Breakdown It Working Peak Maximum Maximum Maximum Maximum ( Note 1 ) Reverse Reverse Leakage Reverse Clamping Temperature V RWM Current I RSM Coefficient V BR (V) It V RWM I R I RSM V RSM of V BR Bi-directional Min. (ma) (V) (µa) (A) (V) (% / C) EPS5 Series, 1000W, Case Type: M1A EPS EPS EPS EPS EPS EPS EPS EPS EPS Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Breakdown It Working Peak Maximum Maximum Maximum Maximum ( Note 1 ) Reverse Reverse Leakage Reverse Clamping Temperature V RWM Current I RSM Coefficient V BR (V) It V RWM I R I RSM V RSM of V BR Unidirectional Min. (ma) (V) (µa) (A) (V) (% / C) 1N5610-1N5613, 1500W, Case Type: DO-201 1N N N N

169 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) 1N6267/STUN Series, 1,500 W, Case Type: DO-201/SMC 1N6267 STUN06I N6267A STUN56I N6268 STUN07F N6268A STUN57F N6269 STUN08C N6269A STUN58C N6270 STUN09B N6270A STUN59B N6271 STUN N6271A STUN N6272 STUN N6272A STUN N6273 STUN N6273A STUN N6274 STUN N6274A STUN N6275 STUN N6275A STUN N6276 STUN N6276A STUN N6277 STUN N6277A STUN N6278 STUN N6278A STUN N6279 STUN N6279A STUN N6280 STUN N6280A STUN N6281 STUN N6281A STUN N6282 STUN N6282A STUN N6283 STUN N6283A STUN N6284 STUN N6284A STUN N6285 STUN N6285A STUN N6286 STUN N6286A STUN N6287 STUN N6287A STUN

170 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) 1N6267/STUN Series, 1,500 W, Case Type: DO-201/SMC 1N6288 STUN N6288A STUN N6289 STUN N6289A STUN N6290 STUN N6290A STUN N6291 STUN N6291A STUN N6292 STUN N6292A STUN N6293 STUN N6293A STUN N6294 STUN N6294A STUN N6295 STUN0B N6295A STUN5B N6296 STUN0B N6296A STUN5B N6297 STUN0B N6297A STUN5B N6298 STUN0B N6298A STUN5B N6299 STUN0B N6299A STUN5B N6300 STUN0B N6300A STUN5B N6301 STUN0B N6301A STUN5B N6302 STUN0B N6302A STUN5B N6303 STUN0D N6303A STUN5D Notes: (1) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent (2) VF = 3.5 Vmax., IF = 100 A (6.8 V to 91 V) VF = 5.0 Vmax., IF = 100 A (100 V to 200 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use suffix "C" or "CA" (Axial Lead) / replace the third letter of type from "U" to "B" (SMD) (4) "STU" or "STB" will be omitted on marking of the diode. (5) Add suffix "L" (Axial Lead) for case type DO-201AD (6) For bidirectional types have VR of 10 V and under, the IR limit is doubled. 170

171 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) 1.5KE/STUK Series, 1,500 W, Case Type: DO-201/SMC 1.5KE6.8 STUK06I KE6.8A STUK56I KE7.5 STUK07F KE7.5A STUK57F KE8.2 STUK08C KE8.2A STUK58C KE9.1 STUK09B KE9.1A STUK59B KE10 STUK KE10A STUK KE11 STUK KE11A STUK KE12 STUK KE12A STUK KE13 STUK KE13A STUK KE15 STUK KE15A STUK KE16 STUK KE16A STUK KE18 STUK KE18A STUK KE20 STUK KE20A STUK KE22 STUK KE22A STUK KE24 STUK KE24A STUK KE27 STUK KE27A STUK KE30 STUK KE30A STUK KE33 STUK KE33A STUK KE36 STUK KE36A STUK KE39 STUK KE39A STUK KE43 STUK KE43A STUK KE47 STUK KE47A STUK KE51 STUK KE51A STUK KE56 STUK KE56A STUK KE62 STUK KE62A STUK

172 Transient Voltage Suppressor Diodes Breakdown Working Peak Maximum Maximum Maximum Maximum It Reverse Reverse Leakage Reverse Clamping Temperature ( Note 1 ) VRWM Current IRSM Coefficient Unidirectional VBR (V) It VRWM IR IRSM VRSM of VBR Axial Lead SMD Min. Max. (ma) (V) (μa) (A) (V) (% / C) 1.5KE/STUK Series, 1,500 W, Case Type: DO-201/SMC 1.5KE68 STUK KE68A STUK KE75 STUK KE75A STUK KE82 STUK KE82A STUK KE91 STUK KE91A STUK KE100 STUK0B KE100A STUK5B KE110 STUK0B KE110A STUK5B KE120 STUK0B KE120A STUK5B KE130 STUK0B KE130A STUK5B KE150 STUK0B KE150A STUK5B KE160 STUK0B KE160A STUK5B KE170 STUK0B KE170A STUK5B KE180 STUK0B KE180A STUK5B KE200 STUK0D KE200A STUK5D KE220 STUK0D KE220A STUK5D KE250 STUK0D KE250A STUK5D KE300 STUK0E KE300A STUK5E KE350 STUK0E KE350A STUK5E KE400 STUK0G KE400A STUK5G KE440 STUK0G KE440A STUK5G Notes: (1) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent (2) VF = 3.5 Vmax., IF = 100 A (6.8 V to 91 V) VF = 5.0 Vmax., IF = 100 A (100 V to 440 V) per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use suffix "C" or "CA" (Axial Lead) / replace the third letter of type from "U" to "B" (SMD) (4) "1.5" for axial lead / "STU" or "STB" for SMD will be omitted on marking of the diode. (5) Use suffix "L" (Axial Lead) for case type DO-201AD (6) For bidirectional types have VR of 10 V and under, the IR limit is doubled 172

173 Transient Voltage Suppressor Diodes Working Peak Maximum Maximum Maximum Breakdown IT (1) Reverse Reverse Peak Pulse Clamping Voltage Leakage Surge Current VWM VBR (V) IT VWM IR (3) IPPM VC Unidirectional Min. Max. (ma) (V) (μa) (A) (V) SMCJ Series, 1,500W, Case Type: SMC SMCJ SMCJ5.0A SMCJ SMCJ6.0A SMCJ SMCJ6.5A SMCJ SMCJ7.0A SMCJ SMCJ7.5A SMCJ SMCJ8.0A SMCJ SMCJ8.5A SMCJ SMCJ9.0A SMCJ SMCJ10A SMCJ SMCJ11A SMCJ SMCJ12A SMCJ SMCJ13A SMCJ SMCJ14A SMCJ SMCJ15A SMCJ SMCJ16A SMCJ SMCJ17A SMCJ SMCJ18A SMCJ SMCJ20A SMCJ SMCJ22A SMCJ SMCJ24A SMCJ SMCJ26A SMCJ SMCJ28A SMCJ SMCJ30A SMCJ SMCJ33A SMCJ SMCJ36A SMCJ SMCJ40A SMCJ SMCJ43A SMCJ

174 Transient Voltage Suppressor Diodes Working Peak Maximum Maximum Maximum Breakdown IT (1) Reverse Reverse Peak Pulse Clamping Voltage Leakage Surge Current VWM VBR (V) IT VWM IR (3) IPPM VC Unidirectional Min. Max. (ma) (V) (μa) (A) (V) SMCJ Series, 1,500W, Case Type: SMC SMCJ45A SMCJ SMCJ48A SMCJ SMCJ51A SMCJ SMCJ54A SMCJ SMCJ58A SMCJ SMCJ60A SMCJ SMCJ64A SMCJ SMCJ70A SMCJ SMCJ75A SMCJ SMCJ78A SMCJ SMCJ85A SMCJ SMCJ90A SMCJ SMCJ100A SMCJ SMCJ110A SMCJ SMCJ120A SMCJ SMCJ130A SMCJ SMCJ150A SMCJ SMCJ160A SMCJ SMCJ170A SMCJ SMCJ188A SMCJ200A SMCJ220A SMCJ250A SMCJ300A SMCJ350A SMCJ400A SMCJ440A Notes : (1) Pulse test : tp 50ms (2) For bidirectional use suffix "C" or "CA" (3) For bidirectional types have V WM of 10 V and less, the I R limit is doubled (4) For the bidirectional SMCJ5.0CA, the maximum V BR is 7.25V (5) "SMCJ" will be omitted on marking of the diode (6) For part without A, the V BR is ± 10% and V C is ± 5% higher than with A parts. 174

175 Transient Voltage Suppressor Diodes Breakdown I T Working Peak Maximum Maximum Maximum Reverse Reverse Peak Pulse Clamping Voltage Leakage Surge Current I V WM V BR (V) I T V WM I R I PPM V C Unidirectional Min. Max. (ma) (V) (μa) (A) (V) 3.0SMCJ Series, 3,000W, Case Type: SMC 3.0SMCJ SMCJ11A SMCJ SMCJ12A SMCJ SMCJ13A SMCJ SMCJ14A SMCJ SMCJ15A SMCJ SMCJ16A SMCJ SMCJ17A SMCJ SMCJ18A SMCJ SMCJ20A SMCJ SMCJ22A SMCJ SMCJ24A SMCJ SMCJ26A SMCJ SMCJ28A SMCJ SMCJ30A SMCJ SMCJ33A SMCJ SMCJ36A SMCJ SMCJ40A SMCJ SMCJ43A SMCJ SMCJ45A SMCJ SMCJ48A SMCJ SMCJ51A SMCJ SMCJ54A

176 Transient Voltage Suppressor Diodes Breakdown I T Working Peak Maximum Maximum Maximum Reverse Reverse Peak Pulse Clamping Voltage Leakage Surge Current I V WM V BR (V) I T V WM I R I PPM V C Unidirectional Min. Max. (ma) (V) (μa) (A) (V) 3.0SMCJ Series, 3,000W, Case Type: SMC 3.0SMCJ SMCJ58A SMCJ SMCJ60A SMCJ SMCJ64A SMCJ SMCJ70A SMCJ SMCJ75A SMCJ SMCJ78A SMCJ SMCJ85A SMCJ SMCJ90A SMCJ SMCJ100A SMCJ SMCJ110A SMCJ SMCJ120A SMCJ SMCJ130A SMCJ SMCJ150A SMCJ SMCJ160A SMCJ SMCJ170A SMCJ SMCJ180A SMCJ SMCJ190A SMCJ SMCJ200A SMCJ SMCJ210A SMCJ SMCJ220A Notes: (1) For bidirectional use suffix "C" or "CA" (2) "SMCJ" will be omitted on marking of the diode. 176

177 Transient Voltage Suppressor Diodes Breakdown It Working Peak Maximum Maximum Maximum Maximum ( Note 1 ) Reverse Reverse Leakage Reverse Clamping Temperature VRWM Current IRSM Coefficient VBR (V) It VRWM IR IRSM VRSM of VBR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (% / C) 3KE Series, 3,000 W, Case Type: DO-201 3KE KE13A KE KE15A KE KE16A KE KE18A KE KE20A KE KE22A KE KE24A KE KE27A KE KE30A KE KE33A KE KE36A KE KE39A KE KE43A KE KE47A KE KE51A KE KE56A KE KE62A KE KE68A KE KE75A KE KE82A KE

178 Transient Voltage Suppressor Diodes Breakdown It Working Peak Maximum Maximum Maximum Maximum ( Note 1 ) Reverse Reverse Leakage Reverse Clamping Temperature VRWM Current IRSM Coefficient VBR (V) It VRWM IR IRSM VRSM of VBR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (% / C) 3KE Series, 3,000 W, Case Type: DO-201 3KE91A KE KE100A KE KE110A KE KE120A KE KE130A KE KE150A KE KE160A KE KE170A KE KE180A KE KE200A KE KE220A KE KE250A KE KE300A KE KE350A KE KE400A KE KE440A Notes: (1) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent (2) VF = 5.0 Vmax., IF = 100 A per 1/2 square or equivalent sine wave PW = 8.3 ms, duty cycle = 4 pulses per minute maximum (3) For bidirectional use suffix "C" or "CA" (4) For bidirectional types having VR of 20 V and under, the IR limit is doubled 178

179 Transient Voltage Suppressor Diodes Breakdown IT Reverse Maximum Maximum Maximum Maximum ( Note 1 ) Stand off Reverse Leakage Peak Pulse Clamping Temperature VRM Current (Note2) IPPM Coefficient VBR (V) IT VRM IR IPPM VC of VBR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (%/ C) 5KP Series, 5,000W, Case Type: D6 5KP KP5.0A KP KP6.0A KP KP6.5A KP KP7.0A KP KP7.5A KP KP8.0A KP KP8.5A KP KP9.0A KP KP10A KP KP11A KP KP12A KP KP13A KP KP14A KP KP15A KP KP16A KP KP17A KP KP18A KP KP20A KP KP22A KP KP24A KP KP26A KP KP28A KP KP30A KP KP33A

180 Transient Voltage Suppressor Diodes Breakdown IT Reverse Maximum Maximum Maximum Maximum ( Note 1 ) Stand off Reverse Leakage Peak Pulse Clamping Temperature VRM Current (Note2) IPPM Coefficient VBR (V) IT VRM IR IPPM VC of VBR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (%/ C) 5KP Series, 5,000W, Case Type: D6 5KP KP36A KP KP40A KP KP43A KP KP45A KP KP48A KP KP51A KP KP54A KP KP56A KP KP58A KP KP60A KP KP64A KP KP70A KP KP75A KP KP78A KP KP85A KP KP90A KP KP100A KP KP110A KP KP120A KP KP150A KP KP160A KP KP180A Notes: (1) VBR measured after IT applied for 300 μs., IT = square wave pulse or equivalent (2) For bidirectional use suffix "C" or "CA" (3) VF = 3.5 V max. for devices of VR < 100 V, and VF = 5 V max. for devices of VR > 100 V (4) For bidirectional devices having V R of 10 V and under, the I R limit is doubled 180

181 Transient Voltage Suppressor Diodes Breakdown Stand - off Maximum Maximum Maximum Maximum I R Reverse Reverse Leakage Reverse Clamping Temperature (Note 1) VRM Current IRSM Coefficient VBR (V) I R VRM IR IRSM VRSM αt (Note 2) Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (10-4 / C) BZW50 Series, 5,000W, Case Type: D6 BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW BZW Notes: (1) Pulse test : tp < 50 ms (2) V BR = αt*v BR (25 C) (3) For bidirectional use suffix "B" (Axial Lead) 181

182 Transient Voltage Suppressor Diodes Breakdown IT Reverse Maximum Maximum Maximum Maximum ( Note 1 ) Stand off Reverse Leakage Peak Pulse Clamping Temperature V RM Current (Note2) I PPM Coefficient V BR (V) IT V RM I R I PPM V C of V BR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (%/ C) S5KP Series, 5,000W, Case Type: D 2 PAK S5KP S5KP5.0A S5KP S5KP6.0A S5KP S5KP6.5A S5KP S5KP7.0A S5KP S5KP7.5A S5KP S5KP8.0A S5KP S5KP8.5A S5KP S5KP9.0A S5KP S5KP10A S5KP S5KP11A S5KP S5KP12A S5KP S5KP13A S5KP S5KP14A S5KP S5KP15A S5KP S5KP16A S5KP S5KP17A S5KP S5KP18A S5KP S5KP20A S5KP S5KP22A S5KP S5KP24A S5KP S5KP26A S5KP S5KP28A S5KP S5KP30A S5KP S5KP33A S5KP S5KP36A S5KP S5KP40A

183 Transient Voltage Suppressor Diodes Breakdown IT Reverse Maximum Maximum Maximum Maximum ( Note 1 ) Stand off Reverse Leakage Peak Pulse Clamping Temperature V RM Current (Note2) I PPM Coefficient V BR (V) IT V RM I R I PPM V C of V BR Unidirectional Min. Max. (ma) (V) (μa) (A) (V) (%/ C) S5KP Series, 5,000W, Case Type: D 2 PAK S5KP S5KP43A S5KP S5KP45A S5KP S5KP48A S5KP S5KP51A S5KP S5KP54A S5KP S5KP56A S5KP S5KP58A S5KP S5KP60A S5KP S5KP64A S5KP S5KP70A S5KP S5KP75A S5KP S5KP78A S5KP S5KP85A S5KP S5KP90A S5KP S5KP100A S5KP S5KP110A S5KP S5KP120A S5KP S5KP150A S5KP S5KP160A S5KP S5KP170A S5KP S5KP180A Notes: (1) VBR measured after IT applied for 300 μs., IT = square wave pulse or equivalent (2) For bidirectional use suffix "C" or "CA" (3) VF = 3.5 V max. for devices of VR < 100 V, and VF = 5 V max. for devices of VR > 100 V (4) For bidirectional devices having VR of 10 V and under, the IR limit is doubled (5) "S KP " will be omitted on marking of the diode 183

184 Transient Voltage Suppressor Diodes Reverse Maximum Maximum Maximum Maximum Breakdown IT Stand off Reverse Reverse Peak Pulse Clamping Voltage Leakage Leakage Current I V V RM at 10/1000ms V BR (V) IT V RWM I R I R (T C =175 C) I PPM V C Unidirectional Min. Max. (ma) (V) (ma) (ma) (A) (V) SM8S Series, 6,600W, Case Type: D 2 PAK SM8S SM8S10A SM8S SM8S11A SM8S SM8S12A SM8S SM8S13A SM8S SM8S14A SM8S SM8S15A SM8S SM8S16A SM8S SM8S17A SM8S SM8S18A SM8S SM8S20A SM8S SM8S22A SM8S SM8S24A SM8S SM8S26A SM8S SM8S28A SM8S SM8S30A SM8S SM8S33A SM8S SM8S36A SM8S SM8S40A SM8S SM8S43A Notes: (1) For all types maximum VF = 1.8V at IF = 100A measured on 8.3ms single half sine-wave or equivalent square wave, duty cycle = 4 pulses per minute maximum (2) "SM S " will be omitted on marking of the diode. (3) For bidirectional use suffix "C" or "CA" 184

185 Transient Voltage Suppressor Diodes TYPE Breakdown I T Reverse Maximum Maximum Maximum Maximum ( Note 1 ) Stand off Reverse Leakage Peak Pulse Clamping Temperature V RM Current (Note2) I PPM Coefficient V BR (V) I T V RM I R I PPM V C of V BR Min. Max. (ma) (V) (µa) (A) (V) (%/ C) 10KP Series, 10,000 W, Case Type: D6 10KP KP11A KP KP12A KP KP13A KP KP14A KP KP15A KP KP16A KP KP17A KP KP18A KP KP20A KP KP22A KP KP24A KP KP26A KP KP28A KP KP30A KP KP33A KP KP36A KP KP40A KP KP43A KP KP45A KP KP48A KP KP51A

186 Transient Voltage Suppressor Diodes TYPE Breakdown I T Reverse Maximum Maximum Maximum Maximum ( Note 1 ) Stand off Reverse Leakage Peak Pulse Clamping Temperature V RM Current (Note2) I PPM Coefficient V BR (V) I T V RM I R I PPM V C of V BR Min. Max. (ma) (V) (µa) (A) (V) (%/ C) 10KP Series, 10,000 W, Case Type: D6 10KP KP54A KP KP56A KP KP58A KP KP60A KP KP64A KP KP70A KP KP75A KP KP78A KP KP85A KP KP90A KP KP100A KP KP110A KP KP120A KP KP150A KP KP160A KP KP170A KP KP180A Notes: (1) VBR measured after IT applied for 300 μs., IT = square wave pulse or equivalent. (2) VF = 3.5 Volts max. for devices of VR < 100 V, and VF = 5 Volts max. for devices of VR > 100 V. (3) For Bi-directional devices having VR of 20 Volts and under the IR limit is doubled. 186

187 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Max. Voltage Stand Off IT Reverse Leakage Clamping Peak Pulse Temperature VR IPP Current Variation (Unidirectional) (Bidirectional) V R V BR (V) I T I R V C I PP of V BR (V) Min. (ma) (μa) (V) (A) (mv/ C) 15KP Series, 15,000 W, Case Type: D6 15KP17 15KP17C , KP17A 15KP17CA , KP18 15KP18C , KP18A 15KP18CA , KP20 15KP20C , KP20A 15KP20CA , KP22 15KP22C KP22A 15KP22CA KP24 15KP24C KP24A 15KP24CA KP26 15KP26C KP26A 15KP26CA KP28 15KP28C KP28A 15KP28CA KP30 15KP30C KP30A 15KP30CA KP33 15KP33C KP33A 15KP33CA KP36 15KP36C KP36A 15KP36CA KP40 15KP40C KP40A 15KP40CA KP43 15KP43C KP43A 15KP43CA KP45 15KP45C KP45A 15KP45CA KP48 15KP48C KP48A 15KP48CA KP51 15KP51C KP51A 15KP51CA KP54 15KP54C KP54A 15KP54CA KP58 15KP58C KP58A 15KP58CA KP60 15KP60C KP60A 15KP60CA KP64 15KP64C KP64A 15KP64CA KP70 15KP70C KP70A 15KP70CA KP75 15KP75C KP75A 15KP75CA

188 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Max. Voltage Stand Off IT Reverse Leakage Clamping Peak Pulse Temperature VR IPP Current Variation (Unidirectional) (Bidirectional) V R V BR (V) I T I R V C I PP of V BR (V) Min. (ma) (μa) (V) (A) (mv/ C) 15KP Series, 15,000 W, Case Type: D6 15KP78 15KP78C KP78A 15KP78CA KP85 15KP85C KP85A 15KP85CA KP90 15KP90C KP90A 15KP90CA KP100 15KP100C KP100A 15KP100CA KP110 15KP110C KP110A 15KP110CA KP120 15KP120C KP120A 15KP120CA KP130 15KP130C KP130A 15KP130CA KP150 15KP150C KP150A 15KP150CA KP160 15KP160C KP160A 15KP160CA KP170 15KP170C KP170A 15KP170CA KP180 15KP180C KP180A 15KP180CA KP200 15KP200C KP200A 15KP200CA KP220 15KP220C KP220A 15KP220CA KP240 15KP240C KP240A 15KP240CA Note: Suffix "A" denotes 5% tolerance device, no suffix denotes a 10% tolerance device 188

189 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Max. Voltage Part Part Stand Off IT Reverse Leakage Clamping Peak Pulse Temperature Number Number VR IPP Current Variation (Uni-directional) (Bi-directional) V WM V BR (V) I T I R V C I PP of V BR (V) Min. Max. (ma) (μa) (V) (A) (mv/ C) R15KP Series, 15,000 W, Case Type: 5R R15KP17 R15KP17C , R15KP17A R15KP17CA , R15KP18 R15KP18C , R15KP18A R15KP18CA , R15KP20 R15KP20C , R15KP20A R15KP20CA , R15KP22 R15KP22C R15KP22A R15KP22CA R15KP24 R15KP24C R15KP24A R15KP24CA R15KP26 R15KP26C R15KP26A R15KP26CA R15KP28 R15KP28C R15KP28A R15KP28CA R15KP30 R15KP30C R15KP30A R15KP30CA R15KP33 R15KP33C R15KP33A R15KP33CA R15KP36 R15KP36C R15KP36A R15KP36CA R15KP40 R15KP40C R15KP40A R15KP40CA R15KP43 R15KP43C R15KP43A R15KP43CA R15KP45 R15KP45C R15KP45A R15KP45CA R15KP48 R15KP48C R15KP48A R15KP48CA R15KP51 R15KP51C R15KP51A R15KP51CA R15KP54 R15KP54C R15KP54A R15KP54CA R15KP58 R15KP58C R15KP58A R15KP58CA R15KP60 R15KP60C R15KP60A R15KP60CA R15KP64 R15KP64C R15KP64A R15KP64CA R15KP70 R15KP70C R15KP70A R15KP70CA R15KP75 R15KP75C R15KP75A R15KP75CA

190 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Max. Voltage Part Part Stand Off IT Reverse Leakage Clamping Peak Pulse Temperature Number Number VR IPP Current Variation (Uni-directional) (Bi-directional) V WM V BR (V) I T I R V C I PP of V BR (V) Min. Max. (ma) (μa) (V) (A) (mv/ C) R15KP Series, 15,000 W, Case Type: 5R R15KP78 R15KP78C R15KP78A R15KP78CA R15KP85 R15KP85C R15KP85A R15KP85CA R15KP90 R15KP90C R15KP90A R15KP90CA R15KP100 R15KP100C R15KP100A R15KP100CA R15KP110 R15KP110C R15KP110A R15KP110CA R15KP120 R15KP120C R15KP120A R15KP120CA R15KP130 R15KP130C R15KP130A R15KP130CA R15KP150 R15KP150C R15KP150A R15KP150CA R15KP160 R15KP160C R15KP160A R15KP160CA R15KP170 R15KP170C R15KP170A R15KP170CA R15KP180 R15KP180C R15KP180A R15KP180CA R15KP200 R15KP200C R15KP200A R15KP200CA R15KP220 R15KP220C R15KP220A R15KP220CA R15KP240 R15KP240C R15KP240A R15KP240CA Note: Suffix "A" denotes 5% tolerance device, no suffix denotes a 10% tolerance device 190

191 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Max. Voltage Stand Off I (BR) Reverse Leakage Clamping Peak Pulse Temperature V WM IPP Current Variation (Unidirectional) (Bidirectional) V WM V BR (V) I (BR) I R VC IPP of V BR (V) Min. Max. (ma) (μa) (V) (A) (mv/ C) 30KP Series, 30,000 W, Case Type: D6 30KP22 30KP22C KP22A 30KP22CA KP24 30KP24C KP24A 30KP24CA KP26 30KP26C KP26A 30KP26CA KP28 30KP28C KP28A 30KP28CA KP30 30KP30C KP30A 30KP30CA KP33 30KP33C KP33A 30KP33CA KP36 30KP36C KP36A 30KP36CA KP40 30KP40C KP40A 30KP40CA KP43 30KP43C KP43A 30KP43CA KP45 30KP45C KP45A 30KP45CA KP48 30KP48C KP48A 30KP48CA KP51 30KP51C KP51A 30KP51CA KP54 30KP54C KP54A 30KP54CA KP58 30KP58C KP58A 30KP58CA KP60 30KP60C KP60A 30KP60CA KP64 30KP64C KP64A 30KP64CA KP70 30KP70C KP70A 30KP70CA KP75 30KP75C KP75A 30KP75CA KP78 30KP78C KP78A 30KP78CA KP85 30KP85C KP85A 30KP85CA KP90 30KP90C KP90A 30KP90CA

192 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Max. Voltage Stand Off I (BR) Reverse Leakage Clamping Peak Pulse Temperature V WM IPP Current Variation (Unidirectional) (Bidirectional) V WM V BR (V) I (BR) I R VC IPP of V BR (V) Min. Max. (ma) (μa) (V) (A) (mv/ C) 30KP Series, 30,000 W, Case Type: D6 30KP100 30KP100C KP100A 30KP100CA KP110 30KP110C KP110A 30KP110CA KP120 30KP120C KP120A 30KP120CA KP130 30KP130C KP130A 30KP130CA KP150 30KP150C KP150A 30KP150CA KP160 30KP160C KP160A 30KP160CA KP170 30KP170C KP170A 30KP170CA KP180 30KP180C KP180A 30KP180CA KP200 30KP200C KP200A 30KP200CA KP220 30KP220C KP220A 30KP220CA KP250A 30KP250CA KP260A 30KP260CA KP280A 30KP280CA KP300A 30KP300CA KP350A 30KP350CA KP400A 30KP400CA Note: Suffix "A" denotes 5% tolerance device, no suffix denotes a 10% tolerance device 192

193 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Stand Off I (BR) Reverse Leakage Clamping Peak Pulse V WM IPP Current (Unidirectional) (Bidirectional) V WM V BR (V) I (BR) I R VC IPP (V) Min. Max. (ma) (μa) (V) (A) 50KP Series, 50,000 W, Case Type: D6 50KP36 50KP36C KP36A 50KP36CA KP40 50KP40C KP40A 50KP40CA KP43 50KP43C KP43A 50KP43CA KP45 50KP45C KP45A 50KP45CA KP48 50KP48C KP48A 50KP48CA KP51 50KP51C KP51A 50KP51CA KP54 50KP54C KP54A 50KP54CA KP58 50KP58C KP58A 50KP58CA KP60 50KP60C KP60A 50KP60CA KP64 50KP64C KP64A 50KP64CA KP70 50KP70C KP70A 50KP70CA KP75 50KP75C KP75A 50KP75CA KP78 50KP78C KP78A 50KP78CA KP85 50KP85C KP85A 50KP85CA KP90 50KP90C KP90A 50KP90CA KP100 50KP100C KP100A 50KP100CA

194 Transient Voltage Suppressor Diodes Reverse Breakdown Maximum Maximum Maximum Stand Off I (BR) Reverse Leakage Clamping Peak Pulse V WM IPP Current (Unidirectional) (Bidirectional) V WM V BR (V) I (BR) I R VC IPP (V) Min. Max. (ma) (μa) (V) (A) 50KP Series, 50,000 W, Case Type: D6 50KP110 50KP110C KP110A 50KP110CA KP120 50KP120C KP120A 50KP120CA KP130 50KP130C KP130A 50KP130CA KP150 50KP150C KP150A 50KP150CA KP160 50KP160C KP160A 50KP160CA KP170 50KP170C KP170A 50KP170CA KP180 50KP180C KP180A 50KP180CA KP200 50KP200C KP200A 50KP200CA KP220 50KP220C KP220A 50KP220CA KP250A 50KP250CA KP260A 50KP260CA KP280A 50KP280CA KP300A 50KP300CA KP350A 50KP350CA KP400A 50KP400CA Note: (1) For bidirectional type having V WM of 60 volts and less, the I D limit is double. 194

195 Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Reverse Max. Max. Max. Max. Working Max. Inverse Peak Breakdown Voltage Stand-off Reverse Clamping Reverse Junction Inverse Blocking It Voltage Leakage Voltage Current Capacitance Blocking Current I RSM 0 Volt VWIB Voltage VBR (V) It VRWM IR VRSM IRSM VWIB IIB VPIB Min. (ma) (V) (μa) (V) (A) pf (V) ma (V) SAC Series, 500 W, Case Type: DO-41 SAC SAC SAC SAC SAC SAC SAC SAC SAC SAC SAC SAC SAC SAC SAC

196 Low Capacitance Transient Voltage Suppressor Diodes Breakdown Reverse Maximum Maximum Maximum Maximum SMBJ-LC Series, 600 W, Case Type: SMB Voltage (1) Stand-off Reverse Peak Pulse Clamping I T Voltage V RWM Surge Current I PPM Capacitance V BR (V) I T V RWM I R I PPM V 0 Volt Min. Max. (ma) (V) (µa) (A) (V) pf SMBJ-LC SMBJ-LC5.0A SMBJ-LC SMBJ-LC6.0A SMBJ-LC SMBJ-LC6.5A SMBJ-LC SMBJ-LC7.0A SMBJ-LC SMBJ-LC7.5A SMBJ-LC SMBJ-LC8.0A SMBJ-LC SMBJ-LC8.5A SMBJ-LC SMBJ-LC9.0A SMBJ-LC SMBJ-LC10A SMBJ-LC SMBJ-LC11A SMBJ-LC SMBJ-LC12A SMBJ-LC SMBJ-LC13A SMBJ-LC SMBJ-LC14A SMBJ-LC SMBJ-LC15A SMBJ-LC SMBJ-LC16A SMBJ-LC SMBJ-LC17A SMBJ-LC SMBJ-LC18A SMBJ-LC SMBJ-LC20A SMBJ-LC SMBJ-LC22A SMBJ-LC SMBJ-LC24A SMBJ-LC SMBJ-LC26A SMBJ-LC SMBJ-LC28A SMBJ-LC SMBJ-LC30A SMBJ-LC SMBJ-LC33A

197 Low Capacitance Transient Voltage Suppressor Diodes Breakdown Reverse Maximum Maximum Maximum Maximum SMBJ-LC Series, 600 W, Case Type: SMB Voltage (1) Stand-off Reverse Peak Pulse Clamping I T Voltage V RWM Surge Current I PPM Capacitance V BR (V) I T V RWM I R I PPM V 0 Volt Min. Max. (ma) (V) (µa) (A) (V) pf SMBJ-LC SMBJ-LC36A SMBJ-LC SMBJ-LC40A SMBJ-LC SMBJ-LC43A SMBJ-LC SMBJ-LC45A SMBJ-LC SMBJ-LC48A SMBJ-LC SMBJ-LC51A SMBJ-LC SMBJ-LC54A SMBJ-LC SMBJ-LC58A SMBJ-LC SMBJ-LC60A SMBJ-LC SMBJ-LC64A SMBJ-LC SMBJ-LC70A SMBJ-LC SMBJ-LC75A SMBJ-LC SMBJ-LC78A SMBJ-LC SMBJ-LC85A SMBJ-LC SMBJ-LC90A SMBJ-LC SMBJ-LC100A SMBJ-LC SMBJ-LC110A SMBJ-LC SMBJ-LC120A SMBJ-LC SMBJ-LC130A SMBJ-LC SMBJ-LC150A SMBJ-LC SMBJ-LC160A SMBJ-LC SMBJ-LC170A SMBJ-LC SMBJ-LC188A Notes: (1) Pulse test : tp 50ms. (2) "SMBJ-L" will be omitted in marking on the diode. 197

198 Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Reverse Max. Max. Max. Max. Working Max. Inverse Peak Breakdown Voltage Stand-off Reverse Clamping Reverse Junction Inverse Blocking It Voltage Leakage Voltage Current Capacitance Blocking Current 0 Volt VWIB Voltage VBR (V) It VRWM IR VRSM IRSM VWIB IIB VPIB Min. Max. (ma) (V) (μa) (V) (A) pf (V) ma (V) LCE Series, 1500 W, Case Type: DO-201 LCE LCE6.5A LCE LCE7.0A LCE LCE7.5A LCE LCE8.0A LCE LCE8.5A LCE LCE9.0A LCE LCE10A LCE LCE11A LCE LCE12A LCE LCE13A LCE LCE14A LCE LCE15A LCE LCE16A LCE LCE17A LCE LCE18A LCE LCE20A LCE LCE22A LCE LCE24A LCE LCE26A LCE LCE28A

199 Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Reverse Max. Max. Max. Max. Working Max. Inverse Peak Breakdown Voltage Stand-off Reverse Clamping Reverse Junction Inverse Blocking It Voltage Leakage Voltage Current Capacitance Blocking Current 0 Volt VWIB Voltage VBR (V) It VRWM IR VRSM IRSM VWIB IIB VPIB Min. Max. (ma) (V) (μa) (V) (A) pf (V) ma (V) LCE Series, 1500 W, Case Type: DO-201 LCE LCE30A LCE LCE33A LCE LCE36A LCE LCE40A LCE LCE43A LCE LCE45A LCE LCE48A LCE LCE51A LCE LCE54A LCE LCE58A LCE LCE60A LCE LCE64A LCE LCE70A LCE LCE75A LCE LCE80A LCE LCE90A

200 Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Type Number Reverse Breakdown Maximum Maximum Maximum Maximum Working Inverse Peak Stand-off Voltage Reverse Clamping Peak Pulse Junction Inverse Blocking Inverse I (BR) Leakage Voltage Current Capacitance Blocking Leakage V I 0 Volt Voltage Current Voltage V WM V BR (V) I (BR) I D V C I PP V WIB I IB V PIB (V) Min. Max. (ma) (µa) (V) (A) pf (V) ma (V) SMCJLCE Series, 1500 W, Case Type: SMC SMCJLCE SMCJLCE6.5A SMCJLCE SMCJLCE7.0A SMCJLCE SMCJLCE7.5A SMCJLCE SMCJLCE8.0A SMCJLCE SMCJLCE8.5A SMCJLCE SMCJLCE9.0A SMCJLCE SMCJLCE10A SMCJLCE SMCJLCE11A SMCJLCE SMCJLCE12A SMCJLCE SMCJLCE13A SMCJLCE SMCJLCE14A SMCJLCE SMCJLCE15A SMCJLCE SMCJLCE16A SMCJLCE SMCJLCE17A SMCJLCE SMCJLCE18A SMCJLCE SMCJLCE20A SMCJLCE SMCJLCE22A SMCJLCE SMCJLCE24A SMCJLCE SMCJLCE26A SMCJLCE SMCJLCE28A SMCJLCE SMCJLCE30A SMCJLCE SMCJLCE33A

201 Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Type Number Reverse Breakdown Maximum Maximum Maximum Maximum Working Inverse Peak Stand-off Voltage Reverse Clamping Peak Pulse Junction Inverse Blocking Inverse I (BR) Leakage Voltage Current Capacitance Blocking Leakage V I 0 Volt Voltage Current Voltage V WM V BR (V) I (BR) I D V C I PP V WIB I IB V PIB (V) Min. Max. (ma) (µa) (V) (A) pf (V) ma (V) SMCJLCE Series, 1500 W, Case Type: SMC SMCJLCE SMCJLCE36A SMCJLCE SMCJLCE40A SMCJLCE SMCJLCE43A SMCJLCE SMCJLCE45A SMCJLCE SMCJLCE48A SMCJLCE SMCJLCE51A SMCJLCE SMCJLCE54A SMCJLCE SMCJLCE58A SMCJLCE SMCJLCE60A SMCJLCE SMCJLCE64A SMCJLCE SMCJLCE70A SMCJLCE SMCJLCE75A SMCJLCE SMCJLCE80A SMCJLCE SMCJLCE90A SMCJLCE SMCJLCE100A SMCJLCE SMCJLCE110A SMCJLCE SMCJLCE120A SMCJLCE SMCJLCE130A SMCJLCE SMCJLCE150A SMCJLCE SMCJLCE160A SMCJLCE SMCJLCE170A

202 Low Capacitance Transient Voltage Suppressor Diodes Reverse Maximum Maximum Maximum Breakdown Voltage Stand-off Clamping Peak Pulse Standby I (BR) Voltage I PP Current V WM Capacitance V BR (V) I (BR) V WM V C I PP I 0 Volt Min. Max. (ma) (V) (V) (A) (µa) pf SMLJ-LCxx Series, 3000 W, Case Type: SMC SMLJ-LC SMLJ-LC5.0A SMLJ-LC SMLJ-LC6.0A SMLJ-LC SMLJ-LC6.5A SMLJ-LC SMLJ-LC7.0A SMLJ-LC SMLJ-LC7.5A SMLJ-LC SMLJ-LC8.0A SMLJ-LC SMLJ-LC8.5A SMLJ-LC SMLJ-LC9.0A SMLJ-LC SMLJ-LC10A SMLJ-LC SMLJ-LC11A SMLJ-LC SMLJ-LC12A SMLJ-LC SMLJ-LC13A SMLJ-LC SMLJ-LC14A SMLJ-LC SMLJ-LC15A SMLJ-LC SMLJ-LC16A SMLJ-LC SMLJ-LC17A SMLJ-LC SMLJ-LC18A SMLJ-LC SMLJ-LC20A SMLJ-LC SMLJ-LC22A SMLJ-LC SMLJ-LC24A SMLJ-LC SMLJ-LC26A SMLJ-LC SMLJ-LC28A SMLJ-LC SMLJ-LC30A SMLJ-LC SMLJ-LC33A

203 Low Capacitance Transient Voltage Suppressor Diodes Reverse Maximum Maximum Maximum Breakdown Voltage Stand-off Clamping Peak Pulse Standby I (BR) Voltage I PP Current V WM Capacitance V BR (V) I (BR) V WM V C I PP I 0 Volt Min. Max. (ma) (V) (V) (A) (µa) pf SMLJ-LCxx Series, 3000 W, Case Type: SMC SMLJ-LC SMLJ-LC36A SMLJ-LC SMLJ-LC40A SMLJ-LC SMLJ-LC43A SMLJ-LC SMLJ-LC45A SMLJ-LC SMLJ-LC48A SMLJ-LC SMLJ-LC51A SMLJ-LC SMLJ-LC54A SMLJ-LC SMLJ-LC58A SMLJ-LC SMLJ-LC60A SMLJ-LC SMLJ-LC64A SMLJ-LC SMLJ-LC70A SMLJ-LC SMLJ-LC75A SMLJ-LC SMLJ-LC78A SMLJ-LC SMLJ-LC85A SMLJ-LC SMLJ-LC90A SMLJ-LC SMLJ-LC100A SMLJ-LC SMLJ-LC110A SMLJ-LC SMLJ-LC120A SMLJ-LC SMLJ-LC130A SMLJ-LC SMLJ-LC150A SMLJ-LC SMLJ-LC160A SMLJ-LC SMLJ-LC170A Notes: (1) Pulse test : tp 50ms. (2) "SMLJ-L" will be omitted in marking on the diode. 203

204 Ultra Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Reverse Max. Max. Max. Max. Working Max. Inverse Peak Breakdown Voltage Stand-off Reverse Clamping Reverse Junction Inverse Blocking It Voltage Leakage Voltage Current Capacitance Blocking Current 0 Volt VWIB Voltage VBR (V) It VRWM IR VRSM IRSM VWIB IIB VPIB Min. Max. (ma) (V) (μa) (V) (A) pf (V) ma (V) ULCE Series, 1500 W, Case Type: DO-201 ULCE ULCE6.5A ULCE ULCE7.0A ULCE ULCE7.5A ULCE ULCE8.0A ULCE ULCE8.5A ULCE ULCE9.0A ULCE ULCE10A ULCE ULCE11A ULCE ULCE12A ULCE ULCE13A ULCE ULCE14A ULCE ULCE15A ULCE ULCE16A ULCE ULCE17A ULCE ULCE18A ULCE ULCE20A ULCE ULCE22A ULCE ULCE24A ULCE ULCE26A

205 Ultra Low Capacitance Transient Voltage Suppressor Diodes The plastic material carries U/L recognition 94V-O. Reverse Max. Max. Max. Max. Working Max. Inverse Peak Breakdown Voltage Stand-off Reverse Clamping Reverse Junction Inverse Blocking It Voltage Leakage Voltage Current Capacitance Blocking Current 0 Volt VWIB Voltage VBR (V) It VRWM IR VRSM IRSM VWIB IIB VPIB Min. Max. (ma) (V) (μa) (V) (A) pf (V) ma (V) ULCE Series, 1500 W, Case Type: DO-201 ULCE ULCE28A ULCE ULCE30A ULCE ULCE33A ULCE ULCE36A ULCE ULCE40A ULCE ULCE43A ULCE ULCE45A ULCE ULCE48A ULCE ULCE51A ULCE ULCE54A ULCE ULCE58A ULCE ULCE60A ULCE ULCE64A ULCE ULCE70A ULCE ULCE75A ULCE ULCE80A ULCE ULCE90A

206 Automotive Transient Suppressor Diodes Breakdown IR Working Peak Maximum Average Maximum Maximum Typical ( Note 1 ) Reverse Forward Rectified Reverse Reverse Leakage Temperature at Tc = 25 C Voltage Current VRWM Coefficient VBR (V) IR VRWM Tc IRSM IR of VBR Min. Max. (ma) (V) (A) ( C) (A) (na) (% / C) MR2535 Series, Case Type: MR MR MR MR MR2535L Series, Case Type: D6 MR2535L MR2540L * For wire leads use suffix "AL" for Case Type : MR-L Note : (1) Pulse set : Pulse Width 300μs, Duty Cycle 2% 206

207 Automotive Transient Suppressor Diodes Maximum Working Peak Maximum Reverse Maximum Maximum Breakdown It Reverse Reverse Leakage Peak Pulse Clamping (Note 1) Voltage VRWM, Surge V RWM Tj=150 C I PPM V BR (V) It V RWM I R I D I PPM (2) V RSM Min. Max. (ma) (V) (μa) (μa) (A) (V) TPSMC6.8 Series, 1500 W, Case Type: SMC TPSMC TPSMC6.8A TPSMC TPSMC7.5A TPSMC TPSMC8.2A TPSMC TPSMC9.1A TPSMC TPSMC10A TPSMC TPSMC11A TPSMC TPSMC12A TPSMC TPSMC13A TPSMC TPSMC15A TPSMC TPSMC16A TPSMC TPSMC18A TPSMC TPSMC20A TPSMC TPSMC22A TPSMC TPSMC24A TPSMC TPSMC27A TPSMC TPSMC30A TPSMC TPSMC33A TPSMC TPSMC36A TPSMC TPSMC39A TPSMC TPSMC43A Notes : (1) VBR measured after It applied for 300 μs., It = square wave pulse or equivalent (2) "PSMC" will be omitted on marking of the diode 207

208 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR (A) ( C) (V) (V) (A) (V) (A) (μa) KBP200 Series, 2 A, Case Type: KBP KBP KBP KBP KBP KBP KBP KBP KBL400 Series, 4 A, Case Type: KBL KBL KBL KBL KBL KBL KBL KBL KBU4A-M Series, 4 A, Case Type: KBU KBU4A KBU4B KBU4D KBU4G KBU4J KBU4K KBU4M KBU6A-M Series, 6 A, Case Type: KBU KBU6A KBU6B KBU6D KBU6G KBU6J KBU6K KBU6M

209 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR (A) ( C) (V) (V) (A) (V) (A) (μa) KBU8A-M Series, 8 A, Case Type: KBU KBU8A KBU8B KBU8D KBU8G KBU8J KBU8K KBU8M GBU4A-M Series, 4 A, Case Type: GBU GBU4A GBU4B GBU4D GBU4G GBU4J GBU4K GBU4M GBU6A-M Series, 6 A, Case Type: GBU GBU6A GBU6B GBU6D GBU6G GBU6J GBU6K GBU6M GBU8A-M Series, 8 A, Case Type: GBU GBU8A GBU8B GBU8D GBU8G GBU8J GBU8K GBU8M

210 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR DIP SIP (A) ( C) (V) (V) (A) (V) (A) (μa) RBV400 Series, 4 A, Case Type: RBV4 RBV RBV RBV RBV RBV RBV D3SB10 Series, 4 A, Case Type: RBV4 D3SB D3SB D3SB D3SB D3SB D4SB D3SBA10 Series, 4 A, Case Type: RBV4 D3SBA D3SBA D3SBA D3SBA D3SBA D3SBA D5SBA10 Series, 6 A, Case Type: RBV25 D5SBA D5SBA D5SBA D5SBA BR600/RBV600 Series, 6 A, Case Type: BR6/RBV25 BR600 RBV BR601 RBV BR602 RBV BR604 RBV BR606 RBV BR608 RBV BR610 RBV BR6 RBV4 RBV25 210

211 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR DIP SIP (A) ( C) (V) (V) (A) (V) (A) (μa) RBV600D Series, 6 A, Case Type: RBV25 RBV600D RBV601D RBV602D RBV604D RBV606D RBV608D RBV610D BR800/RBV800 Series, 8 A, Case Type: BR10/RBV25 BR800 RBV BR801 RBV BR802 RBV BR804 RBV BR806 RBV BR808 RBV BR810 RBV RBV800D Series, 8 A, Case Type: RBV25 RBV800D RBV801D RBV802D RBV804D RBV806D RBV808D RBV810D BR1000/RBV1000 Series, 10 A, Case Type: BR10/RBV25 BR1000 RBV BR1001 RBV BR1002 RBV BR1004 RBV BR1006 RBV BR1008 RBV BR1010 RBV BR6 RBV25 211

212 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR DIP SIP (A) ( C) (V) (V) (A) (V) (A) (μa) RBV1000D Series, 10 A, Case Type: RBV25 RBV1000D RBV1001D RBV1002D RBV1004D RBV1006D RBV1008D RBV1010D KBPC1000 Series, 10 A, Case Type: BR50M KBPC KBPC KBPC KBPC KBPC KBPC KBPC BR1500/RBV1500 Series, 15 A, Case Type: BR50/RBV25 BR1500 RBV BR1501 RBV BR1502 RBV BR1504 RBV BR1506 RBV BR1508 RBV BR1510 RBV * For wire leads use suffix "W" for Case Type : BR50W RBV1500D Series, 15 A, Case Type: RBV25 RBV1500D RBV1501D RBV1502D RBV1504D RBV1506D RBV1508D RBV1510D RBV25 BR10 BR50 BR50W BR50M 212

213 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR DIP SIP (A) ( C) (V) (V) (A) (V) (A) (μa) KBPC1500 Series, 15 A, Case Type: BR50M KBPC KBPC KBPC KBPC KBPC KBPC KBPC S15VB20 Series, 15 A, Case Type: BR50 S15VB S15VB D20XB20 Series, 20 A, Case Type: RBV25 D20XB D20XB D20XB D20XB BR2500/RBV2500 Series, 25 A, Case Type: BR50/RBV25 BR2500 RBV BR2501 RBV BR2502 RBV BR2504 RBV BR2506 RBV BR2508 RBV BR2510 RBV * For wire leads use suffix "W" for Case Type : BR50W D25XB20 Series, 25 A, Case Type: RBV25 D25XB D25XB RBV25 BR50 BR50W BR50M 213

214 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR DIP SIP (A) ( C) (V) (V) (A) (V) (A) (μa) GBJ2500 Series, 25 A, Case Type: RBV25 GBJ GBJ GBJ GBJ GBJ GBJ GBJ S25VB20 Series, 25 A, Case Type: BR50 S25VB S25VB RBV2500 Series, 25 A, Case Type: RBV25 RBV2500D RBV2501D RBV2502D RBV2504D RBV2506D RBV2508D RBV2510D KBPC2500 Series, 25 A, Case Type: BR50M KBPC KBPC KBPC KBPC KBPC KBPC KBPC RBV25 BR50 BR50W BR50M 214

215 Silicon Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR DIP SIP (A) ( C) (V) (V) (A) (V) (A) (μa) KBPC3500 Series, 35 A, Case Type: BR50M KBPC KBPC KBPC KBPC KBPC KBPC KBPC BR3500/RBV3500 Series, 35 A, Case Type: BR50/RBV25 BR3500 RBV BR3501 RBV BR3502 RBV BR3504 RBV BR3506 RBV BR3508 RBV BR3510 RBV * For wire leads use suffix "W" for Case Type : BR50W BR5000/RBV5000 Series, 50 A, Case Type: BR50/RBV25 BR5000 RBV BR5001 RBV BR5002 RBV BR5004 RBV BR5006 RBV BR5008 RBV BR5010 RBV * For wire leads use suffix "W" for Case Type : BR50W KBPC5000 Series, 50 A, Case Type: BR50M KBPC KBPC KBPC KBPC KBPC KBPC KBPC RBV25 BR50 BR50W BR50M 215

216 Glass Passivated Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR (A) ( C) (V) (V) (A) (V) (A) (μa) W005G Series, 1.5 A, Case Type: WOB W005G W01G W02G W04G W06G W08G W10G KBL400G Series, 4 A, Case Type: KBL KBL400G (Ta) KBL401G (Ta) KBL402G (Ta) KBL404G (Ta) KBL406G (Ta) KBL408G (Ta) KBL410G (Ta) GBPC6005 Series, 6 A, Case Type: BR6 GBPC GBPC GBPC GBPC GBPC GBPC GBPC GBPC15005 Series, 15 A, Case Type: BR50 GBPC GBPC GBPC GBPC GBPC GBPC GBPC BR6 BR50 216

217 Glass Passivated Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR (A) ( C) (V) (V) (A) (V) (A) (μa) GBPC25005 Series, 25 A, Case Type: BR50 GBPC GBPC GBPC GBPC GBPC GBPC GBPC GBPC25005W Series, 25 A, Case Type: BR50W GBPC25005W GBPC2501W GBPC2502W GBPC2504W GBPC2506W GBPC2508W GBPC2510W GBPC35005 Series, 35 A, Case Type: BR50 GBPC GBPC GBPC GBPC GBPC GBPC GBPC BR50 BR50W 217

218 Mini Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR (A) ( C) (V) (V) (A) (V) (A) (μa) MB1S Series, 0.5 A, Case Type: MBS MB1S MB2S MB4S MB6S MB8S MB10S MB1M Series, 0.5 A, Case Type: MBM MB1M MB2M MB4M MB6M MB8M MB10M S1ZB20 Series, 0.8 A, Case Type: MBS S1ZB S1ZB S1ZB DB101 Series, 1 A, Case Type: DFM DB DB DB DB DB DB DB DF005S Series, 1 A, Case Type: DFS DF005S DF01S DF02S DF04S DF06S DF08S DF10S

219 Mini Bridge Rectifiers Max. Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Forward Surge Voltage Drop Current Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Tc VRRM IFSM IF IR (A) ( C) (V) (V) (A) (V) (A) (μa) DF005M Series, 1 A, Case Type: DFM DF005M DF01M DF02M DF04M DF06M DF08M DF10M DF15005S Series, 1.5 A, Case Type: DFS DF15005S DF1501S DF1502S DF1504S DF1506S DF1508S DF1510S DF15005M Series, 1.5 A, Case Type: DFM DF15005M (Ta) DF1501M (Ta) DF1502M (Ta) DF1504M (Ta) DF1506M (Ta) DF1508M (Ta) DF1510M (Ta)

220 Avalanche Bridge Rectifiers Max. Average Input Max. Recurrent Avalanche Max. Forward Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Breakdown Peak Surge Voltage Drop Current Current Recommended Voltage Voltage at 100 ma Current at Ta = 25 C at Ta = 25 C Tc VRRM Min. Max. IFSM IF IR (A) ( C) (V) (V) (V) (V) (A) (V) (A) (μa) AKBL400 Series, 4 A, Case Type: KBL AKBL AKBL AKBL AKBL AKBL AKBL AKBL ABR600 Series, 6 A, Case Type: BR6 ABR ABR ABR ABR ABR ABR ABR ABR800 Series, 8 A, Case Type: BR10 ABR ABR ABR ABR ABR ABR ABR ABR1000 Series, 10 A, Case Type: BR10 ABR ABR ABR ABR ABR ABR ABR

221 Avalanche Bridge Rectifiers Max. Average Input Max. Recurrent Avalanche Max. Forward Max. Forward Max. Reverse Forward Rectified Voltage Peak Reverse Breakdown Peak Surge Voltage Drop Current Current Recommended Voltage Voltage at 100 ma Current at Ta = 25 C at Ta = 25 C Tc VRRM Min. Max. IFSM IF IR (A) ( C) (V) (V) (V) (V) (A) (V) (A) (μa) ABR1500 Series, 15 A, Case Type: BR50 ABR ABR ABR ABR ABR ABR ABR * For wire leads use suffix "W" for Case Type : BR50W ABR2500 Series, 25 A, Case Type: BR50 ABR ABR ABR ABR ABR ABR ABR * For wire leads use suffix "W" for Case Type : BR50W ABR3500 Series, 35 A, Case Type: BR50 ABR ABR ABR ABR ABR ABR ABR * For wire leads use suffix "W" for Case Type : BR50W ABR5000 Series, 50 A, Case Type: BR50 ABR ABR ABR ABR ABR ABR ABR * For wire leads use suffix "W" for Case Type : BR50W BR50 BR50W 221

222 Fast Recovery Bridge Rectifiers Maximum Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Max. Reverse Forward Rectified Voltage Peak Forward Forward Surge Voltage Drop Current Recovery Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Time (1) Tc VRRM IFSM IF IR Trr (A) ( C) (V) (V) (A) (V) (A) (μa) (ns) FKBL400 Series, 4 A, Case Type: KBL FKBL FKBL FKBL FKBL FKBL FKBL FKBL FBR600 Series, 6 A, Case Type: BR6 FBR FBR FBR FBR FBR FBR FBR FKBP800 Series, 8 A, Case Type: BR10 FBR FBR FBR FBR FBR FBR FBR FBR1000 Series, 10 A, Case Type: BR10 FBR FBR FBR FBR FBR FBR FBR Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A 222

223 Fast Recovery Bridge Rectifiers Maximum Average Input Max. Repetitive Max. Peak Max. Forward Max. Reverse Max. Reverse Forward Rectified Voltage Peak Forward Forward Surge Voltage Drop Current Recovery Current Recommended Voltage Current at Ta = 25 C at Ta = 25 C Time (1) Tc VRRM IFSM IF IR Trr (A) ( C) (V) (V) (A) (V) (A) (μa) (ns) FBR1500 Series, 15 A, Case Type: BR50 FBR FBR FBR FBR FBR FBR FBR * For wire leads use suffix "W" for Case Type : BR50W FBR2500 Series, 25 A, Case Type: BR50 FBR FBR FBR FBR FBR FBR FBR * For wire leads use suffix "W" for Case Type : BR50W FBR3500 Series, 35 A, Case Type: BR50 FBR FBR FBR FBR FBR FBR FBR * For wire leads use suffix "W" for Case Type : BR50W FBR5000 Series, 50 A, Case Type: BR50 FBR FBR FBR FBR FBR FBR FBR * For wire leads use suffix "W" for Case Type : BR50W Note : (1) Reverse Recovery test conditions : I F = 0.5 A, I R = 1 A, Irr = 0.25 A BR50 BR50W 223