Bulletin No

O01EC0
(JAN.,1998)

SEMICONDUCTORS
SHORT FORM CATALOG
Power ICs
Power Transistors
PowerMOSFETs
Tryristors
Diodes
Light Emitting Diodes
 CAUTION / WARNING

• The information in this publication has been carefully checked and is believed to be accurate; however, no responsibility
is assumed for inaccuracies.
• Sanken reserves the right to make changes without further notice to any products herein in the interest of improvements
in the performance, reliability, or manufacturability of its products. Before placing an order, Sanken advises its
customers to obtain the latest version of the relevant information to verify that the information being relied upon is
current.
• Application and operation examples described in this catalog are quoted for the sole purpose of reference for the use
of the products herein and Sanken can assume no responsibility for any infringement of industrial property rights,
intellectual property rights or any other rights of Sanken or any third party which may result from its use.
• When using the products herein, the applicability and suitability of such products for the intended purpose or object
shall be reviewed at the users' responsibility.
• Although Sanken undertakes to enhance the quality and reliability of its products, the occurrence of failure and defect
of semiconductor products at a certain rate is inevitable. Users of Sanken products are requested to take, at their own
risk, preventative measures including safety design of the equipment or systems against any possible injury, death,
fires or damages to the society due to device failure or malfunction.
• Sanken products listed in this catalog are designed and intended for the use as components in general purpose
electronic equipment or apparatus (home appliances, office equipment, telecommunication equipment, measuring
equipment, etc.). Before placing an order, the user's written consent to the specifications is requested.
When considering the use of Sanken products in the application where higher reliability is required (transportation
equipment and its control systems, traffic signal control systems or equipment, fire/crime alarm systems, various safety
devices, etc.), please contact your nearest Sanken sales representative to discuss and obtain written confirmation of
your specifications.
The use of Sanken products without the written consent of Sanken in the application where extremely high reliability
is required (aerospace equipment, nuclear power control systems, life support systems, etc.) is strictly prohibited.
• Anti radioactive ray design is not considered for the products listed herein.
• This publication shall not be reproduced in whole or in part without prior written approval from Sanken.
• Gallium arsenide is used in some of the products listed in this publication. These products are dangerous if they are
burned or smashed in the process of disposal. It is also dangerous to drink the liquid or inhale the gas generated by
such products when chemically disposed.
SANKEN
SEMICONDUCTORS SEARCH (Type No. Order)

Contents

1-1. IC Regulators .......................................................................... 2

1 ICs

1-2.
• Switching Type .................................................................... 2
• Dropper Type ....................................................................... 4
Stepper Motor Driver ICs ...................................................... 6
• Unipolar Driver ICs .............................................................. 6
• Bipolar Driver ICs ................................................................ 6
1-3. Other ICs ................................................................................. 7
• Voltage Doubler/Bridge Rectifier Automatic Switch ICs .. 7
• Error Amplifier ICs ............................................................... 7
• Variable Voltage Detection Type Error Amplifier ICs ...... 7

2 Power Transistors 2-1. Power Transistors ................................................................ 16

• Transistors for Audio Amplifier ......................................... 16
• Transistors for Switch Mode Power Supply .................... 17
• Transistors for Humidifier ................................................. 17
• Transistors for Display Horizontal Deflection Output ..... 17
• Darlington Transistors ....................................................... 18
• Low VCE (sat) · High hFE Transistors ................................ 18
• General Purpose Transistors ........................................... 19
• Surface Mount Transistors ............................................... 19
2-2. Transistor Arrays .................................................................. 20
• Sink Drive Transistor Arrays ............................................ 20
• Source Drive Transistor Arrays ........................................ 20
• H-Bridge Transistor Arrays ............................................... 20
• 3-Phase Motor Driver Transistor Arrays ......................... 20
• Stepper Motor Dual Power Supply Drive Transistor Arrays ... 20
• Surface Mount Transistor Arrays (SD Series) ................ 22

3 Power MOSFETs 3-1.

3-2.
MOSFETs .............................................................................. 26
MOSFET Arrays ................................................................... 27

4 Thyristors 4-1.
4-2.
4-3.
Thyristors .............................................................................. 32
Triacs ..................................................................................... 33
PNPN Switch ....................................................................... 33

5 Diodes 5-1.
5-2.
5-3.
5-4.
Rectifier Diodes .................................................................... 36
Fast Recovery Rectifier Diodes .......................................... 37
Ultra-Fast Recovery Rectifier Diodes ................................. 38
Damper Diodes ..................................................................... 39
5-5. Schottky Barrier Diodes ....................................................... 40
5-6. Avalanche Diodes ................................................................ 41
5-7. Power Zener Diodes ............................................................ 41
5-8. Silicon Varistors ................................................................... 41
5-9. High Voltage Rectifier Diodes ............................................. 42
5-10. High Voltage Rectifier Diodes for Microwave Oven ......... 42
5-11. GaAs Schottky Barrier Diodes (GSC series) ..................... 42

6 Light Emitting Diodes 6-1.

6-2.
6-3.
6-4.
Standard LEDs ..................................................................... 48
LEDs for Surface Illumination ............................................. 49
Ultra-High Intensity LEDs .................................................... 49
Contact Mount LEDs for Automatic Insertion .................... 50
6-5. Bicolor LEDs ......................................................................... 51
6-6. Infrared LEDs ....................................................................... 51
6-7. Chip LEDs ............................................................................. 52
6-8. AlGaInP Ultra-High Intensity LEDs .................................... 52
6-9. Blue LEDs ............................................................................. 52

Index (Type No. Order)

*This catalog gives an overview of SANKEN semiconductors. Contact a representative for details.
1 ICs
1-1. IC Regulators

• Switching Type

• Dropper Type

1-2. Stepper Motor Driver ICs

• Unipolar Driver ICs

• Bipolar Driver ICs

1-3. Other ICs

• Voltage Doubler/Bridge Rectifier Automatic Switch ICs

• Error Amplifier ICs

• Variable Voltage Detection Type Error Amplifier ICs

1
1-1. IC Regulators (Refer to the individual specifications for measurement requirments of the electrical characteristics.)

Surface Mount Switching Type IC Regulators

Absolute Maximum Ratings Recommended Operating Conditions Electrical Characteristics (Ta = 25°C)
DC Input Storage DC Input Output Operating Output Efficiency Switching Fig.
Type No. Remarks
Voltage Temperature Voltage Range Current Range Temperature Voltage Frequency No.
VIN (V) Tstg (°C) VIN (V) Io (A) Top (°C) Vo (V) η (%) typ f (kHz) typ
SAI01 7 to 33 5.0 ±0.20 80 Built-in over
0 to 0.5
02 5.3 to 33 3.3 ±0.13 75 current and
03 35 –40 to +125 15 to 33 –30 to +125 12.0 ±0.60 88 60 thermal
1 protection
04 18 to 33 0 to 0.4 15.0 ±0.75 89
circuits
06 12 to 33 9.0 ±0.45 86

Switching Type IC Regulators

Absolute Maximum Ratings Recommended Operating Conditions Electrical Characteristics (Ta = 25°C)
DC Input Storage DC Input Output Operating Output Efficiency Switching Fig. Remarks
Type No.
Voltage Temperature Voltage Range Current Range Temperature Voltage Frequency No.
VIN (V) Tstg (°C) VIN (V) Io (A) Top (°C) Vo (V) η (%) typ f (kHz) typ
SI-8033S 35 5.3 to 28 3.3 ±0.13 79 Built-in over
current and
-8050S 7 to 40 5.0 ±0.20 84 thermal
-8090S –40 to +125 12 to 40 0 to 3.0 –30 to +125 9.0 ±0.45 88 60 2 protection
43 Soft start
-8120S 15 to 40 12.0 ±0.50 90 circuits
-8150S 18 to 40 15.0 ±0.75 91

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

DC Input Output Operating Storage DC Input Output Efficiency Switching Fig.
Type No.
Voltage Current Temperature Temperature Voltage Range Voltage Frequency No. Remarks
(Tc)
VIN (V) Io (A) Top (°C) Tstg (°C) VIN (V) Vo (V) η (%) typ f (kHz) typ
STR2005 11 to 40 5.1 ±0.1 72
2012 18 to 45 12.0 ±0.2
45 Variable
2013 19 to 45 13.0 ±0.2
2.0 –20 to +100 –20 to +125 85 25 3 output
2015 21 to 45 15.0 ±0.2 voltage
2024 50 30 to 50 24.0 ±0.3
20005 45 8 to 40 5.1 ±0.1 72 30 4

Switching Type/2-Pack Type IC Regulators

Combination Line-up
Control Section Power Section (STR7000 and STR7100 series)
(SI-8020 series) Io = 6A Io = 12A
SI-8020 (Vo = 5.1V) STR7001 STR7101
SI-8021 (Vo = 12V) STR7002 STR7102
SI-8022 (Vo = 15V) STR7002 STR7102
SI-8023 (Vo = 24V) STR7003 STR7103 Total Characteristics (Ta = 25°C)

Maximum Ratings of Power Section (Ta = 25°C) DC Input Output Output Efficiency Switching
Power Transistor Operating Combined Voltage Voltage Current Frequency Remarks
Storage
Type No. Breakdown Temperature Range Range
Temperature Fig. No. Type No.
Voltage (Tc)
V4-1 (V) Top (°C) Tstg (°C)
V IN Vo Io η f (kHz)
(V) (V) (A) (%) typ typ
STR7001 STR7001
7002 60 –30 to +125 –30 to +125 3 –SI-8020 11 to 40 5.1 ±0.1 72
7003 STR7002
–SI-8021 18 to 50 12.0 ±0.2 84 Built-in
STR7101
0 to 6.0 over
7102 60 –30 to +125 –30 to +125 3 STR7002
–SI-8022 21 to 50 15.0 ±0.2 86 current
7103 protection
STR7003
30 to 50 24.0 ±0.3 90 circuit
–SI-8023
Maximum Ratings of Control Section (Ta = 25°C) 35 output
STR7101
Type No. DC Input Operating Storage 11 to 40 5.1 ±0.1 70 ON/OFF
Fig. No. –SI-8020
Voltage Temperature Temperature control
STR7102
VIN (V) Top (°C) Tstg (°C) 18 to 50 12.0 ±0.2 82 Variable
–SI-8021
SI-8020 0 to output
STR7102
8021 21 to 50 15.0 ±0.2 84 voltage
55 –20 to +85 –20 to +100 5 –SI-8022
8022 STR7103
8023 30 to 50 24.0 ±0.3 87
–SI-8023

2
Switching Type IC Regulators with Coil
Absolute Maximum Ratings (Ta = 25°C) Recommended Operating Conditions Electrical Characteristics (Ta = 25°C)
DC Input Storage DC Input Output Operating Output Efficiency Switching Fig. Remarks
Type No.
Voltage Temperature Voltage Range Current Range Temperature Voltage Frequency No.
VIN (V) Tstg (°C) VIN (V) Io (A) Top (°C) Vo (V) η (%) typ f (kHz)
SI-8201L 10 to 40 0 to 0.4 5.0 ±0.10 73
-8202L 11 to 40 6.0 ±0.10 74
45 0 to 0.35 6
-8203L 16 to 40 12.0 ±0.20 79
-8204L 10 to 40 –10 to +65 5.2 ±0.10 73 25min
0 to 0.4
-8221L 40 8 to 35 5.0 ±0.15 80 7
-8211L 15 to 55 0 to 0.3 5.0 ±0.10 63
60 8
-8213L 22 to 55 0 to 0.28 12.0 ±0.20 78
-8301L 8 to 40 5.1 ±0.10
45 0 to 1 –20 to +85 73 25typ 9
-8303L 8.5 to 40 5.4 ±0.10
0.05 to 0.45 5.0 ±0.25 2-output type
-8811L 35 12 to 30 –10 to +70 72 50typ
–25 to +85 0 to –0.05 –5.0 ±0.25 Built-in over
current
0.02 to 0.3 5.0 ±0.25 protection
-8911L 24 to 55 –10 to +60 65 10
0 to –0.1 –5.0 ±0.25 circuit
60 68typ
-8921L 24 to 55 Built-in over
0 to 0.6 –10 to +65 5.1 +0.1 72 current
-8922L 20 to 55 –0.15 protection circuit
-8401L 7 to 33 0 to 0.5 5.0 ±0.20 80
Built-in over
-8402L 15 to 33 0 to 0.4 12.0 ±0.60 88 current and
-8403L 5.3 to 33 0 to 0.5 3.3 ±0.13 75 7 thermal
protection
-8405L 18 to 33 15.0 ±0.75 89 circuits
0 to 0.4
-8406L 10 to 33 8.0 ±0.40 85
35 –20 to +85 60typ
-8501L 7 to 33 5.0 ±0.20 83 Built-in over
-8502L 15 to 33 12.0 ±0.60 89 current and
thermal
-8503L 5.3 to 33 0 to 1 3.3 ±0.13 79 9 protection
-8504L 12 to 33 9.0 ±0.45 87 Soft start
circuits
-8505L 18 to 33 15.0 ±0.75 90

3
 Dropper Type IC Regulators
Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)
DC Input Output Operating Storage Recommended Output Voltage Input-Output Fig.
Type No. Differential No.
Voltage Current Temperature Temperature Input Voltage Vo (V) Remarks
Voltage
VIN (V) Io (A) Top (°C) Tstg (°C) VIN (V) 3000F* 3000FA VDIF (V) max
SI-3050F 25 6.0 to 15 5.0 ±0.20 5.0 ±0.10 Low power
-3090F 10.0 to 20 9.0 ±0.36 9.0 ±0.18 dissipation type
30 Remote sensing
-3120F –30 to –40 to 13.0 to 25 12.0 ±0.48 12.0 ±0.24 possible
1.0 1.0 2
-3150F +100 +125 16.0 to 27 15.0 ±0.60 15.0 ±0.30 Built-in over
35 current, input over
-3157F 16.7 to 27 15.7 ±0.78 – voltage and thermal
-3025F 30 protection circuits
6.0 to 25 3 to 24 (Variable)
* "A" may be marked on the right side of marking.

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

DC Input Output Operating Storage Recommended Output Voltage Input-Output Fig.
Type No. Voltage Current Temperature Temperature Input Voltage Differential No. Remarks
Vo (V)
Voltage
VIN (V) Io (A) Top (°C) Tstg (°C) VIN (V) 3000N* 3000NA VDIF (V) max
SI-3050N 25 6 to 15 5.0 ±0.20 5.0 ±0.10 Low power
dissipation type
-3090N –30 to –40 to 10 to 20 9.0 ±0.36 9.0 ±0.18 Built-in over
30 1.0 1.0 12 current, input over
-3120N +100 +125 13 to 25 12.0 ±0.48 12.0 ±0.24 voltage and thermal
-3150N 35 16 to 27 15.0 ±0.60 15.0 ±0.30 protection circuits
* "A" may be marked on the right side of marking.

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

DC Input Output Operating Storage Recommended Input-Output
Output Voltage
Type No. Voltage Current Temperature Temperature Input Voltage Differential Fig. Remarks
Vo (V) No.
Voltage
VIN (V) Io (A) Top (°C) Tstg (°C) VIN (V) 3000C* 3000CA VDIF (V) max
SI-3033C 20 4.5 to 15 3.3 ±0.132 3.3 ±0.066 Low power
dissipation type
-3050C 6.0 to 30 5.0 ±0.200 5.0 ±0.100 Remote sensing
-3090C –30 to –40 to 10.0 to 30 9.0 ±0.360 9.0 ±0.180 possible
35 1.5 1.0 2 Built-in over
-3120C +100 +125 13.0 to 30 12.0 ±0.480 12.0 ±0.240 current, input over
-3150C 16.0 to 30 15.0 ±0.600 15.0 ±0.300 voltage and
thermal protection
-3240C 45 25.0 to 40 24.0 ±0.960 24.0 ±0.480 circuits
* "A" may be marked on the right side of marking.

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

DC Input Output Operating Storage Recommended Output Voltage Input-Output Fig.
Type No. Differential No.
Voltage Current Temperature Temperature Input Voltage Vo (V) Remarks
Voltage
V IN (V) Io (A) Top (°C) Tstg (°C) V IN (V) 3001N* 3001NA VDIF (V) max
SI-3051N 6 to 30 5.0 ±0.20 5.0 ±0.10 Low power
-3091N 10 to 30 9.0 ±0.36 9.0 ±0.18 dissipation type
35 –30 to –40 to Built-in over current,
-3121N 1.5 13 to 30 12.0 ±0.48 12.0 ±0.24 1.0 11
+100 +125 input overvoltage
-3151N 16 to 30 15.0 ±0.60 15.0 ±0.30 and thermal
-3241N 45 25 to 40 24.0 ±0.96 24.0 ±0.48 protection circuits

* "A" may be marked on the right side of marking.

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

DC Input Output Operating Storage Recommend Output Input-Output Fig.
Type No. Voltage Current Temperature Temperature Input Voltage Voltage Differential No. Remarks
Voltage
V IN (V) Io (A) Top (°C) Tstg (°C) VIN (V) Vo (V) VDIF (V) max
SI-3050J 25 6 to 15 5.0 ±0.10 Low power dissipation
type
-3090J 30 –30 to –40 to 10 to 25 9.0 ±0.18 Remote sensing possible
2.0 1.0 2
-3120J +100 +125 13 to 27 12.0 ±0.24 Built-in over current, input
over voltage and thermal
35
-3150J 16 to 27 15.0 ±0.30 protection circuits

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

Input Output Operating Storage Recommend Output Input-Output Fig.
Type No. Voltage Current Temperature Temperature Input Voltage Voltage Differential No. Remarks
Voltage
V IN (V) Io (A) Top (°C) Tstg (°C) VIN (V) Vo (V) VDIF (V) max
SI-3052N 25 6 to 15 5.0 ±0.10 Low power dissipation type
-3092N 30 –30 to –40 to 10 to 25 9.0 ±0.18 Built-in over current, input
2.0 1.0 11 over voltage and thermal
-3122N +100 +125 13 to 27 12.0 ±0.24
35 protection circuits
-3152N 16 to 27 15.0

4
 Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)
DC Input Output Operating Storage Recommended Output Input-Output Reset
Type No. Fig.
Voltage Current Temperature Temperature Input Voltage Voltage Differential Detection Remarks
No.
Voltage Voltage Level
VIN (V) Io (A) Top (°C) Tstg (°C) VIN (V) Vo (V) VDIF (V) max Voth/Vo (%)
Reset function
Low power dissipation
type
SI-3050R 35 1.5 –30 to +100 –30 to +125 6 to 30 5.0 ± 0.2 1.0 90 to 94 2
Built-in over current, input
over voltage and thermal
protection circuits

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

DC Input Output Operating Storage Output Input-Output
Voltage Current Temperature Temperature Voltage Differential Fig.
Type No. Remarks
Voltage No.

VIN (V) Io (A) Top (°C) Tstg (°C) Vo (V) V DIF (V) max
SI-3052V 25 5.0 ±0.1 Low power dissipation type
–20 to +100
-3122V 2.0 –30 to +125 12.0 ±0.2 1.0 12 Built-in over current
30 (T C) protection circuits
-3152V 15.0 ±0.2
SI-3052P 5.0 ±0.1
-3122P 12.0 ±0.2 Built-in over current
45 2.0 –20 to +80 –30 to +125 3.0 12 protection circuits
-3152P 15.0 ±0.2
-3242P 24.0 ±0.2
STR9005 25 5.0 ±0.1 Low power dissipation type
–20 to +100 Built-in over current protection circuits
9012 4.0 –30 to +125 12.0 ±0.2 1.0 3 Output ON/OFF control and fine-
30 (T C)
9015 15.0 ±0.2 adjustment of output votage possible

3-Output IC Regulators
Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)
DC Input Output Power Operating Storage DC Input Output Minimum Efficiency
Voltage Current Dissipation Temperature Temperature Voltage Voltage Input-Output Fig.
Type No. Regulator No. Remarks
(All Output Range Differential
Type
ON) Voltage
V IN (V) Io (A) P D (W) Top (°C) Tstg (°C) VIN (V) Vo (V) V DIF (V) max η (%) typ
Reg1 13 to 25 12.0 ±0.48 Low power dissipation type
SLA Remote sensing possible
Reg2 1.5 40 –40 to +125 6 to 15 5.0 ±0.15 1.0 – Dropper type
3001M Built-in overcurrent, input overvoltage
Reg3 10 to 20 9.0 ±0.36 and thermal protection circuits
Reg1 0.5 7 to 33 5.0 ±0.25 3.0 80 Switching type Low power dissipation type
SLA Remote sensing possible (Reg 2 only)
Reg2 35 1.0 –30 to +85 17 to 30 15.7 ±0.78 1.0 – Dropper type 13
Built-in overcurrent and thermal
3002M
Reg3 0.4 12 to 33 9.0 ±0.45 3.0 85 Switching type protection circuits
37.5 –40 to +150
Reg1 0.5 7 to 33 5.0 ±0.25 80
SLA Built-in overcurrent and thermal
Reg2 9.0 ±0.45 3.0 Switching type protection circuits
3004M 0.4 12 to 33 85
Reg3 9.0 ±0.36

5
1.2 Stepper Motor Driver ICs

Unipolar Driver ICs

SLA package product (Heat sink attachable type)
Output Control Supply Voltage
Fig.
Type No. Current (= Motor Supply Voltage) Step sequence mode Package Remarks
No.
Io (A) (V)
SLA7026M 3.0 max
SLA7024M 1.5 max 1-2 phase excitation enabled ZIP18pin 14
SLA7027MU 1.0 max
SLA7029M 1.5 max
2-phase excitation only ZIP15pin 15
SLA7022MU 1.0 max 46 max
SLA7044M 14
3.0 max
(PG001M) (16) Driver + Pulse
ZIP18pin
SLA7042M Micro-step enabled 14 generator
1.2 max (DIP16pin)
(PG001M) (16)

SMA package (Compact type)

Output Control Supply Voltage
Fig.
Type No. Current (= Motor Supply Voltage) Step sequence mode Package Remarks
No.
Io (A) (V)
SMA7029M 1.5 max
46 max 2-phase excitation only ZIP15pin 17
SMA7022MU 1.0 max

SDK package (Surface mount type)

Output Control Supply Voltage
Type No. Fig.
Current (= Motor Supply Voltage) Step sequence mode Package Remarks
No.
Io (A) (V)
1 motor driven by
SDK03M 1.0 max 46 max 1-2 phase excitation enabled SMD16pin 18
2 packages

Bipolar Driver ICs

Output Supply Voltage Range
Type No. Fig.
Current Step sequence mode Package Remarks
No.
Io (A) (V)
SI-7230M ±3.0 max 15 to 45 1-2 phase excitation enabled SIP20pin 19 Open air package
SI-7502 1.5max ZIP27pin (Powder coating) 20
Pentagonal
(SLA5011) *Per 1 phase of 15 to 45 (SIP12pin) 1 set of 3 products
motor coil 4-phase excitation 21
(SLA6503) (SIP12pin)

6
1-3. Other ICs

Voltage Doubler/Bridge Rectifier Automatic Switch ICs

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)
Repetitive RMS Surge Operating Storage Voltage OFF-state ON-state
Setting Switchover
Peak Off-state On-state On-state Temperature Temperature Doubler Current Voltage
Voltage Fig. Remarks
Type No. Voltage Current Current Function
Turn-on No.
Voltage
V DRM (V) IT (RMS) (A) ITSM (A) T OP (°C) Tstg (°C) VS (V) VC1 (V) V C2 (V (AC) )* IDRM ( µA) V TH (V)
STR 80145A 5.0 50
–10 to –30 to 196 ±5 145
81145A 500 AC80 max 100 max 1.8 max 22
10.0 100 +100 (TC) +125
81159A 215 ±5 159
STR 82145 5.0 50
–20 to –40 to 205 ±5 145 With latching
83145 500 DC100 max 100 max 1.8 max 22
10.0 100 +100 (TC) +125 capability
83159 225 ±5 159
*Reference value

Error Amplifier ICs (SE series)

Electrical Characteristics
Absolute Maximum Ratings (Ta = 25°C)
(Ta = 25°C)
Fig.
Type No. Collector-Ground Voltage Collector Current Operating Output Detection Voltage No. Remarks
Temperature
VCGO (V) IC (mA) Top (°C) VS (V)
SE005N 12 5.0 ±0.1
012N 12.0 ±0.2
015N 15.0 ±0.2
Low Vs
024N 50 24.0 ±0.2
034N 34.0 ±0.3
040N 40.0 ±0.4
070N 70.2 ±0.8
080N 80.2 ±0.8
090N 20 –20 to +125 (TC) 90.0 ±0.8 23
105N 105.2 ±0.8
110N 110.2 ±0.8
115N 150 115.2 ±0.8 High Vs
120N 120.2 ±0.8
125N 125.2 ±0.8
130N 130.2 ±0.8
135N 135.2 ±0.8
140N 141.2 ±0.8

Variable Voltage Detection Type Error Amplifier ICs

Electrical Characteristics
Absolute Maximum Ratings (Ta = 25°C)
(Ta = 25°C)
Fig.
Type No. Collector-Ground Voltage Collector Current Operating Output Detection Voltage No. Remarks
Temperature
VCGO (V) IC (mA) Top (°C) VS (V)
141.2 ±0.6
Condition
SE-B3 150 20 –20 to +125 (T C)
I IN = 4mA, RC = 9.1kΩ 23 Variable voltage detection
Gain adjustment possible
RS = 88.7kΩ

7
 External Dimensions (unit: mm)

Fig. 1 Fig. 2 Fig. 3

2SW φ 3.2 ±0.2

4.2 ±0.2
6.0max
0.89 ±0.15 2.54 ±0.25

3VOS 36.0±0.3

4.0±0.2
4.32 ±0.2
10.0±0.2 2.8±0.2 2.0±0.2
24.4±0.2
4.7 max

0.5
a b
4GND 1VIN

φ 3.2±0.1
30°
7.9±0.2
1.4 ±0.2
0.75 +0.15
−0.05

12.0±0.3

21.2±0.3
3.6 ±0.2

(17.9)
16.9±0.3
max
a
4.0 a
8.0 ±0.5 b 2.6±0.1
6.3 ±0.2

(2.0)
3.0

5.0±0.6
a. Type

20.0min
4.7max
0.95±0.15
0.3+0.15
−0.05

±0.2
0.6−0.1
0.25

b. Lot No. 2.0

0.85±0.2

(4.6)
−0
±0.2

(8.0)
1.0−0.1
0 ~ 0.15 0.45±0.2
−0.1
1 2 3 4 5
1.0 ±0.3 3.0 ±0.2 3.9±0.7 (4.3) 3.5 5.45 × 4
P1.7 ±0.7
× 4 = 6.8 ±0.7
5.45 a. Type
9.8 ±0.3 8.2±0.7
b. Lot No.
a. Type
1234 5 b. Lot No.
Forming No. 1101

Fig. 4 Fig. 5 Fig. 6

17.8±0.3 4.5±0.2
φ 3.2±0.1

9.9±0.2 1.6±0.2 6
10
5

12±0.5
a
2.0±0.1

a
7.0±0.2

1 PIN b
25max

a. Type
28.0±0.3

STR DOT
b
a 5 b. Lot No.
43.0±0.5

1
b 14.5±0.5
(1)

0.5 ±0.05 0.27 ±0.05 Marking of No.1 terminal side

4.5 ±1.0

2.54 ±0.1

,,
±0.15
1.0±0.1 6max
(15.0)

1.2
3.4max

7max
±0.2 ±0.2

13.2±0.6
0.6−0 0.6−0 30max

a. Type
1.0±0.2
±0.1 ±0.1
2.54±0.1 3.81 3.81 2.54±0.1 b. Lot No.

4.0±0.1 φ 0.8max
a. Type
(2.17) (10.16) (7.62) (2.19)
4.7±0.6

b. Lot No.
1 2 3 4 5

Fig. 7 Fig. 8 Fig. 9

6 4

4 3 10 6
20.5max
12±0.5

a
26 ±0.1

a. Type
13

b a a b a. Type
b
2
b. Lot No. a. Type b. Lot No.
SK
1 14.5±0.5 b. Lot No.

,,
1 5
Marking of No.1 terminal side 20.5max
1 2 3
Marking of No.1 terminal side
15 26 ±0.1

,,
13.2±0.6

13.5max

Marking of No.1 terminal side

1.0±0.2

φ 0.8max φ 0.8 2 2
5.5

18

(2.17) (10.16) (7.62) (2.19)

4.7±0.6

5 10.1 5 6 7.6 6
3.7

φ 0.6 2
18
4

8
Fig. 10 Fig. 11

9 6 +0.2 ±0.2
φ 3.2 –0.1 4.2
±0.2

±0.2
0.2 2.8
10

0.5
4.0
19±0.2
22±0.2

±0.2
b

7.9
a. Type
SK
b. Lot No.

±0.3
16.9
a
1 5
16.8±0.2 ±0.1

2 max
b 2.6

22±0.2

±0.15
Marking of No.1 terminal side 0.95

(13.5)
+0.2
0.85 –0.1

,,,,
18±0.6

+0.2
1±0.1

0.45 –0.1
±0.1
P3.4 × 2 = 6.8
a. Type
b. Lot No.
0.8max
4±0.6

(16.5)
(4 × P3.175 = 12.7) Terminal layout
1 2 3 1 GND
2 VOUT
3 VIN

Fig. 12 Fig. 13

15.6 ±0.3
13.6 ±0.2 4.8 ±0.2 31±0.2
5.0 ±0.7

φ 3.2±0.15 24.4±0.2 φ 3.2±0.15 × 3.8 4.8±0.2

9.6 ±0.2 2.0 ±0.1
2.0

1.8

16.4±0.2 1.7±0.1
19.9±0.3
4.0

±0.2

SK JAPAN
φ 3.2 ±0.1

12.9±0.2

a 2.45±0.2
9.9±0.2

6.1±0.5
a
16

b b (Root dimension)

–0.5
4-(R1)

9.7+1
2 +0.2 R-End
20.0min

–0.1
3.5

3 +0.2

(3.6)
–0.1
±0.2
0.65 −0.1 1.15 ±0.2
−0.1 0.55±0.2
−0.1
1.05+0.2
–0.1 0.65+0.2
–0.1
4±0.2
(End dimension)
5.45 ±0.1 5.45 ±0.1 1.7 +0.2
–0.3
14 × P2.03±0.7 = 28.42±1.0
(End dimension)

31.3±0.2
a. Type a. Type
b. Lot No. b. Lot No.
1 2 3 • • • • •
15 Forming No. 861

Fig. 14

31±0.2
φ 3.2±0.15 × 3.8 4.8±0.2
φ 3.2±0.15 24.4±0.2
1.7±0.1
16.4±0.2
16±0.2
13±0.2

4.6+0.6
9.9±0.2

a 2.45±0.2
3+0.6

b
(3) 6.7±0.5

−0.5
9.7+1

R-End 0.65±0.2
−0.1 1±0.2
−0.1 2.2±0.1
−0.1

1.6+0.6
0.55+0.2

6±0.6
0.65±0.2 1+0.2 0.55±0.2
−0.1 7.5±0.6
−0.1 −0.1
4±0.7
17 × P1.68±0.4 = 28.56+1
17 × P1.68 ±0.7 = 28.56+1

31.3 ±0.2 31.3±0.2

a. Type
b. Lot No.
1 2 3 • • • • •
18
1 2 3 • • • • • 18

Forming No. 871 Forming No. 872

9
 Fig. 15
31±0.2
φ 3.2±0.15 24.4±0.2 φ 3.2±0.15 × 3.8 4.8±0.2
16.4±0.2 1.7±0.1

16±0.2
13±0.2
2.45±0.2

9.9±0.2

4.6±0.6
a

3±0.6
b

(3) 6.7±0.5

−0.5
9.7+1
R-End 0.65±0.2
−0.1 2.2±0.4

1.6±0.6
−0.1
0.55+0.2
1.15±0.2
−0.1 6.3±0.6
0.65±0.2
−0.1 1.15±0.2
−0.1 0.55±0.2
−0.1
7.5±0.6
4±0.7 14 × P2.03±0.4 = 28.42±0.8
14 × P2.03±0.7 = 28.42±1.0

31.3±0.2

a. Type
b. Lot No.
• • • • •
1 2 3 15
1 2 3 • • • • • 15

Forming No. 853 Forming No. 855

Fig. 16 Fig. 17
4±0.2
31±0.2 2.5±0.2

19.2

30°
20.0max

10.2±0.2
1.45±0.15
8.5max
b
16 9
a
6.65max

(3) 6.7±0.5
6.3

(9.7)
1 8 0.65±0.2 0.55±0.2
−0.1
−0.1
0.89 1.3
7.62 1.16±0.2
−0.1
4±0.7
P2.03±0.1 × 14 = 28.42
2.54min 5.08max

a. Type
31.5max b. Lot No.
0.51min

2.54 ±0.25 0.48 ±0.10 0.25 +0.11

−0.05
Forming No. 1054
0 ~ 15°
• • • • • • • • • • •
1 2 3 15

Fig. 18 Fig. 19

69.0±0.5
0.89±0.15 2.54±0.25 7.0±0.5
0.75+0.15
−0.05
63.0±0.4
9 3.5
16
16.6
3.8

a
6.8max

a
8.0 φ
35.0±0.5

b
34 b
1.8

1 20.0max 8
3
8.0±0.5 19.56±0.2
8.6±1

2.54
6.3±0.2
±0.15
0.3−0.05

4.0max
0.25

3.6±0.2

Terminal No.1 • • • • • • • • • • • • • • 20
1.4±0.2

0 to 0.1

1.0±0.3 3.0±0.2
9.8±0.3
0.5mm
a. Type a. Type 1.4
b. Lot No. b. Lot No.

10
Fig. 20 Fig. 21

31.0±0.2
41max 8max φ 3.2±0.15 24.4±0.2 Ellipse 3.2±0.15 ×3.8
4.8±0.2
16.4±0.2

Lead board thickness

Lot No. 1.7±0.1
(4-digit)

0.8max
Marking of No.1

16.0 ±0.2
SK JAPAN

13.0 ±0.5
terminal side SI-7502

30max
a

8.5max
(White dot)
b
SK

9.5min (10.4)
R

2.7
R Pin1 12

–0.5
3.5+1
4.5 ±1.0

0.5+0.15 0.85+0.2
–0.1
–0.05
27pin 26pin 1.2±0.15 1.45 ±0.15
#P1.27 ±0.7 ×26=33.02
0.3+0.15
-0.05
1pin 27pin 11×P2.54 ±0.7 =27.94 ±1.0 0.55+0.2
–0.1 2.2 ±0.7
#2.45±0.6
R:0.3mm (Reference value)
3.15max
Note) Symbol # indicates the dimension of the lead end. a. Type
b. Lot No.

1 2 3 4 5 6 7 8 9 10 1112

Fig. 22 Fig. 23 MT-25 (TO-220)

4.5±0.2
φ 3.75±0.1
10.2±0.2 4.8±0.2
φ 3.2±0.1

2.0±0.1

16.0±0.7 3.0±0.2
STR
23.0±0.3
28.0±0.3

a
36.0–1.0
±1.5

b
36.0±0.5

8.8±0.2

18.3
SE a

b N
1.2±0.15
3.4

1.0±0.1
(6.0) 7.0±0.5

5.8±0.3 2.5±0.3 3.0±0.3

±0.2
0.6–0.1 1.35±0.15 1.7±0.2
±0.2
0.6–0.1

±0.1 ±0.1
2.54±0.1 3.81 3.81 2.54±0.1 4.5±0.5 0.65±0.2
-0.1

6.9
(7.62)
(12.7)

a. Type No. 2.5±0.1 2.5±0.1

2.5±0.5
b. Lot No.
Forming No. 12
17.8±0.3 Forming No. 501
a. Type No.
1 2 3 b. Lot No.
1 2 3 4 5

11
 Standard Connection Diagrams

SAI Series SI-8000S Series

3.3V,5V : 200 µ H
9V,12V,13V,15V : 300 µ H
L1 1 2 L1: 150 µ H
1 2 VIN VIN SW VOUT
VIN VIN SW VOUT
3 4
SAI VOS SI-8000S VOS

+ D1 +
GND C1 SS GND C2
+ C2 1000 µ F
C1 +
4 D1 330 µ F
C1 5 3 RK46 1000 µ F
100 µ F SFPB54 1000 µ F
(Sanken) (Sanken)

GND GND GND GND

STR2000 Series 5V : 200 µ H 15V : 350 µ H STR20005

12V, 13V : 300 µ H 24V : 400 µ H
L 200 µ H
STR2000 L 4 3 VOUT
5 Series 1 VOUT
STR20005 2
4 3 2
VIN + 5 1 + C2
Di 1000 µ F
1000 µ F
+ + RU3M
VIN 1000 µ F 1000 µ F

GND
GND

STR7000, 7100/SI-8020 Series SI-8200L/8400L Series

5 V···200 µ H
12 V
···250 µ H
15 V
L 24 V···300 µ H ( ) SI-8221L
4 1
VIN VIN SW VOUT SI-8400L
STR7000
STR7100 3 SI-8200L
Series DRIVE * VIN VIN SI-8221L VOUT VOUT
F/W GND C5 10(4) 1
330P 5 SI-8400L
2 5
DRIVE GND
10 3
VIN VO.S C4 5 (2) 6 (3)
2200 µ F 8 2 1500 µ F×2
C.A SI-8020 Vo.ADJ + +
C2 C1 C2
330p 6 Series 9 220 µ F N.C 470 µ F
C.B OSC. OUT
7 SHUT DOWN
C3 VREF C.S 4
GND
10 µ F 1

GND GND GND

* STR7100 Series only Rs
6A···0.02W
12A···0.01W

SI-8301L SI-8811L
-8303L
( ) SI-8500L VIN 1
-8500L (+)
VIN 6 1 VOUT 2 9 VOUT1
C1 + +
SI-8811L 1200 µ F
SI-8301L 470 µ F +
C2 3 8 GND
-8303L
10µF +
-8500L 47µ F
VIN
N.C 4 2 N.C 4 7 VOUT2
C1 + + C2 (–) +
470 µ F 470 µF 220 µ F
3 (S.S)
5 6

GND GND

12
SI-8911L SI-8921L
8922L

VIN 1
VIN 1
2 9
SI-8911L 2 SI-8921L 7
+ +
3 8 VOUT1
C1
C2 + C4 + 8922L
220 µ F 3 6 VO
33 µ F 1200 µ F 180 µ F +
+
4 7 GND C1 22 µ F C3 1200 µ F
C3 + C5 C2
4 5 GND
220µ F 100 µ F
+ 5 6 VOUT2

GND GND

SI-3000F/3000C/3000J Series SI-3000N/3001N/3002N Series

D1 D1 *2

5 3 3 2
VOUT
OPEN
2 4 *1
+ + DC input + + DC output
1 C0 1 C0
VIN VIN VO
C1 C2 C1 C2

GND

C0 : Output capacitor 47 to 100 µ F C0 : Output capacitor (47 to 100 µ F, 50V)

*1 C1, C2 : Oscillation prevention capacitor (C1 : Approx. 47 µ F, C2 : Approx. 0.33 µ F) *1 C1 : Oscillation prevention capacitor (C1 : Approx. 47 µ F,
*2 D1 : Diode for protection against the occurrence of a reverse bias condition C2 C2 : Approx. 0.33 µ F)
between the input and the output. *2 D1 : Diode for protection against the occurrence of a reverse
bias condition between the input and the output.

SI-3025F SI-3050R

D1 *1

D1 *2
5 3
VIN R1 VOUT
SI-3050R
5 3 4
C1 + 1 2 Reset signal C0 +
SI-3025F R1
*3 + terminal
DC input + *1 2 4
VIN C2 1 C0 1
C1 R2
*3 D2 CDLY

C0 : Output capacitor (47 to 100 µ F, 50V)

*1 C1, C2 : Oscillation prevention capacitor (C1 : Approx. 47 µ F, C0 : Output capacitor (Approx. 200 µ F, 50V)
C2 : Approx. 0.33 µ F) C1 : Oscillation prevention capacitor (C1 : Approx. 47µ F)
*2 D1 : Diode for protection against the occurrence of a reverse Wirings between 5 (VIN) and 1 (GND) terminals should be the shortest distance
bias condition between the input and the output. as much as possible. When the input line is inductive or if a long wire is used,
*3 R1, R2 : External resistor for output voltage setting add a capacitor with good high frequency characteristics and a capacitance of
The equation (1) is applied to output voltage Vo and Approx. 0.33 µ F in parallel with the C1. Tantalum capacitors are recommended for
external resistor R1 & R2 : C1 and C0 when operating in low temperature environments.
R1 CDLY : Delay capacitor (reset output)
VO = VREF • (1 + ) (1) (VREF = 2.55V (typ.) ) R1 : Pull-up resistor (more than 300Ω)
R2
R2 should be 2.55 kΩ for stable operation. *1 D1, D2 : Diode for protection against the occurrence of a reverse bias condition between
the input and the output.

13
 SI-3000V SI-3000P STR9000
*1
D1

D1 *1 D1
*1

4 1
VIN STR9000 VOUT
SI-3000V SI-3000P Series
3 Series 2 2 Series 1 3 2
VIN VOUT VIN VOUT 5 +
1 + 3 + C2
C1
C1 C2 C1 C2
GND GND GND

C1 : Oscillation prevention capacitor (0.33 µ F) C1 : Oscillation prevention capacitor (0.33 µ F)

C2 : Output capacitor (47 to 100 µ F) C1 : Oscillation prevention capacitor (0.33 µ F)
C2 : Output capacitor (47 to 100 µ F)
*1 D1 : Diode for protection against the occurrence of a C2 : Output capacitor (47 to 100 µ F)
*1 D1 : Diode for protection against the occurrence of a
reverse bias condition between the input and the *1 D1 : Diode for protection against the occurrence
reverse bias condition between the input and the
output. of a reverse bias condition between the input
output.
and the output.

SLA3001M SLA3002M SLA3004M

4 5 2 3 L1 2 3 L1
VIN1 VO1 VIN1 + + VO1 VIN1 + + VO1
+ +
C1 C4 C1 D1 C4 C1 D1 C4
2 3 1 4 1 4
VC1 NC NC
1 5 5
9 10 9 10 7 8 L2
VIN2 VO2 VIN2 + + VO2 VIN2 + + VO2
+ +
C2 C5 C2 C5 C2 D2 C5
7 8 7 8 6 9
VC2 VC NC
6 6 10
14 15 12 13 L2 12 13 L3
VIN3 VO3 VIN3 + + VO3 VIN3 + + VO3
+ +
C3 C6 C3 D2 C6 C3 D3 C6
12 13 11 14 11 14
VC3 NC NC
11 15 15

STR80000A Example of application circuit STR82000/83000 Example of application circuit

RBV series VOUT Overvoltage protection circuit

Overvoltage protection circuit

RBV series VOUT

R2 +
VIN(AC) R1 C4 +
R1 C3 C4 VIN(AC)
4 3
C3
2
2 4 3

5 1
+ + 1
5
RM1C C1 + C1 + +
RM11C
C2
+ +
C2
+
GND

R1: 2.2Ω R2: 4.7Ω C1 : 4.7 µ /400V, C2 : 1 µ F/50V, C3 : 0.047 µ F/50V

C1: 2.2 µ F/400V C2: 100 µ F/10V C3: 0.1 µ F C4 : 0.047 µ F/250V, R1 : 4.7Ω
C4: 0.047µ F

14
2 Power Transistors
2-1. Power Transistors

Transistors for Audio Amplifier

• Transistors for Switch Mode Power Supply

• Transistors for Humidifier

• Transistor for Display Horizontal Deflection Output

• Darlington Transistors

• Low VCE (sat) · High h FE Transistors

• General Purpose Transistors

• Surface Mount Transistors

2-2. Transistor Arrays

• Sink Drive Transistor Arrays

• Source Drive Transistor Arrays

• H-Bridge Transistor Arrays

• 3-Phase Motor Driver Transistor Arrays

• Stepper Motor Dual Power Supply Drive Transistor Arrays

• Surface Mount Transistor Arrays

15
2-1. Power Transistors

Transistors for Audio Amplifier

Single emitter
Type No. PC (W) VCEO (V) IC (A) hFE (min) fT (MH Z) Package

2SA1725/2SC4511 30 FM20 (T0220F)

2SA1726/2SC4512 50 MT-25 (T0220)
80 6
2SA1693/2SC4466 MT-100 (T03P)
60
2SA1907/2SC5099
FM100 (T03PF)
2SA1908/2SC5100 75
120 8
2SA1694/2SC4467 MT-100 (T03P)
80 50 20
2SA1909/2SC5101 140 10
FM100 (T03PF)
2SA1673/2SC4388 85 180 15
2SA1695/2SC4468 100 140 10
MT-100 (T03P)
2SA1492/2SC3856 130 180
15
2SA1493/2SC3857 150 MT200
200
2SA1494/2SC3858 200 17 (2-screw mount)

LAPT (Multi-emitter for high-frequency transistor)

Type No. P C (W) VCEO (V) IC (A) hFE (min) fT (MH Z) Package

2SA1860/2SC4886 80 14 50 FM100 (T03PF)

2SA1186/2SC2837 100 150 10 60

2SA1303/2SC3284 125 14 50

2SA1386/2SC3519 160 MT-100 (T03P)

40
2SA1386A/2SC3519A 130 180 50
15
2SA1294/2SC3263 230 35

2SA1215/2SC2921 150 160 50

MT200
2SA1216/2SC2922 180 40
200 17 (2-screw mount)
2SA1295/2SC3264 230 35

Darlington
Type No. PC (W) VCEO (V) IC (A) hFE (min) fT (MHZ) Package

2SB1626/2SD2495 30 FM20 (T0220F)

2SB1659/2SD2589 50 MT-25 (T0220)

110 6 100/60
2SB1624/2SD2493 MT-100 (T03P)
60
2SB1625/2SD2494
FM100 (T03PF)
2SB1587/2SD2438 75
8 65/80
2SB1559/2SD2389 MT-100 (T03P)
80 150 5000
2SB1588/2SD2439 10 50/55
FM100 (T03PF)
2SB1649/2SD2562 85 15 45/70

2SB1560/2SD2390 100 10 50/55

MT-100 (T03P)
2SB1647/2SD2560 130 15 45/70
150
2SB1570/2SD2401 150 12 50/55 MT-200
2SB1648/2SD2561 200 17 45/70 (2-screw mount)

Temperature compensation/driver
Type No. PC (W) V CEO (V) IC (A) hFE (min) fT (MHZ) Package Remarks

2SC4495 25 50 3 500 40 Temperature compensation

2SA1859/2SC4883 150 FM20 (T0220F)

20 2 60 60/120 Driver
2SA1859A/2SC4883A 180

16
 Transistors for Switch Mode Power Supply

For AC 80 to 130V input

Specifications Package

VCBO (V) VCEO (V) IC (A) MT-25 (T0220) FM20 (T0220F) MT-100 (T03P) FM100 (T03PF)

250 200 5 2SC5271

2SC4073

5 2SC4418

2SC4662

2SC3832 2SC3890
7
2SC4130

500 400 10 2SC4138 2SC4296

2SC3833 2SC4297
12
2SC5071

2SC4139 2SC4298
15
2SC4434

18 2SC4140

5 2SC5130
400
7 2SC4546

600 6 2SC3830 2SC4907

500
10 2SC3831

600 3 2SC5249

For AC 180 to 280V input

Specifications Package

VCBO (V) VCEO (V) IC (A) MT-25 (T0220) FM20 (T0220F) MT-100 (T03P) FM100 (T03PF)

3 2SC5239 2SC4517 (A)

900 550 5 2SC4518 (A) 2SC5287

(1000) 10 2SC3927 2SC4557

600 14 2SC4706

2SC4020 2SC4908
3 2SC3678 2SC4299

900 800 2SC4304 2SC4445

5 2SC3679 2SC4300

7 2SC3680 2SC4301

Transistors for Humidifier

Type No. PC (W) V CBO (V) VCEO (V) IC (A) hFE (min) fT (MHZ) Package

2SC4153 30 FM20 (T0220F)

2SC3834 50 200 120 7 (14) 70 30 MT-25 (T0220)

2SC3835 70 MT-100 (T03P)

Note: Ic in parentheses is pulse current.

Transistors for Display Horizontal Deflection Output

Type No. VCBO (V) VCEO (V) IC (A) PC (W) Package Remarks

2SC5002
7 (14) 80
2SC5003 1500 800 FM100 (T03PF) Built-in damper diode.
2SC5124 10 (20) 100
Note: Ic in parentheses is pulse current.

17
 Darlington Transistors
Type No. V CBO (V) V CEO (V) IC (A) PC (W) Complementary Package Remarks

2SB1257 –60 –60 –4 (–6) 25 2SD2014

2SB1258 –100 –100 –6 (–10) 2SD1785

FM20 (T0220F)
2SB1259 –120 –120 –10 (–15) 30 2SD2081

2SB1351
–60 –60 –12 (–20)
2SB1352 60
FM100 (T03PF)
2SB1382 75 2SD2082
–16 (–26)
2SB1420 –120 –120 80
MT-100 (T03P)
2SB1383 –25 (–40) 120 2SD2083

2SD1796 60±10 60±10 Surge voltage

2SD2014 120 80 4 2SB1257 absorption

25
2SD2015 150 120

2SD2016 200 200 3

FM20 (T0220F)
2SD1785 6 (10) 2SB1258
120 120 30
2SD2081 10 (15) 2SB1259

2SD2017 300 250 6

35
2SD2141 380±50 380±50
2SD1769 6 (10) MT-25 (T0220)
120 120 50
2SD2045 FM100 (T03PF)

2SD2557 MT-100(T03P)
200 200 5 70
2SD2558
FM-100 (T03PF)
2SD2082 16 (26) 75 2SB1382
120 120
2SD2083 25 (40) 120 2SB1383 MT-100 (T03P)
Note: Ic in parentheses is pulse current.

Low VCE (sat) · High hFE Transistors

VCE (Sat) hFE
Type No. V CEO (V) IC (A) P C (W) Complementary Package Remarks
max (V) min
2SA1567 –50 –12 2SC4064
–0.35 35 FM20 (T0220F)
2SA1568 50 –60 ±12 2SC4065 Built-in diode at C-E
2SA1746 –0.50 –50 –12 (–20) 60 FM100 (T03PF)

2SC3852 60 High h FE

2SC3852A 0.50 500 80 3 25 High h FE

2SC4495 50 High h FE

2SC5370 0.30 70 40 12 30 FM20 (T0220F)

2SC4024 0.50 300 10 High h FE

50
2SC4064 12 35 2SA1567
0.35 50
2SC4065 60 ±12 2SA1568 Built-in diode at C-E

2SC4131 0.50 60 50 10 (25) 60 FM100 (T03PF)

Note: Ic in parentheses is pulse current.

18
 General Purpose Transistors
Type No. VCBO (V) V CEO (V) IC (A) PC (W) Complementary Package

2SA1667 –150 –150 2SC4381

–2
2SA1668 –200 –200 2SC4382
25 FM20 (T0220F)
2SA1488 –60 –60 2SC3851

2SA1488A –80 –80 –4 2SC3851A

2SA1262 –60 –60 30 2SC3179 MT-25 (T0220)

2SC4381 150 150 2SA1667

2
2SC4382 200 200 2SA1668
25 FM20 (T0220F)
2SC3851 80 60 2SA1488

2SC3851A 100 80 4 2SA1488A

2SC3179 80 60 30 2SA1262 MT-25 (T0220)

2SC5333 35 FM20 (T0220F)

300 300 2
2SC2023 40 MT-25 (T0220)

Surface Mount Transistors (SA Series)

Type No. Equivalent Circuit Breakdown voltage Current hFE and others VCE (sat) and others Functions/Applications Fig.
(V) (A) (V) No.

3,4
R1 : 4kΩ NPN darlington transistor
1 typ 1.2 o Pulse motors
SAC02 100 2000 ~ 12000 1.3max o Solenoids
R2 : 200Ω (2.0A pulse)
typ o Relays
R1 R2
2

PNP transistor with built-in schottky

barrier diode
o Power component for chopper regulator
2 4 Tr: –30 –2.0 1000min –0.3max
o 5V output component for portable
SAH02 (–3.0A pulse) equipment 6
trr VF - Video cameras
Di: 30 1.5 15ns typ 0.55max
- Word processor
1 3
- CD radio cassettes
- Personal computers

PNP darlington transistor with

2 4 R1 : 4kΩ
R2 built-in fast-recovery diode
typ o Power switching in constant
SAH03 R1 R2 : 100Ω –60 –1.2 2000 ~ 12000 –1.4max voltage stepper motors
typ - Printers
1 3 - Plain paper copiers

Pulse Ratings: t ≤ 1ms, duty ≤ 10%

19
2-2. Transistor Arrays

Sink Drive Source Drive

With Built-in avalanche diode at Collector-base With built-in flywheel diode

Ratings Equiva-
Ratings Equiva-
Type No. lent Package Type No. lent Package
VCEO (V) IC (A) hFE (min) Circuit V CEO (V) IC (A) hFE (min) Circuit

STA481A 1 SMA4021 –60 –3 SMA12Pin

2000 2000 !3
STA471A 2 SLA4071 –100 –5 SLA12Pin
60 ±10 q
STA401A 4 1000 STA10Pin
STA406A 6 2000
STA435A 65 ±15 4 w General purpose
1000
STA301A 60 ±10 4 e STA8Pin Ratings Equiva-
Type No. lent Package
STA485A 1 V CEO (V) IC (A) hFE (min) Circuit

STA475A 100 ±15 2 2000 q STA302A –60 1000 !4

STA8Pin
STA407A 4 STA10Pin STA322A –50 –4 100 !5
STA413A 35 ±5 3 500 r STA421A 40 !6
STA460C 6 700 t STA472A –60 –2 2000 STA10Pin
60 ±10 –4
!7
SLA4010 4 2000 y SLA12Pin STA402A 1000
STA408A –100 !8 STA10Pin
–4
SMA4020 –60 2000 SMA12Pin
!9
With built-in flywheel diode SLA4070 –100 –5 SLA12Pin
Ratings Equiva-
Type No. lent Package
VCEO (V) IC (A) h FE (min) Circuit

SMA4033
100
2
SMA12Pin H-Bridge
SMA4032 3
2000 Ratings Equiva-
SLA4031 4 u Type No. lent Package
120 VCEO (V) IC (A) hFE (min) Circuit
SLA4061 5 SLA12Pin
STA431A ±60 ±3 @0
SLA4041 200 3 1000 40
STA458C ±30 ±5 @1
STA10Pin
STA434A 1000 @2
STA457C ±60 ±4 2000 @3
General purpose SLA4310 80 @4
Ratings Equiva-
Type No. lent Package SLA4313 ±35 ±5 50 @5
VCEO (V) IC (A) h FE (min) Circuit
SLA4340 ±60 ±4
STA312A 60 3 300 i 2000 @6 SLA12Pin
STA8Pin SLA4390
STA303A 100 4 1000 o ±100 ±5
SLA4391 1000 @7
STA412A 60 3 300 !0 SLA8001 ±60 ±12 50 @1
STA473A 2 2000
100 STA10Pin
STA403A 4 !1
1000
STA404A 200
SMA4030
3
SMA12Pin 3-Phase Motor Driver
100 Equiva-
SLA4030 4 2000 !2 Ratings
SLA12Pin Type No. lent Package
SLA4060 120 5 VCEO (V) IC (A) hFE (min) Circuit
STA302A –60 –4 !4
1000
STA303A 100 4 o
STA8Pin
STA304A 550 1 @8
200
STA305A –550 –1 @9
SMA6010 ±4 2000 #0
±60 SMA12Pin
SMA6014 ±2 1500/2000 #2
SLA6020 ±100 ±5 2000 #0
SLA6030 ±35 70 #1
±4
SLA6012 ±60
SLA12Pin
SLA6022 ±80 ±5 2000 #2
SLA6023
±60 ±6
SLA5022 MOS/2000 #3

Stepper Motor Dual Power Supply Driver

Ratings Equiva-
Type No. lent Package
V CEO (V) IC (A) hFE (min) Circuit

SMA6511 60 ±10
1.5 2000 #4 SMA12Pin
SMA6512 100 ±15

20
Equivalent Circuit

q !6
@6

w !7

e
!8
@7
r
!9

t
@8
@0

y
@9

u @1

#0

@2
o #1

!0

@3
!1
#2

!2

@4
#3
!3

!4

@5 #4

!5

21
 Surface Mount Transistor Arrays (SD Series)
Type No. Breakdown Voltage Current hFE and other VCE (sat) and other Fig.
Equivalent Circuit Functions/Applications
(V) (A) (V) No.
2 4 6 8
R1 R2 PNP darlington transistor array
–1.5 (Surface mount type of STA472A)
SDA01 1 3 5 7 –60 2000 to 12000 –1.4 max o Pulse motors
(–2.5A pulse)
15,16 13,14 11,12 9,10
o Relays
R1 : 4kΩtyp R2 : 100Ωtyp o Solenoids

15,16 13,14 11,12 9,10

NPN high hFE transistor array
2.0 (Surface mount type of STA412A)
SDC01 1 3 5 7 50 500 to 2000 0.4 max
(3.0A pulse) o Solenoids o Relays
o Lamps o Switches
2 4 6 8

15,16 13,14 11,12 9,10

NPN darlington transistor array
1 3 5 7
1.5 (Surface mount type of STA473A)
SDC02 100 2000 to 12000 1.3 max o Pulse motors
R1 R2
(2.5A pulse)
o Solenoids
2 4 6 8
o Relays
R1 : 4kΩtyp R2 : 200Ωtyp

15,16 13,14 11,12 9,10 NPN darlington transistor array with

1 3 5 7 built-in surge absorption feature
1.5 (Surface mount type of STA471A)
SDC03 60 ±10 2000 to 12000 1.4 max
R1 R2 (2.5A pulse) o Pulse motors
2 4 6 8
o Solenoids
R1 : 3.5kΩtyp R2 : 200Ωtyp o Relays

15,16 13,14 11,12 9,10 NPN darlington transistor array with

1 3 5 7 built-in surge absorption feature
1.5 (Surface mount type of STA475A)
SDC04 R1 R2 100 ±15 (2.5A pulse) 2000 to 12000 1.3 max
o Pulse motors
2 4 6 8
o Solenoids 11
R1 : 4kΩtyp R2 : 150Ωtyp o Relays

NPN high hFE transistor array

16 15 14 13 12 11 10 9 2.0
Tr: 50 500 to 2000 0.4 max o Pulse motors
(3.0A pulse)
SDH01 1 3 5 7
o Solenoids
o Relays
Di: 120 1.5 trr 100ns typ VF 1.6 max o Lamps
2 4 6 8
o Switches

16 15 14 13 12 11 10 9
–1.5
1 3 5 7 Tr: 100 2000 to 12000 1.3 max NPN darlington transistor array
(–2.5A pulse)
SDH02 o Pulse motors
R1 R2 o Solenoids
2 4 6 8 Di: 120 1.5 trr 100ns typ VF 1.6 max o Relays
R1 : 2.5kΩtyp R2 : 200Ωtyp

2 6
R1 R 2 –1.5
R1 : 4kΩtyp 2000 to 12000 –1.4 max
1 5 PNP: –60 (–2.5A pulse) H-bridge transistor array
R2 : 100Ωtyp
15 16 11 12
(Surface mount type of STA434A)
SDH03 13 14 9 10
o DC motors
3 7 R1 : 4kΩtyp 1.5
2000 to 12000 1.3 max o Pulse motors
R2 : 200Ωtyp NPN: 100 (2.5A pulse)
R1 R 2
4 8
OUT4

OUT3
COM

COM
GND
IN4

IN3
16

15

14

13

12

11

10

Four circuit array with buffers

(Surface mount type of SIB1044D)
SDI01 80 1.2 Active Low 1.6 max o Pulse motors
V IL < 1.4V
o Solenoids
o Relays
1

8
VCC1
OUT1
IN1

GND

IN2
OUT2
VCC2

Pulse Ratings: t ≤ 1ms, duty ≤ 10%

22
 External Dimensions (Unit: mm) a. Type No. b. Lot No.

Fig. 1 MT-25 (TO-220) Fig. 2 MT-100 (TO-3P) Fig. 3 MT-200 Fig. 4 Full-Mold
FM20 (T0-220F)
15.6 ±0.3 6.0 ±0.2 10.0±0.2 4.2±0.2
36.4 ±0.3
10.2 ±0.2 4.8±0.2 4.8 ±0.2 2.8±0.2 0.5
C
3.0 ±0.2

5.0 ±0.7

4.0 ±0.3
9.6 ±0.2 ±0.1 ±0.2

2.0
2.0±0.1 2.0 24.4 2.1
2-φ 3.2 ±0.1

8.4 ±0.2
9

16.0 ±0.3
16.0±0.7

19.9±0.3 φ 3.3±0.2
φ 3.75±0.2
4.0
8.8±0.2

φ 3.2 ±0.1
a

7
a

0.8 ±0.2
a
b

21.4±0.3
b b a
1.35
12.0min

±0.2
3.9
b
2 +0.2
4.0max

20.0min

–0.1

13.0min
1.35±0.15
3.5

0.65+0.2 3 +0.2
–0.1
–0.1
2 1.35±0.15
1.05+0.2 0.65+0.2

4.1max
20.0min
–0.1 –0.1
2.5 2.5 1.4 0.85+0.2
-0.1
3
BCE 1.7 +0.2 0.45+0.2 2.4±0.2
5.45 ±0.1 5.45 ±0.1 –0.1 2.54 2.54
-0.1
1.05 +0.2
–0.1 0.6 +0.2
–0.1
B C E ±0.2
2.2

a. Type No. 5.45 ±0.1 5.45 ±0.1 3.0 +0.3

–0.1

b. Lot No. B C E

Fig. 5 Full-Mold Fig. 6 SA series Fig. 7 STA300A series

FM100 (T0-3PF)
5.5±0.2 2
15.6±0.2 3 20.2±0.2
2.54 ±0.25

3.45 ±0.2

4.32 ±0.2
±0.2
0.8

4.8 max
a b
4 1
9.5 ±0.2

5.5

0.89 ±0.15

1.4±0.2
23.0 ±0.3

9.0 ±0.2
+0.15
0.75 –0.05

11.3 ±0.2
φ 3.3±0.2

2.3 ±0.2
a 6.8 max 3.6 ±0.2 a
3.0

b
1.6

4.0 max
3.3

1.75±0.15 0.8 6.8 ±0.5

2.15±0.15 6.3 ±0.2
0.5±0.15 (2.54)
1.0±0.25

4.7 ±0.5
1.05+0.2
–0.1

7×2.54=17.78 ±0.25
+0.15
0.3 –0.05

5.45±0.1 5.45±0.1 0.65+0.2 3.35±0.2

–0.1
C1.5±0.5
0.25

1.5 4.4 1.5

0 to 0.1
1 2 3 4 5 6 7 8

4.0 ±0.2

0.5 ±0.15
1.2 ±0.2
1.0 ±0.3 3.0 ±0.2
B C E
9.8 ±0.2

Fig. 8 STA400A series Fig. 9 SMA series

4.0±0.2
25.25±0.2 31.0±0.2
2.5±0.2

b
9.0 ±0.2

4.7 ±0.5
2.3 ±0.2
11.3 ±0.2

10.2±0.2

30°
a b
2.7

1.21±0.15

1.46±0.15
4.7 ±0.5

1.0±0.25 0.5±0.15 (2.54)

9×2.54=22.86±0.25
0.85+0.2
–0.1 0.55+0.2
–0.1 1.2±0.1
11×P2.54±0.1=27.94
4.7 ±0.5

C1.5±0.5
3.15max.
(Burrs are included on both
±0.15

1 2 3 4 5 6 7 8 9 10 sides of resin)
±0.2
1.2
0.5

1 2 3 4 5 6 7 8 9 10 11 12

Fig. 10 SLA series Fig. 11 SD series

±0.15 ±0.25
4.8±0.2 0.89 2.54
31.0±0.2 +0.15
0.75 –0.05
φ 3.2±0.15 Ellipse 3.2 ±0.15 ×3.8 1.7±0.1
9
24.4±0.2 16

a
max
16.0 ±0.2

6.8
13.0 ±0.2

a b
b
(10.4)

1 max
8
2.7

20.0

0.85+0.2
–0.1 ±0.2
±0.5 19.56
1.2±0.15 1.45±0.15 0.55+0.2
–0.1 2.2±0.7 8.0
±0.2
6.3

11×P2.54±0.7 =27.94 ±1.0

3.6 ±0.2
4.0 max
+0.15
0.3 –0.05

3.15max.
±0.2

0 to 0.1
0.25

(Burrs are included on both

1.4

sides of resin)
±0.3
1.0 3.0 ±0.2

1 2 3 4 5 6 7 8 9 101112 9.8 ±0.3

23
3 Power MOSFETs
3-1. MOSFETs

3-2. MOSFET Arrays

25
3-1. MOSFETs

Nch
Absolute Maximum Ratings Electrical Characteristics (Ta = 25°C)
Parameter
PD RDS (ON) max Ciss
VDSS ID (Tc = 25°C) EAS (VGS = 10V) (typ) Package Remarks

Type No. (V) (A) (W) (mJ) (Ω) (pF)

2SK1188 10.0 25 2.1 0.200 300

2SK1189 15.0 30 6.2 0.100 640

* 2SK2419 0.037
22.0 35 17.0 1300
2SK1190 0.050 FM20

2SK2420 60 2200
30.0 38.0 0.028
2SK1191 40 2500

2SK2421 60.0 0.020 2400

40.0
2SK1192 90 38.0 0.028 2500 FM100

2SK1712 15.0 30 6.2 0.100 820 Logic driven

2SK1185 5.0 25 16.0 0.540 180

2SK1186 9.0 30 32.0 0.270 350

2SK1187 100 35 58.0 0.160 650

12.0
2SK2778 30 70.0 0.175 740
Logic driven
2SK2779 20.0 35 200.0 0.080 1630 FM20

2SK1183 3.0 25 36.0 1.500 140

200
2SK1184 5.0 67.0 0.800 260
30
2SK2803 3.0 30.0 2.800 340

2SK2804 5.0 90.0 1.500 580

2SK2701 7.0 35 130.0 1.100 720

2SK2702
10.0 300.0 0.800 1000
2SK2703 450 75 FM100

2SK2704 40 FM20
13.0 400.0 0.570 1300
2SK2705 75

2SK2805 15.0 80 550.0 0.380 2100 FM100

2SK2706 18.0 85 700.0 0.300 2500

2SK1177 2.5 30 200.0 3.000 350

FM20
2SK1178 4.0 35 260.0 1.500 610
UL approved
2SK1179 500 8.5 400.0 0.850 1300 type available
2SK1180 10.0 85 500.0 0.600 1800 FM100

2SK1181 13.0 660.0 0.400 2700

2SK2848 2.0 30 10.0 3.800 290

2SK2707 4.5 35 50.0 1.850 560 FM20

2SK2708 600 7.0 40 150.0 1.100 950

2SK2709 8.5 300.0 0.850 1200

85 FM100
2SK2710 12.0 400.0 0.550 1900

2SK2207 3.0 35 280.0 5.000 630 FM20

900
2SK2208 5.0 75 400.0 3.000 1000 FM100

Pch
Absolute Maximum Ratings Electrical Characteristics (Ta = 25°C)
Parameter
PD RDS (ON) max Ciss
VDSS ID EAS (typ) Package Remarks
(Tc = 25°C) (VGS = 10V)

Type No. (V) (A) (W) (mJ) (Ω) (pF)

* 2SJ424 –5.0 25 – 0.50 270

–60 FM20
2SJ425 –8.0 30 – 0.28 580

* Under development

26
3-2. MOSFET Arrays

Absolute Maximum Ratings Electrical Characteristics (Ta = 25°C)

Parameter
PD RDS (ON) max Ciss Equivalent
VDSS ID EAS (typ)
(Tc = 25°C) (VGS = 10V) circuit Package
No.
Type No. (V) (A) (W) (mJ) (Ω) (pF)

SLA5001 A
100 30 0.300 350
SLA5002 N-Channel
B
SLA5003 200 60 0.900 260
SLA5004 –60 5 – 0.300 570
A
SLA5005 P-Channel –
–100 0.700
SLA5006 – 300 B

N-Channel 60 2 0.220
SLA5007 D
P-Channel –60 – 0.550 270
4
N-Channel 100 16 0.600
SLA5008 180 D
P-Channel –100 3 – 1.300

N-Channel 60 5 2 0.220 300

SLA5009 E
P-Channel –60 – 0.550 270
4
N-Channel 100 16 0.600
SLA5010 180 E
P-Channel –100 3 35 – 1.300
SLA5011 N-Channel 60 2 0.220 300
C
SLA5012 P-Channel –60 – 570
5 0.300
N-Channel 100 30 350
SLA5013 D SLA
P-Channel –100 – 0.700 300
SLA5015 P-Channel –60 4 – 0.550 270 C

N-Channel 60 5 2 0.300 400

SLA5017 E
P-Channel –60 4 – 0.550 270

N-Channel 60 5 2 0.300 400

SLA5018 D
P-Channel –60 4 – 0.550 270
SLA5021 N-Channel 100 5 60 0.190 880 C

SLA5024 P-Channel –60 – 0.550 270 A

4
SLA5029 1 0.450 120 C
60
SLA5031 5 2 0.300 400 B

SLA5037 100 10 40 200 0.080 1630 J

SLA5038 150 7 100 0.200 930 C

35
SLA5040 100 4 16 0.600 180 B

SLA5041 N-Channel 200 10 40 120 0.175 850 J

SLA5042 100 5 35 70 0.185 740 C

SLA5044 250 120 0.250 850 J

10 40
SLA5047 150 280 0.085 2000 K

SMA5101 A
100 4 16 0.600 180
SMA5102 B

N-Channel 60 5 2 0.220 300

SMA5103 D
P-Channel –60 4 – 0.550 270

N-Channel 60 5 28 2 0.220 300 SMA

SMA5104 E
P-Channel –60 4 – 0.550 270
SMA5105 5 32 0.410 470
100 B
SMA5106 4 16 0.780 230
SMA5112 250 7 55 0.520 450 L
STA501A 5 – 0.200 400 F
60
* STA504A N-Channel 4 – 0.450 120 G
20 STA
* STA505A 3 – 0.500 240
100 F
STA506A – 0.800 150
SDK02 60 2 – 0.240 400 H
*3 SDK
SDK04 100 – 0.800 160 I

* Under development
* Ta = 25°C

27
 MOSFET Array Equivalent circuit and Selection Chart
Equivalent circuit VDSS (V) 60 100 150 200 250 Application

2 4 9 11
SLA5001

(5A)
Nch 1 5 8 12
SMA5101

(4A)
3 6 7 10

3 6 7 10
SLA5024

(4A) SLA5005
Pch 1 5 8 12
SLA5004 (5A)
(5A)
2 4 9 11
Stepper motor and
SLA5040 solenoid driving
2 3 4 9 10 11
(4A)
SMA5102
(4A)
SLA5031 SMA5106 SLA5003
Nch
1 5 8 12 (5A) (4A) (5A)
SLA5002
(5A)
SMA5105
6 7 (5A)
B
6 7

SLA5006
Pch 1 5 8 12
(5A)

2 3 4 9 10 11

3 5 7 9 11
SLA5029 *SLA5021
(4A) (5A) *SLA5038
Nch
2 4 6 8 10 (7A)
SLA5011 *SLA5042

(5A) (5A)

1 12 5-phase motor driving

C * "S" Shape Correction

Circuit Switch for
1 12 CRT Display
SLA5015

(4A)
Pch 2 4 6 8 10
SLA5012

(5A)
3 5 7 9 11

10 7
SLA5008
SLA5007
Pch 12 8 Nch4A
SLA5018
Pch3A Stepper motor and DC
D 11 9
SMA5103
2 4 SLA5013 motor driving
Nch5A
Nch 1 5 Nch5A
Pch4A
Pch5A
3 6

Pch 2 8 9 SLA5009

SLA5017 SLA5010
E 3 7 10 DC motor driving
SMA5104 Nch4A
Nch 4 6 11 Nch5A Pch3A
Pch4A
5 12

28
Equivalent circuit VDSS (V) 60 100 150 200 250 Application

3 5 7 9
STA505A
STA501A (3A)
F Nch
2 4 6 8 (5A) STA506A

(2A)

1 10

3 5 7 9

STA504A
G Nch
2 4 6 8 (4A)

1 10
Stepper motor and

solenoid driving
16 15 14 13 13 11 10 9

SDK02
H Nch
1 3 5 7
(2A)

2 4 6 8

15.16 13.14 11.12 9.10

SDK04
I Nch 1 3 5 7
(2A)

2 4 6 8

3 6 7 10

SLA5037 SLA5041 SLA5044

J Nch 1 4 9 12
(10A) (10A) (10A)

2 5 8 11 "S" Shape Correction

Circuit Switch for CRT

3 6 9 12 Display

SLA5047
K Nch 1 4 7 10
(10A)

2 5 8 11

2 8 9 SMA5112 3-Phase high voltage DC

L Nch 4 6 11
(7A) motor driving
3 7 10

5 12

29
 External Dimensions (unit: mm)
q FM20 w FM100
Standard specifications ULrecognized specifications Standard specifications ULrecognized specifications
φ 3.3±0.2 10.0±0.2 4.2±0.2 φ 3.3±0.2 10.0±0.2 4.2±0.2 φ 3.3±0.2 15.6±0.2 5.5±0.2 φ 3.3±0.2 15.6±0.2 5.5±0.2

5.5 ±0.2

5.5 ±0.2
2.8 C0.5 2.8 C0.5 3.45±0.2 3.45±0.2

0.8

0.8
4.0 ±0.2

4.0 ±0.2

9.5 ±0.2

9.5 ±0.2
8.4 ±0.2

8.4 ±0.2
16.9 ±0.2

23.0 ±0.3

23.0 ±0.3
(17.5)
a a
3.9 ±0.2 0.8 ±0.2

3.9 ±0.2 0.8 ±0.2

a a

3.0

3.0
b b

1.6

1.6
b b

3.3

3.3
1.35±0.15 1.35±0.15
1.35±0.15 1.35±0.15
(13.5)

(13.5) 1.75 ±0.15 1.75 ±0.15

(16.2)

(16.2)
0.8 0.8
0.85+0.2
–0.1 0.85+0.2
–0.1 2.15 ±0.15 2.15 ±0.15
1.05 +0.2
–0.1 1.05 +0.2
–0.1

±0.2 0.65+0.2 0.65+0.2

2.54 2.54 0.45+0.2
–0.1 2.4±0.2 2.54 2.54 0.45+0.2
–0.1 2.4 5.45±0.1 5.45±0.1
–0.1
3.35±0.2 5.45±0.1 5.45±0.1
–0.1
3.35±0.2
±0.2 ±0.2
2.2 2.2 1.5 4.4 1.5 1.5 4.4 1.5
a. Type No. a. Type No.
b. Lot No. b. Lot No.
G D S G D S G D S G D S

e SLA r SMA
31.5max
31.0±0.2 4.0±0.2
31.0 ±0.2 4.8 ±0.2
φ 3.2 ±0.15
24.4 ±0.2 Ellipse 3.2 ±0.15
×3.8 ±0.1 31.0±0.2 2.5±0.2
1.7

10.2±0.2
16.0 ±0.2

a
13.0 ±0.2

2.4
a

b (10.4)
12
Pin 1
9.5min

1.46+0.15
2.7

Pin 1 12
2.54 0.85+0.2
–0.1 +0.2 ±0.1
0.85+0.2
–0.1 0.55–0.1 1.2
+0.2
1.2 ±0.15 1.45±0.15 0.55 –0.1 2.2 ±0.7 27.94

11×P2.54 ±0.7=27.94 ±1.0 a. Type No.

a. Type No. b. Lot No.
b. Lot No.

t STA y SDK
0.89 ±0.15 2.54 ±0.25
25.25±0.2
0.75 +0.15
–0.05
9
16
b
6.8 max
9.0 ±0.2
11.3 ±0.2

a
2.3 ±0.2

a
b
4.7 ±0.5

1 max 8
20.0
8.0 ±0.5
±0.2
1.0 ±0.25 0.5±0.15
(2.54)
6.3 ±0.2 19.56
0.3+0.15
–0.05
0.25

4.0 max

9×2.54=22.86±0.25
0.5 ±0.15

4.0 ±0.2

C1.5 ±0.5
1.2 ±0.2

0 ~ 0.1
1.4 ±0.2
3.6 ±0.2

1.0 ±0.3 3.0 ±0.2

9.8 ±0.3
1 2 3 4 5 6 7 8 9 10 a. Type No. a. Type No.
b. Lot No. b. Lot No.

30
4 Thyristors
4-1. Thyristors

4-2. Triacs

4-3. PNPN Switch

31
4-1. Thyristors

Thyristors
Absolute Maximum Ratings Electric Characteristics
Parameter

Repetitive Peak Non-repetitive

Mean On-state Surge On-state On-state Gate Trigger Gate Trigger Thermal
Off-state Peak Off-state
Current Current Voltage Voltage Current Resistance
voltage voltage
Junction Fig.
Non-repetitive 50Hz Temperature No.
Tj = –40 to Tjmax 50Hz Half-cycle VD = 6V Junction to
Half-cycle Sinewave TC = 25°C
RGK = 1kΩ Sinewave RL = 10Ω Case
Single Shot
Continuous Current TC = 25°C
Tj = Tjmax
VDRM VDSM IT (AV) ITSM Tj VTM VGT IGT Rth (j-c)
Type No. (V) (V) (A) (A) (°C) (V) max (V) max (mA) (°C/W) max
TF321S 200 300
3.0 1.4 0.7 typ 3.0 typ
TF341S 400 500 60 –40 to +125 5.0
(TC = 93°C) (ITM = 5A) 1.5 max 15 max
TF361S 600 700

TF521S 200 300

5.0 1.4 3.0 typ
* TF541S 400 500 80 –40 to +125 1.5 4.0
(TC = 87°C) (I TM = 10A) 15 max
* TF561S 600 700
1
TF821S 200 300
8.0 1.4 5.0 typ
* TF841S 400 500 120 –40 to +125 1.5 3.6
(TC = 74°C) (I TM = 15A) 15 max
* TF861S 600 700

400 500
TF541S-A
(RGK = 470Ω) 5.0 1.4 0.03 typ
80 –40 to +125 1.5 4.0
600 700 (TC = 88°C) (I TM = 10A) 0.2 max
TF561S-A
(RGK = 470Ω)

TF321M 200 300

3.0 1.4 2.0 typ
TF341M 400 500 60 –40 to +125 1.5 3.0
(TC = 102°C) (ITM = 5A) 10 max
TF361M 600 700

TF521M 200 300

5.0 1.4 3.0 typ
TF541M 400 500 80 –40 to +125 1.5 3.0
(TC = 96°C) (I TM = 10A) 15 max
TF561M 600 700
2
TF821M 200 300
8.0 1.4 5.0 typ
TF841M 400 500 120 –40 to +125 1.5 2.7
(TC = 83°C) (I TM = 15A) 15 max
TF861M 600 700

TF321M-A 200 300

3.0 1.4
TF341M-A 400 500 60 –40 to +110 1.0 0.1 max 3.0
(TC = 102°C) (ITM = 5A)
TF361M-A 600 700

* The devices are available in UL recognized and standard specifications. The markings and shapes of UL recognized device are slightly different from standard devices.

Thyristors (with built-in Avalanche Diode)

Absolute Maximum Ratings Electrical Characteristics
Parameter

Repetitive Mean Surge

On-state Gate Trigger Gate Trigger Thermal
Peak Off- On-state On-state
Voltage Voltage Current Resistance
state Voltage Current Current
Junction Breakover Breakover Fig.
Half-cycle Non-Repetitive Temperature Voltage Current No.
Sinewave Half-cycle VD = 6V
Tj = –10 to ITM = 5A Junction to
(180°C) Sinewave RL = 10Ω
+125°C T j = 25°C Case
Continuous Single Shot T j = 25°C
RGK = 1kΩ Current 50Hz
(T C = 92°C) Tj = 125°C VBO (V) IBO (mA) VTM VGT IGT (mA) Rth (j-c)
Type No. VDRMt (V) I T(AV) (A) I TSM (A) Tj (°C) min typ max min max (V) max (V) max min max (°C/W) max
TFD312S-C 20 27.0 30.0 33.0
TFD312S-F 35 50.0 55.0 60.0
TFD312S-G 45 60.0 65.0 70.0
TFD312S-J 80 90.0 100.0 110.0
TFD312S-K 100 3.0 60 –10 to +125 115.0 125.0 135.0 0.2 15 1.4 1.0 0.2 10 5.0 1
TFD312S-L 120 140.0 150.0 160.0
TFD312S-M 145 163.0 175.0 187.0
TFD312S-N 170 185.0 200.0 215.0
TFD312S-O 190 210.0 225.0 240.0

32
4-2. Triacs

Triacs
Absolute Maximum Ratings Electrical Characteristics
Parameter
Repetitive RMS Surge Junction On-state Gate Trigger Voltage Gate Trigger Current Thermal
Peak On-state On-state Tempera- Voltage Resistance
Off-state Current Current ture
Volage
Conduction 50Hz Full-cycle Test by VD = 6V, RL = 10Ω, TC = 25°C VD = 6V, RL = 10Ω, TC = 25°C Junction to Fig.
angle = 360° Sinewave Pulse Case No.
Non-repetitive Tj = 25°C
Peak Value VGT IGT
Tj = 125°C VTM (V) (mA)
Rth (j-c)
(V)
VDRM IT (RMS) I TSM Tj T2 +, G+ T2 +, G– T2 –, G+ T 2–, G– T2+ , G+ T2 +, G– T2 –, G+ T2 –, G– (°C/W)
Type No. (V) (A) (A) (°C) max max typ max max typ max max
*TM341S-L 400 3.0 –40 to 1.6
30 2.0 2.0 0.8 2.0 20 20 15 20 5.0
*TM361S-L 600 (TC = 109°C) +125 (ITM = 5A)
*TM541S-L 400 5.0 –40 to 1.6
50 2.0 2.0 0.8 2.0 20 20 15 20 4.0
*TM561S-L 600 (TC = 104°C) +125 (ITM = 7A)
*TM841S-L 400 8.0 –40 to 1.6
80 2.0 2.0 0.9 2.0 30 30 30 30 3.6 1
*TM861S-L 600 (TC = 90°C) +125 (ITM = 10A)
*TM1041S-L 400 10 –40 to 1.6
100 2.0 2.0 0.9 2.0 30 30 30 30 3.3
*TM1061S-L 600 (TC = 90°C) +125 (ITM = 14A)
*TM1241S-L 400 12 –40 to 1.6
120 2.0 2.0 1.0 2.0 30 30 70 30 3.0
*TM1261S-L 600 (TC = 85°C) +125 (ITM = 16A)
*TM1641S-L 400 16 –40 to 1.6
150 2.0 2.0 1.0 2.0 30 30 70 30 3.0
*TM1661S-L 600 (TC = 74°C) +125 (ITM = 20A)

TM341M-L 400 3.0 –40 to 1.6

30 2.0 2.0 0.8 2.0 20 20 15 20 3.0
TM361M-L 600 (TC = 115°C) +125 (ITM = 5A)

TM541M-L 400 5.0 –40 to 1.6

50 2.0 2.0 0.8 2.0 20 20 15 20 2.7 2
TM561M-L 600 (TC = 111°C) +125 (ITM = 7A)

TM841M-L 400 8.0 –40 to 1.6

80 2.0 2.0 0.9 2.0 30 30 30 30 1.8
TM861M-L 600 (TC = 108°C) +125 (ITM = 10A)

STA203A 1.2 –40 to 1.6

400 10 3.5 1.2 2.0 1.2 3 3.0 13 3.0 20 4
(Triac array) (TC = 97°C) +125 (ITM = 1.6A)

TM341S-R 400 3.0 –40 to 1.6 1.8 1.2 3.0 1.2 12 12 70 12

30 5.0
TM361S-R 600 (TC = 109°C) +125 (ITM = 5A) (VD = 20V, RL = 40Ω, TC = 25°C)
TM541S-R 400 5.0 –40 to 1.6 1.8 1.2 3.1 1.2 12 12 70 12
50 4.0
TM561S-R 600 (TC = 104°C) +125 (ITM = 7A) (VD = 20V, RL = 40Ω, TC = 25°C)
1
TM1041S-R 400 10.0 –40 to 1.6 2.0 1.2 2.4 1.2 7.0 7.0 25 7.0
80 3.3
TM1061S-R 600 (TC = 90°C) +125 (ITM = 14A) (VD = 20V, RL = 40Ω, TC = 25°C)
TM1241S-R 400 12.0 –40 to 1.6 1.8 1.2 2.1 1.2 8 8 25 8
110 3.0
TM1261S-R 600 (TC = 84°C) +125 (ITM = 16A) (VD = 20V, RL = 40Ω, TC = 25°C)
TM1641P-L (L) 400 16 –40 to 1.6
160 1.5 1.5 1.0 1.5 30 30 70 30 1.2 3
TM1661P-L (L) 600 (TC = 103°C) +125 (ITM = 20A)

* The devices are available in UL recognized and standard specifications. The markings and shapes of UL recognized device are slightly different from standard devices.

4-3. PNPN Switch

PNPN Switch
Absolute Maximum Ratings Electrical Characteristics
Parameter
Repetitive Peak RMS Surge On-state Current Junction Breakover Breakover On-state
Off-state Volage On-state On-state Current Ascent Rate Temperature Voltage Current Voltage
Current
Ta =25°C, Wp =10µs
Full-cycle Sinewave Fig.
1 Cycle No.
DC TR≤ 112°C Peak Value f = 50Hz I T = ±10A

VDRM I T (RMS) I TSM diT/dt Tj VBO IBO VT

Type No. (V) (A) (A) (A/µsec) (°C) (V) (µA) (V)

ET020 170 0.6 80 30 –40 to +125 190 to 210 100 max ±2.5 5

33
 External Dimensions (unit: mm)

Fig. 1 Full-Mold type (FM20) Fig. 2 MT-25 (TO-220)

Standard specifications UL recognized specifications

10.2±0.2 4.8±0.2
4.2±0.2 4.2±0.2
10.0±0.2 10.0±0.2 2.0±0.1
4.0 ±0.2

4.0 ±0.2
±0.2 C ±0.2 C
2.8 0.5 2.8
0.5
8.4 ±0.2

8.4 ±0.2

16.0 ±0.3
φ 3.75±0.2
16.9 ±0.3

φ 3.3±0.2 φ 3.3±0.2 a

8.8 ±0.3
(17.5)
0.8 ±0.2

0.8 ±0.2
a a
b b b
SU
3.9

3.9
±0.2

±0.2
1.35

12.0min
13.0min

13.0min

4.0max
1.35±0.15 1.35±0.15
1.35±0.15 1.35±0.15 +0.2
0.65–0.1
0.85+0.2
–0.1 0.85+0.2
–0.1
0.45+0.2
–0.1 2.4 ±0.2 0.45+0.2
–0.1 2.4 ±0.2
2.54 2.54 2.54 2.54 2.5 2.5 1.4
2.2±0.2 2.2±0.2

a. Type No. a. Type No.

a. Type No.
(1)(2)(3) b. Lot No. (1) (2) (3) b. Lot No. (1) (2) (3)
b. Lot No.

Terminal
Thyristor Triac
No.
(1) Cathode (K) Terminal 1 (T1 )
(2) Anode (A) Terminal 2 (T2 )
(3) Gate (G) Gate (G)

Fig. 3 MT-100 (TO-3P) Fig. 4 Fig. 5

20.2 ±0.2 40 ±0.2

15.6 ±0.3
13.6 ±0.2 4.8 ±0.2
5.0 ±0.7

φ 0.6 ±0.05
9.6 ±0.2 2.0 ±0.1
2.0

1.8

b
9.0 ±0.2

11.3 ±0.2

a
2.3 ±0.2

STA203A
Cathode marking
19.9±0.3
4.0

φ 3.2 ±0.1

a 62.3 ±0.7

5.0 ±0.2
4.7 ±0.2

±0.15 φ 2.7 ±0.2

2 +0.2 0.5
20.0min

–0.1
1.0±0.25
3.5

2.54
3 +0.2
–0.1 17.78±0.25
1.05+0.2
–0.1 0.65+0.2
–0.1 C1.5 ±0.5 a. Type No.
1 2 3 4 5 6 7 8
b. Lot No.
5.45 ±0.1 5.45 ±0.1 1.7 +0.2
–0.1
0.5 ±0.15

B C E T1 G T2 G T2 G T2 T1
1.2 ±0.2

3 5 7
a. Type No.
b. Lot No. TR1 TR2 TR3

2 4 6

1 8

34
5 Diodes
5-1. Rectifier Diodes

5-2. Fast Recovery Rectifier Diodes

5-3. Ultra-Fast Recovery Rectifier Diodes

5-4. Damper Diodes

5-5. Schottky Barrier Diodes

5-6. Avalanche Diodes

5-7. Power Zener Diodes

5-8. Silicon Varistors

5-9. High Voltage Rectifier Diodes

5-10. High Voltage Rectifier Diodes For Microwave Oven

5-11. GaAs Schottky Barrier Diodes (GSC series)

35
5-1. Rectifier Diodes

Surface Mount Type (Ta = 25°C) (Ta = 25°C)

Absolute Maximum Ratings Electrical Characteristics Absolute Maximum Ratings Electrical Characteristics
VF VF
VRM IF (AV) I FSM Tj Tstg IR Fig. VRM IF IFSM Tj Tstg IR Fig.
Condition Condition
Type No. Type No.
(V) (A) (A) No. (V) (AV) (A) No.
(V) IF ( µA) (V) IF ( µA)
(°C) (A) (°C)
max (A) max max (A) max
SFPM-52 200 RM 4Y 100
0.9 30 1.00
-54 400 4Z 200
–40 to +150 1.0 10 1 200 0.95
SFPM-62 200 4 400
1.0 45 0.98 3.0
-64 400 4A 600 3.0 –40 to +150 10 8

4B 800
150 0.97
4C 1000

Axial Type (Ta = 25°C) 4AM 600 3.2 350 0.92 3.5

Absolute Maximum Ratings Electrical Characteristics

VF
VRM I F (AV) I FSM Tj Tstg IR Fig.
Type No.
(V) (A) (A)
Condition
( µA)
No.
Center Tap Type (Ta = 25°C)
(V) IF
(°C) Absolute Maximum Ratings Electrical Characteristics
max (A) max
VF
AM01Z 200 Tj Tstg IR
VRM IF (AV) IFSM (V) (µA) Fig.
Type No. Condition
01 400 1.0 35 –40 to +150 0.98 1.0 10 2 (V) (A) (A) No.
(°C) max per IF max per
01A 600 element (A) element
EM01Z 200 FMM -22S,R 200

01 400 1.0 45 –40 to +150 0.97 1.0 10 3 -24S,R 400 10.0 100 –40 to +150 1.1 5.0 10 9

01A 600 -26S,R 600

EM 1Y 100 FMM -31S,R 100

1Z 200 -32S,R 200

45 20.0 120 –40 to +150 1.1 10.0 10 10
1 400 -34S,R 400
1.0 –40 to +150 0.97 1.0
1A 600 -36S,R 600

1B 800 10 4
35
1C 1000

EM 2 400 Bridge Type (Ta = 25°C)

2A 600 1.2 80 –40 to +150 0.92 1.2 Absolute Maximum Ratings Electrical Characteristics
VF
2B 800 Tj Tstg IR Fig.
Type No. VRM I F (AV) IFSM (V) Condition (µA) No.
RM 1Z 200
(V) (A) (A)
(°C) max per IF max per
1 400 1.0 50 0.95
element (A) element
1A 600 –40 to +150 1.0 5
RBV -401 100
1B 800 1.05
0.8 40 1.20 -402 200
1C 1000 80
-404 400
RM 11A 600 1.10
5 -406 600
11B 800 1.2 100 –40 to +150 0.92 1.5 10 4.0 –40 to +150 2.0 10 11
-408 800
11C 1000 100 1.00
-40C 1000
RM 10Z 200 1.5 120
-406M 600 0.92
10 400 120
–40 to +150 0.91 1.5 10 -406H 600 1.00
10A 600 1.2 150
RBV -601 100
10B 800 120 1.00
-602 200
RM 2Z 200
-604 400
2 400 6.0 150 –40 to +150 1.05 3.0 10 12
-606 600
2A 600 1.2 100 –40 to +150 0.91 1.5 10
-608 800 170 0.95
2B 800
-606H 600 140 1.05
2C 1000
RBV -1306 600 13.0 80 1.20 6.5
6
RO 2Z 200 10
-1506S 600 150 1.10
2 400 15.0 –40 to +150 7.5 12
-1506 600 200
2A 600 1.2 80 –40 to +150 0.92 1.5 10 1.05 50
-2506 600 25.0 350 12.5
2B 800

2C 1000

RM 3 400

3A 600 2.5
150 –40 to +150 0.95 2.5 10 7
3B 800

3C 1000 2.0

36
5-2. Fast Recovery Rectifier Diodes

Axial Type (Ta = 25°C) (Ta = 25°C)

Absolute Maximum Ratings Electrical Characteristics Absolute Maximum Ratings Electrical Characteristics

VF IR trr1 trr2 Fig. VF IR trr1 trr2 Fig.

Tj Tstg Tj Tstg
Type No. VRM IF (AV) IFSM (V) (µA) (µs) (µs) Type No. VRM IF (AV) IFSM (V) (µA) (µs) (µs)
No. No.
(V) (A) (A) (V) (A) (A)
(°C) max max max max (°C) max max max max

RC 2 2000 0.20 20 –40 to +150 2.00 10 4.0 1.30 5 RU 2M 400

1.10 20 1.20 0.4 0.18
EH 1Z 200 2AM 600
–40 to +150 10 5
1 400 0.60 30 –40 to +150 1.35 10 4.0 1.30 4 2YX 100 1.50 30 0.95 0.2 0.08

1A 600 RU 20A 600 1.50 50 1.10 0.4 0.18

RH 1Z 200 RU 3 400
1.50
1 400 3A 600 1.50
20
1A 600 0.60 35 –40 to +150 1.30 5 4.0 1.30 5 3B 800 1.10
0.4 0.18
1B 800 3C 1000 1.50 –40 to +150 2.00 10 6

1C 1000 3M 400
1.50 1.10
AS01Z 200 3AM 600 50

01 400 0.60 20 –40 to +150 1.50 10 1.5 0.60 2 3YX 100 2.00 0.95 0.2 0.08

01A 600 RU 30Y 100 3.50 100 0.89 0.2 0.08

ES01Z 200 30Z 200 80 0.97

10 7
01 400 0.70 30 2.50 30 400 2.00 –40 to +150 0.4 0.18
–40 to +150 10 1.5 0.60 3 200 0.95
01A 600 30A 600

01F 1500 0.50 20 2.00 RU 4Y 100

3.50 70 1.30
ES 1Z 200 4Z 200

1 400 0.70 30 2.50 4 400 10

–40 to +150 10 1.5 0.60 4 1.50
1A 600 4A 600 3.00
50 0.4 0.18 8
1F 1500 0.50 20 2.00 4B 800 –40 to +150
1.60
RS 1A 600 4C 1000 2.50 50
0.70 30 –40 to +150 2.50 10 1.5 0.60 5
1B 800 4M 400
3.50 70 1.30
AU01Z 200 4AM 600 10

01 400 0.50 15 –40 to +150 1.70 10 0.4 0.18 4YX 100 4.00 100 0.85 0.2 0.08

01A 600
2
• trr1 = I F/IRP = 1:1, trr2 = IF /IRP = 1:2

AU02Z 200

02

02A
400

600
0.80 25 –40 to +150 1.30 10 0.4 0.18
1-Chip Frame Type (Ta = 25°C)
Absolute Maximum Ratings Electrical Characteristics
RU 1 400
VF IR trr1 trr2 Fig.
Tj Tstg
1A 600 0.25 2.50
Type No. VRM IF (AV) IFSM (V) (µA) (µs) (µs) No.
15 –40 to +150 10 0.4 0.18 5
1B 800 (V) (A) (A)
(°C) max max max max
1C 1000 0.20 3.00
FMU-G2YXS 100 10.0 100 1.00 0.2 0.08
EU01Z 200
-G16S 600 5.0 30 –40 to +150 1.25 50 13
01 400 0.25 15 –40 to +150 2.50 10 0.4 0.18 3 0.4 0.18
-G26S 600 10.0 40 1.35
01A 600

EU 1Z 200
• trr1 = I /I
F RP = 1:1, trr2 = I F/IRP = 1:2

1 400 0.25 15 –40 to +150 2.50 10 0.4 0.18 4

1A 600
Center Tap Type (Ta = 25°C)
Absolute Maximum Ratings Electrical Characteristics
RF 1Z 200

1 400 VF IR trr1 trr2 Fig.

Tj Tstg
0.60 15 –40 to +150 2.00 10 0.4 0.18 Type No. VRM IF (AV) IFSM (V) (µA) (µs) (µs)
1A 600 No.
(V) (A) (A) max per max per
(°C) max max
1B 800 element element
5 FMU-12S,R 200
RU 2Z 200
-14S,R 400 5.0 30 –40 to +150 1.5 50 0.4 0.18 9
2 600 1.00
20 –40 to +150 1.50 10 0.4 0.18 -16S,R 600
2B 800
FMU-21S,R 100
2C 1000 0.80
-22S,R 200
EU02Z 200 10.0 40 –40 to +150 1.5 50 0.4 0.18 9
-24S,R 400
02 400 1.00 15 –40 to +150 1.40 10 0.4 0.18 3
-26S,R 600
02A 600
FMU-32S,R 200
EU 2Z 200
-34S,R 400 20.0 80 –40 to +150 1.5 50 0.4 0.18 10
2 400 1.00 15 1.40 0.4 0.18
–40 to +150 10 4 -36S,R 600
2A 600

2YX 100 1.20 25 0.90 0.2 0.08 • trr1 = I /I

F RP = 1:1, trr2 = IF/IRP = 1:2

• trr1 = I /I
F RP = 1:1, trr2 = IF/IRP = 1:2

37
5-3. Ultra-Fast Recovery Rectifier Diodes

Surface Mount Type (Ta = 25°C) 1-Chip Frame Type (Ta = 25°C)
Absolute Maximum Ratings Electrical Characteristics Absolute Maximum Ratings Electrical Characteristics

VF IR trr1 trr2 Fig. VF IR trr1 trr2 Fig.

Tj Tstg Tj Tstg (µA)
Type No. VRM IF (AV) I FSM (V) (µA) (ns) (ns) Type No. VRM IF (AV) IFSM (V) (ns) (ns)
No. No.
(V) (A) (A) max per max per (V) (A) (A)
(°C) max max (°C) max max max max
element element
SFPL-52 0.9 FMG-G26S 4.0 50 13
25 10 50 35 1 600 2.50 500
-62 1.0 -G36S 8.0 80 100 50 15
200 –40 to +150 0.98 –40 to +150
SPX-G32S 3.0 50 -G2CS 3.0 30 4.00 50 13
50 30 25 14 1000
-62S* 6.0 80 -G3CS 5.0 60 3.50 100 150 70 15
*Center tap
FMP-G12S 65 1.15 50 150 70
200 5.0 –40 to +150 13
Axial Type (Ta = 25°C) FMN-G12S 100 0.92 100 100 50

Absolute Maximum Ratings Electrical Characteristics FML-G12S 200 65 0.98 250 40

-G13S 300
VF IR trr1 trr2 Fig. 5.0 70 1.30
Tj Tstg 35
Type No. VRM I F (AV) IFSM (V) (µA) (ns) (ns) -G14S 400 100 50
No. –40 to +150 13
(V) (A) (A)
(°C) max max max max -G16S 600 50 1.50

-G22S 200 150 0.98 500 40 30

AG01Y 70 1.0 25 1.20 10.0
01Z 200 -G26S 600 100 1.70 100 65 40
0.7 –40 to +150 100 100 50 2
01 400 15 1.80 FMX-G12S 5.0 65 100
200 –40 to +150 0.98 30 25 13
01A 600 0.5 -G22S 10.0 150 200
EG01Y 70 1.0 30 1.20 100
01Z 200 1.90
0.7 15 50
01 400 –40 to +150
2.00
100 50 3 Center Tap Type (Ta = 25°C)
01A 600 100 Absolute Maximum Ratings Electrical Characteristics
0.5 10
01C 1000 3.30 50
VF IR trr1 trr2 Fig.
Tj Tstg
EG 1Y 70 1.1 30 1.20 100 Type No. VRM IF (AV) IFSM (V) (mA) (ns) (ns)
No.
1Z 200 1.70 (V) (A) (A) max per max per
0.8 15 (°C) max max
–40 to +150 50 100 50 4 element element
1 400 1.80
FMG-12S,R 200
1A 600 0.6 10 2.00 100 1.80
-13S,R 300 5.0 35 –40 to +150 0.50 100 50 9
RG 1C 1000 0.7 10 3.30 20 100 50
-14S,R 400 2.00
RG 10Y 70 1.5 1.10
–40 to +150 5 FMG-22S,R 200
10 400 1.2 50 1.80 50 100 50 10.0 1.80
10A 600 1.0 2.00 -23S,R 300 65
–40 to +150 0.50 100 50 9
RG 2Y 70 1.5 1.10 -24S,R 400 8.0 2.00
2Z 200 1.50 -26S,R 600 6.0 50 2.20
1.2 50 –40 to +150 50 100 50 6
2 400 1.80 FMG-32S,R 200
20.0 150 1.80
2A 600 1.0 2.00 -33S,R 300
RG 4Y 70 3.5 100 1.30 –40 to +150 1.00 100 50 10
100 -34S,R 400 16.0 100 2.00
4Z 200 1.70
3.0 80 -36S,R 600 15.0 80 2.20
4 400 –40 to +150 1.80 100 50 8
FMC-26U 600 6.0 50 –40 to +150 2.00 0.50 70 35 9
4A 600 50 2.00 50
2.0 FML-12S 200 35 0.98 0.15 40 30
4C 1000 60 3.00
-13S 300 5.0 –40 to +150 9
EN01Z 1.0 50 10 3 40 0.05 50 35
1.30
RN 1Z 1.5 60 -14S 400
20 5
RN 2Z 200 2.0 70 –40 to +150 0.92 100 50 6 FML-22S 200 65 0.98 0.25 40 30

RN 3Z 3.0 80 50 7 -23S 300 10.0 –40 to +150 9

70 1.30 0.10 50 35
RN 4Z 3.5 120 8 -24S 400
AP01C 100 2 FML-32S 200 150 0.98 0.60 40 30
1000 0.2 4.00
EP01C 5 5 200 80 3 -33S 300
–40 to +150 20.0 0.20 50 35 10
RP 1H 2000 0.1 7.00 20 –40 to +150 1.30
5 -34S 400 100
RU 1P 1000 0.4 10 4.00 5 100 50
-36S 600 1.70 0.10 65 35
AL01Z 1.0 25 2
200 0.98 FMX-12S 5.0 35 0.05
EL 1Z 20 100 50
4 -22S 10.0 65 0.10 9
EL 1 400 1.5 1.30 200 –40 to +150 0.98 30 25
25 -22SL 15.0 100 0.15
EL02Z 40 3
50 -32S 20.0 150 0.20 10
RL 10Z 200 0.98 5
30
RL 2Z 2.0 100
2
2A
350
600 1.1
40
30
–40 to +150 1.30
1.50
10 35 6
Bridge Type (Ta = 25°C)
50 Absolute Maximum Ratings Electrical Characteristics
RL 3Z 200 0.95 50
3.5 80 7 VF IR trr1 trr2
3 350 1.30 100 Tj Tstg Fig.
VRM IF (AV) IFSM (V) (mA) (ns) (ns)
Type No. No.
3A 600 2.0 60 1.50 50
(V) (A) (A) max per max per
(°C) max max
RL 4Z 200 3.5 0.95 150 8 element element
80
4A 600 3.0 1.50 50 RBA-402L 200 4.0 80 0.98 0.05 40 30 16
–40 to +150
RX 3Z 200 3.0 80 –40 to +150 0.98 50 30 25 7 RBV-602L 200 6.0 100 1.00 0.25 50 35 12

38
5-4. Damper Diodes

For TV (Ta = 25°C) For CRT Display (Ta = 25°C)

Absolute Maximum Ratings Electrical Characteristics Absolute Maximum Ratings Electrical Characteristics

VF IR trr1 trr2 Fig. VF IR trr1 trr2 Fig.

Tj Tstg Tj Tstg (µA)
Type No. VRM IF (AV) IFSM (V) (µA) (µs) (µs) Remarks
Type No. VRM IF (AV) IFSM (V) (µs) (µs) Remarks
No. No.
(V) (A) (A) max per max per (V) (A) (A) max per max per
(°C) max max (°C) max max
element element element element
RH 10F 1500 0.8 5 RP 3F 1500 2.0 1.7 0.70 0.30 7
60 1.0 10
2D 1300 RU 4D 1.5 50 –40 to +150 50
1.0 6 1300 1.8 0.40 0.18 8
2F 1500 4DS 2.5
4.0 1.30
3F 1500 1.3 50 FMP -G2FS 5.0 2.0 0.70 0.30
–40 to +150 7
3G 1600 2.5 FMQ-G2FLS 1500 1.8 1.20 0.40 13
50 50
4F 1500 1.5 10 8 -G2FS 2.8
10.0 50 –40 to +150
RS 3FS 2.0 1.1 2.0 0.80 7 FMQ-G5FMS 1500 2.4 0.50 0.20
1500 50
4FS 2.5 1.5 1.0 0.40 8 -G5GS 1700 2.7 100 17

FMV-G5FS 1500 1.5 50 2.0 0.80 FMP -G5HS 1800 8.0 2.0 25 1.00 0.40
10.0 50 17
FMR-G5HS 1800 1.6 20 1.8 0.70 RG 2A2 1300 0.5 5 3.5 0.10 0.05 6 For
–40 to +150 100 compen-
1500 1.4 4.0 1.30 RC 3B2 1600 1.0 20 3.6 0.07 0.04 7 sation
FMV-3FU 5.0 50 –40 to +150 50
600 1.3 0.4 0.18 1500 2.0 0.70 0.30
For DM
18 damper FMP -3FU 50
1700 1.5 2.0 0.80 600 2.5 0.10 0.05 For DM
FMV-3GU 5.0 50 50 5.0 50 –40 to +150 18 damper
600 1.3 0.4 0.18 1700 2.0 500 0.70 0.30
FMQ-3GU
800 4.0 100 0.07 0.04

39
5-5. Schottky Barrier Diodes

Surface Mount Type Absolute Maximum Ratings Electrical Characteristics

VF IR H·IR
Absolute Maximum Ratings Electrical Characteristics (V) (mA) (mA) Fig.
Tj Tstg
VF (V) IR H·IR Type No. VRM IF (AV) IFSM
Ta = 100°C No.
Tj Tstg Condition (mA) (mA) Fig. (V) (A) (A)
Type No. VRM IF (AV) IFSM (°C) max max max
= IF Ta = 100°C
No.
(V) (A) (A) max per max per max per
(°C) AK 09 2
element element element 0.7 10 1.00 5
SFPA-51 10 60 0.34 1.00 30 1 EK 09 3
1.0
SFPB-52 30 0.25 10 EK 19 4
–40 to +125 90 1.5 40 –40 to +125 0.81 2.00 10
SFPB-62 20 2.0 0.47 0.50 1 RK 19 5
60 20
SFPB-72 3.0 1.00 RK 39 2.0 50 3.00 15 6

SFPA-53 1.0 30 1.50 70 RK 49 3.5 60 5.00 30 8

SFPA-63 2.0 40 –40 to +125 0.36 3.00 140

SFPA-73 3.0 50 4.50 210 1-Chip Frame Type

SFPE-63 2.0 40 –40 to +150 0.55 0.20 20 1 Absolute Maximum Ratings Electrical Characteristics
30 VF IR H·IR
SFPJ-53 1.0 30 1.00 10(Ta=125°C) Tj Tstg (V) (mA) (mA) Fig.
Type No. VRM I F (AV) IFSM
Ta = 100°C
SFPJ-63 2.0 40 2.00 20(Ta=125°C) No.
–40 to +125 (V) (A) (A)
0.45 (°C) max max max
SFPJ-73 3.0
50 3.00 30(Ta=125°C)
FMB-G12L 5.0 100 2.00 35
SPJ-63S* 6.0 14
20 0.47
FMB-G22H 10.0 200 5.00 65
SSB-14 0.5 4 0.58 0.10 5 19

SFPB-54 1.0 30 FMB-G14 3.0

–40 to +125 60 5.00 100
0.55 1.00
FMB-G14L 40 5.0 –40 to +125 0.55
SFPB-64 1.5 50 13
60 1
FMB-G24H 10.0 150 10.00 65
SFPB-74 2.0 0.50 5.00
FMB-G16L 60 6.0 50 0.62 5.00 50
SFPE-64 40 2.0 40 –40 to +150 0.60 0.20 20
FMB-G19L 90 4.0 60 0.81 5.00 35
SPB-G34S 3.0 50 30.00
14
SPB-G54S 5.0 60 –40 to +125 0.55 50.00 50

SPB-64S* 6.0 50 30.00 14

Center Tap Type
Absolute Maximum Ratings Electrical Characteristics
MPE-24H* 15.0 100 –40 to +150 0.60 0.75 50(Ta=150°C) 20
VF IR H·IR
SFPB-56 0.7 10 7.5 Tj Tstg (V) (mA) (mA) Fig.
VRM IF (AV) I FSM
1.00 Type No. Ta = 100°C No.
SFPB-66 1.5 25 0.62 15 1 (V) (A) (A) max per max per max per
60 (°C)
element element element
SFPB-76 2.0 40 2.00 20
–40 to +125 FMB-22L 10.0 100 2.00 35
SPB-G56S 5.0 60 0.70 35.00 50 14 9
FMB-22H 15.0 150 3.00 50
SFPB-59 0.7 10 1.00 5 20 –40 to +125 0.47
90 0.81 1 FMB-32 20.0 200 5.00 65
SFPB-69 1.5 40 2.00 10 10
FMB-32M 30.0 300 10.00 100
*Center tap
FME-24L 10.0 80 0.50 30
–40 to +150 0.60
Axial Type FME-24H 15.0 100 0.75 50
FMB-24 4.0 50
Absolute Maximum Ratings Electrical Characteristics 9
VF IR H·I R FMB-24M 6.0 60 5.00 35
0.55
Tj Tstg (V) (mA) (mA) Fig. FMB-24L 10.0 60
VRM I F (AV) IFSM
Type No. Ta = 100°C No.
(V) (A) (A) FMB-24H 15.0 100 7.50 50
(°C) max max max
FMB-34S 40 12.0 75 0.58 5.00 35
RK 42 20 3.0 100 –40 to +125 –40 to +125
0.47 1.00 20 8 FMB-34 15.0 150 10.00 65 10
AK 03 25 0.55 1.00 50(Tj=100°C) 2 FMB-34M 30.0 300 20.00 100
EA 03 1.0 30 0.36 1.50 70 CTB-24 4.0 50
3 60 0.55 5.00 21
EK 03 CTB-24L 10.0 35
0.55 5.00 50
EK 13 1.5 40 4 CTB-34 15.0 150 10.00 65
22
RA 13 30 2.0 CTB-34M 30.0 300 20.00 100
–40 to +125 0.36 3.00 140
5 FMB-26 4.0 40 1.00 25
RK 13 1.7 60 9
0.55 5.00 50 FMB-26L 10.0 50 2.50 50
RK 33 2.5 6 60 –40 to +125 0.62
50 FMB-36 15.0 100 5.00 75
RJ 43 0.45 3.00 30(Tj=125°C) 10
3.0 8 FMB-36M 30.0 150 10.00 150
RK 43 80 0.55 5.00 50
FMB-29 4.0 50 3.00 15
AK 04 25 1.00 50(Tj=100°C) 2 9
1.0 FMB-29L 8.0 5.00 35
90 60 –40 to +125 0.81
EK 04 3 FMB-39 15.0 10.00 50
40 10
EK 14 1.5 4 FMB-39M 20.0 150 15.00 60
40 –40 to +125 0.55
RK 14 1.7 60 5.00 50 5
RK 34 2.5 50 6 Bridge Type
RK 44 3.0 80 8 Absolute Maximum Ratings Electrical Characteristics
VF IR H·IR
AK 06 2
Tj Tstg (V) (mA) (mA) Fig.
0.7 10 7.5 VRM IF (AV) I FSM
EK 06 Type No. Ta = 100°C
3 No.
1.00 (V) (A) (A) max per max per max per
EK 16 (°C)
4 element element element
60 1.5 25 –40 to +125 0.62 15
RK 16 5 RBA -404B 4.0 40 2.0 20
40 0.55
RK 36 2.0 40 2.00 25 6 -1004B 10.0 60 –40 to +125 5.0 35 (Tj=125°C) 16

RK 46 3.5 70 3.00 35 8 -406B 60 4.0 40 0.62 2.0 20

40
5-6. Avalanche Diodes

(Ta = 25°C) With Built-in Thyristor (Ta = 25°C)

Absolute Maximum Ratings Electrical Characteristics Absolute Maximum Ratings Electrical Characteristics

VRM I ZSM Tj Tstg VZ (V) IR IR (H) Fig. VRDC ITSM (A) VZ (V) IR H·IR Fig.
Tj Tstg
Type No. (µA) (µA) Type No. (–10°C) 50Hz Half-cycle (µA)
(A) 1mA No. 1mA (µA) No.
Sinewave
(V) Instantaneous (°C) Instantaneous max max (V) Single Shot (°C) (°C) Instantaneous max max

RM 25 40 50 to 61.5 RZ1030 20 27 to 33
3.0 –40 to +130 5 20
RM 26 50 60 to 70.0 1040 28 34 to 40
R 2M 130 1.0 –40 to +150 135 to 180.0 10 50 5 1055 * 40 50 to 60
RY 23 200 250 to 400.0 1065 * 50 60 to 70
0.1 –40 to +130 10 50
RY 24 400 400 to 450.0 1100 * 80 90 to 110
–10 to –40 to 5
1125 105 30 115 to 135 10 50
+125 +150
1150 125 140 to 160

1175 150 165 to 185

1200 180 195 to 215

1225 * 190 210 to 240

1250 180 235 to 265

EZ0150 125 140 to 160 3

* Under development

5-7. Power Zener Diodes

(Ta = 25°C)
Absolute Maximum Ratings Electrical Characteristics

PR VDC IZSM Tj Tstg VZ (V) IR IR (H) Fig.

Type No. (A) 1mA (µA) (mA) No.
Instantane-
(W) (V) ous (°C) Instantaneous max max

PZ 127 150 4 5

227 300 8 6
20 27±5.0 50 1.0
427 450 9 8
–40 to +150
628 1500 65 23

SFPZ-68 50 20 2 28±3.0 10 1.0 1

SPZ-G36 450 30 11 36±3.6 5 0.1 14

5-8. Silicon Varistors

Absolute Maximum Ratings (Ta = 25°C) Electrical Characteristics (Ta = 25°C)

IF IFSM VF1 VF2 VF3 IF Fig.
Tj Tstg
Type No. (µA) No.
(mA) (A) (°C) (V) IF1 (mA) (V) IF2 (mA) (V) IF3 (mA) max VF (V)
VR-60SS 400 15.0 1.5 max 1000 – – – – 20 0.2
–40 to +100
-61SS 150 7.5 2.30 ±0.25 1 2.75 ±0.25 10 3.1 ±0.25 70 – –

SV-2SS 150 – 4.0 max 50 1.2 24

100 – – – –
-3SS 250 – –40 to +100 2.0 max 50 0.6

-4SS 150 – 1.80 ±0.20 1 2.15 ±0.20 10 2.4 ±0.25 30 50 0.9

SV 02YS 200 30.0 1.20 ±0.20 1.50 ±0.25

03YS 150 16.0 1.80 ±0.20 2.30 ±0.25

10 100
04YS 100 12.0 –40 to +130 2.35 ±0.25 1 3.00 ±0.30 70 – – 3
(IR ) (VR)
05YS 80 10.0 3.00 ±0.30 3.80 ±0.40

06YS 70 8.0 3.50 ±0.35 4.50 ±0.45

41
5-9. High Voltage Rectifier Diodes 5-10. High Voltage Rectifier Diodes
(Ta = 25°C)
for Microwave Oven (Ta = 25°C)
Absolute Maximum Ratings Electrical Characteristics Absolute Maximum Ratings Electrical Characteristics
VF VF
Tj Tstg IR trr Fig. IR trr Fig.
Type No. VRM IF (AV) IFSM TC (V) Condi- (µA) (µs) Type No. VRM IF (AV) IFSM Tstg (V) Condition (µA) (µs)
tion No. No.
(kV) (mA) (A) (°C) (kV) (mA) (A) (°C)
(°C) max IF (mA) max max max IF (mA) max max
*
SHV-02 2 16 –40 to
0.3 25 HVR-1X-40B 9 350 20 9.0 350 10 – 31
SHV-03S 3 16 +130
SHV-03 3 16 26 –30 to
UX-C2B 8 350 15 13.5 350 10 0.10 32
-10 10 40 +130
-12 12 2.0 100 –40 to +120 45 10 1.0 0.18 27
-14 14 0.5 55
-16 16 60
-20 20 75 28
-24 24 75
SHV-06EN 6 26
29
-08EN 8 32
0.15
-10EN 10 42
30
-12EN 12 2.0 0.5 100 –40 to +120 48 10 1.0
SHV-08DN 8 30 29
-10DN 10 38 0.15
30
-12DN 12 45
* Load C for FBT high voltage current

5-11. GaAs Schottky Barrier Diodes (GSC series)

(Ta = 25°C)
Absolute Maximum Ratings Electrical Characteristics
IF (AV) (A) IFSM* (A) I 2t* (A2s) Tj Tstg VF* IR* (mA) IR(H)* (mA) trr* (ns) Ct* (pF) Rthj-c (°C/W) Fig.
Type No. VRM 50Hz 50Hz (V)
Rectangular IF VR = VRM , IF No.
(V) Wave TC Half-cycle Half-cycle VR = VRM dlf/dt = VR = 0 V
(°C) (A) max (A)
duty =1/2 Sinewave Sinewave max 100A/ µs f M =1 MHz
average (°C) Peak Value Single Shot Tj = 150°C

GSC215 150 10
5 114 20 2.0 0.90 2.5 1.0 7 2 150 5.0 21
GSC218 180 15

GSC315 150 –40 to +150 30

14 50 3.5 22
GSC318 180 80 18.0 0.90 7.0 3.0 10 6 450
45
GSF18R 180 7 35 7.0 9
* per element

External Dimensions (unit: mm)

Fig. 1 Fig. 2 Fig. 3 Fig. 4

4.5 ±0.2 φ 0.6 ±0.05 φ 0.78 ±0.05

φ 0.57 ±0.02

Cathode marking
2.6 ±0.2

Cathode marking Cathode marking

2.9 ±0.1
50.0 ±1.0

62.3 ±0.7

5.0 ±0.2

62.3 ±0.7

5.0 ±0.2
2.05 ±0.2

0.05

φ 2.4 ±0.1
φ 2.7 ±0.2 φ 2.7 ±0.2
1.35 ±0.4 2.0mm 1.35 ±0.4 1.1 ±0.2

5.1 +0.4
–0.1 1.5 ±0.2

Fig. 5 Fig. 6 Fig. 7 Fig. 8

φ 1.2 ±0.05
φ 0.78 ±0.05 φ 0.98 ±0.05 φ 1.4 ±0.1

Cathode marking
Cathode marking Cathode marking
Cathode marking
50 ±0.1

8.0 ±0.2
62.5 ±0.7

9.1 ±0.2
62.5 ±0.7

7.2 ±0.2

62.5 ±0.7

7.2 ±0.2

φ 5.2 ±0.2 φ 6.5 ±0.2

φ 4.0 ±0.2 φ 4.0 ±0.2

42
 Fig. 9 Fig. 10 5
15
±0.2 ±0.2 9
10.0 4.2
C
2.8±0.2 0.5 φ 3.3

4.0±0.2

0.8 2.8 5
8.4±0.2

20.0
16.9±0.3

φ 3.3 ±0.2 a
a b

0.8±0.2
b c
c

16.5±0.2 (3.5)
2.3
3.9
±0.2

20.0±0.5
3.4
13.0min

1.35±0.15 1.0 0.65 +0.2

–0.1
1.35±0.15
0.85 +0.2
–0.1
0.45+0.2
–0.1 2.4±0.2
2.54 2.54 5.45 5.45 2.6

S-type R-type a. Type No.

(SBD)
b. Polarity
a. Type No. GSF18R
c. Lot No.
b. Polarity S-type R-type
c. Lot No. (SBD)
U-type

Fig. 11 Fig. 12 Fig. 13 Full-Mold

10.0±0.2 4.2±0.2
C
φ 3.2 ±0.1
4.6 2.8±0.2 0.5
φ 3.2 ±0.1 4.6

4.0±0.2
C3 25 3.6
C3 30 3.6

8.4±0.2
a

16.9±0.3
a
φ 3.3 ±0.2
15

20

b a

0.8±0.2
9.5

b b
11

3.9
±0.2
17.5

13.0min
17.5

4-1.0 0.7 4-1.0 0.7 1.35±0.15

13

13

0.85+0.2
–0.1
10 7.5 7.5 2.7
3-p7.5 2.7±0.1 0.45+0.2 2.4±0.2
–0.1
2.54 2.54

a. Type No. a. Type No.

b. Lot No. b. Lot No. a. Type No.
b. Polarity
c. Lot No.

Fig. 14 Fig. 15 Full-Mold Fig. 16

15 5
6.5 ±0.4 2.3 ±0.4 5.4 9
φ 3.2
0.16

0.55 ±0.1 4.1 4.6

5.4 ±0.4 φ 3.3
25 3.6
1.7 ±0.5

C3.14
0.8 2.8 5
1.37

2.9
a
20.0
5.0
0.7

a
15.0

a
5.5±0.4

b b
9.5

b
1.2max

c
2.0
3.3

4.9
16.5±0.2 (3.5)

c 2.3 1.0
6.7

0 ~ 0.25
20.0±0.5
2.5±0.4

3.4
1.0 7.5 7.5 7.5
0.65+0.2
–0.1 0.7 1.0
1.15±0.1
0.8±0.1 0.8±0.1
0.5±0.2

±0.5 ±0.5
2.29 2.29
0.55±0.1
5.45 5.45 2.6
1.5max a. Type No.
a. Type No.
b. Polarity
b. Lot No.
1 2 3 c. Lot No. a. Type No.
b. Polarity
c. Lot No.

43
 Fig. 17 Full-Mold Fig. 18 Full-Mold Fig. 19 SSB-14

0.8 ±0.2 5.5±0.2 5.5±0.2 0.95

15.6±0.3

0.8 ±0.2
3.45±0.2 15.6±0.2
3.45±0.2 1.05
e
9.5±0.2

5.5

9.5±0.2

5.5
2.10 1.20
2.50 1.40 q Anode
23.0±0.2

23.0±0.3
w N.C
φ 3.3 ±0.2 φ 3.3 ±0.2 w q
e Cathode
a a 0.37

3.0

3.0
b 0.45 1.78
1.6

b 0.46

1.6
c c 0.60 2.05 When no tolerance ind

3.3
2.80 tolerance is ±0.2
3.3

3.04
1.75±0.15 0.8
1.75±0.15 0.8
1.6

1.62
0.89
2.15±0.15 1.04
1.05+0.2
–0.1 1.05+0.2
–0.1
0.013 0.085 0.45
0.65+0.2 0.10 0.130
5.45±0.1 5.45±0.1 –0.1 3.35±0.2 5.45±0.1 5.45±0.1 0.65+0.2
–0.1 3.35±0.2 (0.15)
0.60

A B
a. Type No. a. Type No.
b. Polarity b. Polarity
c. Lot No. c. Lot No.

Fig. 20 MPE-24H Fig. 21 MT-25 (TO-220) Fig. 22 MT-100 (TO-3P)

15.6 ±0.3
13.6 ±0.2 4.8±0.2

5.0±0.2
9.6±0.2 2.0±0.1

2.0

1.8
10.2 ±0.2 4.8±0.2
3.0 ±0.2

10.2 4.44
2.0 ±0.1
1.4

1.3

19.9 ±0.3

φ 3.2 ±0.1
4.0
16.0±0.7

a
φ 3.75 ±0.2
8.8±0.2

b
10.0
11.3

8.5

1.35 2 +0.2
20.0min
–0.1
12.0mm
1.3

1.27
4.0max

3.5
1.2 2.59 3 +0.2
–0.1
0.65+0.2
–0.1 1.05+0.2 0.65+0.2
3.19

11.0

–0.1 –0.1
0.86
2.5 2.5 1.4
0.76
5.45±0.1 5.45±0.1 1.7 +0.2
–0.3

2.54 2.54 0.4

a. Type No. a. Type No.

b. Polarity b. Polarity
c. Lot No. c. Lot No.

Fig. 23 Fig. 24 Fig. 25 Fig. 26

φ 1.3 ±0.05 φ 0.6 ±0.05

C2
27min
27min

Cathode marking
56.0±0.2
10.0±0.02

5.0 ±0.2

5
62.3 ±1.0

φ2
φ 2.5
φ 10.0 ±0.2 φ 2.7 ±0.2
27min

27min

φ 0.5 φ 0.5

44
Fig. 27 Fig. 28 Fig. 29 Fig. 30
27min

27min

27min
27min
6.5
10

12

10
φ 2.5 φ 2.5
φ3 φ3

27min
27min

27min

27min
φ 0.5 φ 0.5 φ 0.5
φ 0.5

Fig. 31 Fig. 32
22min

21min
HVR-1X 4
21 ±1

SK
UX-C2B
21 ±1
22min

φ 1.2
21min

φ 1.2

7 ±0.5 7 ±0.5
±0.5

7 ±0.5
7

45
6 Light Emitting Diodes
6-1. Standard LEDs

6-2. LEDs for Surface Illumination

6-3. Ultra-High Intensity LEDs

6-4. Contact Mount LEDs for Automatic Insertion

6-5. Bicolor LEDs

6-6. Infrared LEDs

6-7. Chip LEDs

6-8. AlGaInP Ultra-High Intensity LEDs

6-9. Blue LEDs

47
6-1. Standard LEDs

Absolute Maximum Ratings (Ta = 25°C) Electro-Optical Characteristics (Ta = 25°C)

VF IR IV
Parameter Unit Ratings Emit- λp Fig.
Type No. Type of Lens ting (V) (µA) (mcd) Con-
IF mA 30 dition No.
Color
IFP mA 100 IF (nm)
typ max max typ
VR V 3 (mA) typ
Top °C –30 to +85
SEL2110R Diffused red 1.1
Tstg °C –30 to +100
VF Condition IF = 10 mA SEL2110S Tinted red 2.0 1.4 10 700
IR Condition VR = 3 V
SEL2110W Diffused 1.1
Red
Electro-Optical Characteristics (Ta = 25°C) SEL2210R Diffused red 10.0
VF IR IV
Emit- λp Fig. SEL2210S Tinted red
(mcd) 1.9 20.0 630
Type No. Type of Lens ting (V) (µA) Con-
dition No.
Color (nm) SEL2210W Diffused 10.0
IF
typ max max typ
(mA) typ SEL2410G Diffused green 10.0 20
SEL1110R Diffused red 3.0 Green 560
SEL2410E Tinted green 2.5 50 20.0 e
SEL1110S Tinted red 2.0 5.5 5 700
SEL2510G Diffused green 3.7
Pure
SEL1110W Diffused 3.0 green 2.0 555
Red
SEL2510C Un-tinted 25.0
SEL1210R Diffused red 25.0
1.9 630 SEL2710Y Diffused yellow 4.4
SEL1210S Tinted red 30.0 Yellow 570

3φ round type
SEL2710K Tinted yellow 20.0
SEL1410G Diffused green 20.0 20
5φ round type

560 SEL2810D Diffused orange 6.0

Green
SEL1410E Tinted green 2.5 50 40.0 q Amber 10 610
SEL2810A Tinted orange 10.0
SEL1510C Un-tinted Pure 1.9
2.0 30.0 555
green SEL2910D Diffused orange 1.6
SEL1710Y Diffused yellow 3.0 Orange 587
570 SEL2910A Tinted orange 8.0
Yellow
SEL1710K Tinted yellow 5.0
SEL2215R Diffused red 25.0
SEL1810D Diffused orange 12.0 Red 1.9 630
10 610 SEL2215S Tinted red 30.0
Amber
SEL1810A Tinted orange 25.0
1.9 SEL2415G Diffused green 50.0
SEL1910D Diffused orange 3.0 Green 560
587 SEL2415E Tinted green 90.0
Orange
SEL1910A Tinted orange 5.5 2.0
SEL2715Y Diffused yellow 70.0
SEL4110R Diffused red 2.0 Yellow 2.5 50 20 570 r
SEL2715K Tinted yellow 120.0
SEL4110S Tinted red 2.0 3.0 5 700
SEL2815D Diffused orange 40.0
SEL4110W Diffused Red 2.0 Amber 610
SEL2815A Tinted orange 70.0
SEL4210R Diffused red 15.0 1.9
1.9 630 SEL2915D Diffused orange 50.0
SEL4210S Tinted red 25.0 Orange 587
SEL2915A Tinted orange 70.0
SEL4410G Diffused green 15.0 20
4φ round type

560 SEL1111R Diffused red Red 1.3 700

Green
SEL4410E Tinted green 2.5 50 25.0 w
SEL1411G Diffused green Green 2.0 5.0 560
Pure
SEL4510C Un-tinted green 2.0 30.0 555
SEL1711Y Diffused yellow Yellow 2.5 50 8.0 10 570 t
Round-type special configuration

SEL4710Y Diffused yellow 14.0

570 SEL1811D Diffused orange Amber 610
Yellow
SEL4710K Tinted yellow 30.0 1.9 5.5
SEL1911D Diffused orange Orange 587
SEL4810D Diffused orange 10.0
10 610 SEL2111R Diffused red
Amber
SEL4810A Tinted orange 18.0 Red 1.2 700
1.9 SEL2111W Diffused 2.0 2.5 50 10 y
SEL4910D Diffused orange 8.0
587 SEL2411G Diffused green Green 3.0 560
Orange
SEL4910A Tinted orange 18.0
SEL4117R Diffused red Red 1.0 10 700

SEL4417G Diffused green Green 2.0 10.0 20 560

SEL4717Y Diffused yellow Yellow 2.5 50 9.5 570 u

SEL4817D Diffused orange Amber 4.5 10 610

1.9
SEL4917D Diffused orange Orange 4.5 587

48
 6-2. LEDs for Surface Illumination

Electro-Optical Characteristics (Ta = 25°C) Absolute Maximum Ratings (Ta = 25°C)

VF IR IV Parameter Unit Ratings
Emit- λp
(V) (µA) (mcd) Con- Fig. IF mA 30
Type No. Type of Lines ting dition No.
Color IFP mA 100
IF (nm)
typ max max typ VR V 3
(mA) typ
Top °C –30 to +85
SEL1120R Diffused red Red 0.7 10 700 Tstg °C –30 to +100
SEL1420G Diffused green Green VF Condition IF = 10 mA
2.0 2.0 20 560
IR Condition VR = 3 V
SEL1720Y Diffused yellow Yellow 2.5 50 0.7 570 i
Electro-Optical Characteristics (Ta = 25°C)
SEL1820D Diffused orange Amber 2.0 10 610
1.9 Emit- VF IR IV
λp
SEL1920D Diffused orange Orange 0.7 587 Type of Lens ting (V) (µA) (mcd) Con- Fig.
Type No.
Color dition No.
SEL1121R Diffused red Red 0.7 10 700 IF (nm)
typ max max typ
(mA) typ
SEL1421G Diffused green Green 2.0 2.0 20 560
SEL1213C Un-tinted Red 1.9 3.5 630
SEL1721Y Diffused yellow Yellow 2.5 50 0.7 570 o SEL1413E Tinted green Green 8.0 560
2.0
SEL1821D Diffused orange Amber 1.5 10 610 SEL1713K Tinted yellow Yellow 2.5 50 8.0 20 570 !55
1.9 SEL1813A Tinted orange Amber 5.0 610
SEL1921D Diffused orange Orange 0.7 587 1.9
SEL1913K Tinted orange Orange 5.0 587
SEL1222R Diffused red Red 1.9 5.0 20 630 SEL2213C Un-tinted Red 1.9 3.0 630
SEL1422G Diffused green Green 4.0 560 SEL2413E Tinted green Green 7.0 560
2.0 2.0
SEL2713K Tinted yellow Yellow 2.5 50 17.0 20 570 !6
SEL1722Y Diffused yellow Yellow 2.5 50 4.0 570 !0
SEL2813A 5.7 610
Square display type

10 Tinted orange Amber

1.9
SEL1822D Diffused orange Amber 2.5 610 SEL2913K 6.6 587
Tinted orange Orange
1.9
SEL1922D Diffused orange Orange 3.0 587

SEL1124R Diffused red Red 0.7 10 700

SEL1424G Diffused green Green 2.0 2.0 20 560

SEL1724Y Diffused yellow Yellow 2.5 50 0.7 570 !1

SEL1824D Diffused orange Amber 2.1 10 610

1.9
SEL1924D Diffused orange Orange 0.7 587

SEL4225R Diffused red 5.0

SEL4225C Un-tinted
Red 1.9
10.0
20
630
6-3. Ultra-High Intensity LEDs
SEL4425G Diffused green 10.0
Green 560
Absolute Maximum Ratings (Ta = 25°C)
SEL4425E Tinted green 15.0
Parameter Unit Ratings
2.0
SEL4725Y Diffused yellow 6.0 IF mA 30
Yellow 2.5 50 570 !2 IFP mA 100
SEL4725K Tinted yellow 10.6 VR V 3
SEL4825D Diffused orange 3.0 Top °C –30 to +85
Amber 10 610 Tstg °C –30 to +100
SEL4825A Tinted orange 5.0 VF Condition I F = 10 mA
1.9 I R Condition VR = 3 V
SEL4925D Diffused orange 3.0
Orange 587
SEL4925A Tinted orange 5.0 Electro-Optical Characteristics (Ta = 25°C)
VF IR IV
SEL4227C Un-tinted Red 1.9 10.0 630 Type of Emit- λp
Type No. (V) (µA) (mcd) Con- Fig.
Lens ting dition No.
SEL4427E Tinted green Green 2.5 50 20.0 20 560 !3 Color IF (nm)
2.0 typ max max typ
Pure (mA) typ
SEL4527C Un-tinted green 5.0 555
SEL1610C q
SEL4228C Un-tinted Red 1.9 18.0 630
Bow type

SEL1615C Un-tinted Red 1.75 2.2 100 800 30 660 !7

SEL4428E Tinted green Green 40.0 20 560 !8
SEL1650CM
Pure
SEL4528C Un-tinted green 2.0 15.0 555
2.5 50 !4
SEL4728K Tinted yellow Yellow 16.0 570

SEL4828A Tinted orange Amber 9.0 10 610

1.9
SEL4928A Tinted orange Orange 7.0 587

49
6-4. Contact Mount LEDs for Automatic Insertion
Absolute Maximum Ratings (Ta = 25°C) Electro-Optical Characteristics (Ta = 25°C)
Parameter Unit Ratings VF IR IV
Emit- λp
(V) (µA) (mcd) Con- Fig.
IF mA 30 Type No. Type of Lens ting
dition No.
I FP mA 100 Color
IF (nm)
VR V 3 typ max max typ
(mA) typ
Top °C –30 to +85
Tstg °C –30 to +100 SEL6215S Tinted red Red 1.9 30.0 630
VF Condition IF = 10 mA SEL6415E Tinted green Green 50.0 560

Round type
IR Condition VR = 3 V 2.0
SEL6515C Un-tinted Pure @2
green 2.5 50 18.0 20 555
Electro-Optical Characteristics (Ta = 25°C)
SEL6815A Tinted orange Amber 30.0 610
VF IR IV 1.9
Type of
Emit- λp
ting (V) (µA) (mcd) Con- Fig. SEL6915A Tinted orange Orange 40.0 587
Type No. Lens
Color dition No.
IF (nm) SEL4229R Diffused red Red 1.9 10.0 630
typ max max typ
(mA) typ 20

Bow type
SEL4429E Tinted green Green 2.5 2.5 50 28.0 560 @3
SEL1250SM Tinted red Red 1.9 34.0 630
5φ Round type

SEL4829A Tinted orange Amber 1.9 8.0 10 610

SEL1450EKM Tinted green Green 95.0 560
2.0 2.5 50 20 !8 SEL6427EP Tinted green Green 2.0 2.5 50 20.0 20 560 @4
Pure
SEL1550CM Un-tinted 36.0 555
green
SEL4226R Diffused red 5.0
SEL1950KM Tinted yellow Orange 1.9 64.0 587 Red 1.9 630
SEL4226C Un-tinted 10.0
SEL4114R Diffused red 2.0 20
2.0 10 700 SEL4426G Diffused green 10.0
SEL4114S Tinted red 3.0 Green 560

Square display type

Red SEL4426E Tinted green 15.0
SEL4214R Diffused red 12.0 2.0
1.9 630 SEL4726Y Diffused yellow 6.0
SEL4214S Tinted red 25.0 Yellow 2.5 50 570 @5
20 SEL4726K Tinted orange 10.6
4φ Round type

SEL4414G Diffused green 24.0

Green 560 SEL4826D Diffused orange 3.0
SEL4414E Tinted green 30.0 Amber 10 610
2.0 2.5 50 !9 SEL4826A Tinted yellow 5.0
SEL4714Y Diffused yellow 13.0 1.9
Yellow 570 SEL4926D Diffused orange 3.0
SEL4714K Tinted yellow 17.0 Orange 587
SEL4926A Tinted orange 5.0
SEL4814D Diffused orange 4.5
Amber 10 610 SEL5220S Tinted red Red 1.9 2.8 630
SEL4814A Tinted orange 7.5
1.9 SEL5420E Tinted green Green 6.8 560
SEL4914D Diffused orange 5.5 2.0
Pure @6
Orange 587 SEL5520C Un-tinted
green 2.5 50 2.4 20 555
SEL4914A Tinted orange 16.0
SEL5820A Tinted orange Amber 6.0 610
SEL6210R Diffused red 12.0 1.9
Red 1.9 630 SEL5920A Tinted orange Orange 4.4 587
SEL6210S Tinted red 25.0
5mm pitch lead type

SEL5221S Tinted red Red 1.9 14.0 630

SEL6410G Diffused green 15.0
Green 20 560 SEL5421E Tinted green Green 36.0 560
SEL6410E Tinted green 45.0 2.0
Pure
SEL5521C Un-tinted green 2.5 50 14.0 20 555 @7
SEL6510G Diffused green 5.0
Pure 2.0
green 555 SEL5821A Tinted orange Amber 22.0 610
SEL6510C Un-tinted 16.0 1.9
2.5 50 @0 SEL5921A Tinted orange Orange 22.0 587
SEL6710Y Diffused yellow 5.0
Yellow 570 SEL5223S Tinted red Red 1.9 6.0 630
Round type

SEL6710K Tinted yellow 15.0

SEL5423E Tinted green Green 2.0 14.0 560
SEL6810D Diffused orange 4.0 2.5 50 20 @8
Amber 10 610 SEL5823A Tinted orange Amber 9.0 610
SEL6810A Tinted orange 10.0 1.9
1.9 SEL5923A Tinted orange Orange 9.0 587
SEL6910D Diffused orange 6.5
Orange 587
SEL6910A Tinted orange 14.0

SEL6214S Tinted red Red 1.9 10.0 630

SEL6414E Tinted green Green 12.0 20 560

2.0
Pure
SEL6514C Un-tinted green 2.5 50 6.0 555 @1

SEL6814A Tinted orange Amber 5.0 610

1.9 10
SEL6914A Tinted orange Orange 5.0 587

50
6-5. Bicolor LEDs 6-6. Infrared LEDs

Absolute Maximum Ratings (Ta = 25°C) Absolute Maximum Ratings (Ta = 25°C)
Parameter Unit Ratings Parameter Unit Ratings
PD mW 75 PD mW 150
IF mA 30 IF mA 100
IFP mA 100 ∆IF mA/°C –1.33 (more than 25 °C)
VR V 4 I FP mA 1000 (f = 1 kHz, Tw ≤ 10 µs)
Top °C –30 to +85 VR V 3
Tstg °C –30 to +100 Top °C –30 to +85
VF Condition IF = 10 mA Tstg °C –30 to +100
IR Condition VR = 4 V VF Condition IF = 50 mA
I R Condition VR = 5 V
Electro-Optical Characteristics (Ta = 25°C) le Condition (Constant voltage) Vcc = 3 V
R = 2.2 Ω
VF IR IV
λp
(V) (µA) (mcd) Con- Fig.
Type No. Emitting Color
dition No. Electro-Optical Characteristics (Ta = 25°C)
IF (nm) VF IR le λp Fig.
typ max max typ
(mA) typ Type No. (V) (µA) (mW/sr) (nm) No.
High intensity red 1.9 630 typ max typ
SML1216W 40 max min
Green 2.0 560 #4
SID1010CXM 40
SML1016 Amber 1.9 610 1.25 1.5 10 940
SML1816W 2.5 10 40 20 @9 SID1010CM 85 #5
series Green 2.0 560 #4
SID1K10CXM 75
Orange 1.9 587 1.20 1.5 10 940
SML19416W 40 SID1K10CM 140 #5
Green 2.0 560 SID303C
High intensity red 1.9 10 630
SML12460C SID303BR 100
SML10060 Green 2.0 20 560
2.5 10 20 #0 SID303BS 1.4
series Orange 1.9 10 587 1.25 10 940 #6
SML19460C SID307BR 220
Green 2.0 20 560 SID313BP 210
High intensity red 1.9 630
SML12451W 40 SID1003BQ 1.45 170
SML10051 Green 2.0 560
2.5 10 20 #1
series Amber 1.9 610
SML18451W 40
Green 2.0 560
UltraHigh intensity red 1.7 2.2 660
Anode SML16760CN 20 #0
Yellow green 2.4 3.0 570
common 10 20
UltraHigh intensity red 1.7 2.2 50 660
series SML16751WN #1
Yellow green 2.4 3.0 40 570
High intensity red 1.9 10 630
SML72420C
Contact Green 2.0 20 560
mount Amber 1.9 10 610
SML78420C 2.5 10 20 #2
SML70020 Green 2.0 20 560
series Orange 1.9 10 587
SML79420C
Green 2.0 20 560
High intensity red 1.9 10 630
SML72423C
Green 2.0 20 560
Contact
Amber 1.9 10 610
mount SML78423C 2.5 10 20 #3
Green 2.0 20 560
SML70023
Orange 1.9 10 587
series SML79423C
Green 2.0 20 560

51
6-7. Chip LEDs 6-8. AlGaInP Ultra-High Intensity LEDs

Absolute Maximum Ratings (Ta = 25°C) Absolute Maximum Ratings (Ta = 25°C)
Parameter Unit Ratings Parameter Unit Ratings
IF mA 30 IF mA 30
IFP mA 70 I FP mA 100
VR V 4 VR V 3
Top °C –30 to +85 Top °C –30 to +85
Tstg °C –30 to +90 Tstg °C –30 to +100
VF Condition IF = 10 mA VF Condition IF = 10 mA
IR Condition VR = 4 V IR Condition VR = 3 V

Electro-Optical Characteristics (Ta = 25°C) Electro-Optical Characteristics (Ta = 25°C)

VF IR IV VF IR IV
Emit- λp
(V) (µA) (mcd) Con- λp Fig. Type No.
Type of (V) (µA) (mcd) Con- Fig.
Type No. Emitting Color ting
dition No. Lens dition No.
IF Color IF (nm)
typ max max typ (nm) typ max max typ
(mA) (mA) typ

SEC1101C Red 2.0 1.2 700 SELU1250CM 600 !8

2.5 SELU1210CXM Red 2.0 2.5 100 400 20 635 #4
SEC1201C High intensity red 1.9 7.0 630
SELU1253CM 300 #5
SEC1601C Ultra-High 1.7 2.2 60.0 660 SELU1750CM 500 !8
intensity red
Yellow
SEC1401C Green 100 15.0 20 560 #7 SELU1710CXM 2.0 2.5 100 300 20 570 #4
green
2.0 2.5 SELU1753CM 200 #5
SEC1501C Pure green 6.5 555 Un-tinted
SELU1850CM 1000 !8
Flat type

SEC1801C Amber 14.5 610 SELU1810CXM Amber 2.0 2.5 100 700 20 615 #4
1.9 2.5
SEC1901C Orange 10.0 587 SELU1853CM 500 #5
SELU1950CM 900 !8
q Green 2.0 15.0 560
SEC2422C SELU1910CXM Orange 2.0 2.5 100 600 20 590 #4
High
w 1.9 2.5 9.0 630 SELU1953CM 400 #5
intensity red
100 20 #8
q Green 2.0 15.0 560
SEC2462C
Ultra-High
w 1.7 2.2 14.0 660
intensity red
SEC1203C High intensity red 1.9 18.0 630
2.5
SEC1403C Green 2.0 20.0 560
100 20 #9
SEC1603C Ultra-High 1.7 2.2 120.0 660
intensity red
SEC1703C High intensity
yellow green
2.0 2.5 30.0 570
6-9. Blue LEDs
Inner lens type

q Green 2.0 20.0 560

SEC2424C High
w intensity red 1.9 2.5 20.0 630

q Green 2.0 20.0 560 Absolute Maximum Ratings (Ta = 25°C)

SEC2464C 100 20 $0
Ultra-High Parameter Unit Ratings
w 1.7 2.2 30.0 660
intensity red
IF mA 30
High intensity
q 2.0 2.5 30.0 570 IFP mA 100
yellow green
SEC2764C
VR V 3
w Ultra-High 1.7 2.2 30.0 660
intensity red Top °C –30 to +85
Tstg °C –30 to +100
VF Condition IF = 20 mA
IR Condition VR = 3 V

Electro-Optical Characteristics (Ta = 25°C)

VF IR Iv
Type of Emit- λp
Type No. (V) (µA) (mcd) Con- Fig.
ting
Lens dition No.
Color IF (nm)
typ max max typ
(mA) typ
SELU1E53BMKT Tinted blue Blue 3.5 4.0 50 600 20 470 $1

52
 External Dimensions (unit : mm)
Fig. 1 Fig. 8
*Resin heap 1.5max
20.0min 6.0±0.5 6.0±0.2 2.8±0.2
φ 5.6 ±0.2
23.0min 5.0 ±0.5
7.6±0.5
19.0min 0.8 * (2.0) 2.0±0.2
19.0min 0.8 (1.0)
Cathode

(2.54)

5.0±0.2

1.5±0.2
φ 5.0±0.2

1.1max
0.8
0.5±0.1
Cathode 0.5 Cathode mark
(2.54)

0.5 ± 0.1

1.1max

0.8
0.5 Resin heap 1.5max

Fig. 2 Fig. 9
*Resin heap 1.5max
1.0min 25.5min 5.0±0.1 20.0min 6.0±0.5 6.0±0.2 3.8±0.2
19.0min 0.8 * (2.0) 3.0±0.2
Cathode (6.5±0.5)

φ 4.0±0.2
2.2 0.8 1.5

(2.54)

5.0±0.2

1.5±0.2
1.1max
0.8
0.5± 0.1
Cathode
φ 4.8

(2.54)

0.5 Cathode mark

0.45 ± 0.1

1.1max

0.4 Resin heap 1.5max

*Resin heap 1.5max
Fig. 3 Fig. 10
20.0min 5.0±0.5 9.0±0.2 4.0±0.2
19.0min 0.8 * (1.0) 2.5±0.15
1.0min 25.8min 3.5±0.1
Cathode

(2.54)

5.0±0.2
φ 3.1±0.1

1.7
(1.3)

1.1max

0.8
0.5 ± 0.1
Cathode 0.5 3.0±0.15
φ 3.8

(2.54)

0.45 ± 0.1

0.65max

0.4 Resin heap 1.5max

Fig. 4 Fig. 11 *Resin heap 1.5max
20.0min 4.5±0.5 (8.5) 3.2±0.2
19.0min 0.8 * 4.5 4.0±0.2 1.0±0.15
(2.54)

1.55 1.0min 25.4min 4.0±0.1

4.9
(1.3)
1.1max

0.8
0.5 ± 0.1

Cathode 0.5 2.8

(2.54)

φ 3.1±0.1
φ 3.8

0.65max
0.45±0.1

0.4+0.1
0 Cathode Resin heap 1.5max

Fig. 5 Fig. 12
2.3 1.0min 23.0min 5.0±0.2 2.0±0.2
φ 5.0±0.2

Cathode 20.0min 5.0±0.5 7.9±0.2

±0.1

19.0min 0.8 (1.0)

(2.54)
4.3

4.0
(2.54)

0.45 ± 0.1

±0.1
0.65max

0.4 0 Cathode Resin heap 1.0max

1.1max

0.8
0.5 ± 0.1

0.5 Resin heap 1.5max

φ 5.6+0.2

Fig. 6 Fig. 13
1.0min 23.0min 5.0±0.2 2.0±0.1
1.0min 25.8min 4.2±0.1
Cathode Cathode
φ 3.1±0.1

1.7 (1.3)
4.0±0.2
(2.54)
(2.54)
φ 3.8

0.45 ± 0.1

0.65max

Resin heap 0.8max

0.45 ± 0.1

0.65max

0.4 Resin heap 1.5max

Fig. 7 Fig. 14
2.5±0.2 1.0min 23min 8.0 ±0.2
φ 2.0+0.1

(1.5) 4.0±0.1 1.0min 23.5min 5.0±0.2 2.0±0.1

3.1±0.2

Cathode (1.0)
(2.54)

4.0±0.2
4.4±0.2

±0.2
(2.54)

4.0
0.65max

Cathode
0.45 ± 0.1

0.45 ± 0.1

C1.0
0.65max

Resin heap 1.5max Resin heap 0.8max

53
 Fig. 15 Fig. 21 1.0min 23.0min 4.5±0.5
20.0min 5.0±0.5 5.8±0.2
Cathode
19.0min 0.8 (1.0) 3.5 (1.6) 2.5±0.1
Cathode

φ 4.9±0.2
(2.54)

0.8 ±0.2

(2.54)
4.0 ±0.2

φ 3.5
4.4
0.5±0.1

1.1max

0.8

0.65max
±0.1
0.5 Resin heap 1.5max
+0.1

0.45
φ 5.6±0.2 0.40 Resin heap 0.8max

Resin burr max 0.3

Fig. 16
+0.1
1.0min 2.6±0.1 Resin heap 0.8max

0.65max
25.8min 0.4 0
Cathode Fig. 22

±0.1
φ 3.1±0.1

0.45
1.7 (1.3) q

φ 3.1±0.1
(2.54)
4.0 ±0.2

±0.2

4.4
(2.54)

0.8
3.8

w (1.7) 3.5±0.1
0.65max
0.45±0.1

0.4 Resin heap 1.5max 3.5

Cathode mark
min 1.0 min 23.0 5.5±0.1

Fig. 17
1.0min 20.5min 8.0±0.2 3.0
φ 5.6±0.2 5.5±0.5 8.2±0.2 Fig. 23

3.1±0.2
3.5±0.2
20.0min 2.4
Cathode (1.0)
19.0min 0.8 (1.0)
Cathode

(2.54)

4.0
φ 5.0±0.2
(2.54)

0.65max
±0.1
0.45
Resin heap 0.8max
0.5±0.1

1.1max

0.8

0.5 Resin heap 1.5max

Fig. 18 1.0min 23.0min 4.9±0.3

Fig. 24 4.6±0.1
Cathode

4.0±0.1
Anode Resin burr max 0.3 Resin heap max 1.5
+0.1
0.5 –0
(2.54)
0.5 ±0.1
MAX
0.65

0.65max
0.45 ±0.1

4.2 ±0.1
φ 5.0±0.2
(2.54)

Resin heap 0.8max

41 ±0.1

20 ±0.1

±0.3
min 1.0 min 21.0 9.4

Cathode

Fig. 25
2.3 1.0min 21.0min 7.0±0.2 2.0±0.1
Fig. 19 1.0min 24.5min 5.0±0.2
2.2 (1.5)
(2.54)

4.0±0.1
4.3
φ 4.0±0.2

0.45±0.1
φ 4.8

(2.54)

±0.1
0.65max

0.4 0.1 Cathode Resin heap 1.0max

0.65max
0.45±0.1

+0.1 Cathode Resin heap 0.8max

0.4 –0

Fig. 26 1.0min 23.0min 4.2±0.5

Fig. 20 1.0min 23.0min 5.5 ±0.5

3.5 (1.7) 3.5±0.1

Cathode
6.0±0.2
(5.0)
6.2
φ 3.1±0.1
(2.54)
4.0 ±0.2

0.8 ±0.2

4.4

1.4

+0.1

0.65max

Cathode mark
0.45 ±0.1

0.65max

0.5

3.6 Cathode
+0.1 Resin heap 0.8max
0.4 0 Resin heap 0.8max
3.3±0.2

54
Fig. 27 Fig. 32
5.8±0.5

0.65max
1.0min 23.0min
3.9 Resin heap 1.5max

0.45±0.1
Resin burr 0.3max
1

6.0±0.1
(5.0)
6.2

2 (P.2.54)

6.2

6.0
1.4

3 (P.2.54)

0.5±0.1

0.65max
Cathode mark
Cathode
3.6 Resin heap 0.8max 1.0min 20.0min 3.9
3.6 1.5min

0.5+0.1
φ 3.3±0.2
3.2±0.2

3.3
Fig. 28

1.0min 23.0min 5.0±0.5

3.9
Fig. 33

0.65max
Resin heap 1.5max
(P.5.0)

0.45±0.1
3.6
6.0
6.2

Resin burr 0.3max

1
1.4

Cathode mark (P.2.54)

0.5+0.1

0.65max

Cathode 2

6.2

3.6
6.0
3.6 Resin heap 0.8max (P.2.54) 3

1.0min 20.0min 3.9

3.1

3.6 1.5min 5.8±0.5

0.5±0.1

0.5±0.1

3.1
Fig. 29
1.0min 1.5min 17.0min 10.6±0.5
0.5 2.0±0.5 1.0 7.6±0.2
Fig. 34
1
(2.54)(2.54)
φ 5.8±0.2

φ 5.0±0.2

2
φ 5.6±0.2 1.0min 23.0min (1.0) 6.9±0.2
3 Cathode
0.4 0.8 1.2
±0.1

0.65max

Resin heap 1.5max

φ 5.0±0.2
3-0.5

(2.54)

1 Anode
2 Cathode (common)
0.65max

3 Anode
0.5±0.1

0.5±0.1 Resin heap 1.5max

Fig. 30
1.5max Fig. 35
0.65max

φ 5.6±0.2 1.0min 23.0min (1.0) 7.6±0.2

3 – 0.5±0.1

0.5 Resin heap 0.3max Cathode

(P2.54) (P2.54)

φ 5.0±0.2

1
(2.54)
5.0±0.2

2
5.2

0.65max
0.5±0.1

3
Resin heap 1.5max

2.8 0.8 1.2 (2.0) 5.0±0.2 0.5 ±0.1

1.0min 17.0min 7.0±0.5 2.5±0.2

1.5min

Fig. 31 Fig. 36

2.0min 24.0min 8.5±0.2

0.65max

1.5max
3-0.5±0.1

Resin burr 0.3max

0.5±0.1 5.6 Anode A±0.5 (8.5)
0.8 1.2
(P2.54) (P2.54)

1
(P2.54)

φ 4.8±0.2
φ 4.6±0.2
φ 5.0±0.2

2
3
0.6+0.1

1.1max
0.85+0.1

0.6+0.1
Cathode Resin burr 0.3max
17.0min
1.0min 1.0max 2.0±0.2 9.6 Resin heap 1.5max
±0.5
1.5min 11.6

55
 Fig. 37 Fig. 40
1.4
Cathode mark 2.5 1.4 0.6 0.9
1.5 (blue) 0.9 (0.5) 1.3

1.0
3.0

2.0
1.5

1.0
1 2
3.0

2.0
1.5

1.6
Resin Substrate Lens

Fig. 38 Fig. 41
1.4
Cathode mark
(blue) 0.9 Cathode Resin burr 0.3max Resin heap 1.5max
2.5 (0.5) 0.6 0.9

2-0.5 ±0.1
2-1.2 ±0.2
1.0

(2.54)

4.6±0.2
Chip Chip
3.0

2.0
1.5

1.0

1 2
0.8

4.7±0.2
Resin Substrate 1.0 min 19.5 min 7.7±0.2
11.7±0.5
Anode

0.5 ±0.1

5.6±0.2
Fig. 39
1.5 1.4 1.3

5.7±0.2
3.0

2.0
1.7

1.6

Lens

56
Type No. Type Type No. Type

Index (Type No. Order)

57
Index (Type No. Order)
Type No. Type Type No. Type
2SA1186 16 2SC3830 17
2SA1215 Transistors for Audio Amplifier (LAPT) 16 2SC3831 17
Transistors for Switch Mode Power Supply (For AC 80 to 130V input)
2SA1216 16 2SC3832 17
2SA1262 General Purpose Transistor 19 2SC3833 17
2SA1294 16 2SC3834 17
Transistors for Humidifier
2SA1295 16 2SC3835 17
Transistors for Audio Amplifier (LAPT)
2SA1303 16 2SC3851 General Purpose Transistor 19
2SA1386 16 2SC3852 Low V CE (sat) · High hFE Transistor 18
2SA1488 General Purpose Transistor 19 2SC3856 16
2SA1492 16 2SC3857 Transistors for Audio Amplifier (Single Emitter) 16
2SA1493 Transistors for Audio Amplifier (Single Emitter) 16 2SC3858 16
2SA1494 16 2SC3890 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SA1567 18 2SC3927 17
Low VCE (sat) · High hFE Transistor Transistors for Switch Mode Power Supply (For AC 180 to 280V input)
2SA1568 18 2SC4020 17
2SA1667 19 2SC4024 18
General Purpose Transistor
2SA1668 19 2SC4064 Low V CE(sat) · High hFE Transistor 18
2SA1673 16 2SC4065 18
2SA1693 16 2SC4073 17
Transistors for Switch Mode Power Supply (For AC 80 to 130V input)
2SA1694 16 2SC4130 17
Transistors for Audio Amplifier (Single Emitter)
2SA1695 16 2SC4131 Low V CE (sat) · High hFE Transistor 18
2SA1725 16 2SC4138 17
2SA1726 16 2SC4139 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SA1746 Low VCE (sat) · High hFE Transistor 18 2SC4140 17
2SA1859 Transistors for Audio Amplifier (Temperature Compensation Driver) 16 2SC4153 Transistors for Humidifier 17
2SA1860 Transistors for Audio Amplifier (LAPT) 16 2SC4296 17
2SA1907 16 2SC4297 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SA1908 Transistors for Audio Amplifier (Single Emitter) 16 2SC4298 17
2SA1909 16 2SC4299 17
2SB1257 18 2SC4300 17
Transistors for Switch Mode Power Supply (For AC 180 to 280V input)
2SB1258 18 2SC4301 17
2SB1259 18 2SC4304 17
2SB1351 18 2SC4381 19
Darlington Transistor General Purpose Transistor
2SB1352 18 2SC4382 19
2SB1382 18 2SC4388 Transistors for Audio Amplifier (Single Emitter) 16
2SB1383 18 2SC4418 17
Transistors for Switch Mode Power Supply (For AC 80 to 130V input)
2SB1420 18 2SC4434 17
2SB1559 16 2SC4445 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17
2SB1560 16 2SC4466 16
2SB1570 16 2SC4467 Transistors for Audio Amplifier (Single Emitter) 16
2SB1587 16 2SC4468 16
2SB1588 16 2SC4495 Low V CE (sat) · High hFE Transistor 18
2SB1624 16 2SC4495 Transistors for Audio Amplifier (Temperature Compensation/Driver) 16
Transistors for Audio Amplifier (Darlington)
2SB1625 16 2SC4511 16
Transistors for Audio Amplifier (Single Emitter)
2SB1626 16 2SC4512 16
2SB1647 16 2SC4517 17
Transistors for Switch Mode Power Supply (For AC 180 to 280V input)
2SB1648 16 2SC4518 17
2SB1649 16 2SC4546 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SB1659 16 2SC4557 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17
2SC2023 General Purpose Transistor 19 2SC4662 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SC2837 16 2SC4706 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17
2SC2921 Transistors for Audio Amplifier (LAPT) 16 2SC4883 Transistors for Audio Amplifier (Temperature Compensation/Driver) 16
2SC2922 16 2SC4886 Transistors for Audio Amplifier (LAPT) 16
2SC3179 General Purpose Transistor 19 2SC4907 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SC3263 16 2SC4908 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17
2SC3264 16 2SC5002 Transistors for Display Horizontal Deflection Output 17
Transistors for Audio Amplifier (LAPT)
2SC3284 16 2SC5003 Transistors for Display Horizontal Deflection Output 17
2SC3519 16 (With Built-in damper diode)
2SC3678 17 2SC5071 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17
2SC3679 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17 2SC5099 16
Transistors for Audio Amplifier (Single Emitter)
2SC3680 17 2SC5100 16

58
Type No. Type Type No. Type
2SC5101 Transistors for Audio Amplifier (Single Emitter) 16 2SK2703 26
2SC5124 Transistors for Display Horizontal Deflection Output 17 2SK2704 26
VDSS = 450V MOS FET
2SC5130 Transistors for Switch Mode Power Supply (For AC 80 to 130V input) 17 2SK2705 26
2SC5239 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17 2SK2706 26
2SC5249 17 2SK2707 26
Transistors for Switch Mode Power Supply (For AC 80 to 130V input)
2SC5271 17 2SK2708 26
VDSS = 600V MOS FET
2SC5287 Transistors for Switch Mode Power Supply (For AC 180 to 280V input) 17 2SK2709 26
2SC5333 General Purpose Transistor 19 2SK2710 26
2SC5370 Low VCE (sat) · High hFE Transistor 18 2SK2778 26
VDSS = 100V MOS FET
2SD1769 18 2SK2779 26
2SD1785 18 2SK2803 26
2SD1796 18 2SK2804 VDSS = 450V MOS FET 26
2SD2014 18 2SK2805 26
2SD2015 18 2SK2848 VDSS = 600V MOS FET 26
2SD2016 18 AG01 38
Darlington Transistor
2SD2017 18 AG01A 38
Ultra-Fast Recovery Rectifier Diode (Axial)
2SD2045 18 AG01Y 38
2SD2081 18 AG01Z 38
2SD2082 18 AK 03 40
2SD2083 18 AK 04 40
Schottky Barrier Diode (Axial)
2SD2141 18 AK 06 40
2SD2389 16 AK 09 40
2SD2390 16 AL01Z Ultra-Fast Recovery Rectifier Diode (Axial) 38
2SD2401 16 AM01 36
2SD2438 Transistors for Audio Amplifier (Darlington) 16 AM01A Rectifier Diode (Axial) 36
2SD2439 16 AM01Z 36
2SD2493 16 AP01C Ultra-Fast Recovery Rectifier Diode (Axial) 38
2SD2494 16 AS01 37
2SD2495 16 AS01A Fast Recovery Rectifier Diode (Axial) 37
2SD2557 18 AS01Z 37
Darlington Transistor
2SD2558 18 AU01 37
2SD2560 16 AU01A 37
2SD2561 16 AU01Z 37
Transistors for Audio Amplifier (Darlington) Fast Recovery Rectifier Diode (Axial)
2SD2562 16 AU02 37
2SD2589 16 AU02A 37
2SJ424 26 AU02Z 37
VDSS = –60V MOS FET
2SJ425 26 CTB-24 40
2SK1177 26 CTB-24L 40
Schottky Barrier Diode (Center Tap)
2SK1178 26 CTB-34 40
2SK1179 VDSS = 500V MOS FET 26 CTB-34M 40
2SK1180 26 EA 03 Schottky Barrier Diode (Axial) 40
2SK1181 26 EG 1 38
2SK1183 26 EG 1A 38
VDSS = 200V MOS FET
2SK1184 26 EG 1Y 38
2SK1185 26 EG 1Z 38
2SK1186 VDSS = 100V MOS FET 26 EG01 Ultra-Fast Recovery Rectifier Diode (Axial) 38
2SK1187 26 EG01A 38
2SK1188 26 EG01C 38
2SK1189 26 EG01Y 38
2SK1190 26 EG01Z 38
VDSS = 60V MOS FET
2SK1191 26 EH 1 37
2SK1192 26 EH 1A Fast Recovery Rectifier Diode (Axial) 37
2SK1712 26 EH 1Z 37
2SK2207 26 EK 03 40
VDSS = 900V MOS FET
2SK2208 26 EK 04 40
2SK2419 26 EK 06 40
2SK2420 VDSS = 60V MOS FET 26 EK 09 Schottky Barrier Diode (Axial) 40
2SK2421 26 EK 13 40
2SK2701 26 EK 14 40
VDSS = 450V MOS FET
2SK2702 26 EK 16 40

59
Type No. Type Type No. Type
EK 19 Schottky Barrier Diode (Axial) 40 FMB-G12L 40
EL 1 38 FMB-G14 40
EL 1Z Ultra-Fast Recovery Rectifier Diode (Axial) 38 FMB-G14L 40
EL02Z 38 FMB-G16L Schottky Barrier Diode (1-Chip Frame) 40
EM 1 36 FMB-G19L 40
EM 1A 36 FMB-G22H 40
EM 1B 36 FMB-G24H 40
EM 1C 36 FMC-26U Ultra-Fast Recovery Rectifier Diode (Center Tap) 38
EM 1Y 36 FME-24H 40
Schottky Barrier Diode (Center Tap)
EM 1Z 36 FME-24L 40
Rectifier Diode (Axial)
EM 2 36 FMG-12S, R 38
EM 2A 36 FMG-13S, R 38
EM 2B 36 FMG-14S, R 38
EM01 36 FMG-22S, R 38
EM01A 36 FMG-23S, R 38
EM01Z 36 FMG-24S, R Ultra-Fast Recovery Rectifier Diode (Center Tap) 38
EN01Z 38 FMG-26S, R 38
Ultra-Fast Recovery Rectifier Diode (Axial)
EP01C 38 FMG-32S, R 38
ES 1 37 FMG-33S, R 38
ES 1A 37 FMG-34S, R 38
ES 1F 37 FMG-36S, R 38
ES 1Z 37 FMG-G26S 38
Fast Recovery Rectifier Diode (Axial)
ES01 37 FMG-G2CS 38
Ultra-Fast Recovery Rectifier Diode (1-Chip Frame)
ES01A 37 FMG-G36S 38
ES01F 37 FMG-G3CS 38
ES01Z 37 FML-12S 38
ET020 PNPN Switch 33 FML-13S 38
EU 1 37 FML-14S 38
EU 1A 37 FML-22S 38
EU 1Z 37 FML-23S 38
Ultra-Fast Recovery Rectifier Diode (Center Tap)
EU 2 37 FML-24S 38
EU 2A 37 FML-32S 38
EU 2YX 37 FML-33S 38
EU 2Z Fast Recovery Rectifier Diode (Axial) 37 FML-34S 38
EU01 37 FML-36S 38
EU01A 37 FML-G12S 38
EU01Z 37 FML-G13S 38
EU02 37 FML-G14S 38
Ultra-Fast Recovery Rectifier Diode (1-Chip Frame)
EU02A 37 FML-G16S 38
EU02Z 37 FML-G22S 38
EZ0150 Avalanche Diode with Built-in Thyristor 41 FML-G26S 38
FMB-22H 40 FMM-22S, R 36
FMB-22L 40 FMM-24S, R 36
FMB-24 40 FMM-26S, R 36
Rectifier Diode (Center Tap)
FMB-24H 40 FMM-32S, R 36
FMB-24L 40 FMM-34S, R 36
FMB-24M 40 FMM-36S, R 36
FMB-26 40 FMN-G12S Ultra-Fast Recovery Rectifier Diode (1-Chip Frame) 38
FMB-26L 40 FMP-3FU Damper Diode (For CRT Display) 39
FMB-29 40 FMP-G12S Ultra-Fast Recovery Rectifier Diode (1-Chip Frame) 38
FMB-29L Schottky Barrier Diode (Center Tap) 40 FMP-G2FS 39
FMB-32 40 FMP-G5HS 39
FMB-32M 40 FMQ-3GU 39
FMB-34 40 FMQ-G2FLS Damper Diode (For CRT Display) 39
FMB-34M 40 FMQ-G2FS 39
FMB-34S 40 FMQ-G5FMS 39
FMB-36 40 FMQ-G5GS 39
FMB-36M 40 FMR-G5HS Damper Diode (For TV) 39
FMB-39 40 FMU-12S, R 37
Fast Recovery Rectifier Diode (Center Tap)
FMB-39M 40 FMU-14S, R 37

60
Type No. Type Type No. Type
FMU-16S, R 37 RF 1A 37
FMU-21S, R 37 RF 1B Fast Recovery Rectifier Diode (Axial) 37
FMU-22S, R 37 RF 1Z 37
FMU-24S, R 37 RG 10 38
Fast Recovery Rectifier Diode (Center Tap)
FMU-26S, R 37 RG 10A 38
FMU-32S, R 37 RG 10Y 38
Ultra-Fast Recovery Rectifier Diode (Axial)
FMU-34S, R 37 RG 1C 38
FMU-36S, R 37 RG 2 38
FMU-G16S 37 RG 2A 38
FMU-G26S Fast Recovery Rectifier Diode (1-Chip Frame) 37 RG 2A2 Damper Diode (For CRT Display) 39
FMU-G2YXS 37 RG 2Y 38
FMV-3FU 39 RG 2Z 38
FMV-3GU Damper Diode (For TV) 39 RG 4 38
FMV-G5FS 39 RG 4A Ultra-Fast Recovery Rectifier Diode (Axial) 38
FMX-12S 38 RG 4C 38
FMX-22S 38 RG 4Y 38
Ultra-Fast Recovery Rectifier Diode (Center Tap)
FMX-22SL 38 RG 4Z 38
FMX-32S 38 RH 1 Fast Recovery Rectifier Diode (Axial) 37
FMX-G12S 38 RH 10F Damper Diode (For TV) 39
Ultra-Fast Recovery Rectifier Diode (1-Chip Frame)
FMX-G22S 38 RH 1A 37
GSC215 42 RH 1B 37
Fast Recovery Rectifier Diode (Axial)
GSC218 42 RH 1C 37
GSC315 GaAs Schottky Barrier Diode 42 RH 1Z 37
GSC318 42 RH 2D 39
GSF18R 42 RH 2F 39
HVR-1X-40B High Voltage Rectifier Diode For Microwave Oven 42 RH 3F Damper Diode (For TV) 39
MPE-24H Schottky Barrier Diode (Surface Mount) 40 RH 3G 39
PG001M Stepper Motor Driver IC (Unipolar Driver) 6 RH 4F 39
PZ 127 41 RJ 43 40
PZ 227 41 RK 13 40
Power Zener Diode
PZ 427 41 RK 14 40
PZ 628 41 RK 16 40
R 2M Avalanche Diode 41 RK 19 40
RA 13 Schottky Barrier Diode (Axial) 40 RK 33 40
RBA-1004B Schottky Barrier Diode (Bridge) 40 RK 34 40
Schottky Barrier Diode (Axial)
RBA-402L Ultra-Fast Recovery Rectifier Diode (Bridge) 38 RK 36 40
RBA-404B 40 RK 39 40
Schottky Barrier Diode (Bridge)
RBA-406B 40 RK 42 40
RBV-1306 36 RK 43 40
RBV-1506 36 RK 44 40
RBV-1506S 36 RK 46 40
RBV-2506 36 RK 49 40
RBV-401 36 RL 2 38
RBV-402 36 RL 2A 38
RBV-404 36 RL 2Z 38
Rectifier Diode (Bridge)
RBV-406 36 RL 3 38
RBV-406H 36 RL 3A Ultra-Fast Recovery Rectifier Diode (Axial) 38
RBV-406M 36 RL 3Z 38
RBV-408 36 RL 4A 38
RBV-40C 36 RL 4Z 38
RBV-601 36 RL10Z 38
RBV-602 36 RM 1 36
RBV-602L Ultra-Fast Recovery Rectifier Diode (Bridge) 38 RM 10 36
RBV-604 36 RM 10A 36
RBV-606 36 RM 10B 36
Rectifier Diode (Bridge)
RBV-606H 36 RM 10Z Rectifier Diode (Axial) 36
RBV-608 36 RM 11A 36
RC 2 Fast Recovery Rectifier Diode (Axial) 37 RM 11B 36
RC 3B2 Damper Diode (For Display) 39 RM 11C 36
RF 1 Fast Recovery Rectifier Diode (Axial) 37 RM 1A 36

61
Type No. Type Type No. Type
RM 1B 36 RU 4 37
RM 1C 36 RU 4A 37
Rectifier Diode (Axial)
RM 1Z 36 RU 4AM Fast Recovery Rectifier Diode (Axial) 37
RM 2 36 RU 4B 37
RM 25 41 RU 4C 37
Avalanche Diode
RM 26 41 RU 4D 39
Damper Diode (For CRT Display)
RM 2A 36 RU 4DS 39
RM 2B 36 RU 4M 37
RM 2C 36 RU 4Y 37
Fast Recovery Rectifier Diode (Axial)
RM 2Z 36 RU 4YX 37
RM 3 36 RU 4Z 37
RM 3A 36 RX 3Z Ultra-Fast Recovery Rectifier Diode (Axial) 38
RM 3B 36 RY 23 41
Avalanche Diode
RM 3C Rectifier Diode (Axial) 36 RY 24 41
RM 4 36 RZ1030 41
RM 4A 36 RZ1040 41
RM 4AM 36 RZ1055 41
RM 4B 36 RZ1065 41
RM 4C 36 RZ1100 41
RM 4Y 36 RZ1125 Avalanche Diode with Built-in Thyristor 41
RM 4Z 36 RZ1150 41
RN 1Z 38 RZ1175 41
RN 2Z 38 RZ1200 41
Ultra-Fast Recovery Rectifier Diode (Axial)
RN 3Z 38 RZ1225 41
RN 4Z 38 RZ1250 41
RO 2 36 SAC02 19
RO 2A 36 SAH02 Surface Mount Transistor 19
RO 2B Rectifier Diode (Axial) 36 SAH03 19
RO 2C 36 SAI01 2
RO 2Z 36 SAI02 2
RP 1H Ultra-Fast Recovery Rectifier Diode (Axial) 38 SAI03 Surface Mount Switching Type IC Regulator 2
RP 3F Damper Diode (For CRT Display) 39 SAI04 2
RS 1A 37 SAI06 2
Fast Recovery Rectifier Diode (Axial)
RS 1B 37 SDA01 22
RS 3FS 39 SDC01 22
Damper Diode (For TV)
RS 4FS 39 SDC02 22
RU 1 37 SDC03 22
RU 1A 37 SDC04 Surface Mount Transistor Array 22
Fast Recovery Rectifier Diode (Axial)
RU 1B 37 SDH01 22
RU 1C 37 SDH02 22
RU 1P Ultra-Fast Recovery Rectifier Diode (Axial) 38 SDH03 22
RU 2 37 SDI01 22
RU 20A 37 SDK02 MOSFET Array (Stepper Motor and Solenoid Driving) 27
RU 2AM 37 SDK03M Stepper Motor Driver IC (Unipolar Driver) 6
RU 2B 37 SDK04 MOSFET Array (Stepper Motor and Solenoid Driving) 27
RU 2C 37 SE005N 7
RU 2M 37 SE012N 7
RU 2YX 37 SE015N 7
RU 2Z 37 SE024N 7
RU 3 37 SE034N 7
RU 30 Fast Recovery Rectifier Diode (Axial) 37 SE040N 7
RU 30A 37 SE070N 7
RU 30Y 37 SE080N Error Amplifier ICs (SE Series) 7
RU 30Z 37 SE090N 7
RU 3A 37 SE105N 7
RU 3AM 37 SE110N 7
RU 3B 37 SE115N 7
RU 3C 37 SE120N 7
RU 3M 37 SE125N 7
RU 3YX 37 SE130N 7

62
Type No. Type Type No. Type
SE135N 7 SEL1824D 49
Error Amplifier ICs (SE Series)
SE140N 7 SEL1910A 48
Standard LEDs
SE-B3 Variable Voltage Detection Type Error Amplifier ICs 7 SEL1910D 48
SEC1101C 52 SEL1911D 48
SEC1201C 52 SEL1913K LEDs for Surface Illumination 49
SEC1203C 52 SEL1920D 49
SEC1401C 52 SEL1921D 49
Standard LEDs
SEC1403C 52 SEL1922D 49
SEC1501C 52 SEL1924D 49
SEC1601C 52 SEL1950KM Contact Mount LEDs for Automatic Insertion 50
SEC1603C 52 SEL2110R 48
Chip LEDs
SEC1703C 52 SEL2110S 48
SEC1801C 52 SEL2110W 48
SEC1901C 52 SEL2111R 48
Standard LEDs
SEC2422C 52 SEL2111W 48
SEC2424C 52 SEL2210R 48
SEC2462C 52 SEL2210S 48
SEC2464C 52 SEL2210W 48
SEC2764C 52 SEL2213C LEDs for Surface Illumination 49
SEL1110R 48 SEL2215R 48
SEL1110S 48 SEL2215S 48
SEL1110W 48 SEL2410E Standard LEDs 48
SEL1111R 48 SEL2410G 48
SEL1120R Standard LEDs 49 SEL2411G 48
SEL1121R 49 SEL2413E LEDs for Surface Illumination 49
SEL1124R 49 SEL2415E 48
SEL1210R 48 SEL2415G 48
SEL1210S 48 SEL2510C 48
Standard LEDs
SEL1213C LEDs for Surface Illumination 49 SEL2510G 48
SEL1222R Standard LEDs 49 SEL2710K 48
SEL1250SM Contact Mount LEDs for Automatic Insertion 50 SEL2710Y 48
SEL1410E 48 SEL2713K LEDs for Surface Illumination 49
SEL1410G Standard LEDs 48 SEL2715K 48
SEL1411G 48 SEL2715Y 48
Standard LEDs
SEL1413E LEDs for Surface Illumination 49 SEL2810A 48
SEL1420G 49 SEL2810D 48
SEL1421G 49 SEL2813A LEDs for Surface Illumination 49
Standard LEDs
SEL1422G 49 SEL2815A 48
SEL1424G 49 SEL2815D 48
Standard LEDs
SEL1450EKM Contact Mount LEDs for Automatic Insertion 50 SEL2910A 48
SEL1510C Standard LEDs 48 SEL2910D 48
SEL1550CM Contact Mount LEDs for Automatic Insertion 50 SEL2913K LEDs for Surface Illumination 49
SEL1610C 49 SEL2915A 48
SEL1615C Ultra-High Intensity LEDs 49 SEL2915D 48
SEL1650CM 49 SEL4110R Standard LEDs 48
SEL1710K 48 SEL4110S 48
SEL1710Y Standard LEDs 48 SEL4110W 48
SEL1711Y 48 SEL4114R 50
Contact Mount LEDs for Automatic Insertion
SEL1713K LEDs for Surface Illumination 49 SEL4114S 50
SEL1720Y 49 SEL4117R 48
SEL1721Y 49 SEL4210R Standard LEDs 48
SEL1722Y 49 SEL4210S 48
SEL1724Y Standard LEDs 49 SEL4214R 50
Contact Mount LEDs for Automatic Insertion
SEL1810A 48 SEL4214S 50
SEL1810D 48 SEL4225C 49
Standard LEDs
SEL1811D 48 SEL4225R 49
SEL1813A LEDs for Surface Illumination 49 SEL4226C 50
Contact Mount LEDs for Automatic Insertion
SEL1820D 49 SEL4226R 50
SEL1821D Standard LEDs 49 SEL4227C 49
Standard LEDs
SEL1822D 49 SEL4228C 49

63
Type No. Type Type No. Type
SEL4229R Contact Mount LEDs for Automatic Insertion 50 SEL5923A 50
SEL4410E 48 SEL6210R 50
Standard LEDs
SEL4410G 48 SEL6210S 50
SEL4414E 50 SEL6214S 50
Contact Mount LEDs for Automatic Insertion
SEL4414G 50 SEL6215S 50
SEL4417G 48 SEL6410E 50
SEL4425E Standard LEDs 49 SEL6410G 50
SEL4425G 49 SEL6414E 50
SEL4426E 50 SEL6415E 50
Contact Mount LEDs for Automatic Insertion
SEL4426G 50 SEL6427EP 50
SEL4427E 49 SEL6510C 50
Standard LEDs
SEL4428E 49 SEL6510G 50
Contact Mount LEDs for Automatic Insertion
SEL4429E Contact Mount LEDs for Automatic Insertion 50 SEL6514C 50
SEL4510C 48 SEL6515C 50
SEL4527C 49 SEL6710K 50
SEL4528C Standard LEDs 49 SEL6710Y 50
SEL4710K 48 SEL6810A 50
SEL4710Y 48 SEL6810D 50
SEL4714K 50 SEL6814A 50
Contact Mount LEDs for Automatic Insertion
SEL4714Y 50 SEL6815A 50
SEL4717Y 48 SEL6910A 50
SEL4725K Standard LEDs 49 SEL6910D 50
SEL4725Y 49 SEL6914A 50
SEL4726K 50 SEL6915A 50
Contact Mount LEDs for Automatic Insertion
SEL4726Y 50 SELU1210CXM 52
SEL4728K 49 SELU1250CM 52
SEL4810A Standard LEDs 48 SELU1253CM 52
SEL4810D 48 SELU1710CXM 52
SEL4814A 50 SELU1750CM 52
Contact Mount LEDs for Automatic Insertion
SEL4814D 50 SELU1753CM 52
AlGaInP Ultra-High Intensity LEDs
SEL4817D 48 SELU1810CXM 52
SEL4825A Standard LEDs 49 SELU1850CM 52
SEL4825D 49 SELU1853CM 52
SEL4826A 50 SELU1910CXM 52
Contact Mount LEDs for Automatic Insertion
SEL4826D 50 SELU1950CM 52
SEL4828A Standard LEDs 49 SELU1953CM 52
SEL4829A Contact Mount LEDs for Automatic Insertion 50 SELU1E53BMKT Blue LEDs 52
SEL4910A 48 SFPA-51 40
Standard LEDs
SEL4910D 48 SFPA-53 40
SEL4914A 50 SFPA-63 40
Contact Mount LEDs for Automatic Insertion
SEL4914D 50 SFPA-73 40
SEL4917D 48 SFPB-52 40
SEL4925A Standard LEDs 49 SFPB-54 40
SEL4925D 49 SFPB-56 40
SEL4926A 50 SFPB-59 40
Contact Mount LEDs for Automatic Insertion
SEL4926D 50 SFPB-62 40
SEL4928A Standard LEDs 49 SFPB-64 40
Schottky Barrier Diode (Surface Mount)
SEL5220S 50 SFPB-66 40
SEL5221S 50 SFPB-69 40
SEL5223S 50 SFPB-72 40
SEL5420E 50 SFPB-74 40
SEL5421E 50 SFPB-76 40
SEL5423E 50 SFPE-63 40
SEL5520C Contact Mount LEDs for Automatic Insertion 50 SFPE-64 40
SEL5521C 50 SFPJ-53 40
SEL5820A 50 SFPJ-63 40
SEL5821A 50 SFPJ-73 40
SEL5823A 50 SFPL-52 38
Ultra-Fast Recovery Rectifier Diode (Surface Mount)
SEL5920A 50 SFPL-62 38
SEL5921A 50 SFPM-52 Rectifier Diode (Surface Mount) 36

64
Type No. Type Type No. Type
SFPM-54 36 SI-8021 2
SFPM-62 Rectifier Diode (Surface Mount) 36 SI-8022 Switching Type/2-Pack Type IC Regulator 2
SFPM-64 36 SI-8023 2
SFPZ-68 Power Zener Diode (Surface Mount) 41 SI-8033S 2
SHV-02 42 SI-8050S 2
SHV-03 42 SI-8090S Switching Type IC Regulator 2
SHV-03S 42 SI-8120S 2
SHV-06EN 42 SI-8150S 2
SHV-08DN 42 SI-8201L 3
SHV-08EN 42 SI-8202L 3
SHV-10 42 SI-8203L 3
SHV-10DN 42 SI-8204L 3
High Voltage Rectifier Diode
SHV-10EN 42 SI-8211L 3
SHV-12 42 SI-8213L 3
SHV-12DN 42 SI-8221L 3
SHV-12EN 42 SI-8301L 3
SHV-14 42 SI-8303L 3
SHV-16 42 SI-8401L 3
SHV-20 42 SI-8402L 3
SHV-24 42 SI-8403L Switching Type IC Regulator with Coil 3
SI-3025F 4 SI-8405L 3
SI-3033C 4 SI-8406L 3
SI-3050C 4 SI-8501L 3
SI-3050F 4 SI-8502L 3
SI-3050J 4 SI-8503L 3
SI-3050N 4 SI-8504L 3
SI-3050R 5 SI-8505L 3
SI-3051N 4 SI-8811L 3
SI-3052N 4 SI-8911L 3
SI-3052P 5 SI-8921L 3
SI-3052V 5 SI-8922L 3
SI-3090C 4 SID1003BQ 51
SI-3090F 4 SID1010CM 51
SI-3090J 4 SID1010CXM 51
SI-3090N 4 SID1K10CM 51
SI-3091N 4 SID1K10CXM 51
Infrared LEDs
SI-3092N 4 SID303BR 51
SI-3120C 4 SID303BS 51
SI-3120F 4 SID303C 51
SI-3120J Dropper Type IC Regulator 4 SID307BR 51
SI-3120N 4 SID313BP 51
SI-3121N 4 SLA3001M 5
SI-3122N 4 SLA3002M 3-Output IC Regulator 5
SI-3122P 5 SLA3004M 5
SI-3122V 5 SLA4010 Sink Drive Transistor Array with Avalanche Diode 20
SI-3150C 4 SLA4030 Sink Drive Transistor Array (General Purpose) 20
SI-3150F 4 SLA4031 20
Sink Drive Transistor Array with Built-in Flywheel Diode
SI-3150J 4 SLA4041 20
SI-3150N 4 SLA4060 Sink Drive Transistor Array (General Purpose) 20
SI-3151N 4 SLA4061 Sink Drive Transistor Array with Built-in Flywheel Diode 20
SI-3152N 4 SLA4070 Source Drive Transistor Array (General Purpose) 20
SI-3152P 5 SLA4071 Source Drive Transistor Array with Built-in Flywheel Diode 20
SI-3152V 5 SLA4310 20
SI-3157F 4 SLA4313 20
SI-3240C 4 SLA4340 H-Bridge Transistor Array 20
SI-3241N 4 SLA4390 20
SI-3242P 5 SLA4391 20
SI-7230M 6 SLA5001 27
Stepper Motor Driver IC (Bipolar Driver ICs)
SI-7502 6 SLA5002 MOSFET Array (Stepper Motor and Solenoid Driving) 27
SI-8020 Switching Type/2-Pack Type IC Regulator 2 SLA5003 27

65
Type No. Type Type No. Type
SLA5004 27 SML12460C 51
SLA5005 MOSFET Array (Stepper Motor and Solenoid Driving) 27 SML16751WN 51
SLA5006 27 SML16760CN 51
SLA5007 27 SML1816W 51
MOSFET Array (Stepper Motor and DC Motor Driving)
SLA5008 27 SML18451W 51
SLA5009 27 SML19416W 51
MOSFET Array (DC Motor Driving)
SLA5010 27 SML19460C Bicolor LEDs 51
SLA5011 Stepper Motor Driver IC (Bipolar Driver) 6 SML72420C 51
SLA5011 27 SML72423C 51
MOSFET Array (5-Phase Motor Driving)
SLA5012 27 SML78420C 51
SLA5013 MOSFET Array (Stepper Motor and DC Motor Driving) 27 SML78423C 51
SLA5015 MOSFET Array (5-Phase Motor Driving) 27 SML79420C 51
SLA5017 MOSFET Array (DC Motor Driving) 27 SML79423C 51
SLA5018 MOSFET Array (Stepper Motor and DC Motor Driving) 27 SPB-64S 40
SLA5021 MOSFET Array ("S" Shape Correction Circuit Switch for CRT Display) 27 SPB-G34S 40
SLA5022 Transistor Array (3-Phase Motor Driver) 20 SPB-G54S Schottky Barrier Diode (Surface Mount) 40
SLA5024 MOSFET Array (Stepper Motor and Solenoid Driving) 27 SPB-G56S 40
SLA5029 MOSFET Array (5-Phase Motor Driving) 27 SPJ-63S 40
SLA5031 MOSFET Array (Stepper Motor and Solenoid Driving) 27 SPX-62S 38
Ultra-Fast Recovery Rectifier Diode (Surface Mount)
SLA5037 27 SPX-G32S 38
MOSFET Array ("S" Shape Correction Circuit Switch for CRT Display)
SLA5038 27 SPZ-G36 Power Zener Diode (Surface Mount) 41
SLA5040 MOSFET Array (Stepper Motor and Solenoid Driving) 27 SSB-14 Schottky Barrier Diode (Surface Mount) 40
SLA5041 27 STA203A Triacs 33
SLA5042 27 STA301A Sink Drive Transistor Array with Avalanche Diode 20
MOSFET Array ("S" Shape Correction Circuit Switch for CRT Display)
SLA5044 27 STA302A Source Drive Transistor Array (General Purpose and 3-Phase Motor Driver) 20
SLA5047 27 STA303A Sink Drive Transistor Array (General Purpose and 3-Phase Motor Driver) 20
SLA6012 20 STA304A 20
Transistor Array (3-Phase Motor Driver)
SLA6020 20 STA305A 20
SLA6022 Transistor Array (3-Phase Motor Driver) 20 STA312A Sink Drive Transistor Array (General Purpose) 20
SLA6023 20 STA322A Source Drive Transistor Array (General Purpose) 20
SLA6030 20 STA401A Sink Drive Transistor Array with Avalanche Diode 20
SLA6503 Stepper Motor Driver IC (Bipolar Driver) 6 STA402A Source Drive Transistor Array (General Purpose) 20
SLA7022MU 6 STA403A 20
Sink Drive Transistor Array (General Purpose)
SLA7024M 6 STA404A 20
SLA7026M 6 STA406A 20
Sink Drive Transistor Array with Avalanche Diode
SLA7027MU Stepper Motor Driver IC (Unipolar Driver) 6 STA407A 20
SLA7029M 6 STA408A Source Drive Transistor Array (General Purpose) 20
SLA7042M 6 STA412A Sink Drive Transistor Array (General Purpose) 20
SLA7044M 6 STA413A Sink Drive Transistor Array with Avalanche Diode 20
SLA8001 H-Bridge Transistor Array 20 STA414A Sink Drive Transistor Array (General Purpose) 20
SMA4020 Source Drive Transistor Array (General Purpose) 20 STA421A Source Drive Transistor Array (General Purpose) 20
SMA4021 Source Drive Transistor Array with Built-in Flywheel Diode 20 STA431A 20
H-Bridge Transistor Array
SMA4030 Sink Drive Transistor Array (General Purpose) 20 STA434A 20
SMA4032 20 STA435A Sink Drive Transistor Array with Avalanche Diode 20
Sink Drive Transistor Array with Built-in Flywheel Diode
SMA4033 20 STA457C 20
H-Bridge Transistor Array
SMA5101 27 STA458C 20
MOSFET Array (Stepper Motor and Solenoid Driving)
SMA5102 27 STA460C 20
Sink Drive Transistor Array with Avalanche Diode
SMA5103 MOSFET Array (Stepper Motor and DC Motor Driving) 27 STA471A 20
SMA5104 MOSFET Array (DC Motor Driving) 27 STA472A Source Drive Transistor Array (General Purpose) 20
SMA5105 27 STA473A Sink Drive Transistor Array (General Purpose) 20
MOSFET Array (Stepper Motor and Solenoid Driving)
SMA5106 27 STA475A 20
SMA5112 MOSFET Array (3-Phase High Voltage DC Motor Driving) 27 STA481A Sink Drive Transistor Array with Avalanche Diode 20
SMA6010 20 STA485A 20
Transistor Array (3-Phase Motor Driver)
SMA6014 20 STA501A 27
SMA6511 20 STA504A 27
Transistor Array (Stepper Motor Dual Power Supply Driver) MOSFET Array (Stepper Motor and Solenoid Driving)
SMA6512 20 STA505A 27
SMA7022MU 6 STA506A 27
Stepper Motor Driver IC (Unipolar Driver)
SMA7029M 6 STR20005 2
SML1216W 51 STR2005 Switching Type IC Regulator 2
Bicolor LEDs
SML12451W 51 STR2012 2

66
Type No. Type Type No. Type
STR2013 2 TM1061S-L 33
STR2015 Switching Type IC Regulator 2 TM1061S-R 33
STR2024 2 TM1241S-L 33
STR7001 2 TM1241S-R 33
STR7002 2 TM1261S-L 33
STR7003 2 TM1261S-R 33
Switching Type/2-Pack Type IC Regulator
STR7101 2 TM1641P-L(L) 33
STR7102 2 TM1641S-L 33
STR7103 2 TM1661P-L(L) 33
STR80145A 7 TM1661S-L 33
STR81145A 7 TM341M-L 33
STR81159A 7 TM341S-L 33
Voltage Doubler/Bridge Rectifier Automatic Switch IC
STR82145 7 TM341S-R 33
Triacs
STR83145 7 TM361M-L 33
STR83159 7 TM361S-L 33
STR9005 5 TM361S-R 33
STR9012 Dropper Type IC Regulators 5 TM541M-L 33
STR9015 5 TM541S-L 33
SV 02YS 41 TM541S-R 33
SV 03YS 41 TM561M-L 33
SV 04YS 41 TM561S-L 33
SV 05YS 41 TM561S-R 33
Silicon Varistor
SV 06YS 41 TM841M-L 33
SV-2SS 41 TM841S-L 33
SV-3SS 41 TM861M-L 33
SV-4SS 41 TM861S-L 33
TF321M 32 UX-C2B High-Voltage Rectifier Diode For Microwave Oven 42
TF321M-A 32 VR-60SS 41
Silicon Varistor
TF321S 32 VR-61SS 41
TF341M 32
TF341M-A 32
TF341S 32
TF361M 32
TF361M-A 32
TF361S 32
TF521M 32
TF521S 32
TF541M Thyristors 32
TF541S 32
TF541S-A 32
TF561M 32
TF561S 32
TF561S-A 32
TF821M 32
TF821S 32
TF841M 32
TF841S 32
TF861M 32
TF861S 32
TFD312S-C 32
TFD312S-F 32
TFD312S-G 32
TFD312S-J 32
TFD312S-K Thyristors (with built-in Avalanche Diode) 32
TFD312S-L 32
TFD312S-M 32
TFD312S-N 32
TFD312S-O 32
TM1041S-L 33
Triacs
TM1041S-R 33

67
Memo
Memo
Memo