Optical Semiconductor Devices : SEMICONDUCTOR GENERAL ...

August 2012 

SEMICONDUCTOR GENERAL CATALOG 

Optical Semiconductor Devices 

Visible LEDs 

Photocouplers and Photorelays 

Fiber-Optic Devices (TOSLINK TM ) 

Image Sensors 

1 2012/8 SCE0004M

LEDs 

Mini PLCC LED Lamps 

(Flat-Top) 

Part Number Source Color Package Size (mm) 

TLEGD1060(T18) Z Green 

Optical Characteristics (Ta = 25°C) 

Intensity IV (mcd) Typical Emitting Wavelength Viewing Angle 

Min Typ. λd (nm) lp (nm) 2θ1/2 (°) 

63 150 528 518 

TLBD1060(T18) Z Blue 25 60 470 468 

2.2(L) x 1.4(W) x 1.3(H) 

TLCBD1060(T18) Z Ice blue 40 90 a0.2/0.3 

TLWD1060(T18) Z White 40 90 a0.31/0.30 

Z: Dry-packed a: CIE1931 (chromaticity coordinate) (typ.) 

• x Contact the Toshiba sales representative for information about RoHS compliance before you purchase any components. 

110 

IF 

(mA) 

Packaging 

Specification 

20 Embossed tape 

Tape No.: T18 

4-mm pitch 

10 3000 pcs/reel 

PLCC LED Lamps 

(Flat-Top) 

Part Number 

Source Color 

TLEGD1100B(T11 Z Green 

Package 

Size 

(mm) 


Intensity IV (mcd) Typical Emitting Wavelength Viewing Angle 

Min Typ. ld (nm) lp (nm) 2θ1/2 (°) 

100 200 528 518 

TLBD1100B(T11 Z Blue 40 70 470 468 

TLBA1100B(T11) Z Blue 

3.5(L) x 2.8(W) x 

1.9(H) 

4 7 465 428 

TLCBD1100B(T11 Z Ice blue 32 90 a0.2/0.3 

TLWD1100B(T11 Z White 63 180 a0.32/0.31 

TLEGF1100D(T11 Z Green 

500 1100 528 518 

TLBF1100D(T11 Z Blue 200 400 470 468 

IF 

(mA) 

20 

10 

Packaging 

Specification 

TLWF1100D(T11 Z White 3.5(L) x 2.9(W) x 1000 1800 a0.31/0.30 

1.9(H) 

TLWNF1100D(T11 Z Natural white 1000 1800 a0.345/0.35 

TLWLF1100D(T11 Z Warm white 800 1400 a0.44/0.40 

TLEGF1108A(T11 Z Green 

1000 2200 523 518 

TLBF1108A(T11 Z Blue 400 800 467 468 

TLWF1108A(T11 Z White 2000 3600 a0.31/0.3 

TLWNF1108A(T11 Z Natural white 2000 3600 a0.345/0.35 

3.5(L) x 2.9(W) x 

TLWLF1108A(T11 Z Warm white 1.9(H) 1600 2800 a0.44/0.4 

TLWF1109A(T11 Z White 2000 3600 a0.31/0.3 

TLWNF1109A(T11 Z Natural white 2000 3600 a0.345/0.35 

TLWLF1109A(T11 Z Warm white 1600 2800 a0.44/0.4 

Z: Dry-packed 

a: CIE1931 (chromaticity coordinate) (typ.) 


120 

20 

40 

Embossed tape 

Tape No.: T11 

4-mm pitch 

2000 pcs/reel 

2 2012/8 SCE0004M

See-Through LEDs 

(Lighting Applications) 

TL21W02-D 

TL21W02-N 

TL21W02-L 

Part Number 

TL21W02-D1 

TL21W02-N1 

TL21W02-L1 

TL21W02-LL1 

TL21W01-D 

TL21W01-N 

TL21W01-L 

TL21W01-D1 

TL21W01-N1 

TL21W01-L1 

TL21W01-LL1 

Z: Dry-packed 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Z 

Source Color 

White 

(Color temperature: 6500K) 

White 

(Color temperature: 5000 K) 

White 


White 


White 


White 


White 


White 


White 


White 


White 


White 


White 


White 


Package 

Size 

(mm) 

2.5(L) x 2.1(W) x 

0.65(H) 

2.5(L) x 2.1(W) x 

0.65(H) 

Luminous Flux 

F (Im) 


aTypical 

Chromaticity 

Min Typ. Cx Cy 

30.3 48 0.313 0.329 

36.0 51 0.345 0.355 

30.3 46 0.434 0.403 

30.3 45 0.313 0.329 

30.3 47 0.345 0.355 

25.5 40 0.434 0.403 

25.5 40 0.458 0.410 

12.7 20 0.313 0.329 

15.1 22 0.345 0.355 

12.7 18 0.434 0.403 

12.7 18 0.313 0.329 

12.7 20 0.345 0.355 

10.7 16 0.434 0.403 

10.7 15 0.458 0.410 

a: CIE1931 (chromaticity coordinate) (typ.) 


Ra 

70 min 

80 min 

70 min 

80 min 

Forward 

Voltage 

VF (V) 

3.25 

3.1 

Viewing 

Angle 

2θ1/2 (°) 

140 

130 

140 

130 

IF 

(mA) 

150 

60 

Packaging 

Specification 

Embossed tape 

Tape No.: T34 

4-mm pitch 

2000 pcs/reel 

Embossed tape 

Tape No.: T34 

4-mm pitch 

2000 pcs/reel 

3 2012/8 SCE0004M

Photocouplers and Photorelays 

Photocouplers 

(Transistor Output) 

Part Number Pin Configuration Features 

TLP124 

TLP126 

TLP130 

6 

1 

6 4 

1 

6 

1 

3 

4 

3 

5 4 

3 

Mini-flat 

MFSOP6 

Low input drive current 

Mini-flat 

MFSOP6 

AC input 


Mini-flat 

MFSOP6 

AC input 

Internal base connection 

Rank 

Min 

(%) 

— 100 

BV 200 

CTR 

Max 

(%) 

@IF / VCE 

(mA) (V) 

1200 1/0.5 

VCEO 

(V) 

80 

BVs 

1 Minute 

(Vrms) 

Safety Standards (1) 

UL c-UL TÜV VDE BSI IEC 

◦ ◦ 

— 100 1200 ±1/0.5 ◦ ◦ 

— 50 

GB 100 

600 ±5/5 80 ◦ ◦ 

TLP131 6 

TLP137 

1 

5 4 

3 

Mini-flat 

MFSOP6 

General-purpose 


Mini-flat 

MFSOP6 



— 50 

GB 100 

— 100 

BV 200 

600 5/5 

◦ ◦ 

80 

3750 

1200 1/0.5 ◦ ◦ 

— 

6 4 

50 400 

Y 50 150 

SO6 (reinforced insulation) 

TLP184 * 

AC input 

GR 100 300 ±5/5 

◦ ◦ r (2) ◦ (2) ◦ r 

1 3 

BLL 200 

GB 100 

400 

— 50 

400 

GB 100 

80 

6 4 

Y 50 150 

TLP185 * 

SO6 (reinforced insulation) 

GR 100 300 

BLL 200 400 

5/5 ◦ ◦ r (2) ◦ (2) ◦ r 

1 3 

YH 75 150 

GRL 100 200 

GRH 150 300 

Note (1): Legend in the Safety Standards column: 

*: New product 

BSI and IEC: ◦: Approved (supplementary or basic insulation) 7: Approved (reinforced insulation) : Design which meets safety standard/approval 

pending as of May 2012 BSI: EN 60065 / EN 60950, IEC: IEC 60065 / IEC 60950 

TÜV and VDE: ◦: Approved : Design which meets safety standard/approval pending as of May 2012 

EN 60747-5-2- or EN 60747-5-5-approved with optionV4 or D4 

Note (2): The EN60747 safety standard for compact packages is different from that for standard DIP packages. Since the mini-flat package is a compact package, please contact 

your nearest Toshiba sales representative for more details. 

• x The pin configuration diagrams only show the general configurations of the circuits. 


4 2012/8 SCE0004M


TLP280-4 

16 15 14 13 12 11 10 9 

1 

2 

3 

4 

5 

6 

7 

8 

SOP16 

4-channel version 

Lead pitch: 1.27 mm 

AC input 

SEMKO-approved 

Rank 

Min 

(%) 

— 50 

GB 100 

CTR 

Max 

(%) 

@IF / VCE 

(mA) (V) 

VCEO 

(V) 

BVs 

1 Minute 

(Vrms) 



600 ±5/5 80 2500 ◦ ◦ r (2) ◦ (2) 7 r 

TLP281-4 

TLP284-4 

TLP285-4 

16 15 14 13 12 11 10 9 

1 

2 

3 

4 

16 15 14 13 12 11 10 9 

1 

2 

3 

4 

16 15 14 13 12 11 10 9 

1 

2 

3 

4 

5 

5 

5 

6 

6 

6 

7 

7 

7 

8 

8 

8 

SOP16 




SOP16 



AC input 

General-purpose·High BVs 

Creepage distance: 

5.0 mm (min) 

SOP16 



General-purpose·High BVs 

Creepage distance: 

5.0 mm (min) 

— 50 

GB 100 

— 50 600 

GB 100 600 

— 50 600 

GB 100 600 

600 5/5 80 2500 ◦ ◦ r (2) ◦ (2) 7 r 

±5/5 80 3750 ◦ ◦ ◦ (2) 7 

5/5 80 3750 ◦ ◦ ◦ (2) 7 










5 2012/8 SCE0004M

Photocouplers 

(Transistor Output) (Continued) 


TLP290 * 

TLP290-4 * 

TLP291 * 

TLP291-4 * 

4 

1 

16 15 14 13 12 11 10 9 

1 

2 

3 

4 

1 

4 

16 15 14 13 12 11 10 9 

1 

2 

3 

4 

5 

5 

3 

2 

3 

2 

6 

6 

7 

7 

8 

8 

SO4 

(reinforced insulation) 

AC input 


SO16 



AC input 

SO4 



SO16 



Rank 

Min 

(%) 

CTR 

Max 

(%) 

— 50 400 

Y 50 150 

GR 100 300 

BLL 200 

GB 100 

400 

— 50 400 

GB 100 400 

— 50 

400 

GB 100 

Y 50 150 

GR 100 300 

BLL 200 400 

YH 75 150 

GRL 100 200 

GRH 150 300 

— 50 400 

GB 100 400 

@IF / VCE 

(mA) (V) 

±5/5 

VCEO 

(V) 

80 

BVs 

1 Minute 

(Vrms) 



3750 ◦ ◦ ◦ (2) r r 

±5/5 2500 ◦ ◦ ◦ (2) r r 

5/5 3750 ◦ ◦ ◦ (2) r r 

5/5 2500 ◦ ◦ ◦ (2) r r 

TLP320 

4 

1 

3 

2 

DIP4 

High input current 

AC input 

IF = 150 mA 

— 

8 

7 

6 5 

TLP320-2 

DIP8 

Dual-channel version 

of the TLP320 

— 

20 80 ±100/1 55 5000 ◦ ◦ r r 7 r 

1 

2 

3 

4 

16 15 14 13 12 11 10 

9 

TLP320-4 

DIP16 

4-channel version of 

the TLP320 

— 

1 

2 

3 

4 

5 

6 

7 

8 

TLP330 

6 

1 

5 4 

2 

3 

DIP6 


AC input 

IF = 150 mA 

— 20 80 ±100/1 55 5000 ◦ ◦ 

TLP331 

TLP332 

6 

1 

6 

1 

5 4 

2 3 

5 4 

2 3 

DIP6 


Internal base 

connection 

DIP6 


No internal base 

connection 

— 100 

BV 200 

— 100 

BV 200 

1200 1/0.5 55 5000 ◦ ◦ 

TLP504A 

8 

1 

7 

2 

6 5 

3 

4 

DIP8 


— 50 

GB 100 

600 5/5 55 2500 ◦ 











6 2012/8 SCE0004M


TLP531 (3) 

TLP532 (3) 

6 

1 

6 

1 

5 4 

2 

3 

5 4 

2 

3 

DIP6 


Internal base 

connection 

DIP6 


High EMI immunity 


connection 

Rank 

Min 

(%) 

— 50 

GB 100 

BL 200 

CTR 

Max 

(%) 

600 

GR 100 300 

Y 50 150 

— 50 

GB 100 600 

BL 200 

GR 100 300 

Y 50 150 

@IF / VCE 

(mA) (V) 

VCEO 

(V) 

BVs 

1 Minute 

(Vrms) 

5/5 55 2500 ◦ ◦ 



TLP620 

TLP620F 

4 

1 

3 

2 

DIP4 

AC input 


— 50 

GB 100 

TLP620-2 

8 

1 

7 

2 

6 5 

3 4 

DIP8 

Dual channel version 

of the TLP620 


— 50 

GB 100 

600 ±5/5 55 5000 ◦ ◦ r ◦ 7 r 

TLP620-4 

16 15 14 13 12 11 10 

1 2 3 4 5 6 7 

9 

8 

DIP16 


the TLP620 

— 50 

GB 100 

TLP624 

4 

1 

3 

2 

DIP4 


— 100 

BV 200 

TLP624-2 

8 

1 

7 

2 

6 5 

3 4 

DIP8 


of the TLP624 

— 100 

BV 200 

1200 1/0.5 55 5000 ◦ ◦ r ◦ 7 r 

TLP624-4 

16 15 14 13 12 11 10 

1 2 3 4 5 6 7 

9 

8 

DIP16 


the TLP624 

— 100 

BV 200 

TLP626 

4 

1 

3 

2 

DIP4 


AC input 

— 100 

BV 200 

1200 ±1/0.5 55 5000 ◦ ◦ r ◦ 7 r 

TLP626-2 

TLP626-4 

8 7 6 5 

1 2 3 4 

16 15 14 13 12 11 10 9 

1 2 3 4 5 6 7 8 

DIP8 


of the TLP626 

DIP16 


the TLP626 

— 100 

BV 200 

— 100 

BV 200 

1200 ±1/0.5 55 5000 ◦ ◦ r ◦ 7 r 






Note (3): The products with the ranks Y and BL are limited in production. For details, please contact your nearest Toshiba sales representative. 



7 2012/8 SCE0004M

Photocouplers 

(Transistor Output) (Continued) 


Rank 

Min 

(%) 

CTR 

Max 

(%) 

@IF / VCE 

(mA) (V) 

VCEO 

(V) 

BVs 

1 Minute 

(Vrms) 



TLP628 

4 

1 

3 

2 

DIP4 

High VCEO 

VCEO = 350 V 

— 50 

GB 100 

TLP628-2 

8 

1 

7 

2 

6 5 

3 

4 

DIP8 

Dual channel version of 

the TLP628 

— 50 

GB 100 

600 5/5 350 5000 ◦ ◦ r ◦ r r 

TLP628-4 

16 15 14 13 12 11 10 

1 2 3 4 5 6 7 

9 

8 

DIP16 


the TLP628 

— 50 

GB 100 

TLP629 

4 

1 

3 

2 

DIP4 


IF = 150 mA 

DC input 

8 

7 

6 5 

TLP629-2 

DIP8 


the TLP629 

— 20 80 100/1 55 5000 ◦ r ◦ r r 

1 

2 

3 

4 

16 15 14 13 12 11 10 

9 

TLP629-4 

DIP16 


the TLP629 

1 

2 

3 

4 

5 

6 

7 

8 

TLP630 

6 

1 

5 4 

2 

3 

DIP6 

AC input 

High isolation voltage 

— 50 

GB 100 

600 ±5/5 55 5000 ◦ 

TLP631 

TLP632 

6 

1 

6 

1 

5 4 

2 3 

5 4 

2 3 

DIP6 


Internal base 

connection 

DIP6 




connection 

— 50 

600 

GB 100 

GR 100 300 

— 50 

600 

GB 100 

GR 100 300 

5/5 55 5000 ◦ ◦ 

TLP731 

TLP732 

6 

1 

6 

1 

5 4 

2 3 

5 4 

2 3 

DIP6 


Internal base 

connection 

DIP6 



connection 

— 50 

600 

GB 100 

GR 100 300 

— 50 

600 

GB 100 

GR 100 300 

5/5 55 4000 ◦ ◦ r ◦ 7 r 








8 2012/8 SCE0004M


Rank 

Min 

(%) 

CTR 

Max 

(%) 

@IF / VCE 

(mA) (V) 

VCEO 

(V) 

BVs 

1 Minute 

(Vrms) 



TLP733 

TLP733F 

6 

1 

5 4 

2 3 

DIP6 


Internal base 

connection 

— 50 

600 

GB 100 

GR 100 300 

5/5 55 4000 ◦ ◦ r ◦ 7 r 

TLP734 

TLP734F 

6 

1 

5 4 

2 3 

DIP6 



connection 

— 50 

600 

GB 100 

GR 100 300 

— 50 600 

Y 50 150 

4 3 

GR 100 300 

TLP781 (5) DIP4 

BL 200 


600 

TLP781F (5) UL-approved 

GB 100 

5/5 80 5000 ◦ ◦ r ◦ 7 r 

(double protection) 

1 2 


YH 75 150 

GRL 100 200 

GRH 150 300 

BLL 200 400 

— 50 600 

Y 50 150 

4 3 

GR 100 300 

TLP785 * (6) DIP4 

BL 200 


600 

TLP785F * (6) GB 100 

5/5 80 5000 ◦ ◦ r ◦ 7 r 

UL-approved 

(double protection) YH 75 150 

1 2 

GRL 100 200 

GRH 150 300 

BLL 200 400 







Note (5): For details of the TLP781 and TLP781F, please contact your nearest Toshiba sales representative. 

Note (6): For details of the TLP785 and TLP785F, please contact your nearest Toshiba sales representative. 



9 2012/8 SCE0004M

Photocouplers 

(Darlington Transistor Output) 


Min 

(%) 

CTR 

@IF / VCE 

(mA) (V) 

Max 

(V) 

VCE(sat) 

@IC / IF 

(mA) 

VCEO 

(V) 

BVs 

1 Minute 

(Vrms) 



6 

4 

TLP127 

Mini-flat 

MFSOP6 

High VCEO 

1000 1/1 1.2 100/10 300 2500 ◦ ◦ ◦ (2) ◦ (2) 7 r 

1 

3 

6 

5 4 

TLP371 

DIP6 

High VCEO 


1 

2 

3 

1000 1/1 1.2 100/10 300 5000 ◦ ◦ 

TLP372 

6 

1 

5 4 

2 

3 

DIP6 

High VCEO 


connection 

TLP373 

6 

1 

2 

4 

3 

DIP6 

High VCEO 

Long emitter-collector 

distance 

1000 1/1 1.2 100/10 300 5000 ◦ ◦ 

4 

3 

TLP523 

DIP4 


1 

2 

8 

7 

6 5 

TLP523-2 

DIP8 


of the TLP523 

500 1/1 1.0 50/10 55 2500 ◦ ◦ 

1 

2 

3 

4 

16 15 14 13 12 11 10 

9 

TLP523-4 

DIP16 


the TLP523 

1 

2 

3 

4 

5 

6 

7 

8 

6 

5 4 

TLP570 

DIP6 



◦ ◦ 

1 

2 

3 

1000 1/1 1.2 100/10 35 2500 

TLP571 

6 

1 

5 4 

2 3 

DIP6 


Internal base 

connection 

◦ 










10 2012/8 SCE0004M


Min 

(%) 

CTR 

@IF / VCE 

(mA) (V) 

Max 

(V) 

VCE(sat) 

@IC / IF 

(mA) 

VCEO 

(V) 

BVs 

1 Minute 

(Vrms) 



6 

5 4 

TLP572 

DIP6 


Built-in RBE 

1000 1/1.2 1.2 100/10 55 2500 ◦ 

1 

2 

3 

4 

3 

TLP627 

DIP4 

High VCEO 


1 

2 

TLP627-2 

8 

1 

7 

2 

6 5 

3 

4 

DIP8 


the TLP627 


1000 1/1 1.2 100/10 300 5000 ◦ ◦ r ◦ 7 r 

16 15 14 13 12 11 10 

9 

TLP627-4 

DIP16 


the TLP627 

1 

2 

3 

4 

5 

6 

7 

8 








11 2012/8 SCE0004M

Photocouplers 

(Thyristor Output) 


Trigger LED 

Current, IFT 

Peak On-State 

Voltage, VTM 

Off-State 

Output 

Terminal 

Voltage 

VDRM (V) 

BVs 

1 Minute 

(Vrms) 


Max (mA) Max (V) @ITM (mA) UL c-UL TÜV VDE BSI IEC 

6 

5 4 

TLP148G 

Mini-flat 

MFSOP6 


10 1.45 100 400 

◦ ◦ 

1 

3 

6 

5 

4 

TLP548J 

DIP6 


Low trigger current 

7 1.45 100 600 2500 ◦ r 

1 

2 

3 

8 

6 5 

TLP549J 

DIP8 

Long anode-cathode 

distance (SCR) 

7 1.45 100 600 ◦ r 

1 2 3 

4 

6 

5 

4 

TLP748J 

TLP748JF 

DIP6 


10 1.45 100 600 4000 ◦ ◦ ◦ 7 

1 

2 

3 








12 2012/8 SCE0004M

(Triac Output) 


Trigger LED 

Current, IFT 

— 

6 4 

10 

TLP160G 

TLP165J 

Mini-flat 

MFSOP6 

Non-zero cross 

IFT7 

IFT5 

— 

7 

5 

10 

TLP160J 

1 3 

IFT7 7 

— 10 

Peak On-State 

Voltage, VTM 

Off-State 

Output 

Terminal 

Voltage 

VDRM (V) 

BVs 

1 Minute 

(Vrms) 


Rank Max (mA) Max (V) @ITM (mA) UL c-UL TÜV VDE BSI IEC 

2.8 70 

400 

2500 

◦ ◦ r (2) ◦ (2) 

600 ◦ ◦ r (2) ◦ (2) 

TLP161G 

Mini-flat 

IFT7 7 400 ◦ ◦ r (2) ◦ (2) 

MFSOP6 

IFT5 5 

70 

ZC 

TLP166J 

Zero cross 

6 4 

— 10 

TLP161J IFT7 7 

◦ ◦ r (2) ◦ (2) 

Mini-flat 

MFSOP6 

2.8 

2500 

Zero cross 

TLP163J 

1 3 

High impulse noise 

— 10 100 600 

◦ ◦ r (2) r (2) 

immunity 

VN = 2000 V (typ.) 

Mini-flat 

TLP168J 

MFSOP6 

— 3 70 ◦ ◦ ◦ (2) 

Zero cross 

6 

4 

TLP260J 

Mini-flat 

MFSOP6 


— 10 2.8 70 600 3000 ◦ r (2) ◦ (2) 

1 

3 

6 

4 

TLP261J 

ZC 

Mini-flat 

MFSOP6 

Zero cross 

— 10 2.8 70 600 3000 ◦ r (2) ◦ (2) 

1 

3 

TLP360J 

TLP360JF 

4 

1 

3 

2 

DIP4 


— 10 

IFT7 7 

TLP361J 

TLP361JF 

4 3 

DIP4 

Zero cross 

— 

IFT7 

10 

7 

ZC DIP4 

TLP363J 

Zero cross 

High impulse noise — 10 

TLP363JF 

1 2 immunity 

VN = 2000 V (typ.) 

4 

3 

3.0 100 600 5000 ◦ ◦ ◦ ◦ 

3.0 100 600 5000 ◦ ◦ ◦ ◦ 

TLP525G 

DIP4 — 10 

1 

2 

TLP525G-2 

8 

1 

7 

2 

6 5 

3 4 

DIP8 

Dual channel 

version of the 

TLP525G 

— 10 

3.0 100 400 2500 ◦ ◦ 

16 15 14 13 12 11 10 

9 

TLP525G-4 

DIP16 


the TLP525G 

— 10 

1 

2 

3 

4 

5 

6 

7 

8 










13 2012/8 SCE0004M

Photocouplers 

(Triac Output) (Continued) 


TLP560G 

TLP560J 

TLP561G 

TLP561J 

TLP3022(S) 

TLP3022F(S) 

TLP3023(S) 

TLP3023F(S) 

6 

1 

6 

1 

6 

2 

2 

4 

3 

4 

ZC 

3 

4 

DIP6 


Non zero cross 

DIP6 


Zero cross 

DIP6 



Trigger LED 

Current, IFT 

Peak On-State 

Voltage, VTM 

Off-State 

Output 

Terminal 

Voltage 

VDRM (V) 

BVs 

1 Minute 

(Vrms) 


Rank Max (mA) Max (V) @ITM (mA) UL c-UL TÜV VDE BSI IEC 

— 10 

IFT7 7 400 

IFT5 5 3.0 100 

— 10 

600 

IFT7 7 

— 10 

IFT7 7 400 

IFT5 5 3.0 100 

— 10 

600 

IFT7 7 

— 10 

— 5 

3.0 100 

400 

2500 

◦ ◦ ◦ 

◦ ◦ ◦ 

5000 ◦ ◦ r ◦ 7 r 

TLP3052(S) 

TLP3052F(S) 

1 

2 

3 

DIP6 

High VDRM 



— 10 600 

TLP3042(S) 

TLP3042F(S) 

TLP3043(S) 

TLP3043F(S) 

DIP6 


Zero cross 

— 10 

— 5 

400 

TLP3062(S) 

TLP3062F(S) 

TLP3063(S) 

TLP3063F(S) 

TLP3064(S) 

TLP3064F(S) 

TLP3082(S) 

TLP3082F(S) 

6 

1 

2 

4 

ZC 

3 

DIP6 


High VDRM 

Zero cross 

DIP6 


Zero cross 

DIP6 

Zero cross 

— 10 

— 5 

600 

— 3 

3.0 100 

— 10 800 

5000 

◦ ◦ r ◦ 7 r 

TLP3762(S) 

TLP3762F(S) 

DIP6 

Zero cross 


immunity 

VN = 2000 V (typ.) 

— 10 600 

TLP3782(S) 

TLP3782F(S) 

TLP3783(S) 

TLP3783F(S) 

DIP6 


immunity 

VN = 1500 V (typ.) 

— 10 

— 5 

800 ◦ ◦ r ◦ 

6 

4 

TLP762J 

TLP762JF 

DIP6 


Non zero cross 

— 10 3.0 100 600 4000 ◦ ◦ r ◦ 7 r 

1 

2 

3 

6 

4 

TLP763J 

TLP763JF 

ZC 

DIP6 


Zero cross 

— 10 3.0 100 600 4000 ◦ ◦ r ◦ 7 r 

1 

2 

3 








14 2012/8 SCE0004M

(IC Output) 


Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



6N135 

6N136 

8 

1 

7 

2 

6 5 

3 

4 

DIP8 

JEDEC-compliant 

1M bit/s 

7% Min 

19% Min 

16 

◦ 

8 

7 

6 5 

6N137 

VCC 

GND 

DIP8 


High-speed 

10M bit/s 700% Typ. 5 2500 ◦ 

1 

2 

3 

4 

8 7 6 5 

6N138 

300% Min 1.6 

DIP8 


300k bit/s 

High CTR 

6N139 400% Min 0.5 

1 2 3 4 

◦ 

8 

7 

6 5 

TLPN137 * 

VCC 

GND 

SHIELD 

DIP8 

High-speed 

10M bit/s 

Open-collector output 

(Inverter logic) 

IFHL = 5 

(max) 

5000 r r r r r 

1 

2 

3 

4 

6 

5 4 

TLP104 

SHIELD 

SO6 


Topr (max) 125°C 

Propagation 

delay time 

550 ns (max) 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 

1 

3 

6 

5 4 

TLP105 

Vcc 

GND 

SHIELD 

Mini-flat 

MFSOP6 

5M bit/s 

Totempole output 

(Buffer logic) 

IFLH = 1.6 

(max) 

◦ ◦ ◦ (2) ◦ (2) 

1 

3 

6 

5 

4 

TLP108 

Vcc 

GND 

SHIELD 

Mini-flat 

MFSOP6 

5M bit/s 



IFHL = 1.6 

(max) 

◦ ◦ ◦ (2) ◦ (2) 

1 

3 

TLP109 

6 

5 4 

1M bit/s 20% Min 16 ◦ ◦ r (2) ◦ (2) 

TLP109(IGM) 

1 

SHIELD 

3 

SO6 


Propagation 

delay time 

0.8 ms 

(max) 

3750 

25% Min 10 ◦ ◦ r ◦ (2) 

6 

5 

4 

TLP116A 

Vcc 

GND 

SHIELD 

SO6 


Ultra-high-speed 

20M bit/s 

◦ ◦ r (2) ◦ (2) 

1 

6 

5 

3 

4 



IFHL = 5 

(max) 

TLP117 

Vcc 

GND 

SHIELD 

Mini-flat 

MFSOP6 


50M bit/s ◦ ◦ ◦ (2) ◦ (2) 

1 

3 

TLP118 

6 

VCC 

1 

5 4 

GND 

SHIELD 

3 

SO6 




20M bit/s 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 











15 2012/8 SCE0004M

Photocouplers 

(IC Output) (Continued) 


TLP151 

TLP151A * 

TLP152 ** 

6 

1 

5 4 

3 

SO6 



Direct drive of a small 

power 

IGBT/MOSFET 

SO6 



Direct drive of a medium 

power 

IGBT/MOSFET 

SO6 




power 

IGBT/MOSFET 

Data Rate 

(Typ. @NRZ) 

Propagation delay time 

0.7 ms 

(max) 


0.5 ms 

(max) 


0.2 ms 

(max) 

Output/CTR 

Peak output current: 

±0.6 A (Max) 


±2.5 A (Max) 

@IF(IN) 

(mA) 

IFLH = 5 

(max) 

IFLH = 7.5 

(max) 

BVs 

1 Minute 

(Vrms) 



◦ ◦ ◦ (2) 

◦ ◦ r (2) 

r r r (2) 

TLP155 * 

r r r 


(2) 

Peak output current: IFLH = 7.5 

0.2 ms 

±0.6 A (Max) 

(max) 

(max) 

TLP155E * ◦ ◦ ◦ (2) 

TLP350 

TLP350F 

8 

7 

6 5 

DIP8 


power 

IGBT/MOSFET 

Low power dissipation 


0.5 ms 

(max) 


±2.5 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ ◦ 

TLP350H * 

TLP350HF * 

1 

2 

3 

4 

DIP8 


power 

IGBT/MOSFET 




0.5 ms 

(max) 


±2.5 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ 

TLP351 

TLP351F 

DIP8 


power 

IGBT/MOSFET 



0.7 ms 

(max) 


±0.6 A (Max) 

IFLH = 5 

(max) 

3750 

◦ ◦ ◦ ◦ 

TLP351A * 

TLP351AF * 

8 

7 

6 5 

DIP8 


power 

IGBT/MOSFET 



0.7 ms 

(max) 


±0.6 A (Max) 

IFLH = 5 

(max) 

◦ ◦ 

TLP351H * 

TLP351HF * 

1 

2 

3 

4 

DIP8 


power 

IGBT/MOSFET 




0.7 ms 

(max) 


±0.6 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ 

TLP352 * 

TLP352F * 

DIP8 


power 

IGBT/MOSFET 




0.2 ms 

(max) 


±2.5 A (Max) 

IFLH = 5 

(max) 

◦ ◦ 

TLP358 * 

TLP358F * 

8 

7 

6 5 

DIP8 


power 

IGBT/MOSFET 



0.5 ms 

(max) 


±6 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ ◦ 

TLP358H * 

TLP358HF * 

1 

2 

3 

4 

DIP8 


power 

IGBT/MOSFET 




0.5 ms 

(max) 


±6 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ ◦ 









**Under development: Specifications subject to change without notice. For the latest information, please contact your nearest Toshiba sales representative. 



16 2012/8 SCE0004M


Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



6 

5 

4 

TLP512 

DIP6 

6-pin package version of 

the TLP550 

1M bit/s 20% Min 16 

1 2 3 

6 5 4 

◦ 

TLP513 

VCC 

GND 

DIP6 

6-pin package version of 

the TLP552 

10M bit/s 



IFHL = 5 

(max) 

1 2 3 

TLP550 

8 

1 

8 

7 

2 

7 

6 5 

3 4 

6 5 

DIP8 


connection 

High CMR 

1M bit/s 

10% min 

(19% (min) for rank O) 

16 

◦ 

◦ 

TLP551 

DIP8 


1M bit/s 16 ◦ 

1 

2 

3 

4 

8 

7 

6 5 

TLP552 

VCC 

GND 

DIP8 

High-speed 

10M bit/s 



IFHL = 5 

(max) 

◦ 

8 

1 

2 

7 

3 

4 

6 5 

2500 

TLP553 

DIP8 


300k bit/s 400% Min 0.5 ◦ 

1 

2 

3 

4 

TLP554 

8 

VCC 

1 

7 

2 

6 5 

3 

GND 

SHIELD 

4 

DIP8 

High-speed 

High CMR version of the 

TLP552 

10M bit/s 

Open-collector 


IFHL = 5 

(max) 

◦ ◦ ◦ 

8 

7 

6 5 

TLP555 

VCC 

GND 

SHIELD 

DIP8 

Low input current 

High VCC operation 

5M bit/s 

3-state output 


IFLH = 1.6 

(max) 

◦ ◦ 

1 

2 

3 

4 

8 7 6 5 

TLP557 

1 2 3 4 

DIP8 

Direct drive of a power 

transistor 

Propagation 

delay time 

5 ms 

(max) 

Constant current 

output: 0.25 A 

IFLH = 5 

(max) 

◦ ◦ 

8 

7 

6 5 

TLP558 

VCC 

GND 

SHIELD 

DIP8 

Inverted logic version of 

the TLP555 

5M bit/s 



IFHL = 1.6 

(max) 

◦ ◦ 

1 

2 

3 

4 








17 2012/8 SCE0004M

Photocouplers 



Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



TLP559 

TLP559(IGM) 

8 

1 

7 

2 

6 5 

SHIELD 

3 4 

DIP8 

High CMR version of the 

TLP550 


connection 



0.8 ms 

(max) 

25% Min 10 

2500 ◦ ◦ 

8 

7 

6 5 

TLP651 

DIP8 



1M bit/s 

10% min 


16 

◦ ◦ 

1 

2 

3 

4 

TLP700 

TLP700F 

6 

5 4 

SDIP6 


power IGBT/MOSFET 


SDIP version of the 

TLP350 


0.5 ms 

(max) 


±2.0 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ ◦ 

TLP700A * 

TLP700AF * 

1 2 

3 

SDIP6 




TLP352 


0.2 ms 

(max) 


±2.5 A (Max) 

IFHL = 5 

(max) 

r r r 

TLP700H * 

TLP700HF * 

SDIP6 






TLP350 


0.5 ms 

(max) 


±2.5 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ 

TLP701 

TLP701F 

SDIP6 





TLP351 


0.7 ms 

(max) 


±0.6 A (Max) 

IFLH = 5 

(max) 

5000 

◦ ◦ ◦ ◦ 

6 

5 4 

TLP701A * 

TLP701AF * 

1 2 

3 

SDIP6 





0.7 ms 

(max) 


±0.6 A (Max) 

IFHL = 5 

(max) 

◦ ◦ ◦ 

TLP701H * 

TLP701HF * 

SDIP6 






TLP351 


0.7 ms 

(max) 


±0.6 A (Max) 

IFLH = 5 

(max) 

◦ ◦ ◦ 

TLP705 

TLP705F 

6 

5 4 

SDIP6 



High-speed 



0.2 ms 

(max) 


±0.45 A (Max) 

IFLH = 8 

(max) 

◦ ◦ ◦ ◦ 

TLP705A * 

TLP705AF * 

1 2 

3 

SDIP6 



High-speed 



0.2 ms 

(max) 


±0.6 A (Max) 

IFLH = 7.5 

(max) 

◦ ◦ ◦ 









18 2012/8 SCE0004M


Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



TLP708 

TLP708F 

6 5 4 

VCC 

GND 

SHIELD 

1 2 3 

SDIP6 


High-speed 


TLP118 

15M bit/s 



IFHL = 5 

(max) 

◦ ◦ ◦ 

6 

5 4 

TLP714 * 

TLP714F * 

SHIELD 

SDIP6 


TLP104 


550 ns 

(max) 



IFHL = 5 

(max) 

◦ ◦ ◦ 

1 2 

3 

6 

5 4 

TLP715 

TLP715F 

Vcc 

GND 

SHIELD 

SDIP6 

Direct drive of an IPM 

High CMR 


250 ns 

(max) 



IFLH = 3 

(max) 

◦ ◦ ◦ ◦ 

1 2 

3 

6 

5 4 

TLP716 

TLP716F 

Vcc 

1 2 

GND 

SHIELD 

3 

SDIP6 

High-speed 


TLP116A 

15M bit/s 



IFHL = 6.5 

(max) 

◦ ◦ ◦ ◦ 

6 

5 4 

TLP718 

TLP718F 

Vcc 

GND 

SHIELD 

SDIP6 

Direct drive of an IPM 

High CMR 


250 ns 

(max) 



IFHL = 3 

(max) 

◦ ◦ ◦ ◦ 

1 2 3 

6 5 4 

5000 

TLP719 

SHIELD 

SDIP6 

High CMR 

1M bit/s 20% Min 16 ◦ ◦ ◦ ◦ 

1 

2 

3 

8 

7 

6 5 

TLP750 

TLP750F 

DIP8 


High CMR 


1M bit/s 

10% min 


16 ◦ ◦ r ◦ 7 r 

1 

2 

3 

4 

8 

7 

6 5 

TLP751 

TLP751F 

DIP8 




1M bit/s 10% Min 16 ◦ ◦ r ◦ 7 r 

1 

2 

3 

4 

8 

7 6 5 

TLP754 * 

TLP754F * 

SHIELD 

DIP8 

DIP8 version of the 

TLP104 


450 ns 

(max) 



IFHL = 5 

(max) 

r r r 

1 

2 3 

4 

TLP759 8 

TLP759F 

TLP759(IGM) 

TLP759F(IGM) 1 

7 

2 

6 5 

SHIELD 

3 4 

DIP8 

IEC950 design standard 

version of the TLP559 




0.8 ms 

(max) 

25% Min 10 

◦ ◦ ◦ ◦ 7 r 

6 

5 

4 

TLP2066 

Vcc 

GND 

SHIELD 

Mini-flat 

MFSOP6 

3.3-V power supply 

20M bit/s 



IFHL = 3.5 

(max) 

3750 ◦ ◦ (2) ◦ (2) 

1 

3 











19 2012/8 SCE0004M

Photocouplers 



Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



6 

5 4 

TLP2095 

Vcc 

GND 

SHIELD 

Mini-flat 

MFSOP6 

VCC = 3.0 to 20 V 

5M bit/s 



IFLH = 3 

(max) 

◦ ◦ ◦ (2) 

1 

6 

3 

5 4 

3750 

TLP2098 

Vcc 

GND 

SHIELD 

Mini-flat 

MFSOP6 

VCC = 3.0 to 20 V 

5M bit/s 



IFHL = 3 

(max) 

◦ ◦ ◦ (2) 

1 

3 

8 

7 

6 5 

TLP2105 

VCC 

GND 

SHIELD 

SO8 


the TLP105 

5M bit/s 



IFLH = 1.6 

(max) 

◦ ◦ r (2) ◦ (2) 

1 

2 

3 

4 

TLP2108 

TLP2116 

8 

VCC 

1 

7 

2 

6 5 

GND 

SHIELD 

3 4 

SO8 


the TLP108 

SO8 


equivalent of the 

TLP116A 

5M bit/s 

15M bit/s 





IFHL = 1.6 

(max) 

IFHL = 5 

(max) 

◦ ◦ r (2) ◦ (2) 

◦ ◦ ◦ (2) ◦ (2) 

8 

7 

6 5 

TLP2118E 

VCC 

GND 

SHIELD 

SO8 


equivalent for the TLP118 

15M bit/s 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 

1 

8 

2 

7 

3 4 

6 5 

2500 

TLP2160 * 

VCC 

GND 

SHIELD 

2 channels in SO8 

3.3-V/5-V power supply 


20M bit/s 



IFHL = 5 

(max) 

◦ ◦ 

1 

2 

3 

4 

TLP2166A * 

8 

VCC 

1 

7 

2 

6 5 

GND 

SHIELD 

3 4 

SO8 

3.3-V power supply 

Dual channel 

version equivalent for the 

TLP2366 

15M bit/s 



IFHL = 3 

(max) 

◦ ◦ r (2) ◦ (2) 

8 

7 

6 5 

TLP2167 ** 

VCC 

GND 

SHIELD 

SO8 



40M bit/s 



IFHL = 5 

(max) 

r r r (2) 

1 

2 

3 

4 

8 

7 

6 5 

TLP2168 * 

VCC 

GND 

SHIELD 

SO8 



20M bit/s 



IFHL = 5 

(max) 

3750 ◦ ◦ ◦ (2) 

1 

2 

3 

4 

TLP2200 

8 

VCC 

1 

7 

2 

6 5 

3 

GND 

SHIELD 

4 

DIP8 


High-speed 

High VCC operation 

5M bit/s 



IFLH = 1.6 

(max) 

2500 ◦ ◦ 

TLP2309 * 

6 

1 

5 4 

SHIELD 

3 

SO6 




1M bit/s 15% Min 10 3750 ◦ ◦ ◦ (2) 












20 2012/8 SCE0004M


6 

5 4 

Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



TLP2355 * 

Vcc 

GND 

SHIELD 

SO6 


VCC = 3.0 to 20 V 

5M bit/s 



IFLH = 1.6 

(max) 

r r r (2) 

1 

3 

6 

5 

4 

TLP2358 * 

Vcc 

GND 

SHIELD 

SO6 


VCC = 3.0 to 20 V 

5M bit/s 



IFHL = 1.6 

(max) 

r r r (2) 

1 

3 

6 

5 4 

TLP2362 * 

VCC 

GND 

SHIELD 

SO6 



10M bit/s 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 

1 

3 

TLP2366 * 

6 

Vcc 

1 

5 

4 

GND 

SHIELD 

3 

SO6 




20M bit/s 



IFHL = 3.5 

(max) 

◦ ◦ ◦ (2) 

TLP2367 ** 

6 

Vcc 

1 

5 

4 

GND 

SHIELD 

3 

SO6 




40M bit/s 



IFHL = 5 

(max) 

r r r (2) 

TLP2368 * 

6 

VCC 

1 

5 4 

GND 

SHIELD 

3 

SO6 




20M bit/s 



IFHL = 5 

(max) 

3750 

◦ ◦ ◦ (2) 

TLP2403 

8 

1 

7 

2 

6 5 

3 4 

SO8 


SO8 version of the 

TLP553 

300k bit/s 400% Min 0.5 ◦ ◦ ◦ (2) 

8 

7 6 5 

TLP2404 

1 

2 3 

SHIELD 

4 

SO8 



TLP104 

Propagation 

delay time 

450 ns 

(max) 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 

TLP2405 

8 

VCC 

1 

7 

2 

6 5 

GND 

SHIELD 

3 4 

SO8 



TLP105 

5M bit/s 



IFLH = 1.6 

(max) 

◦ ◦ ◦ (2) 

TLP2408 

8 

VCC 

1 

7 

2 

6 5 

GND 

SHIELD 

3 4 

SO8 



TLP108 

5M bit/s 



IFHL = 1.6 

(max) 

◦ ◦ ◦ (2) 

TLP2409 

8 

1 

7 

2 

6 5 

SHIELD 

3 4 

SO8 



TLP109 

1M bit/s 20% Min 16 ◦ ◦ ◦ (2) 












21 2012/8 SCE0004M

Photocouplers 



Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



TLP2418 

8 

VCC 

1 

7 

2 

6 5 

3 

GND 

SHIELD 

4 

SO8 


High-speed 


TLP118 

20M bit/s 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 

TLP2451 

TLP2451A * 

8 

1 

7 

2 

6 5 

3 4 

SO8 






TLP351 

SO8 






TLP351A 

Propagation 

delay time 

0.7 ms 

(max) 

Propagation 

delay time 

0.5 ms 

(max) 


±0.6 A (Max) 

IFLH = 5 

(max) 

3750 

◦ ◦ ◦ (2) 

◦ ◦ ◦ (2) 

8 

7 

6 5 

TLP2466 * 

VCC 

GND 

SHIELD 

SO8 



20M bit/s 



IFHL = 3.5 

(max) 

◦ ◦ ◦ (2) 

1 

2 

3 

4 

8 

7 

6 5 

TLP2468 * 

VCC 

GND 

SHIELD 

SO8 



20M bit/s 



IFHL = 5 

(max) 

◦ ◦ ◦ (2) 

1 

2 

3 

4 

TLP2530 8 

7 

6 5 

DIP8 


of the 6N135 and the 

TLP550 


◦ ◦ 

TLP2531 

1 

2 

3 

4 

DIP8 



TLP550 

1M bit/s 19% Min 16 ◦ ◦ 

8 

7 

6 5 

TLP2601 

VCC 

1 

2 

3 

GND 

SHIELD 

4 

DIP8 

High CMR 

High-speed 

10M bit/s 



IFHL = 5 

(max) 

2500 

◦ ◦ 

TLP2630 

8 

VCC 

1 

7 

2 

6 5 

3 

GND 

4 

DIP8 



TLP552 

10M bit/s 



IFHL = 5 

(max) 

◦ ◦ 

TLP2631 

8 

VCC 

1 

7 

2 

6 5 

3 

GND 

SHIELD 

4 

DIP8 

High CMR 


the TLP554 

10M bit/s 



IFHL = 5 

(max) 

◦ ◦ 











22 2012/8 SCE0004M


Data Rate 

(Typ. @NRZ) 

Output/CTR 

@IF(IN) 

(mA) 

BVs 

1 Minute 

(Vrms) 



TLP2662 ** 

8 

VCC 

1 

7 

2 

6 5 

GND 

SHIELD 

3 4 

DIP8 




the TLP2962 

10M bit/s 



IFHL = 5 

(max) 

3750 r r r 

6 

5 4 

TLP2766 * 

Vcc 

GND 

SHIELD 

SDIP6 



20M bit/s 



IFHL = 3.5 

(max) 

◦ ◦ ◦ 

1 2 

3 

6 

5 4 

TLP2767 ** 

Vcc 

GND 

SHIELD 

SDIP6 



40M bit/s 



IFHL = 5 

(max) 

r r r 

1 2 

3 

6 

5 4 

TLP2768 * 

VCC 

GND 

SHIELD 

SDIP6 



20M bit/s 



IFHL = 5 

(max) 

5000 

◦ ◦ ◦ 

1 2 

3 

8 

7 

6 5 

TLP2955 * 

TLP2955F * 

VCC 

GND 

SHIELD 

DIP8 



5M bit/s 



IFLH = 1.6 

(max) 

r r r 

1 

2 

3 

4 

8 

7 

6 5 

TLP2958 * 

TLP2958F * 

VCC 

GND 

SHIELD 

DIP8 



5M bit/s 



IFHL = 1.6 

(max) 

r r r 

1 

2 

3 

4 

8 

7 

6 5 

TLP2962 * 

VCC 

GND 

SHIELD 

SDIP6 



10M bit/s 



IFHL = 5 

(max) 

3750 r r r 

1 

2 

3 

4 












23 2012/8 SCE0004M

Photocouplers 

(Photovoltaic Output) 


Short-Circuit Current (μA) Open Voltage Voc (V) BVs 


@IF 

1 Minute 

Rank Min 

Min @IF (mA) 

(mA) 

(Vrms) 


TLP190B 

6 

1 

4 

3 

Mini-flat 

MFSOP6 

— 12 

C20 20 

10 7 10 

◦ ◦ 

TLP191B 

6 

1 

4 

3 

Mini-flat 

MFSOP6 

Built-in shunt regulator 

— 24 20 7 20 ◦ ◦ 

TLP590B 

6 

1 

2 

4 

3 

DIP6 


— 12 

C20 20 

10 7 10 2500 ◦ 

6 

4 

TLP591B 

DIP6 

Built-in shunt regulator 

— 24 20 7 20 ◦ 

1 

2 

3 

TLP3902 

6 

1 

4 

3 

Mini-flat 

MFSOP6 


— 5 10 7 10 ◦ ◦ 

TLP3904 

TLP3914 

4 

3 

SSOP4 


SSOP4 

High output 

— 5 

◦ 

7 

— 20 10 

10 1500 ◦ 

1 2 SSOP4 

TLP3924 

High open-circuit voltage 

— 4 30 ◦ 








24 2012/8 SCE0004M

Photorelays 

(MOSFET Output, 1-Form-A) 


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP170A 

2.54SOP4 




2 

±0.4 60 

◦ ◦ 

TLP170D 

TLP170G 

2.54SOP4 




2.54SOP4 




1 

8 ±0.2 200 ◦ ◦ 

2 

50 ±0.1 350 ◦ ◦ 

TLP170J 

4 3 

2.54SOP4 




60 ±0.09 600 ◦ ◦ 

TLP171A ** 

1 

2 

2.54SOP4 


Ultra-low trigger current 

2 

±0.4 60 

1500 

r r 

TLP171D ** 

TLP171GA ** 

2.54SOP4 



2.54SOP4 



0.1 

8 ±0.2 200 r r 

0.2 

35 ±0.12 400 r r 

TLP171J ** 

2.54SOP4 



60 ±0.09 600 r r 

TLP172A 

2.54SOP4 


High output current 


3 

2 

5 

±0.4 60 ◦ ◦ 

TLP172G 

2.54SOP4 



35 ±0.11 350 ◦ ◦ 

6 4 

TLP173A 

MFSOP6 


2 50 3 ±0.07 60 3750 ◦ ◦ ◦ (2) 

1 

3 

TLP174G 

4 3 

2.54SOP4 

350 

◦ ◦ 


Current-limiting 

3 35 5 ±0.12 

1500 

function 

Limit current: 

TLP174GA 400 ◦ 

1 2 

150 to 300 mA 

6 4 

TLP175A ** 

SO6 



1 50 2 ±0.1 60 3750 r r 

1 

3 












25 2012/8 SCE0004M

Photorelays 

(MOSFET Output, 1-Form-A) (Continued) 


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP176A 

2.54SOP4 



2 

±0.4 60 

◦ ◦ r (2) ◦ (2) 

TLP176D 

TLP176G 

4 3 

1 

2 

2.54SOP4 


Low On-resistance 

2.54SOP4 




8 ±0.2 200 ◦ ◦ r (2) ◦ (2) 

5 

350 ◦ ◦ r (2) ◦ (2) ◦ r 

35 ±0.12 

TLP176GA 

2.54SOP4 



400 ◦ ◦ r 

TLP179D 

2.54SOP4 


COFF 15 pF (typ.) 

50 ±0.05 200 ◦ ◦ 

TLP192A 

2.54SOP6 



2 

±0.4 60 ◦ ◦ 

TLP192G 

2.54SOP6 


35 ±0.11 350 ◦ ◦ 

TLP197A 

6 

5 4 

2.54SOP6 



2 ±0.4 60 ◦ ◦ 

TLP197D 

TLP197G 

1 

2 

3 

2.54SOP6 



2.54SOP6 



3 

8 5 ±0.2 200 ◦ ◦ 

350 1500 ◦ ◦ r (2) ◦ (2) ◦ r 

35 ±0.12 

TLP197GA 

2.54SOP6 


400 ◦ ◦ r 

TLP199D 

2.54SOP6 



50 ±0.05 200 ◦ ◦ 

2.54SOP8 


TLP200D 


8 

±0.2 200 ◦ 

the TLP176D 

2.54SOP8 


TLP202A 


2 ±0.4 60 ◦ 

the TLP172A 

2.54SOP8 


TLP202G 

50 ±0.11 350 ◦ 


8 7 6 5 

the TLP172G 

2.54SOP8 


TLP206A 


2 5 ±0.4 60 ◦ 

1 2 3 4 the TLP176A 

2.54SOP8 


TLP206G 


350 ◦ r (2) ◦ (2) ◦ r 

the TLP176G 

2.54SOP8 

35 ±0.12 


TLP206GA 


400 ◦ ◦ r 

the TLP176GA 

2.54SOP8 


TLP209D 


50 ±0.05 200 ◦ 

the TLP179D 










26 2012/8 SCE0004M


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP220A * 

TLP220AF * 

DIP4 


Reinforced insulation 

2 5 ±0.5 60 

◦ ◦ r r 

TLP220D * DIP4 


TLP220DF * 


TLP220G * 4 3 

DIP4 


TLP220GF * 


TLP220GA * DIP4 

1 2 


TLP220GAF * 


TLP220J * DIP4 


TLP220JF * 


2 

8 5 ±0.25 200 ◦ ◦ r r 

50 5 ±0.1 350 ◦ ◦ r r 

5000 

35 5 ±0.12 400 ◦ ◦ r r 

60 5 ±0.09 600 ◦ ◦ r r 

TLP221A ** 

DIP4 



0.2 5 ±2.0 40 r r r r 

4 3 

TLP222A 

DIP4 



◦ ◦ 

8 

1 

7 

2 

6 5 

2 5 ±0.5 60 

TLP222A-2 

DIP8 


the TLP222A 

◦ ◦ 

1 

2 

3 

4 

4 3 

TLP222G 

DIP4 



◦ ◦ ◦ r 

TLP222G-2 

8 

1 

1 

7 

2 

2 

6 5 

3 4 

DIP8 


the TLP222G 


50 5 ±0.12 350 

◦ ◦ ◦ r 

TLP224G 

TLP224G-2 

8 

1 

4 3 

1 2 

7 6 5 

2 3 4 

DIP4 

Current-limiting function 


150 to 300 mA 


DIP8 


the TLP224G 


3 

35 5 ±0.12 350 

2500 

◦ ◦ r r 

◦ ◦ ◦ r 

TLP224GA 

TLP224GA-2 

8 

1 

4 3 

1 

7 

2 

2 

6 5 

3 

4 

DIP4 

For modems 



150 to 300 mA 

DIP8 


the TLP224GA 



150 to 300 mA 

35 5 ±0.12 400 









◦ 

◦ 


27 2012/8 SCE0004M

Photorelays 



Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



4 

3 

TLP225A 

DIP4 

For DC use only 

5 1.1 10 0.5 60 

◦ ◦ 

1 

2 

4 3 

TLP227A 

DIP4 



◦ ◦ 

TLP227A-2 

8 

1 

1 

7 

2 

2 

6 5 

3 4 

DIP8 


the TLP227A 


3 2 5 ±0.5 60 

◦ ◦ 

4 3 

TLP227G 

DIP4 



◦ ◦ r ◦ ◦ r 

TLP227G-2 

8 

1 

1 

7 

2 

2 

6 5 

3 4 

DIP8 


the TLP227G 


3 35 5 ±0.12 350 

◦ ◦ r ◦ ◦ r 

4 3 

TLP227GA 

DIP4 



◦ 

TLP227GA-2 

8 

1 

1 

7 

2 

2 

6 5 

3 4 

DIP8 


the TLP227GA 


3 35 5 ±0.12 400 

2500 

◦ 

TLP228G 

TLP228G-2 

8 

1 

4 3 

1 2 

7 6 5 

2 3 4 

DIP4 




DIP8 


the TLP228 



3 50 5 ±0.12 350 

◦ ◦ ◦ r 

◦ ◦ ◦ r 

TLP592A 

TLP592G 

6 

1 

5 4 

2 

3 

DIP6 


DIP6 


3 

2 

±0.5 60 ◦ 

5 

50 ±0.12 350 ◦ 

TLP597A 

6 

5 4 

DIP6 



2 

±0.5 60 ◦ 

TLP597G 

TLP597GA 

1 

2 

3 

DIP6 



DIP6 



3 

5 

35 ±0.12 

350 ◦ ◦ r 7 r 

400 ◦ 








28 2012/8 SCE0004M


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP598AA 

TLP598GA 

TLP797GA 

TLP797GAF 

TLP797J 

TLP797JF 

6 

1 

5 4 

2 

3 

DIP6 


DIP6 


DIP6 


DIP6 


3 

3 

5 

2 

±0.5 60 

◦ 

2500 

12 ±0.15 400 ◦ 

5 

±0.12 400 

◦ ◦ r ◦ r r 

35 

5000 

10 ±0.1 600 ◦ ◦ r ◦ r r 

TLP798GA 

DIP6 


12 5 ±0.15 400 ◦ ◦ r r r r 

TLP3100 

2.54SOP6 



High output current: 

ION = 2.5 A (max) 

@Ta: up to 50°C 

0.05 

±2.5 20 

◦ ◦ 

TLP3102 

6 

5 4 

2.54SOP6 



ION = 2.5 A (max) 


C-connection: 

ION (DC) = 5.0A (Max) 

0.06 ±2.5 40 ◦ ◦ 

TLP3103 

1 

2 

3 

2.54SOP6 



ION = 2.3A (Max) 


C-connection: 


3 

5 

0.07 ±2.3 60 ◦ ◦ 

TLP3105 

2.54SOP6 



ION = 1.4A (Max) 


C-connection: 


0.2 ±1.4 100 ◦ ◦ 

TLP3110 

4 3 

2.54SOP4 


Low CR 

COFF: 100 pF (typ.) 

1.2 

1500 

±0.35 60 ◦ 

4 

5 

TLP3111 

1 

2 

2.54SOP4 


Low CR 


20 ±0.1 80 ◦ 

TLP3114 

2.54SOP4 


Ultra-low CR: 10 pF · Ω 


3 

±0.25 

◦ ◦ 

TLP3115 

4 3 

1 

2 

2.54SOP4 




4 

1.5 5 ±0.3 40 

◦ ◦ 

TLP3116 

2.54SOP4 




15 

±0.12 

◦ ◦ 








29 2012/8 SCE0004M

Photorelays 



Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP3118 

TLP3119 

4 3 

1 

2 

2.54SOP4 


Low CR: 40 pF · Ω 

COFF: 2.5 pF (typ.) 

3.5 pF (max) 

2.54SOP4 




11 pF (Max) 

3 

25 

±0.04 80 

◦ ◦ 

5 

8 ±0.2 80 ◦ ◦ 

TLP3120 

6 

1 

5 4 

2 

3 

2.54SOP6 



ION: 1.25 A (max) 

5 0.15 5 ±1.25 80 ◦ ◦ 

TLP3121 

2.54SOP4 



4 1.2 

±0.35 80 ◦ ◦ 

TLP3122 

TLP3123 

4 3 

1 

2 

2.54SOP4 



ION: 1 A (max) 


2.54SOP4 



ION: 1 A (max) 


3 

0.7 5 ±1 60 ◦ ◦ 

1500 

0.13 ±1 40 ◦ ◦ 

8 

7 

6 5 

TLP3125 

2.54SOP8 



3 4 5 ±0.2 400 ◦ ◦ 

1 

2 

3 

4 

TLP3130 

4 3 

2.54SOP4 




8 

±0.16 

◦ ◦ 

4 

5 

20 

TLP3131 

1 

2 

2.54SOP4 




1.2 ±0.3 ◦ ◦ 

TLP3203 

4 3 

SSOP4 

Ultra-low On-resistance 

R 0.18 Ω (typ.) 


ION: 0.9 A (max) 

3 0.22 

5 

±0.9 20 ◦ 

1 2 

SSOP4 

TLP3212 


5 1.5 ±0.4 60 ◦ 









30 2012/8 SCE0004M


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP3214 

SSOP4 



3 

±0.25 

◦ 

TLP3215 

SSOP4 



4 

1.5 ±0.3 40 

◦ 

5 

TLP3216 

SSOP4 



15 

◦ 

±0.12 

TLP3217 

SSOP4 

Low CR 


12 80 ◦ 

4 3 

5 

TLP3220 

SSOP4 

Peak off-state voltage: 

100 V 

14 10 ±0.08 100 1500 ◦ 

1 

2 

TLP3230 

SSOP4 



8 

±0.16 

◦ 

4 

20 

TLP3231 

SSOP4 



1.2 ±0.45 ◦ 

5 

TLP3240 

SSOP4 



14 ±0.12 

◦ 

3 

40 

TLP3241 

SSOP4 



10 ±0.14 ◦ 








31 2012/8 SCE0004M

Photorelays 



Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP3250 

SSOP4 

Ultra-low CR: 2.5 pF · Ω 


5 

±0.2 20 

◦ 

TLP3275 

SSOP4 


Short insertion delay 

1500 

1.5 ±0.3 50 ◦ r 

TLP3303 * 

USOP4 

Ultra-low On-resistance 

R 0.18 Ω (typ.) 


ION: 0.9 A (max) 

3 

0.22 ±0.9 20 

◦ 

TLP3306 ** 

USOP4 

75-V VOFF 

2 ±0.4 75 r r 

5 

TLP3312 

USOP4 

COFF 20 pF (Typ.) 

1.5 ±0.4 60 ◦ 

TLP3314 ** 

4 3 

USOP4 



3 ±0.25 

r 

TLP3315 ** 

1 

2 

USOP4 



4 

1.5 ±0.3 40 

r 

500 

TLP3316 ** 

USOP4 



15 ±0.12 r 

TLP3317 ** 

USOP4 

Low CR 


5 12 ±0.12 

r 

TLP3318 ** 

USOP4 



3.5 pF (max) 

25 ±0.04 80 

r 

3 

TLP3319 ** 

USOP4 



11 pF (max) 

8 ±0.2 r 

TLP3320 ** 

USOP4 

100-V VOFF 

5 14 10 ±0.08 100 r 










32 2012/8 SCE0004M


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP3330 ** 

USOP4 



8 

±0.16 

r 

4 

20 

TLP3331 ** 

USOP4 



1.2 ±0.45 r 

TLP3375 

USOP4 


Short insertion delay 

1.5 ±0.3 50 ◦ 

TLP3340 * 

4 3 

USOP4 



14 ±0.12 

◦ 

5 

40 

500 

TLP3341 * 

1 

2 

USOP4 



10 ±0.14 ◦ 

TLP3342 * 

USOP4 

Ultra-low COFF: 

(0.3 pF (typ.) ) 

20 ±0.1 40 ◦ r 

TLP3350 * 

USOP4 

Ultra-low CR: 2.5 pF · Ω 


5 ±0.2 20 ◦ 

TLP3351 * 

USOP4 

Ultra-low COFF: 

(0.7 pF (typ.) ) 

3 

15 ±0.12 60 ◦ r 

TLP3542 

6 

1 

5 4 

2 

3 

DIP6 



ION = 2.5 A (max) 

0.1 10 ±2.5 60 

◦ ◦ 

TLP3543 * 

DIP6 


ION = 4 A (Max) 

@Ta = 25°C 

0.05 

±4 20 ◦ ◦ 

TLP3544 * 

6 

5 4 

DIP6 


ION = 3.5 A (Max) 

@Ta = 25°C 

0.06 ±3.5 40 2500 ◦ ◦ 

5 

TLP3545 * 

1 

2 

3 

DIP6 



@Ta = 25°C 

0.07 ±3 60 ◦ ◦ 

TLP3546 * 

DIP6 



@Ta = 25°C 

0.2 ±2 100 ◦ ◦ 









33 2012/8 SCE0004M 

*: New product

Photorelays 



Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP3553 * 

DIP4 



@Ta = 25°C 

0.075 

3 20 

◦ ◦ 

TLP3554 * 

4 3 

DIP4 


ION = 2.5 A (Max) 

@Ta = 25°C 

0.11 2.5 40 ◦ ◦ 

3 

5 

2500 

TLP3555 * 

1 

2 

DIP4 



@Ta = 25°C 

0.17 2 60 ◦ ◦ 

TLP3556 * 

DIP4 



@Ta = 25°C 

0.67 1 100 ◦ ◦ 









34 2012/8 SCE0004M

(MOSFET Output, 1-Form-B) 


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP4006G 

TLP4007G 

8 

7 

1 2 

1-form-b 

6 5 

3 4 

1-form-a 

DIP8 


1-Form-A/1-Form-B 

DIP8 



3 

25 

50 

1-Form-A 

5 

1-Form-B 

0 

±0.12 

±0.1 

350 2500 

TLP4026G 

TLP4027G 

8 7 

1 2 

1-form-b 

6 5 

3 4 

1-form-a 

2.54SOP8 




2.54SOP8 




3 

25 

±0.12 

◦ 

1-Form-A 

5 

350 

1-Form-B 

0 

50 ±0.09 ◦ 

TLP4172G 

TLP4176G 

TLP4192G 6 

TLP4197G 

1 

4 3 

1 2 

5 4 

2 3 

2.54SOP4 



1-Form-B 

2.54SOP4 



1-Form-B 

2.54SOP6 



1-Form-B 

2.54SOP6 



1-Form-B 

3 

3 

50 

0 

±0.09 

350 

25 ±0.12 ◦ 

50 

0 

±0.09 

350 

1500 

25 ±0.12 ◦ 

◦ 

◦ 

TLP4202G 8 

TLP4206G 

TLP4222G 

1 

7 

2 

6 5 

3 

4 3 

4 

2.54SOP8 



the TLP4172G 

2-Form-B 

2.54SOP8 



the TLP4176G 

2-Form-B 

DIP4 


1-Form-B 

3 

50 

0 

±0.09 

350 

25 ±0.12 ◦ 

1 2 

8 7 6 5 

3 50 0 ±0.1 350 2500 

DIP8 


TLP4222G-2 

the TLP4222G 

◦ 

2-Form-B 

1 2 3 4 








◦ 

◦ 

35 2012/8 SCE0004M

Photorelays 

(MOSFET Output, 1-Form-B) (Continued) 


Trigger LED 

Current, IFT 

Max 

(mA) 

Max 

(W) 

RON 

@IF 

(mA) 

ION 

Max 

(A) 

VOFF (V) 

BVs 

1 Minute 

(Vrms) 



TLP4227G 

TLP4227G-2 

8 

1 

4 3 

1 2 

7 6 5 

2 3 4 

DIP4 


1-Form-B 


DIP8 


the TLP4227G 


2-Form-B 

3 25 0 ±0.15 350 

2500 

◦ 

◦ 

TLP4592G 6 

5 4 

DIP6 


1-Form-B 

50 

±0.1 

◦ 

TLP4597G 

1 

2 

3 

DIP6 


1-Form-B 


3 

0 

350 

25 ±0.15 ◦ 








36 2012/8 SCE0004M

Fiber-Optic Devices (TOSLINK TM ) 

Simplex Optical Modules 

(General-Purpose Optical Modules) 

Transmitting 

Module 

Receiving 

Module 

Data Rate 

(NRZ, Mb/s) 

Emission 

Wavelength 

(nm) 

Transmission 

Distance 

(m) (1) 

Pulse Width 

Distortion 

(ns) (1) 

Supply 

Voltage 

(V) 

Operating Compatible 

Temperature Optical 

(°C) Connector 

Compatible 

Optical Fiber 

(μm) 

Compatible Optical 

Fiber with Fiber-Optic 

Connectors (7) 

TOTX1950(F) (2) TORX1950(F) DC to 10 650 Up to 50 ±30 5 ± 0.25 –40 to 85 JIS F05 

TOTX1951(F) TORX1951(F) DC to 6 650 Up to 40 ±55 5 ± 0.25 –40 to 85 JIS F05 

TOTX1952(F) TORX1952(F) DC to 10 650 Up to 10 ±30 5 ± 0.25 –40 to 85 JIS F05 

APF (980/1000) 

NA = 0.5 

APF (980/1000) 

NA = 0.5 

APF (980/1000) 

NA = 0.5 

LUCT1-TC1000-xxM (3) 

TOCP100-xxMBT (4) 





TOTX1960(F) TORX1950(F) DC to 10 770 Up to 1000 ±30 5 ± 0.25 –40 to 85 JIS F05 PCF (200/230) 

CF-1071 (HC-20/70) Series (5) 

OPC202HV Series (6) 

• x TOSLINK TM is a registered trademark of Toshiba Corporation in Japan and other countries. 

Note (1) All values at Ta = 25°C 

(2) The external resistor value must be chosed, based on the transmission distance. 

(3) Manufactured by Asahi Kasei E-Materials. 

(4) Manufactured by Toray Industries, Inc. 

(5) Manufactured by Sumitomo Electric Industries (SEI), Ltd. 

(6) Manufactured by Oki Electric Cable Co., Ltd. 

(7) For details on optical fiber cables with connectors, contact the respective manufactures. 


(High-Speed Optical Modules) 

Transmitting 

Module 

Receiving 

Module 

Data Rate 

(NRZ, Mb/s) 

Emission 

Wavelength 

(nm) 

Transmission 

Distance 

(m) (1) 

Supply 

Voltage 

(V) 

Operating 

Temperature 

(°C) 

Compatible 

Optical 

Connector 

TOTX1400(F) TORX1400(F) 20 to 125 650 Up to 50 3.3 ± 0.3 –10 to 70 SMA 

Compatible 


(μm) 

APF (980/1000) 

NA = 0.3 




— 

TOTX1701(F) TORX1701(F) 20 to 125 650 





Up to 20 (APF) 


3.3 ± 0.3 –10 to 70 JIS F05 


APF (980/1000) 

NA = 0.5 



Up to 100 (GI-PCF) GI-PCF (200/230) CF-1071 (HC-20/80) Series (5) 

37 2012/8 SCE0004M

Duplex Modules 

(General-Purpose Optical Modules) 

Transceiving 

Module 

Data Rate 

(NRZ, Mb/s) 

Emission 

Wavelength 

(nm) 

Transmission 

Distance 

(m) (1) 

Pulse Width 

Distortion 

(ns) (1) 

Supply 

Voltage 

(V) 

Operating 

Temperature 

(°C) 

TODX2850(F) (2) (8) DC to 10 650 Up to 50 ±30 5 ± 0.25 –40 to 85 

Compatible 


Connector 

JIS F07 

(PN) 

Compatible 


(μm) 

APF (980/1000) 

NA = 0.5 




LUCT2-TC1000W-xxM (3) 


TODX2860(F) (2) (8) DC to 10 770 Up to 1000 ±30 5 ± 0.25 –40 to 85 

JIS F07 

(PN) 

PCF (200/230) 

CF-2071(HC-20/70) Series (5) 


TODX2950(F) (2) DC to 10 650 Up to 50 ±30 5 ± 0.25 –40 to 85 JIS F07 

TODX2951(F) DC to 6 650 Up to 40 ±55 5 ± 0.25 –40 to 85 JIS F07 

TODX2952(F) DC to 10 650 Up to 10 ±30 5 ± 0.25 –40 to 85 JIS F07 

APF (980/1000) 

NA = 0.5 

APF (980/1000) 

NA = 0.5 

APF (980/1000) 

NA = 0.5 







TODX2960(F) DC to 10 770 Up to 1000 ±30 5 ± 0.25 –40 to 85 JIS F07 PCF (200/230) 


(2) The external resistor value must be chosed, based on the transmission distance. 




(6) Manufactured by Oki Electric Cable Co., Ltd. 


(8) Housed in a ceramic package. 


CF-2071 (HC-20/70) Series (5) 


(High-Speed Optical Modules) 

Transceiving 

Module 

Data Rate 

(NRZ, Mb/s) 

Emission 

Wavelength 

(nm) 

Transmission 

Distance 

(m) (1) 

Supply 

Voltage 

(V) 

Operating 

Temperature 

(°C) 

Compatible 


Connector 

Compatible 


(μm) 




TODX2402(F) 20 to 250 650 

Up to 50 (125M) 

Up to 20 (250M) 

3.3 ± 0.3 

–10 to 70 (125M) 

0 to 60 (250M) 

SMI 

APF (980/1000) 

NA = 0.3 

LPG-Z0005P Series (9) 

APF (980/1000) LUCT2-TC1000W-xxM 

Up to 20 (APF) 

(3) 

JIS F07 

TODX2701(F) 20 to 125 650 

3.3 ± 0.3 –10 to 70 

NA = 0.5 TOCP200-xxMBT (4) 

(PN) 

Up to 100 (GI-PCF) GI-PCF (200/230) CF-2071 (HC-20/80) Series (5) 






(9) Manufactured by Honda Tsushin Kogyo Co., Ltd. 


38 2012/8 SCE0004M

Image Sensors 

CCD Linear Image Sensors 

Part Number 

Style 

Photosenstitive Pixels (Picture Element) 

Type/Lamp Effective Pixels 

Size (mm) 

Sensitivity (Typ.) 

(V/lx·s) 

Data Rate (Max) 

(MHz) 

Other Features 

TCD1103GFG Z 

1500 5.5 x 64 79 2 Digital shutter 

TCD1254GFG Z 2500 5.25 x 64 103 2 

Sample-and-hold 

TCD1706DG B/W 

7400 

15 25 x 4 

TCD1710DG 7500 x 2 Line 4.7 x 4.7 

15 15 x 2 

TCD1711DG 7450 15 30 x 2 

TCD2563BFG 

5340 x 4 Line 5.25 x 8.4 R:22.6, G:28.0, B:17.0 Color:25, B/W:25 x 2 TDI 

TCD2564DG 5400 x 3 Line 7 x 7 R:9.6, G:8.9, B:3.8 30 x 2 

TCD2565BFG 5400 x 4 Line 5.25 x 5.25 R:10.2, G:9.2, B:4.0, B/W:14.7 Color:35, B/W:35 x 2 2-line distance (color) 

Color:5.25 x 6.825 

TCD2566BFG 

5340 x 4 Line 

B/W:5.25 x 8.4 

R:31.7, G:32.8, B:19.9, B/W:59.4 Color:35, B/W:35 x 2 TDI 

TCD2711DG 

Lens 

reduction 

7500 x 3 Line 9.325 x 9.325 R:18.9, G:20.4, B:13.4 35 x 2 

TCD2712DG 

type 

7500 x 3 Line 9.325 x 9.325 R:14.1, G:22.2, B:9.1 30 x 4 

TCD2713DG 7500 x 4 Line 9.325 x 9.325 R:13.1, G:18.4, B:7.6, B/W:23.8 Color:35 x 2, B/W:35 x 4 2-line distance (color) 

TCD2715DG 

Color 

7450 x 3 Line 4.7 x 4.7 R:5.7, G:5.2, B:2.2 30 

TCD2716DG 7450 x 3 Line 4.7 x 4.7 R:9.1, G:8.5, B:3.8 30 x 2 

TCD2717BFG 7500 x 4 Line 4.7 x 4.7 R:8.0, G:7.2, B:3.1 Color:35, B/W:35 x 2 2-line distance (color) 

TCD2720BFG 7500 x 4 Line 4.7 x 4.7 R:8.0, G:7.2, B:5.4, B/W:11.5 Color:35 x 2, B/W:35 x 4 2-line distance (color) 

TCD2722BFG 7450 x 3 Line 4.7 x 4.7 R:7.2, G:6.9, B:2.9 35 x 2 

TCD2915BFG 

10680 x 3 Line 

R:5.6, G:7.0, B:4.3 20 

2.625 x 8.4 

TCD2916BFG 10680 x 4 Line R:6.7, G:7.0, B:4.3, B/W-H:20.6, B/W-H:12.4 Color:25, B/W:25 x 2 

TCD2964BFG 21360 x 6 Line 2 x 4 R:1.3, G:1.5, B:0.7 10 Overflow drain 

Z: Dry-packed 

• x The products shown in bold are also manufactured in offshore fabs. 


CMOS Area Image Sensors 

Features 

Part Number 

Package 

Optical Format (Inches) Total Pixel Count (PIX) Color/Mono Digital Signal Processor 

648 (H) x 492 (V) 

TCM9001MD Camera module 1/10 

Color (RGB) 

Yes 

(VGA) 

1648 (H) x 1216 (V) 

TCM9200MD Camera module 1/4 

(2.0M) 


Color (RGB) 

Yes 

39 2012/8 SCE0004M

Package 

Resolution 

(DPI) 

Applications 

Remarks 

16PIN GLCC — Barcode readers 

22PIN Cerdip A3 600 Photocopiers, scanners 

22PIN CLCC 

22PIN Cerdip 

22PIN CLCC 

A4 600 

22PIN CLCC 

68PIN Cerdip 

22PIN Cerdip 

A3 600 

Photocopiers, color scanners 

32PIN CLCC 

32PIN CLCC A3 600 



32PIN CLCC A4 4800 Color scanners 

40 2012/8 SCE0004M

OVERSEAS SUBSIDIARIES AND AFFILIATES 

(As of April 1, 2012) 

Toshiba America 

Electronic Components, Inc. 

• Irvine, Headquarters 

Tel: (949)623-2900 Fax: (949)474-1330 

• Buffalo Grove (Chicago) 

Tel: (847)484-2400 Fax: (847)541-7287 

• Duluth/Atlanta 

Tel: (770)931-3363 Fax: (770)931-7602 

• El Paso 

Tel: (915)771-8156 

• Marlborough 

Tel: (508)481-0034 Fax: (508)481-8828 

Tel: (508)303-5041 Fax: (508)481-8890 

• Parsippany 

Tel: (973)541-4715 Fax: (973)541-4716 

• San Jose 

Tel: (408)526-2400 Fax: (408)526-2410 

• Wixom (Detroit) 

Tel: (248)347-2607 Fax: (248)347-2602 

Toshiba Electronics do Brasil Ltda. 

Tel: (011)2539-6681 Fax: (011)2539-6675 

Toshiba India Private Ltd. 

• New Deli Office 

Tel: (0124)499-6600 Fax: (0124)499-6611 

• Bangalore Office 

Tel: (080)251-90800 Fax: (080)490-91945 

Toshiba Electronics Europe GmbH 

• Düsseldorf Head Office 

Tel: (0211)5296-0 Fax: (0211)5296-400 

• France Branch 

Tel: (1)47282181 

• Italy Branch 

Tel: (039)68701 Fax: (039)6870205 

• Munich Office 

Tel: (089)20302030 Fax: (089)203020310 

• Spain Branch 

Tel: (91)660-6798 Fax: (91)660-6799 

• Sweden Branch 

Tel: (08)704-0900 Fax: (08)80-8459 

• U.K. Branch 

Tel: (0870)060-2370 Fax: (01252)53-0250 

Toshiba Vietnam Consumer Products Co.,Ltd. 

Tel: (043)776-5950 Fax: (043)776-5956 

Toshiba Electronics Asia (Singapore) Pte. Ltd. 

Tel: (6278)5252 Fax: (6271)5155 

Toshiba Electronics Service (Thailand) Co., Ltd. 

Tel: (02)501-1634 Fax: (02)501-1638 

Toshiba Electronics Trading (Malaysia)Sdn. Bhd. 

• Kuala Lumpur Head Office 

Tel: (03)5631-6311 Fax: (03)5631-6307 

• Penang Office 

Tel: (04)226-8523 Fax: (04)226-8515 

Toshiba Electronics (Shanghai) Co., Ltd. 

• Shanghai Head Office 

Tel: (021)6139-3888 Fax: (021)6190-8288 

• Beijing Branch 

Tel: (010)6590-8796 Fax: (010)6590-8791 

• Chengdu Branch 

Tel: (028)8675-1773 Fax: (028)8675-1065 

• Hangzhou Office 

Tel: (0571)8717-5004 Fax: (0571)8717-5013 

• Nanjing Office 

Tel: (025)8689-0070 Fax: (025)8689-0125 

• Qingdao Branch 

Tel: (532)8579-3328 Fax: (532)8579-3329 

• Shenzhen Branch 

Tel: (0755)2399-6897 Fax: (0755)2399-5573 

Toshiba Electronics Asia, Ltd. 

Tel: 2375-6111 Fax: 2375-0969 

Toshiba Electronics (Dalian) Co., Ltd. 

Tel: (0411)8368-6882 Fax: (0411)8369-0822 

Tsurong Xiamen Xiangyu Trading Co., Ltd. 

Tel: (0592)226-1398 Fax: (0592)226-1399 

Toshiba Electronics Korea Corporation 

Tel: (02)3484-4334 Fax: (02)3484-4302 

Toshiba Electronics Taiwan Corporation 

Tel: (02)2508-9988 Fax: (02)2508-9999 

Toshiba Corporation, and its subsidiaries and affiliates (collectively “TOSHIBA”), reserve the right to make changes to the information in this document, and related hardware, 

software and systems (collectively “Product”) without notice. 

This document and any information herein may not be reproduced without prior written permission from TOSHIBA. Even with TOSHIBA’s written permission, reproduction is 

permissible only if reproduction is without alteration/omission. 

Though TOSHIBA works continually to improve Product's quality and reliability, Product can malfunction or fail. Customers are responsible for complying with safety standards and 

for providing adequate designs and safeguards for their hardware, software and systems which minimize risk and avoid situations in which a malfunction or failure of Product could 

cause loss of human life, bodily injury or damage to property, including data loss or corruption. Before customers use the Product, create designs including the Product, or 

incorporate the Product into their own applications, customers must also refer to and comply with (a) the latest versions of all relevant TOSHIBA information, including without 

limitation, this document, the specifications, the data sheets and application notes for Product and the precautions and conditions set forth in the "TOSHIBA Semiconductor 

Reliability Handbook" and (b) the instructions for the application with which the Product will be used with or for. Customers are solely responsible for all aspects of their own product 

design or applications, including but not limited to (a) determining the appropriateness of the use of this Product in such design or applications; (b) evaluating and determining the 

applicability of any information contained in this document, or in charts, diagrams, programs, algorithms, sample application circuits, or any other referenced documents; and (c) 

validating all operating parameters for such designs and applications. TOSHIBA ASSUMES NO LIABILITY FOR CUSTOMERS' PRODUCT DESIGN OR APPLICATIONS. 

PRODUCT IS NEITHER INTENDED NOR WARRANTED FOR USE IN EQUIPMENTS OR SYSTEMS THAT REQUIRE EXTRAORDINARILY HIGH LEVELS OF QUALITY AND/OR 

RELIABILITY, AND/OR A MALFUNCTION OR FAILURE OF WHICH MAY CAUSE LOSS OF HUMAN LIFE, BODILY INJURY, SERIOUS PROPERTY DAMAGE AND/OR 

SERIOUS PUBLIC IMPACT ("UNINTENDED USE"). Except for specific applications as expressly stated in this document, Unintended Use includes, without limitation, equipment 

used in nuclear facilities, equipment used in the aerospace industry, medical equipment, equipment used for automobiles, trains, ships and other transportation, traffic signaling 

equipment, equipment used to control combustions or explosions, safety devices, elevators and escalators, devices related to electric power, and equipment used in finance-related 

fields. IF YOU USE PRODUCT FOR UNINTENDED USE, TOSHIBA ASSUMES NO LIABILITY FOR PRODUCT. For details, please contact your TOSHIBA sales representative. 

Do not disassemble, analyze, reverse-engineer, alter, modify, translate or copy Product, whether in whole or in part. 

Product shall not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable laws or regulations. 

The information contained herein is presented only as guidance for Product use. No responsibility is assumed by TOSHIBA for any infringement of patents or any other intellectual 

property rights of third parties that may result from the use of Product. No license to any intellectual property right is granted by this document, whether express or implied, by 

estoppel or otherwise. 

ABSENT A WRITTEN SIGNED AGREEMENT, EXCEPT AS PROVIDED IN THE RELEVANT TERMS AND CONDITIONS OF SALE FOR PRODUCT, AND TO THE MAXIMUM 

EXTENT ALLOWABLE BY LAW, TOSHIBA (1) ASSUMES NO LIABILITY WHATSOEVER, INCLUDING WITHOUT LIMITATION, INDIRECT, CONSEQUENTIAL, SPECIAL, OR 

INCIDENTAL DAMAGES OR LOSS, INCLUDING WITHOUT LIMITATION, LOSS OF PROFITS, LOSS OF OPPORTUNITIES, BUSINESS INTERRUPTION AND LOSS OF DATA, 

AND (2) DISCLAIMS ANY AND ALL EXPRESS OR IMPLIED WARRANTIES AND CONDITIONS RELATED TO SALE, USE OF PRODUCT, OR INFORMATION, INCLUDING 

WARRANTIES OR CONDITIONS OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, ACCURACY OF INFORMATION, OR NONINFRINGEMENT. 

Product may include products using GaAs (Gallium Arsenide). GaAs is harmful to humans if consumed or absorbed, whether in the form of dust or vapor. Handle with care and do 

not break, cut, crush, grind, dissolve chemically or otherwise expose GaAs in Product. 

Do not use or otherwise make available Product or related software or technology for any military purposes, including without limitation, for the design, development, use, stockpiling 

or manufacturing of nuclear, chemical, or biological weapons or missile technology products (mass destruction weapons). Product and related software and technology may be 

controlled under the applicable export laws and regulations including, without limitation, the Japanese Foreign Exchange and Foreign Trade Law and the U.S. Export Administration 

Regulations. Export and re-export of Product or related software or technology are strictly prohibited except in compliance with all applicable export laws and regulations. 

Product may include products subject to foreign exchange and foreign trade control laws. 

Please contact your TOSHIBA sales representative for details as to environmental matters such as the RoHS compatibility of Product. Please use Product in compliance with all 

applicable laws and regulations that regulate the inclusion or use of controlled substances, including without limitation, the EU RoHS Directive. TOSHIBA ASSUMES NO 

LIABILITY FOR DAMAGES OR LOSSES OCCURRING AS A RESULT OF NONCOMPLIANCE WITH APPLICABLE LAWS AND REGULATIONS. 

In addition to the above, the following are applicable only to development tools. 

Though TOSHIBA works continually to improve Product’s quality and reliability, Product can malfunction or fail. Use the Product in a way which minimizes risk and avoid situations 

in which a malfunction or failure of Product could cause loss of human life, bodily injury or damage to property, including data loss or corruption. For using the Product, customers 

must also refer to and comply with the latest versions of all relevant TOSHIBA information, including without limitation, this document, the instruction manual, the specifications, the 

data sheets for Product. 

Product is provided solely for the purpose of performing the functional evaluation of a semiconductor product. Please do not use Product for any other purpose, including without 

limitation, evaluation in high or low temperature or humidity, and verification of reliability. 

Do not incorporate Product into your products or system. Products are for your own use and not for sale, lease or other transfer. 

2012 

Semiconductor & Storage Products Company 

Website: http://www.semicon.toshiba.co.jp/eng 

41 2012/8 SCE0004M

Optical Semiconductor Devices : SEMICONDUCTOR GENERAL ...

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