OPTO                                                                                             PHOTOCOUPLER INDEX TREE


■ Photocoupler Lineup
  <Phototransistor output type>
      Package type                   Output type                                    Features                                      Model No. (series)        Page
4-pin SOP                                                  General purpose,
Compact, SMT type            Single phototransistor        High collector-emitter voltage, etc.                            PC35x series/PC451J00000F         68
                                                                                                  Low input current        PC367NJ0000F                      68
                                                           AC input response                                               PC354NJ0000F                      68

                                                           High sensitivity,                      Low input current        PC364NJ0000F                      68
                             Darlington phototransistor    High collector-emitter voltage                                  PC355NJ0000F                      68
                                                                                                  Low input current        PC365NJ0000F                      68
Compact, Half pitch                                        General purpose,
(lead space), SMT type       Single phototransistor        High collector-emitter voltage, etc.                            PC3Hx series                      69
                                                                                                  Low input current        PC3H71xNIP0F                      69
                                                           High collector-emitter voltage                                  PC4H510NIP0F                      69
                                                           AC input response                                               PC3H3J00000F/PC3H4J00000F         69
                   ▲                                                                              Low input current        PC3H41xNIP0F                      69
                                                           4-channel output                                                PC3Q62J0000F▲/PC3Q67QJ000F▲       69
                                                                                                  Low input current        PC3Q71xNIP0F▲                     69
                                                           AC input response                                               PC3Q63J0000F▲/PC3Q64QJ000F▲       69
                                                                                                  Low input current        PC3Q41xNIP0F▲                     69
                             Darlington phototransistor    General purpose                                                 PC3H5J00000F                      69
                                                                                                  Low input current        PC3H510NIP0F                      69
                                                           High collector-emitter voltage                                  PC4H520NIP0F▲                     69
                                                           4-channel output                                                PC3Q65J0000F▲                     69
                                                                                                  Low input current        PC3Q510NIP0F▲                     69




                                                                                                                                                                        Optoelectronics
                                                                                                  Isolation thickness:
                                                                                                  0.4 mm or more
                                                           Approved by safety standards           Creepage distance:
DIP type (4/16-pin)          Single phototransistor        other than UL                          6.4 mm or more           PC123J00000F series               70
                                                                                                  Low input current        PC1231xNSZ0F                      70
                                                           General purpose,                                                PC817XJ0000F/PC847XJ0000F/
                                                           High collector-emitter voltage, etc.                            PC851XJ0000F                      70
                                                                                                  Low input current        PC817xxNSZ0F                      70
                                                           AC input response                                               PC814XJ0000F/PC844XJ0000F         70
                                                                                                  Low input current        PC8141xNSZ0F                      70
                                                           Built-in SBD/High response speed                                PC81100NSZ0F                      70
                                                           General purpose,                                                PC815XJ0000F/PC845XJ0000F/
                             Darlington phototransistor    High collector-emitter voltage                                  PC852XJ0000F/PC853XJ0000F         70
                                                                                                  Low input current        PC81510NSZ0F                      70
                                                           General purpose,
DIP type (6-pin)             Single phototransistor        High collector-emitter voltage, etc.                            PC7xxV0NSZXF                      71

                                                           General purpose,
                             Darlington phototransistor    High collector-emitter voltage, etc.                            PC7x5V0NSZXF                      71


  <OPIC output type>
      Package type                   Output type                                  Features                                       Model No. (series)         Page
                                                                                                                         PC4xxJ00000F/PC456L0NIP0F/
                                                                                                                         PC41xS0NIP0F/PC410L0NIP0F/
Compact, SMT type            Digital output                General purpose, High response speed, 2ch, etc.               PC411L0NIP0F/PC4D10SNIP0F           72
                             Analog/Digital output         High CMR                                                      PC457S0NIP0F/PC457L0NIP0F           73
                                                                                                                         PC9xxV0NSZXF/PC956L0NSZ0F/
                                                                                                                         PC910L0NSZ0F/PC911L0NSZ0F/
DIP type, SMT type           Digital output                General purpose, High response speed, etc.                    PC912L0NSZ0F▲                       73
                         ▲                                 For inverter control/For inverter control,                    PC928J00000F▲/PC929J00000F▲/
                             Built-in base amplifier        Built-in short-circuit protection circuit                     PC942J00000F/PC92xL0NSZ0F series    74
                             Analog/Digital output         High speed, High CMR, etc.                                    PC957L0NSZ0F                        74

The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use.




                                                                                                                                                                   67

OPTO PHOTOCOUPLERS ■ Photocouplers ◆Phototransistor Output <Compact, SMT type> : Approved, o: Under application (Ta = 25°C) Approved Absolute maximum ratings Electro-optical characteristics by safety Output Type Isolation Current transfer ratio Response time Internal standards*2 Collector- Forward voltage Model No. connection Features Package current (AC) emitter diagram voltage CTR IF VCE tr IC RL VCE IF Viso (%) (µs) UL VCEO (mA) (V) (mA) (Ω) (V) (mA) (rms) MIN. TYP. (V) (kV) PC357NJ0000F General purpose ❇ 50 3.75 80 50 5 5 4 2 100 2 General purpose, Single phototransistor output PC352NJ000F 50 3.75 80 90 5 5 4 2 100 2 high resistance to noise* 1 High collector-emitter ❇ PC451J00000F 50 3.75 350 40 5 5 4 2 100 2 voltage Low input current, PC367NJ0000F 10 3.75 80 100 0.5 5 4 2 100 2 high CMR (MIN. 10kV/µs) PC354NJ0000F AC input response ❇ Mini-flat ±50 3.75 80 20 ±1 5 4 2 100 2 4-pin Low input current, PC364NJ0000F high resistance to noise* 1, ±10 3.75 70 50 ±0.5 5 4 2 100 2 AC input response Darlington photo- transistor output PC355NJ0000F High sensitivity ❇ 50 3.75 35 600 1 2 60 2 100 2 High sensitivity, PC365NJ0000F 10 3.75 35 600 0.5 2 60 2 100 2 low input current *1 CMR: MIN.10 kV/µs *2 Please refer to Specification Sheets for model numbers approved by safety standards. ❇ A VDE approved type is optionally available. PC357NJ0000F (Mini-flat 4-pin) *PC353TJ0000F only: Same shape, 5-pin Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 68

PHOTOCOUPLERS ★Under development ◆Phototransistor Output <Compact, half pitch (lead space) SMT type> : Approved, o: Under application (Ta = 25°C) Approved Absolute maximum ratings Electro-optical characteristics by safety Isolation Current transfer Internal standards*3 Collector- Response time Forward voltage ratio Type Model No. connection Features Package current (AC) emitter diagram voltage CTR tr IF Viso IF VCE IC RL VCE UL VCEO (%) (µs) (mA) (rms) (mA) (V) (mA) (Ω) (V) (V) MIN. TYP. (kV) Reinforced insulation Low- (internal insulation distance: profile ★PC3HU7NYIP0F *4, 5 50 3.75 80 50 5 5 4 2 100 2 MIN. 0.4 mm), mini-flat low-profile package 4-pin PC3H2J00000F High resistance to noise* 1 50 2.5 80 20 1 5 4 2 100 2 PC3H7J00000F Standard *2 50 2.5 80 20 1 5 4 2 100 2 High resistance to noise* 1, PC3H71xNIP0F 10 2.5 80 100 0.5 5 4 2 100 2 low input current AC input response, PC3H3J00000F ±50 2.5 80 20 ±1 5 4 2 100 2 high resistance to noise *1 Mini-flat 4-pin Single phototransistor output PC3H4J00000F AC input response *2 ±50 2.5 80 20 ±1 5 4 2 100 2 AC input response, PC3H41xNIP0F high resistance to noise* 1, ±10 2.5 80 50 ±0.5 5 4 2 100 2 low input current High collector-emitter PC4H510NIP0F 50 2.5 350 40 5 5 4 2 100 2 voltage PC3Q67QJ000F▲ 4-ch type *2 50 2.5 80 50 5 5 4 2 100 2 Optoelectronics High resistance to noise *1, PC3Q62J0000F▲ 50 2.5 80 20 1 5 4 2 100 2 4-ch type High resistance to noise *1, PC3Q71xNIP0F▲ 10 2.5 80 100 0.5 5 4 2 100 2 4-ch type, low input current AC input response, Mini-flat PC3Q63J0000F▲ high resistance to noise* 1, 16-pin ±50 2.5 80 20 ±1 5 4 2 100 2 4-ch type PC3Q64QJ000F▲ AC input response, 4-ch type *2 ±50 2.5 80 20 ±1 5 4 2 100 2 AC input response, PC3Q41xNIP0F▲ high resistance to noise* 1, ±10 2.5 80 50 ±0.5 5 4 2 100 2 low input current, 4-ch type PC3H5J00000F High sensitivity *2 50 2.5 35 600 1 2 60 2 100 2 Darlington photo- High sensitivity, Mini-flat transistor output PC3H510NIP0F 10 2.5 35 600 0.5 2 60 2 100 2 low input current 4-pin High collector-emitter PC4H520NIP0F▲ 50 2.5 350 1 000 1 2 100 2 100 2 voltage PC3Q65J0000F▲ 4-ch type, high sensitivity *2 50 2.5 35 600 1 2 60 2 100 2 Mini-flat 4-ch type, high sensitivity, 16-pin PC3Q510NIP0F▲ 10 2.5 35 600 0.5 2 60 2 100 2 low input current *1 CMR: MIN.10 kV/µs *2 A VDE approved type is optionally available. *3 Please refer to Specification Sheets for model numbers approved by safety standards. *4 VDE, CSA approved *5 In conformance with BSI, SEMKO, DEMKO, NEMKO, and FIMKO The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. PC3HU7NYIP0F PC3H2J00000F PC3Q64QJ000F▲ (Mini-flat 4-pin) (Mini-flat 16-pin) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 69

OPTO PHOTOCOUPLERS ◆Phototransistor Output <DIP type (4/16-pin)> : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum ratings Electro-optical characteristics Output Type safety standards*8 Isolation Collector- Current transfer ratio Response time Internal Forward Model No. connection Features Package current voltage emitter CTR IF tr RL diagram VDE Others (AC) voltage UL IF (%) (mA) (µs) (Ω) *2 *3 Viso (rms) VCEO (mA) MIN. TYP. (kV) (V) High isolation voltage, PC123J00000F* 1 50 5.0 70 50 5 4 100 long creepage distance High isolation voltage, long 4-pin PC1231xNSZ0F creepage distance, low input – 10 5.0 70 50 0.5 4 100 DIP current, high resistance to noise *4 PC817XJ0000F* 5, *6, *7 High isolation voltage – 50 5.0 80 50 5 4 100 16-pin PC847XJ0000F* 5, *9 High isolation voltage (4-ch) – 50 5.0 80 50 5 4 100 Single phototransistor output DIP High isolation voltage, low input PC8171xNSZ0F – – 10 5.0 70 100 0.5 4 100 current, high resistance to noise *4 High isolation voltage, PC851XJ0000F – – 4-pin 50 5.0 350 40 5 4 100 high collector-emitter voltage DIP High isolation voltage, PC814XJ0000F* 5, *6 – ±50 5.0 80 20 ±1 4 100 AC input response High isolation voltage, 16-pin PC844XJ0000F – ±50 5.0 80 20 ±1 4 100 AC input response (4-ch) DIP High isolation voltage, AC input PC8141xNSZ0F response, low input current, – – ±10 5.0 80 50 ±0.5 4 100 high resistance to noise *4 4-pin Schottky barrier diode Built-in schottky barrier diode, DIP ton: PC81100NSZ0F toff: 35µs TYP. – – 50 5.0 70 50 5 TYP. 100 (In saturation, RL = 100kΩ) 9 High isolation voltage, 4-pin Darlington phototransistor output PC815XJ0000F – – 50 5.0 35 600 1 60 100 high sensitivity DIP High isolation voltage, 16-pin PC845XJ0000F – – 50 5.0 35 600 1 60 100 high sensitivity (4-ch) DIP High isolation voltage, PC81510NSZ0F – – 10 5.0 35 600 0.5 60 100 high sensitivity, low input current 4-pin High isolation voltage, DIP PC852XJ0000F* 5, *6 – 50 5.0 350 1 000 1 100 100 high collector-emitter voltage High isolation voltage, PC853XJ0000F* 5, *6 – 50 5.0 350 1 000 1 100 100 high collector-emitter voltage *1 Wide lead spacing type (F type) is also available. Creepage distance PC123: 6.4 mm or more, PC123F: 8 mm or more *2 Optionally available. *3 BSI, SEMKO, DEMKO, NEMKO, FIMKO, CSA *4 CMR: 10 kV/µs MIN. *5 Lead forming type (I type) is also available for surface mounting. *6 Taped package of lead forming type for surface mounting is also available. *7 Wide lead spacing type (F type) is also available. Lead forming type (FI type) of F type is also available.Taped package is also available for I and FI type of lead forming type. *8 Please refer to Specification Sheets for model numbers approved by safety standards. *9 Approved by UL as multi-channel type of PC817. PC817XJ0000F PC847XJ0000F (4-pin DIP) (16-pin DIP) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 70

PHOTOCOUPLERS ◆Phototransistor Output <DIP type (6-pin)> : Approved, o: Under application (Ta = 25°C) Approved Electro-optical characteristics Absolute maximum ratings Output Type by safety Isolation Collector- Current transfer Response Internal standards*2 Forward ratio time Model No. connection Features Package current voltage emitter diagram (AC) voltage CTR IF tr RL IF UL VDE*1 Viso (rms) VCEO (%) (mA) (µs) (Ω) (mA) (kV) (V) MIN. TYP. Darlington phototransistor output Single phototransistor output PC714V0NSZXF High isolation voltage 50 5.0 80 50 5 4 100 High isolation voltage, PC724V0NSZXF – 150 5.0 35 20 100 4 100 large input current High isolation voltage, PC713V0NSZXF 50 5.0 80 50 5 4 100 with base terminal 6-pin DIP High isolation voltage, PC715V0NSZXF 50 5.0 35 600 1 60 100 high sensitivity High isolation voltage, high sensitivity, PC725V0NSZXF 50 5.0 300 1 000 1 100 100 high collector-emitter voltage, high power *1 Optionally available. *2 Please refer to Specification Sheets for model numbers approved by safety standards. Optoelectronics PC713V0NSZXF (6-pin DIP) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 71

OPTO PHOTOCOUPLERS ◆OPIC∗ Output ∗  “OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a light-  <Compact, SMT type> (1-1)  detecting element and a signal-processing circuit integrated onto a single chip.  : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum Electro-optical characteristics*1 safety ratings Internal standards*2 Isolation Low level output voltage Threshold input current Model No. connection Features Package Forward voltage diagram current VOL IFHL IFLH (AC) Ta IOL IF RL UL VDE*3 IF Viso (rms) (V) (°C) (mA) (mA) (mA) (mA) (Ω) (mA) MAX. MAX. MAX. (kV) Digital output, PC400J00000F A – 50 3.75 0.4 0 to +70 16 4 2.0 – 280 normal-off operation Digital output, PC401J00000F A – 50 3.75 0.4 0 to +70 16 0 – 2.0 280 normal-on operation Built-in preamplifier, Mini-flat high speed transmission 5-pin PC456L0NIP0F A 25 3.75 0.6 –40 to +85 4.4 10 5.0 – 20 k (2 Mb/s), For flow soldering High speed (10 Mb/s), PC410L0NIP0F High CMR (10 kV/µs), 20 3.75 0.6 –40 to +85 13 5 5.0 – 350 For flow soldering High speed (10 Mb/s), High CMR (10 kV/µs), PC410S0NIP0F For flow soldering, 20 3.75 0.6 –40 to +85 13 5 5.0 – 350 Solder heat resistance: 270°C SOP High speed (25 Mb/s), 8-pin High CMR (10 kV/µs), VIN = PC412S0NIP0F For flow soldering, – –*4 3.75 1 –40 to +85 4 – – – VIL Solder heat resistance: 270°C High speed (15 Mb/s), Mini-flat PC411L0NIP0F High CMR (10 kV/µs), 20 3.75 0.1 –40 to +85 0.02 12 6.0 – – 5-pin For flow soldering High speed (15 Mb/s), High CMR (10 kV/µs), PC411S0NIP0F For flow soldering, 20 3.75 0.1 –40 to +85 0.02 12 6.0 – – Solder heat resistance: 270°C SOP High speed (10 Mb/s), 8-pin For flow soldering, PC4D10SNIP0F Solder heat resistance: – 20 3.75 0.6 –40 to +85 13 5 5.0 – – 270°C 2ch output A: Rated voltage circuit *1 Each item is measured at Vcc=5V. (PC400, PC401) *2 Please refer to Specification Sheets for model numbers approved by safety standards. *3 Optionally available. *4 No forward current rating for voltage input (rated input voltage: –0.5 to 6.0 V). Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 72

PHOTOCOUPLERS <Compact, SMT type> (1-2) : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum Electro-optical characteristics safety ratings Internal standards*1 Isolation Current transfer ratio Propagation delay time Model No. connection Features Package Forward voltage diagram current CTR tPHL tPLH (AC) IF VO VCC RL IF UL VDE*2 IF Viso (rms) (%) (mA) (V) (V) (µs) (µs) (Ω) (mA) (mA) MIN. TYP. TYP. (kV) High speed (1 Mb/s), Mini-flat PC457L0NIP0F high CMR (15 kV/µs), 25 3.75 19 16 0.4 4.5 0.2 0.6 1 900 16 5-pin For flow soldering High speed (1 Mb/s), high CMR (15 kV/µs), SOP PC457S0NIP0F For flow soldering, 25 3.75 19 16 0.4 4.5 0.2 0.6 1 900 16 8-pin Solder heat resistance: 270°C *1 Please refer to Specification Sheets for model numbers approved by safety standards. *2 Optionally available. PC400J00000F PC412S0NIP0F (Mini-flat 5-pin) (SOP 8-pin) ◆OPIC Output <DIP type, digital output> : Approved, o: Under application (Ta = 25°C) Absolute Approved by Electro-optical characteristics*1 maximum ratings safety Internal standards*6 Isolation Threshold input Low level output voltage Model No. connection Features Package Forward voltage current Optoelectronics diagram current (AC) VOL IFHL IFLH VDE IF Ta IOL IF RL UL Viso (rms) (V) (mA) (mA) *4 (mA) (°C) (mA) (mA) (Ω) (kV) MAX. MAX. MAX. Digital output, PC900V0NSZXF* 2, *3 A 50 5.0 0.4 0 to +70 16 4 2.0 – 280 normal-off operation 6-pin DIP Digital output, PC901V0NSZXF A 50 5.0 0.4 0 to +70 16 0 – 2.0 280 normal-on operation Built-in preamplifier, high speed transmis- PC956L0NSZ0F A 25 5.0 0.6 –40 to +85 2.4 10 5.0 – 20 k sion (2 Mb/s) For soldering flow Digital output, High speed (10 Mb/s), PC910L0NSZ0F 20 5.0 0.6 –40 to +85 13 5 5.0 – 350 high CMR (20 kV/µs) For soldering flow 8-pin DIP High speed (15 Mb/s), PC911L0NSZ0F high CMR (10 kV/µs), 20 5.0 0.1 –40 to +85 0.02 12 6.0 – – For soldering flow Digital output, VIN = PC912L0NSZ0F▲ High speed (25 Mb/s), –*5 5.0 1.0 –40 to +85 4 – – – VIL high CMR (20 kV/µs) A: Rated voltage circuit *1 Each item is measured at Vcc=5V. *2 Lead forming type (I type) is also available for surface mounting. *3 Taped package of lead forming type for surface mounting is also available. *4 Optionally available. *5 No forward current rating due to voltage input. (rated input voltage: –0.5 to 6.0 V) *6 Please refer to Specification Sheets for model numbers approved by safety standards. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. PC90xV0NSZXF series PC910L0NSZ0F (6-pin DIP) (8-pin DIP) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 73

OPTO PHOTOCOUPLERS ◆OPIC Output <DIP type, Gate drive type> : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum ratings Electro-optical characteristics safety Isolation Internal standards*3 Forward Output Propagation delay time Model No. connection Features Package voltage current current diagram (AC) tPHL tPLH VDE IF IO1 VCC IF RL1 RL2 UL Viso (rms) (µs) (µs) *2 (mA) (A) (V) (mA) (Ω) (Ω) (kV) TYP. TYP. For controlling inverter- PC942J00000F Interface 25 5.0 0.5 2.0 2.0 6 5 5 10 Amplifier controlled air-conditioner • Built-in drive circuit directly connectable to MOS-FET and IGBT RG = PC923L0NSZ0F* 1 Interface • Low dissipation current 20 5.0 0.1 0.3 0.3 24 5 – Amplifier 47 (Icc = TYP. 1.3 mA) • High resistance to noise (CMR: MIN. 15 kV/µs) • Built-in drive circuit directly connectable to MOS-FET and IGBT 8-pin RG = PC924L0NSZ0F* 1 Interface • Low dissipation current DIP 25 5.0 0.1 1.0 1.0 24 10 – Amplifier 47 (Icc = TYP. 1.3 mA) • High resistance to noise (CMR: MIN. 15 kV/µs) • Built-in drive circuit directly connectable to MOS-FET and IGBT OPIC • Peak output current: MAX. MAX. RG = Interface Tr1 PC925L0NSZ0F 2.5 A – – – 5.0 2.5 24 10 – PD Tr2 0.5 0.5 10 • Low dissipation current (Icc = TYP. 5 mA) • High resistance to noise (CMR: MIN. 15 kV/µs) IGBT protection circuit For driving inverter IGBT, RG = PC928J00000F▲ Interface built-in short 25 4.0 0.1 1.0 1.0 24 10 – Voltage regulator 47 Amplifier protection circuit 14-pin SMT (Half pitch IGBT protection circuit For driving inverter IGBT, lead) RG = PC929J00000F▲ Interface high speed, built-in short 20 4.0 0.1 0.3 0.3 24 5 – Voltage regulator 47 Amplifier protection circuit *1 Lead forming type (I type) is also available for surface mounting. Taped package of lead forming type for surface mounting is also available. *2 A VDE approved type is optionally available. *3 Please refer to Specification Sheets for model numbers approved by safety standards. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. ◆OPIC Output <DIP type, analog/digital output> : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum Electro-optical characteristics safety ratings Internal standards*3 Isolation Current transfer ratio Propagation delay time*1 Model No. connection Features Package Forward voltage diagram current CTR tPHL tPLH (AC) IF VO VCC RL IF UL VDE*2 IF (%) (µs) (µs) Viso (rms) (mA) (V) (V) (Ω) (mA) (mA) MIN TYP. TYP. (kV) High speed (1 Mb/s), 8-pin PC957L0NSZ0F high CMR (15 kV/µs), 25 5.0 19 16 0.4 4.5 0.2 0.6 1 900 16 DIP for flow soldering *1 Vcc = 5V *2 Optionally available. *3 Please refer to Specification Sheets for title(s) of safety standards. PC92xL0NSZ0F PC928J00000F (8-pin DIP) (14-pin SMT (Half pitch lead)) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 74

OPTO PHOTOTRIAC COUPLER INDEX TREE ■ Phototriac Coupler Lineup ON-state Package Applied voltage Features Model No. Page current (rms) AC 200 V lines Mini-flat (SMD) (VDRM = 600V) 0.05 A General purpose S2S3000F*4 / S2S5A00F*4 76 Built-in zero-cross circuit S2S4000F*4 76 Reinforced isolation PC3SG11YIZ0F▲*4 76 Built-in zero-cross circuit PC3SG21YIZ0F▲*4 76 AC 200 V lines DIP type (VDRM = 600V) 0.1 A General purpose PC3ST11NSZAF 76 (4-pin) Built-in zero-cross circuit PC3ST21NSZBF* 3 77 Reinforced isolation PC3SH11YFZAF* 4 / PC3SH13YFZAF* 4 76 Built-in zero-cross circuit PC3SH21YFZBF* 3 77 AC 100 V lines DIP type (VDRM = 400V) 0.1 A General purpose (5th-pin cut) PC2SD11NTZAF* 4 76 (6-pin) PC3SD12NTZAF* 4 / PC3SD11NTZAF▲*4 / AC 200 V lines PC3SD11NTZBF* 3 / PC3SD11NTZCF* 2 / (VDRM = 600V) 0.1 A General purpose (5th-pin cut) PC3SD11YTZDF* 1 / PC3SD21YTZEF* 5 76/77 PC3SD21NTZBF* 3 / PC3SD21NTZCF* 2 / Built-in zero-cross circuit PC3SD21NTZDF* 1 / PC3SD23YTZCF* 2 77 Reinforced isolation (5th-pin cut) PC3SF11YVZAF* 4 / PC3SF11YVZBF* 3 76 PC3SF21YVZAF* 4 / PC3SF21YVZBF* 3 / Built-in zero-cross circuit PC3SF23YVZSF* 3 77 AC 200 V lines (VDRM = 800V) 0.1 A General purpose PC4SD11NTZBF* 3 / PC4SD11NTZCF* 2 76 Built-in zero-cross circuit PC4SD21NTZCF* 2 / PC4SD21NTZDF* 1 77 Reinforced isolation PC4SF11YVZAF* 4 / PC4SF11YVZBF* 3 76 Optoelectronics Built-in zero-cross circuit PC4SF21YVZBF* 3 / PC4SF21YVZCF* 2 77 Minimum trigger current: *1 IFT & 3 mA, *2 IFT & 5 mA, *3 IFT & 7 mA, *4 IFT & 10 mA, *5 IFT & 2 mA The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. 75

OPTO PHOTOTRIAC COUPLERS ■ Phototriac Couplers : Approved, o: Under application (Ta = 25°C) Electro-optical Approved by Absolute maximum ratings characteristics safety standards*4 Internal Repetitive Min. trigger current Isolation Type Model No. connection Features Package ON-state peak voltage diagram current OFF-state IFT Others (AC) VD RL UL VDE IT (rms) voltage *5 Viso (rms) (mA) (V) (Ω) (A) VDRM MAX. (kV) (V) S2S3000F 200 V lines, compact *6 10 6 100 S2S5A00F 200 V lines, compact *6 Mini-flat 10 6 100 0.05 600 3.75 4-pin 200 V lines, PC3SG11YIZ0F▲ reinforced insulation – 10 6 100 (isolation thickness: 0.4 mm) PC3ST11NSZAF 200 V lines, compact *6 10 6 100 200 V lines, compact, PC3SH11YFZAF *2 4-pin 10 6 100 reinforced isolation 0.1 600 5.0 DIP 200 V lines, compact, PC3SH13YFZAF reinforced isolation, *2 10 6 100 High noise resistance PC2SD11NTZAF* 7 100 V lines – 400 10 6 100 PC3SD12NTZAF* 8 200 V lines *6 10 6 100 For triggering PC3SD11NTZAF 200 V lines *6 600 10 6 100 PC3SD11NTZBF 200 V lines *6 7 6 100 200 V lines, PC4SD11NTZBF *6 800 7 6 100 repetitive peak-OFF-state voltage PC3SD11NTZCF 200 V lines *6 5 6 100 6-pin 0.1 600 5.0 DIP*1, 3 PC3SD11YTZDF 200 V lines, low input drive 3 6 100 200 V lines, PC4SD11NTZCF *6 800 5 6 100 repetitive peak-OFF-state voltage PC3SF11YVZAF 200 V lines, reinforced isolation *2 10 6 100 600 PC3SF11YVZBF 200 V lines, reinforced isolation *2 7 6 100 200 V lines, reinforced isolation, PC4SF11YVZAF *2 10 6 100 repetitive peak-OFF-state voltage 800 200 V lines, reinforced isolation, PC4SF11YVZBF *2 7 6 100 repetitive peak-OFF-state voltage For the note *1 to *9, see next page. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 76

PHOTOTRIAC COUPLERS ■ Phototriac Couplers (cont’d) : Approved, o: Under application (Ta = 25°C) Electro-optical Approved by Absolute maximum ratings characteristics safety standards*4 Internal Repetitive Isolation Min. trigger current Type Model No. connection Features Package ON-state peak voltage diagram current IFT Others OFF-state (AC) VD RL UL VDE IT (rms) *5 VDRM Viso (rms) (mA) (V) (Ω) (A) MAX. (V) (kV) 200 V lines, compact, S2S4000F *6 0.05 600 3.75 10 6 100 built-in zero-cross circuit Zero-cross 200 V lines, Mini-flat circuit reinforced insulation 4-pin PC3SG21YIZ0F▲ – 0.05 600 3.75 10 6 100 (isolation thickness: 0.4 mm), built-in zero-cross circuit 200 V lines, compact, PC3ST21NSZBF *6 0.1 600 5.0 7 4 100 built-in zero-cross circuit 4-pin Zero-cross circuit 200 V lines, compact, reinforced DIP PC3SH21YFZBF *2 0.1 600 5.0 7 4 100 isolation, built-in zero-cross circuit 200 V lines, low zero-cross voltage: PC3SD21NTZBF *6 0.1 600 5.0 7 4 100 MAX. 20 V, built-in zero-cross circuit 200 V lines, low zero-cross voltage: PC3SD21NTZCF* 9 *6 0.1 600 5.0 5 4 100 MAX. 20 V, built-in zero-cross circuit 200 V lines, built-in zero-cross circuit, PC3SD23YTZCF High pulse/noise resistance 0.1 600 5.0 5 4 100 (TYP. 2 kV) For triggering 200 V lines, low zero-cross voltage: PC3SD21NTZDF *6 0.1 600 5.0 3 4 100 MAX. 20 V, built-in zero-cross circuit 200 V lines, built-in zero-cross circuit, PC3SD21YTZEF 0.1 600 5.0 2 4 100 Low input drive 200 V lines, built-in zero-cross circuit, PC4SD21NTZCF *6 0.1 800 5.0 5 4 100 repetitive peak-OFF-state voltage 200 V lines, built-in zero-cross circuit, 6-pin Optoelectronics PC4SD21NTZDF Zero-cross circuit *6 DIP*1, 3 0.1 800 5.0 3 4 100 repetitive peak-OFF-state voltage 200 V lines, reinforced isolation PC3SF21YVZAF *2 0.1 600 5.0 10 4 100 built-in zero-cross circuit 200 V lines, reinforced isolation PC3SF21YVZBF *2 0.1 600 5.0 7 4 100 built-in zero-cross circuit 200 V lines, reinforced isolation, PC3SF23YVZSF built-in zero-cross circuit, High pulse/ *2 0.1 600 5.0 7 4 100 noise resistance (TYP. 2 kV) 200 V lines, reinforced isolation, PC4SF21YVZBF built-in zero-cross circuit, *2 0.1 800 5.0 7 4 100 repetitive peak-OFF-state voltage 200 V lines, reinforced isolation, PC4SF21YVZCF built-in zero-cross circuit, *2 0.1 800 5.0 5 4 100 repetitive peak-OFF-state voltage *1 Lead forming type for surface mounting is also available. *2 In conformance with BSI, SEMKO, DEMKO, NEMKO, and FIMKO *3 These are molded pin No. 5. *4 Please refer to Specification Sheets for model numbers approved by safety standards. *5 CSA approval *6 Optionally available *7 An equivalent model (IFT MAX.: 15 mA) with overseas brand compatibility is also available. (PC1S3021NTZF) *8 An equivalent model with overseas brand compatibility is also available. (PC1S3052NTZF) *9 An equivalent model with overseas brand compatibility is also available. (PC1S3063NTZF) The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. S2S3000F PC2SD series PC3SF series PC3ST11NSZAF PC3SH11YFZAF (Mini-flat 4-pin) (PC3SD series, PC4SD series) (PC4SF series) (PC3ST21NSZBF)  PC3SH21YFZBF,  (6-pin DIP) (6-pin DIP) (4-pin DIP)  PC3SH13YFZAF  (4-pin DIP) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 77

OPTO SOLID STATE RELAY INDEX TREE ■ Solid State Relay Lineup Package Applied voltage Features Model No. Page DIP 6-pin AC 100 V lines General purpose PR22MA11NTZF 79 AC 200 V lines General purpose PR31MA11NTZF / PR32MA11NTZF 79 DIP 8-pin AC 100 V lines General purpose PR23MF11NSZF / PR26MF series / PR29MF series 79 Built-in zero-cross circuit PR26MF21NSZF / PR29MF21NSZF 79 PR33MF51NSZF / PR36MF series / PR39MF series / AC 200 V lines General purpose PR3BMF11NSZF▲ 79 Built-in zero-cross circuit PR36MF series / PR39MF series / PR3BMF21NSZF 79 S102T01F▲ / S108T01F▲ / S101S05F▲ / SIP 4-pin AC 100 V lines General purpose S102S01F▲ / S112S01F▲ / S116S01F▲ 80 S102T02F▲ / S108T02F▲ / S101S06F▲ / Built-in zero-cross circuit S102S02F▲ / S116S02F▲ 80 Sx0xT0xF series Built-in snubber circuit S102S11F▲ 80 Built-in zero-cross/snubber circuit S101S16F▲ / S102S12F▲ 80 S202T01F▲ / S208T01F▲ / S202S01F▲ / AC 200 V lines General purpose S212S01F▲ / S216S01F▲ 80 S202T02F▲ / S208T02F▲ / S201S06F▲ / Built-in zero-cross circuit S202S02F▲ / S216S02F▲ 80/81 Built-in snubber circuit S202S15F▲ / S202S11F▲ 80/81 Built-in zero-cross/snubber circuit S202S12F▲ 81 Reinforced isolation S202SE1F▲ / S216SE1F▲ 81 Built-in zero-cross circuit S202SE2F▲ / S216SE2F▲ 81 The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. 78

SOLID STATE RELAYS ■ Solid State Relays <DIP type> : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum ratings Electrical characteristics safety standards*1 Repetitive Isolation Min. trigger current Internal ON-state Model No. connection Features Package current peak voltage OFF-state (AC) IFT diagram IT (rms) VD RL UL CSA VDE*2 voltage Viso (rms) (mA) (A) (V) (Ω) VDRM (V) (kV) MAX. PR31MA11NTZF 200 V lines, compact 0.06 600 5.0 10 6 100 100 V lines, 6-pin PR22MA11NTZF 400 5.0 10 6 100 150 mA output in a small package DIP 0.15 200 V lines, PR32MA11NTZF 600 5.0 10 6 100 150 mA output in a small package PR23MF11NSZF 100 V lines, compact – 0.3 400 4.0 10 6 100 PR33MF51NSZF 200 V lines, compact 0.3 600 4.0 10 6 100 PR26MF11NSZF 100 V lines, compact – 0.6 400 4.0 10 6 100 100 V lines, compact, PR26MF12NSZF – 0.6 400 4.0 5 6 100 low input current PR29MF11NSZF 100 V lines, compact – 0.9 400 4.0 10 6 100 100 V lines, compact, PR29MF12NSZF – 0.9 400 4.0 5 6 100 low input current 100 V lines, compact PR26MF21NSZF – 0.6 400 4.0 10 6 100 (built-in zero-cross circuit) 8-pin Zero- cross 100 V lines, compact DIP PR29MF21NSZF circuit – 0.9 400 4.0 10 6 100 (built-in zero-cross circuit) Optoelectronics PR36MF51NSZF 200 V lines, compact 0.6 600 4.0 10 6 100 200 V lines, compact, PR36MF12NSZF 0.6 600 4.0 5 6 100 low input current PR39MF11NSZF▲ 200 V lines, compact 0.9 600 4.0 10 6 100 200 V lines, compact, PR39MF12NSZF 0.9 600 4.0 5 6 100 low input current PR39MF51NSZF 200 V lines, compact 0.9 800 4.0 10 6 100 200 V lines, compact, PR3BMF11NSZF▲ 1.2 600 4.0 10 6 100 High-temperature operation 200 V lines, compact (built-in zero- PR36MF22NSZF 0.6 600 4.0 5 6 100 cross circuit), low input current 200 V lines, compact (built-in zero- PR39MF22NSZF 0.9 600 4.0 5 6 100 cross circuit), low input current 200 V lines, compact (built-in zero- 8-pin PR36MF21NSZF Zero- 0.6 600 4.0 10 6 100 cross cross circuit) DIP circuit 200 V lines, compact (built-in zero- PR39MF21NSZF 0.9 600 4.0 10 6 100 cross circuit) 200 V lines, compact (built-in zero- PR3BMF21NSZF 1.2 600 4.0 10 6 100 cross circuit) *1 Please refer to Specification Sheets for model numbers approved by safety standards. *2 Optionally available. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. PR22MA11NTZF PR26MF21NSZF (6-pin DIP) (8-pin DIP) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 79

OPTO SOLID STATE RELAYS <SIP type> (1) : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum ratings Electrical characteristics safety standards*6 Repetitive Isolation Min. trigger current Internal ON-state Model No. connection Features peak voltage TÜV Package current OFF-state (AC) IFT diagram IT (rms) VD RL UL CSA EN voltage Viso (rms) (mA) (A) (V) (Ω) 60950 VDRM(V) (kV) MAX. S102T01F▲ 100 V lines, low profile – Low 2 8 12 30 profile 400 3.0 4-pin S108T01F▲ 100 V lines, low profile – – – SIP 8*2 8 12 30 S101S05F▲ 100 V lines – 3*3 3.0 15 12 30 S102S01F▲ 100 V lines – 8*2 8 12 30 4-pin 400 SIP S112S01F▲ 100 V lines – 12*4 4.0 8 12 30 S116S01F▲ 100 V lines – 16*5 8 12 30 100 V lines, low profile Low S102T02F▲ – 2 8 12 30 (built-in zero-cross circuit) profile Zero- 400 3.0 cross 100 V lines, low profile 4-pin S108T02F▲ – – – SIP 8*2 8 12 30 circuit (built-in zero-cross circuit) S101S06F▲ 100 V lines (built-in zero-cross circuit) – 3*3 3.0 15 6 30 S102S02F▲ Zero- 100 V lines (built-in zero-cross circuit) – 8*2 400 8 6 30 cross circuit 4.0 S116S02F▲ 100 V lines (built-in zero-cross circuit) – 16*5 8 6 30 4-pin SIP S102S11F▲ 100 V lines (built-in snubber circuit) – 8*1 400 4.0 8 12 30 100 V lines (built-in snubber circuit, S101S16F▲ – 3*3 3.0 15 6 30 built-in zero-cross circuit) Zero- 400 cross 100 V lines (built-in snubber circuit, S102S12F▲ – 8*1 4.0 8 6 30 circuit built-in zero-cross circuit) S202T01F▲ 200 V lines, low profile – Low 2 8 12 30 profile 600 3.0 4-pin S208T01F▲ 200 V lines, low profile – – – SIP 8*2 8 12 30 S202S01F▲ 200 V lines – 8*2 8 12 30 S212S01F▲ 200 V lines – – – 12*4 600 4.0 8 12 30 4-pin S216S01F▲ 200 V lines – – – SIP 16*5 8 12 30 S202S15F▲ 200 V lines, built-in snubber circuit – – – 8*6 600 3.0 10 12 30 200 V lines, low profile Low S202T02F▲ – 2 8 12 30 (built-in zero-cross circuit) profile 200 V lines, low profile 4-pin S208T02F▲ – – – SIP 8*2 3.0 8 12 30 (built-in zero-cross circuit) S201S06F▲ Zero- 200 V lines (built-in zero-cross circuit) – 3*3 600 15 6 30 cross circuit 4-pin S202S02F▲ 200 V lines (built-in zero-cross circuit) – 8*2 8 6 30 SIP 4.0 S216S02F▲ 200 V lines (built-in zero-cross circuit) – – – 16*5 8 6 30 *1 to *6: Please refer to the next page. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 80

SOLID STATE RELAYS <SIP type> (2) : Approved, o: Under application (Ta = 25°C) Approved by Absolute maximum ratings Electrical characteristics safety standards*6 Repetitive Isolation Min. trigger current Internal ON-state Model No. connection Features peak voltage TÜV Package current OFF-state (AC) IFT diagram IT (rms) VD RL UL CSA EN voltage Viso (rms) (mA) (A) (V) (Ω) 60950 VDRM(V) (kV) MAX. S202S11F▲ 200 V lines (built-in snubber circuit) – 8*1 600 4.0 8 12 30 200 V lines (built-in snubber circuit, S202S12F▲ Zero- – 8*1 600 4.0 8 6 30 cross built-in zero-cross circuit) circuit 4-pin S202SE1F▲ SIP 8*2 8 12 30 200 V lines, reinforced isolation 600 3.0 S216SE1F▲ – – 16*5 8 12 30 S202SE2F▲ 8*2 8 6 30 200 V lines (built-in zero-cross circuit), Zero- 600 3.0 cross reinforced isolation S216SE2F▲ circuit – – 16*5 8 6 30 *1 Tc & 88°C *2 Tc & 80°C *3 Tc & 100°C *4 Tc & 70°C *5 Tc & 60°C *6 Please refer to Specification Sheets for model numbers approved by safety standards. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. Optoelectronics S102T01 series S102S01 series (Low profile 4-pin SIP) (4-pin SIP) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 81

OPTO PHOTOINTERRUPTER INDEX TREE ■ Photointerrupter Lineup <Transmissive type> Output type Package type Outline Mounting method Model No. (series) Page Single phototransistor Compact General purpose PWB mounting type GP1S2x series/GP1S37J0000F 83 High response speed GP1S2xJ0000F series/GP1S092HCPIF/ GP1S9xJ0000F series/ PWB mounting type/ GP1S09xHCZ0F series/ High resolution Soldering reflow GP1S19xHCZ0F/GP1S19xHCxSF 83 Two-phase PT output PWB mounting type GP1S39J0000F 83 Case type General purpose Snap-in GP1S566VJ00F 84 GP1S5x series/GP1S5xVJ000F series/ High resolution PWB mounting type, etc. GP1S56x series 84 Horizontal slit, High resolution PWB mounting type GP1S59J0000F/GP1S525VJ00F 84 With connector General purpose Snap-in GP1S74PJ000F 84 Darlington phototransistor Case type General purpose PWB mounting type, etc. GP1L5xJ series/GP1L5xV series 85 High sensitivity Wide gap PWB mounting type GP1L57J0000F 85 Digital output Compact Low voltage operation PWB mounting type GP1A91 series/GP1A98HCZ0F 85 (OPIC output) Case type High resolution PWB mounting type GP1A5x series 86 Wide gap Both-side/PWB mounting type GP1A5xHR series/GP1A52LRJ00F 86 GP1A05 series/GP1A7x series/ With connector General purpose Screw mounting type/Snap-in GP1A07x series 87 <Reflective type> Output type Package type Outline Mounting method Model No. (series) Page Single phototransistor Compact, DIP General purpose PWB mounting type GP2S2x series 87 High response speed Long focal distance PWB mounting type GP2S40J0000F 87 Leadless Long focal distance PWB mounting type GP2S700HCP 87 Compact, thin (leadless) General purpose PWB mounting type GP2S60 87 Darlington phototransistor Compact, DIP General purpose PWB mounting type GP2L24J0000F 88 High sensitivity Screw mounting type/ Light modulation type, Compact snap-in/ GP2A2x series, GP2A200LCS0F/ OPIC output With connector Sensitivity adjusted Inverter light countermeasures GP2A231LRSAF, GP2A240LCS0F 88 <Application-specific photointerrupter lineup> Detection type Outline (Output type etc.) Mounting method Model No. (series) Page With connector Transmissive type With actuator (Phototransistor output) Snap-in GP1S44S1J00F 89 With connector With actuator (OPIC output) Snap-in GP1A44E1J00F 89 Compact, (2-phase PT output) [built-in ball] 3 direction detection PWB mounting type GP1S36J0000F 90 (2-phase PT output) 4 direction detection PWB mounting type GP1S036HEZ 90 Case type Resolution: Disk slit pitch: With encoder function 0.7 mm Side mounting type GP1A3xR series 90 GP1A038RBK0F/GP1A046RBZLF/ Phase A (digital output) Resolution: Linear scale GP1A047RBZLF/GP1A038RCK0F/ Phase B (digital output) slit pitch: 0.17/0.14 mm PWB mounting type GP1A044RCKLF 90 Resolution: Linear scale slit pitch: 0.085 PWB mounting type GP1A037RDKJF/GP1A047RDZLF 90 Injection Reflective type For prism system (Single phototransistor) Screw mounting GP2S29SJ000F 91 For amusement industry – GP2A221HRKA/GP2A222HCKA 91 82

PHOTOINTERRUPTERS ■ Photointerrupters <Transmissive type> ◆Single phototransistor output <Compact type> (Ta = 25°C) Detecting Electro-optical characteristics Internal and Current transfer ratio Response time Slit width Model No. connection Features emitting CTR tr (mm) IF VCE IC RL VCE diagram gap (%) (µs) (mm) (mA) (V) (mA) (Ω) (V) MIN. TYP. Side lead type, GP1S25J0000F▲ 1.6 0.3 1.0 5 5 35 0.1 1 000 5 For soldering reflow GP1S27J0000F▲ PWB mounting type 0.9 0.8 4.3 1.5 5 50 0.1 1 000 5 Height: 2.9 mm, GP1S092HCPIF 2.0 0.3 2.0 5 5 50 0.1 1 000 5 For soldering reflow, with positioning boss GP1S37J0000F▲ PWB mounting type 2.0 0.8 1 3 5 50 0.1 1 000 5 GP1S93J0000F▲ Wide gap, low profile (3.1 mm) 2.0 0.3 2.0 5 5 50 0.1 1 000 5 GP1S093HCZ0F Wide gap, low profile (2.9 mm) 2.0 0.3 2.0 5 5 50 0.1 1 000 5 GP1S94J0000F▲ Wide gap, with positioning pin 3.5 0.3 0.8 5 5 50 0.1 1 000 5 Wide gap, with positioning pin, GP1S094HCZ0F 3.0 0.3 0.8 5 5 50 0.1 1 000 5 PWB mounting type (5.5 × 2.6 × 4.8 mm) GP1S95J0000F▲ High resolution, thin detector type 1.6 0.3 1.0 5 5 35 0.1 1 000 5 GP1S96J0000F▲ Low profile (3.5 × 2.6 × 3.1 mm) 1.0 0.3 2.0 5 5 50 0.1 1 000 5 GP1S096HCZ0F Low profile (3.5 × 2.6 × 2.9 mm) 1.0 0.3 2.0 5 5 50 0.1 1 000 5 Compact, wide gap, GP1S194HCZ0F 1.7 0.3 1.0 5 5 – – – – size: 3.7 × 2.0 × 2.7 mm GP1S195HCZSF Compact, wide gap, surface mount compatible, 1.5 0.3 1.0 5 5 – – – – GP1S195HCPSF size: 3.5 × 2.0 × 2.7 mm Optoelectronics GP1S196HCZ0F Compact, Low profile (3.1 × 2.0 × 2.7 mm) 1.1 0.3 2.0 5 5 50 0.1 1 000 5 Surface mount, for soldering reflow, GP1S196HCZSF 1.1 0.3 2.0 5 5 50 0.1 1 000 5 compact, low profile (3.1 × 2.0 × 2.7 mm) High resolution, wide gap, with mounting hole, GP1S97J0000F▲ 2.2 0.3 1.6 5 5 50 0.1 1 000 5 PWB mounting type High resolution, wide gap, GP1S097HCZ0F 2.0 0.3 2.0 5 5 50 0.1 1 000 5 with mounting hole (4.5 × 2.6 × 4.5 mm) PT1 PWB mounting type, GP1S39J0000F▲ PT2 1.5 0.6*1 3.3 4 5 50 0.1 1 000 5 two-phase output type ❇ Topr: –25 to +85 °C *1 Reading pitch The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GP1S25J0000F▲ GP1S27J0000F▲ GP1S092HCPIF GP1S37J0000F▲ GP1S93J0000F▲ GP1S093HCZ0F GP1S94J0000F▲ GP1S094HCZ0F GP1S95J0000F▲ GP1S96J0000F▲ GP1S096HCZ0F GP1S194HCZ0F GP1S195HCPSF GP1S196HCZ0F GP1S196HCZSF GP1S97J0000F▲ GP1S097HCZ0F GP1S39J0000F▲ GP1S195HCZSF Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 83

OPTO PHOTOINTERRUPTERS <Case type> (Ta = 25°C) Detecting Electro-optical characteristics Internal and Current transfer ratio Response time Slit width Model No. connection Features emitting CTR tr (mm) IF VCE IC RL VCE diagram gap (%) (µs) (mm) (mA) (V) (mA) (Ω) (V) MIN. TYP. GP1S566VJ00F Long case, snap-in mounting type 3.0 0.5 2.5 20 5 3 2 100 2 GP1S50J0000F High resolution, both-side mounting type 3.0 0.5 2.5 20 5 3 2 100 2 GP1S51VJ000F* 1 High resolution, side mounting type 3.0 0.5 2.5 20 5 3 2 100 2 GP1S52VJ000F* 1 High resolution, PWB mounting type 3.0 0.5 2.5 20 5 3 2 100 2 GP1S53VJ000F High resolution, PWB mounting type 5.0 0.5 2.5 20 5 3 2 100 2 High resolution, with positioning pin, GP1S54J0000F 3.0 0.5 2.5 20 5 3 2 100 2 PWB mounting type High resolution, with positioning pin, GP1S56TJ000F 2.0 0.15 2.0 20 5 38 0.5 1 000 2 PWB mounting type High resolution, with positioning pin, GP1S58VJ000F 5.0 0.5 2.5 20 5 3 2 100 2 PWB mounting type High resolution, horizontal slit, with positioning pin, GP1S59J0000F 4.2 0.5 2.5 20 5 3 2 100 2 PWB mounting type Short lead type with easy board mounting, GP1S525VJ00F horizontal slit, 5.0 0.5 3.25 20 10 3 2 100 2 high precision positioning (lead: within ø1.2 mm) ❇ Topr: –25 to +85 °C *1 High reliability types: GP1SQ51VJ00F, and GP1SQ52J000F are also available. GP1S566VJ00F GP1S50J0000F GP1S51VJ000F GP1S52VJ000F GP1S53VJ000F GP1S54J0000F GP1S56TJ000F GP1S58VJ000F GP1S59J0000F GP1S525VJ00F <With connector type> (Ta = 25°C) Detecting Electro-optical characteristics Internal and Current transfer ratio Response time Slit width Model No. connection Features emitting CTR tr (mm) IF VCE IC RL VCE diagram gap (%) (µs) (mm) (mA) (V) (mA) (Ω) (V) MIN. TYP. Snap-in mounting type with connector GP1S74PJ000F 5.0 0.5 2.5 20 5 3 2 100 2 Applicable to 3 kinds of thickness of mounting boards ❇ Topr: –25 to +85 °C GP1S74PJ000F Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 84

PHOTOINTERRUPTERS ✩New product ◆Darlington phototransistor output <Case type> (Ta = 25°C) Detecting Electro-optical characteristics Internal and Current transfer ratio Response time Slit width Model No. connection Features emitting CTR tr (mm) IF VCE IC RL VCE diagram gap (%) (µs) (mm) (mA) (V) (mA) (Ω) (V) MIN. TYP. GP1L50J0000F High resolution, both-side mounting type 3.0 0.5 50 1 2 80 2 100 2 GP1L51J0000F High resolution, side mounting type 3.0 0.5 50 1 2 80 2 100 2 GP1L52VJ000F High resolution, PWB mounting type 3.0 0.5 50 1 2 80 2 100 2 GP1L53VJ000F High resolution, PWB mounting type 5.0 0.5 30 1 2 80 2 100 2 GP1L57J0000F Wide gap, PWB mounting type 10.0 1.8 70 1 2 130 2 100 2 ❇ Topr: –25 to +85 °C GP1L50J0000F GP1L51J0000F GP1L52VJ000F GP1L53VJ000F GP1L57J0000F “OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a ◆OPIC type ( light-detecting element and signal-processing circuit integrated onto a single chip. ) <Compact type> (Ta = 25°C) Optoelectronics Detecting Electro-optical characteristics Internal and Threshold input current Propagation delay time Slit width Model No. connection Features emitting IFLH IFHL tPLH tPHL (mm) VCC IF RL VCC diagram gap (mA) (mA) (µs) (µs) (mm) (V) (mA) (Ω) (V) MAX. MAX. TYP. TYP. Amplifier Compact, PWB mounting, (15 kΩ) GP1A91LRJ00F▲ low operating voltage 1.2 (0.23) *1 – 3.5 3 10.0 3.0 5 3 000 3 (1.4 V to 7.0 V) Amplifier Compact, PWB mounting, (15 kΩ) GP1A91LCJ00F▲ low operating voltage 1.2 (0.23) *1 – 3.5 3 10.0 3.0 5 2 500 3 (1.4 V to 7.0 V) Voltage regulator 3 900 Amplifier 3.3 to 3.3 ✩GP1A98HCZ0F Compact, PWB mounting 3.0 0.5 8 – 10.0 2.0 10 to 24 to 24 20 000 ❇ Topr = –25 to +85°C *1 Resolution of detecting portion The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GP1A91LRJ00F GP1A98HCZ0F (GP1A91LCJ00F) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 85

OPTO PHOTOINTERRUPTERS <Case type> (Ta = 25°C) Detecting Electro-optical characteristics Internal and Threshold input current Propagation delay time Slit width Model No. connection Features emitting IFLH IFHL tPLH tPHL (mm) VCC IF RL VCC diagram gap (mA) (mA) (µs) (µs) (mm) (V) (mA) (Ω) (V) MAX. MAX. TYP. TYP. GP1A50HRJ00F Both-side mounting type 3.0 0.5 5 – 5 3 5 5 280 5 GP1A51HRJ00F Side mounting type 3.0 0.5 5 – 5 3 5 5 280 5 Voltage GP1A52HRJ00F regulator Amplifier PWB mounting type 3.0 0.5 5 – 5 3 5 5 280 5 GP1A53HRJ00F PWB mounting type 5.0 0.5 8 – 5 3 5 8 280 5 PWB mounting type, GP1A57HRJ00F 10.0 1.8 7 – 5 3 5 7 280 5 with positioning pin PWB mounting type, GP1A58HRJ00F 5.0 0.5 8 – 5 3 5 8 280 5 with positioning pin Voltage regulator Amplifier GP1A52LRJ00F PWB mounting type 3.0 0.5 – 5 5 5 3 5 280 5 ❇ Topr = –25 to +85°C GP1A50HRJ00F GP1A51HRJ00F GP1A52LRJ00F GP1A53HRJ00F GP1A57HRJ00F (GP1A52HRJ00F)  GP1A58HRJ00F   with positioning pin  Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 86

PHOTOINTERRUPTERS “OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a ◆OPIC type ( light-detecting element and signal-processing circuit integrated onto a single chip. ) <With 3-pin connector terminal> (Ta = 25°C) Detecting Electro-optical characteristics Internal and Supply voltage Low level output voltage Slit width Model No. connection Features emitting VCC VOL (mm) Light IOL VCC diagram gap (V) (V) (mm) cut-off (mA) (V) MIN. MAX. MAX. GP1A05AJ000F Voltage regulator Either-side mounting type 5.0 0.5 4.5 5.5 0.35 No 16 5 Amplifier GP1A05A2J00F Either-side mounting type 5.0 0.5 4.5 5.5 0.35 No 16 5 GP1A05A5J00F Either-side mounting type 5.0 0.5 4.5 5.5 0.35 No 16 5 Compact, GP1A73AJ000F 5.0 0.5 4.5 5.5 0.35 No 4 5 with 3-pin connector Voltage regulator Amplifier snap-in mounting type Compact, GP1A073LCS snap-in mounting type, 5.0 0.5 2.7 5.5 0.35 No 4 5 low voltage operation Voltage regulator Amplifier GP1A75EJ000F Either-side mounting type 5.0 0.5 4.5 5.5 0.35 Yes 16 5 Voltage GP1A05EJ000F regulator 5.0 0.5 4.5 5.5 0.4 Yes 16 5 Amplifier 15 kΩ Either-side mounting type Screw mounting type GP1A05E2J00F 5.0 0.5 4.5 5.5 0.4 Yes 16 5 ❇ Topr: –20 to +75°C Optoelectronics GP1A05AJ000F GP1A05A2J00F GP1A05A5J00F GP1A73AJ000F, GP1A073LCS GP1A75EJ000F (GP1A05EJ000F) (GP1A05E2J00F) ■ Photointerrupters <Reflective type> ◆Single Phototransistor output <Compact> (Ta = 25°C) Electro-optical characteristics Internal Focal Current transfer ratio Response time Model No. connection Features distance diagram (mm) CTR (%) IF VCE tr (µs) IC RL VCE MIN. (mA) (V) TYP. (mA) (Ω) (V) GP2S24J0000F Compact (DIP), visible light cut-off 0.7 0.5 4 2 20 0.1 1 000 2 Compact, allow reflow soldering, GP2S27J0000F 0.7 0.5 4 2 20 0.1 1 000 2 visible light cut-off GP2S40J0000F Compact, long focal distance, visible light cut-off 3 2.5 20 5 50 0.1 1 000 2 Compact, long focal distance, surface mounting GP2S700HCP 3 1.5 4 2 20 0.1 1 000 2 leadless type GP2S60 Thin (3.2 × 1.7 × t: 1.1 mm), leadless type (0.5) 1.75*1 TYP. 4 2 20 0.1 1 000 2 ❇ Topr: –25 to +85°C *1 Detection area GP2S24J0000F GP2S27J0000F GP2S40J0000F GP2S700HCP GP2S60 Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 87

OPTO PHOTOINTERRUPTERS ◆Darlington Phototransistor output <Compact> (Ta = 25°C) Electro-optical characteristics Internal Focal Current transfer ratio Response time Model No. connection Features distance diagram (mm) CTR (%) IF VCE tr (µs) IC RL VCE MIN. (mA) (V) TYP. (mA) (Ω) (V) GP2L24J0000F Compact (DIP), visible light cut-off 0.7 12.5 4 2 80 10 100 2 GP2L24J0000F “OPIC” (Optical IC) is a trademark of SHARP Corporation. An OPIC consists of a ◆OPIC output ( light-detecting element and signal-processing circuit integrated onto a single chip. ) <With 3-pin connector terminal> (Ta = 25°C) Electro-optical characteristics Optimum Internal Supply voltage Dissipation current Low level output voltage detecting Model No. connection Features VCC ICC VOL distance VCC VCC diagram (V) (mA) (V) (mm) (V) (V) MIN. MAX. MAX. MAX. Multi types of paper detectable, light modulation type, GP2A22J0000F▲ 9 to 15 4.75 5.25 30*1 5 0.4 5 with connector, sensitivity adjusted Multi types of paper detectable, light modulation type, GP2A200LCS0F 5 to 15 4.75 5.25 30*1 5 0.4 5 with connector, sensitivity adjusted Improved light-resistance characteristic for inverter lighting GP2A240LCS0F 5 to 15 4.75 5.25 30*1 5 0.4 5 (500 lx), light modulation type, connector output Static electricity resistant, GP2A250LCS0F improved light-resistance characteristic for inverter lighting 5 to 15 4.75 5.25 30*1 5 0.4 5 (500 lx), light modulation type, connector output OPIC output Multi types of paper detectable, light modulation type, GP2A25J0000F (Following 3 to 7 4.75 5.25 30*1 5 0.4 5 with connector, sensitivity adjusted diagram) Compact, Hook type, Multi types of paper detectable, GP2A231LRSAF 3 to 7 4.75 5.25 20*1 5 0.4 5 light modulation type, with connector, sensitivity adjusted Multi types of paper detectable, light modulation type, GP2A25NJJ00F sensitivity adjusted, applicable to inverter fluorescent lamp, 3 to 6 4.75 5.25 30*1 5 0.4 5 built-in visible light cut filter Multi types of paper detectable, light modulation type, GP2A25BJ000F 3 to 7 4.75 5.25 30*1 5 0.4 5 with connector, sensitivity adjusted Multi types of paper detectable, light modulation type, GP2A28AJ000F with connector, sensitivity adjusted, 3 to 7 4.75 5.25 30*1 5 0.4 5 detecting portion with flat configuration ❇ Topr: –10 to +60°C (GP2A22J0000F, GP2A25J0000F, GP2A25BJ000F) *1 Smoothing value RL = ∞ The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. [Internal connection diagram] Amplifier Comparator Voltage regulator Demodulator Synchronous detector Oscillator GP2A22J0000F GP2A25J0000F  GP2A25NJ, GP2A28AJ000F, GP2A200LCS0F,   GP2A240LCS0F  GP2A250LCS0F GP2A25BJ000F GP2A231LRSAF Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 88

PHOTOINTERRUPTERS ■ Photointerrupters for Specific Applications ◆Transmissive type <Single phototransistor output type with actuator and 3-pin connector terminal> (Ta = 25°C) Electro-mechanical characteristics*1 Actuator lever Light beam interrupted Light beam uninterrupted Internal starting torque Model No. connection Features Dissipation current Collector current Dissipation current Collector current (Initial) diagram MAX. ICC1 VCC IC1 VCC VO ICC2 VCC IC2 VCC VO (mA) (V) (µA) (V) (V) (mA) (V) (mA) (V) (V) Spring lever type actuator 1 × 10-4 N•m or 20 50 20 0.25 GP1S44S1J00F 5 5 5 5 5 5 United with connector less MAX. MAX. MAX. MIN. ❇ Topr: –25 to +75 °C *1 Operating voltage: 4.5 to 5.5 V GP1S44S1J00F <OPIC type with actuator and 3-pin connector terminal> (Ta = 25°C) Absolute Electro- maximum mechanical Electro-mechanical characteristics*1 ratings characteristics Internal Model No. connection Features Supply Output Actuator Light beam interrupted Light beam uninterrupted diagram Optoelectronics voltage current lever Dissipation current Low level output voltage Dissipation current High level output voltage VCC IOL starting ICCL VCC VOL VCC IOL ICCH VCC VOH VCC RL (V) (mA) torque (mA) (V) (V) (V) (mA) (mA) (V) (V) (V) (kΩ) Voltage regulator Spring lever type Vcc × Amplifier 1 × 10–4 N•m 20 0.4 20 GP1A44E1J00F 15 kΩ actuator, United with 10 50 5 5 16 5 0.9 5 47 or less MAX. MAX. MAX. connector MIN. ❇ Topr: –25 to +75 °C *1 Operating voltage: 4.5 to 5.5 V GP1A44E1J00F Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 89

OPTO PHOTOINTERRUPTERS <Compact, 2-phase phototransistor output type> (Ta = 25°C) Electro-optical characteristics Internal Current transfer ratio Response time Model No. connection Features CTR tr diagram IF VCE IC RL VCE (%) (µs) (mA) (V) (mA) (Ω) (V) MIN. TYP. Built-in ball (2 phase output), GP1S36J0000F▲ compact, 1.2 5 5 50 0.1 1 000 5 PT1 PWB mounting type PT2 Built-in ball (2 phase output), GP1S036HEZ▲ compact, 1.1 5 5 50 0.1 1 000 5 PWB mounting type, 4-direction detection ❇ Topr: –25 to +85 °C The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GP1S36J0000F GP1S036HEZ <Case type, with encoder function> (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Operating Response frequency Dissipation current Model No. Vcc Topr voltage Output signal Resolution (kHz) (output side) (V) (°C) IF (mA) Vcc (V) MAX. Icc (mA) MAX. GP1A30RJ000F▲ 7 0 to +70 4.5 to 5.5 Disk slit pitch 0.7 (mm) 5 30 20 GP1A038RBK0F* 1, *3 7 0 to +70 2.7 to 5.5 Linear scale slit pitch 0.17 (mm) 20 11 5 GP1A038RCK0F* 1, *3 7 0 to +70 2.7 to 5.5 Linear scale slit pitch 0.14 (mm) 20 11 5 GP1A037RDKJF* 1, *3 7 0 to +70 2.7 to 5.5 Phase A (Digital output) Linear scale slit pitch 0.0847 (mm) 40 25 10 GP1A044RCKLF* 1 — –10 to +60 2.7 to 5.5 Phase B (Digital output) Linear scale slit pitch 0.14 (mm) 20 15 5 GP1A046RBZLF* 1 — –10 to +60 2.7 to 5.5 Linear scale slit pitch 0.17 (mm) 20 20 5 GP1A047RBZLF — 0 to +60 2.7 to 5.5 Linear scale slit pitch 0.17 (mm) 20 20 7 GP1A047RDZLF — –10 to +60 2.7 to 5.5 Linear scale slit pitch 0.0847 (mm) 120 20 7 *1 High precision read and low affection of angle error from vibration thanks to the multi-segment PD system *2 Duty ratio: 50±10%, phase difference: 90±30° *3 Duty ratio: 50±20%, phase difference: 90±45° The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GP1A30RJ000F ▲ GP1A044RCKLF GP1A038RBK0F GP1A046RBZLF GP1A047RBZLF (GP1A038RCK0F, GP1A037RDKJF) (GP1A047RDZLF) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 90

PHOTOINTERRUPTERS ◆Reflective type <Case type, phototransistor output> (Ta = 25°C) Electro-optical characteristics Internal Focal Current transfer ratio Response time Model No. connection Features distance diagram (mm) CTR (%) IF VCE tr (µs) IC RL VCE MIN. (mA) (V) TYP. (mA) (Ω) (V) Long focal distance (with prism system), *1 GP2S29SJ000F 1.0*1 20 5 38 0.5 1 000 2 compact, screw mounting type ❇ Topr: –25 to +85°C *1 Space between prism and sensor is 8 mm. GP2S29SJ000F <For the amusement industry> (Ta = 25°C) Electro-optical characteristics Model No. Features Supply voltage Dissipation current Response frequency Vcc Icc (mA) f (Hz) GP2A221HRKA Employs reflective type, pinball detector, connector with lock 4.5 to 15 MAX. 10 MAX. 500 Employs reflective type, pinball detector, connector with lock GP2A222HCKA 4.5 to 16.5 MAX. 10 MAX. 500 In conjunction with an IC, detects beam interuption*1 *1 Used together with interface IC for control (IR3N184) Optoelectronics GP2A221HRKA (GP2A222HCKA) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 91

OPTO PHOTOTRANSISTOR INDEX TREE ■ Phototransistor Lineup Half Model No. Package Output type Features sensitivity Visible light angle Standard cut-off Epoxy resin with lens (ø3 mm) Single phototransistor General purpose ±20° PT380 PT380F Darlington phototransistor High sensitivity ±20° PT381 PT381F Epoxy resin with lens Single phototransistor General purpose/Narrow acceptance ±13° PT480E00000F PT480FE0000F PT4800FE000F / Compact, thin ±35° PT4800E0000F PT4850FE000F Darlington phototransistor High sensitivity/Narrow acceptance ±13° PT481E00000F PT481FE0000F High sensitivity/Narrow acceptance/Long lead ±13° — PT483F1E000F High sensitivity/Compact, thin ±35° PT4810E0000F PT4810FJE00F High sensitivity/Intermediate acceptance ±40° — PT491FE0000F High sensitivity/Intermediate acceptance/Long lead ±40° — PT493FE0000F TO-18 Single phototransistor Narrow acceptance ±6° PT501 ▲ — Narrow acceptance/With base terminal ±6° PT510 ▲ — Darlington phototransistor Narrow acceptance/With base terminal ±6° PT550 ▲ — Wide acceptance/With base terminal ±50° PT550F ▲ — Surface mounting leadless type Single phototransistor Compact ±60° PT600T — Compact (surface mounting type) ±70° PT200MC0NP — Compact (infrared cut type) ±60° PT202MR0MP1 — Compact (side view/top view mounting possible) ±15° PT100MC0MP PT100MF0MP Darlington phototransistor Compact ±60° PT601T — Compact (side view/top view mounting possible) ±15° — PT100MF1MP The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. 92

PHOTOTRANSISTORS ■ Phototransistors (Ta = 25°C) Absolute maximum ratings Ic (mA) ICEO(A) Dq λp Type Model No. Package VCEO PC Topr VCE Ee VCE (°) (nm) MIN. MAX. MAX. TYP. TYP. (V) (mW) (°C) (V) (mW/cm2) (V) PT380 35 50 –25 to +85 0.16 1.17 5 Ev, 100 Ix 1 × 10–7 20 ±20 800 ø3 epoxy resin PT380F*1 35 50 –25 to +85 0.095 0.9 5 Ev, 100 Ix 1 × 10–7 20 ±20 860 PT600T 35 50 –25 to +85 0.7 TYP. 3.5 5 5 1 × 10–7 20 ±60 880 PT200MC0NP 50 50 –25 to +85 0.016 0.059 5 0.1 1 × 10–7 20 ±70 930 Surface mounting PT202MR0MP1* 2 5 5 –30 to +85 — TYP. 0.043 1.5 Ev, 100 Ix 1 × 10–7 1.5 ±60 620 leadless type PT100MC0MP 35 75 –30 to +85 1.7 5.1 5 1 1 × 10–7 20 ±15 900 PT100MF0MP*1 1 × 10–7 Single 35 75 –30 to +85 1.15 3.45 5 1 20 ±15 910 PT480E00000F 35 75 –25 to +85 0.4 TYP. 1.7 5 1 1 × 10–7 20 ±13 800 PT480FE0000F* 1 35 75 –25 to +85 0.25 TYP. 0.8 5 1 1 × 10–7 20 ±13 860 Epoxy resin with PT4800E0000F 35 75 –25 to +85 0.12 TYP. 0.4 5 1 1 × 10–7 20 ±35 800 lens PT4800FE000F* 1 35 75 –25 to +85 0.08 TYP. 0.25 5 1 1 × 10–7 20 ±35 860 PT4850FE000F* 1 35 75 –25 to +85 0.12 0.56 5 1 1 × 10–7 20 ±35 860 PT501 ▲ 45 75 –25 to +125 2.5 TYP. 10 5 10 1 × 10–7 30 ±6 800 TO-18 PT510 ▲ 35 75 –25 to +125 2.5 TYP. 20.0 5 10 1 × 10–7 30 ±6 800 PT381 35 50 –25 to +85 0.12 1.5 10 Ev, 2 Ix 1 × 10–6 10 ±20 800 ø3 epoxy resin PT381F*1 35 50 –25 to +85 0.07 1.08 10 Ev, 2 Ix 1 × 10–6 10 ±20 860 PT481E0000F 35 75 –25 to +85 1.5 25 2 0.1 1 × 10–6 10 ±13 800 PT481FE0000F* 1 35 75 –25 to +85 0.9 27 2 0.1 1 × 10–6 10 ±13 860 PT4810E0000F 35 75 –25 to +85 0.45 7.0 2 0.1 1 × 10–6 10 ±35 800 Epoxy resin with PT4810FJE00F* 1 35 75 –25 to +85 0.27 6.0 2 0.1 1 × 10–6 10 ±35 860 lens Darlington PT483F1E000F* 1 35 75 –25 to +85 1.5 4.0 2 0.1 1 × 10–6 10 ±13 860 Optoelectronics PT491FE0000F* 1 35 75 –25 to +85 0.2 0.8 2 Ev, 2 Ix 1 × 10–6 10 ±40 860 PT493FE0000F* 1 35 75 –25 to +85 0.2 0.8 2 Ev, 2 Ix 1 × 10–6 10 ±40 860 PT550 ▲ 35 150 –25 to +125 3 TYP. 20.0 5 0.1 1 × 10–6 10 ±6 800 TO-18 PT550F ▲ 35 150 –25 to +125 3 TYP. 20.0 5 1.0 1 × 10–6 10 ±50 800 Leadless PT601T 35 50 –25 to +85 0.03 0.3 10 0.01 1× 10–6 10 ±60 880 chip type Surface mounting PT100MF1MP*1 35 75 –30 to +85 0.2 1.2 5 0.01 1 × 10–6 10 ±15 860 leadless type *1 Visible light cut-off type *2 Infrared cut-off type Note) Some products are handled by the Compound Semiconductor Division. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. PT600T PT200MC0NP PT202MR0MP1 PT100MF0MP PT380 PT480E00000F (PT601T)  PT100MF1MP,   PT380F, PT381   PT480FE0000F,   PT100MC0MP:   PT381F   PT481E00000F,   Transparent resin   PT481FE0000F  PT4800E0000F PT483F1E000F PT501 ▲ PT510 ▲ PT491FE0000F PT493FE0000F PT550F ▲  PT4800FE000F,  (PT550 ▲)  PT4810E0000F,   PT4810FJ00F,   PT4810FJE00F,   PT4850FE000F  Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 93

OPTO PHOTODIODES ■ PIN Photodiodes (Ta = 25°C) Active Isc Id tr, tf λp Package Topr Model No. Features area (µA) Ev (A) VR (µs) VR RL (nm) (Material) (°C) (mm2) MIN. (Ix) MAX. (V) TYP. (V) (kΩ) TYP. Visible light cut-off epoxy PD49PIE0000F▲*1 7.73 –25 to +85 2.4 100 3 × 10–8 10 0.2 10 1 1 000 resin Visible light cut-off epoxy PD410PI2E00F* 1 3.31 –25 to +85 2.5 100 1 × 10–8 10 0.2 10 1 1 000 resin with condenser (lens) PIN type Epoxy resin with transparent PD411PI2E00F 3.31 –25 to +85 5.0 100 1 × 10–8 10 0.2 10 1 960 condenser (lens) Epoxy resin with transparent PD412PI2E00F* 2 3.31 –25 to +85 3.5 100 1 × 10–8 10 0.25 10 1 800 condenser (lens) PIN type Visible light cut-off epoxy MIN. 4.5 PD413PI2E00F* 1 3.31 –25 to +85 100 1 × 10–8 10 0.2 10 1 960 IrDA1.0 resin with condenser (lens) (TYP. 5.4) PD60T Chip device type Transparent resin – –25 to +85 TYP. 4 1 000 1 × 10–8 10 0.1 10 1 960 Surface mounting Transparent epoxy resin PD100MC0MP – –30 to +85 0.6 100 1× 10–8 10 0.01 15 0.18 820 leadless type board with lens Surface mounting Visible light cut-off epoxy PD100MF0MP*1 – –30 to +85 0.4 100 1 × 10–8 10 0.01 15 0.18 850 leadless type resin board with lens *1 Visible light cut-off type *2 Tape packaging type (PD412TNE00F) The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. PD49PIE0000F▲ PD410PIE00F PD60T PD100MC0MP  PD411PI2E00F: transparent; PD412PI2E00F: transparent,  (PD100MF0MP: black)  PD413PI2E00F  ■ PSD (Position Sensitive Detector) (Ta = 25°C) Interelectrode Position IL resistance tr, tf Package Active area Topr detection Model No. Features (µA) Ev VR (µs) VR RL (Material) (mm2) (°C) (kΩ) error MIN. (Ix) (V) TYP. (V) (kΩ) (µm) MAX. TYP. Position sensitive detector Visible light 1.2 PD3122FE000F▲ –25 to +85 6.4 1 000 110 to 170 1 5 1 1 ±25 With mounting hole cut-off epoxy resin (1.0 × 1.2 mm) Custom-made products (detecting portion changed products) are also available. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. PD3122FE000F ■ Blue Sensitive Photodiodes (Ta = 25°C) Isc Id λp Package Active area Topr Model No. Features (µA) Ev (A) VR (nm) (Material) (mm2) (°C) MIN. (Ix) MAX. (V) TYP. BS520E0F Planer type Resin (black) 5.34 –20 to +60 0.4 100 1 × 10–11 1 560 BS520E0F (with filter) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 94

OPTO OPIC LIGHT DETECTORS ✩New product ■ Laser Power Monitoring Photodiodes for Optical Disc System (Ta = 25°C) Isc Id λp Package Active area Topr Model No. Features (mA) Ev (A) VR (nm) (Material) (mm) (°C) TYP. (Ix) MAX. (V) TYP. High response speed PD101SC0SS0F Transparent epoxy resin ø0.8 –25 to +85 450 100 1 × 10–9 5 820 (cut-off frequency: 400 MHz) PD101SC0SS0F ■ RGB Color Sensor (Ta = 25°C) Peak sensitivity wavelength Light receiving sensitivity (nm) (A/W) TYP. Topr Model No. Features Package (°C) Blue Green Red Blue Green Red RGB 3-color LED compatible 3PD structure Filter-on chip structure allows for both infrared Surface mounting ✩PD30CMC31MZ 460 540 620 0.18 0.23 0.16 –40 to +85 light reducing characteristics and a more com- 3 x 4 mm pact size (1.1 mm thick) Optoelectronics PD30CMC31MZ ■ Ambient Light Sensors ( “OPIC” (Opticalelementa and signal-processing circuit integratedAn OPIC consists of a ) light-detecting IC) is trademark of the SHARP Corporation. onto a single chip. (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Model No. Type Package EVLH EVHL tPLH tPHL VCC P IO Topr (V) (mW) (mA) (°C) (Ix) (Ix) VCC (µs) (µs) VCC EV RL MAX. MAX. (V) TYP. TYP. (V) (Ix) (Ω) IS485E Built-in schmidt trigger Transparent –0.5 to +17 175 50 –25 to +85 – 35 5 5 3 5 50 280 circuit, amplifier and epoxy resin with IS486E voltage regulator condenser (lens) –0.5 to +17 175 50 –25 to +85 35 – 5 3 5 5 50 280 IS485E (IS486E) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 95

OPTO OPIC LIGHT DETECTORS <Low-voltage operation> (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Model No. Type Package Operating EVLH EVHL tPHL tPLH P IO Topr supply (Ix) (Ix) VCC (µs) (µs) VCC EV RL (mW) (mA) (°C) voltage (V) MAX. MAX. (V) TYP. TYP. (V) (Ix) (Ω) Transparent Built-in Schmidt trigger IS489E epoxy resin with 80 2 –25 to +85 1.4 to 7.0 – 15 3 1.3 8.5 3 125 3 000 circuit and amplifier condenser (lens) IS489E <Model employing a light modulating system> (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics*2 External VOL VOH tPLH tPHL disturbing light Model No. Type Package VCC P IO Topr (V) (V) (µs) (µs) VCC RL illuminance (V) (mW) (mA) (°C) EVDX(Ix) TYP. MAX. MIN. TYP. TYP. (V) (Ω) Built-in pulse driver circuit at the emitter Visible light side, synchronous IS471FE*1, *3 cut-off epoxy –0.5 to +16 250 50 –25 to +60 0.35 4.97 400 400 5 280 7 000 detector circuit, resin amplifier circuit and demodulator circuit *1 IS471FE is less susceptible to disturbing effects thanks to the light modulation system *2 Vcc = 5 V *3 Straight lead type (IS471FSE) is also available. IS471FE <For laser beam printers (laser origin detection)> (Ta = 25°C) Electro-optical characteristics Recommended supply H → L delay time variation Model No. Type Package VOH VOL voltage VCC (V) (V) ∆tPHL MIN. MAX. (ns) MAX. (V) Transparent epoxy resin GA220T2L1IZ 2PD, differential type 4.5 to 5.5 4.9 0.6 ±8.5 18-pin GA220T2L1IZ Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 96

OPIC LIGHT DETECTORS ✩New product <Ambient light sensor> (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Recommended Recommended Current Peak Output current Model No. Type Package VCC IO Topr supply voltage illuminance consumption sensitivity Io1 Io2 (V) (mA) (°C) VCC range Icc (µA) wavelength (µA) (µA) (V) Ex (lx) TYP. λp (nm) TYP. TYP. Built-in amplification circuit Peak sensitivity characteristic close 480 48 to human visual sensitivity –40 to ✩GA1A2S100SS 7.0 5 2.7 to 3.6 10 to 10 000 500 555 (at Ev = (at Ev = Output characteristic: Linear current +85 1000 lx) 100 lx) output for illuminance Lead frame (straight) type Transparent epoxy resin Built-in amplification circuit (3 × 4 mm) Peak sensitivity characteristic close 480 48 to human visual sensitivity –40 to ✩GA1A2S100LY 7.0 5 2.7 to 3.6 10 to 10 000 500 555 (at Ev = (at Ev = Output characteristic: Linear current +85 1000 lx) 100 lx) output for illuminance Lead frame (L bend) type Built-in amplification circuit Compact Peak sensitivity characteristic close 20 30 (2.0 mm × –40 to ✩GA1A1S201WP to human visual sensitivity 7.0 1 2.3 to 3.2 3 to 55 000 70 555 (at Ev = (at Ev = 1.6 mm) +85 Output characteristic: Logarithmic 100 lx) 1000 lx) Leadless current output for illuminance GA1A2S100SS GA1A2S100LY GA1A1S201WP Optoelectronics Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 97

OPTO OPIC LIGHT DETECTORS ✩New product <Optical disk devices for RF signal detection> (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Response frequency Output noise level Model No. Type Package Icc Vcc P Topr fc*1 Vn Main Ch. (mA) Vcc Vcc f (V) (mW) (°C) TYP. (V) (MHz) (V) (dBm) (Hz) TYP. TYP. Built-in amplifier circuit, built-in RF addition amplifier Transparent (72/70) IS1682Q 6.0 – –30 to +80 14.8 5 5 –81 23.1M (6-division PINPD + IC), 10-pin package 72/70 for ×50 CD-ROM GA250T6C3SY Built-in amplifier circuit, (6-division PINPD + IC), Transparent 7.0 – –20 to +75 6 5 5/0.3 5 (–78) 2.8M for CD player 10-pin package GA250T6C4SY Low operating voltage (MIN. 2.5 V) Built-in amplifier circuit, (8-division PINPD + IC), Transparent flat 4.2/ IS1623Q 6.0 150 –20 to +70 3 5.3/3.8*2 3 –90 720k switchable of sensitivity due to playback/ 10-pin package 4.6*2 recording mode for MD Built-in RF amplifier, Transparent flat (70/60) IS1684Q 6.0 – –30 to +80 14.8 5 5 –81 23.1M for ×6 DVD-ROM drive 10-pin package 70/50 Transparent flat For 2-wavelength laser (For DVD player), GA210TXV8SY▲*3 12-pin package 6.0 – –10 to +70 17 5 –/75 5 –80 23M 10-division PD pattern (4 x 5.0 mm) For ×16 DVD-R/RW, +R/W ultra-writable drive Transparent flat ✩GA230TXW6SY 6.0 – –30 to +85 – 5 140 5 – – High-precision 3-step gain compatible 14-pin package DVD-ROM: for MAX. ×16 read only CD-ROM: for MAX. ×52 read only Transparent flat ✩GA230TXR1ZY 6.0 – –20 to +85 40 5 140 5 –80 72M CD-R: for MAX. ×52 writable drive 14-pin package CD-RW: for MAX. ×32 writable drive GA202TXV15K▲ Transparent Gull wing For 2-wavelength laser (For DVD player), 12-pin lead MAX. 57/57 6.0 – –30 to +80 5 5 – – 10-division PD pattern package 19 50/50 GA202TXV15J (3 x 4 mm) Flat lead For ×16 DVD-R/RW, +R/W ultra-writable drive For MAX. ×60 CD-R writable drive (For HiHi combo drive), Leadless GA301TXW5MZ▲ settling time: 13 ns 6.0 – –20 to +85 38 5 110 5 (–78) 72M chip-type DVD-ROM: for MAX. ×16 read only, built-in bypass condenser for power supply, WPP system (Gain ×4 switching) *1 (RF/main) ... 650 nm, RF/main ... 780 nm *2 Playback/recording mode *3 We can supply custom orders for modified PD patterns, packages, and lead shapes for 2-wavelength laser compatible OPIC light detectors. *4 L gain mode/M gain mode The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. IS1682Q IS1623Q GA230TXW6SY GA210TXV8SY▲ (IS1684Q, GA250T6C3SY, GA250T6C4SY) GA230TXR1ZY GA202TXV15K▲ GA202TXV15J GA301TXW5MZ▲ Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 98

OPIC LIGHT DETECTORS <Laser power monitoring diode for optical disc system> (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Response frequency Model No. Type Package Icc Vcc P Topr fc (mA) Vcc Vcc (V) (mW) (°C) (MHz) TYP. (V) (V) MIN. For ×48 CD-R writable drive Leadless chip-type GA104T1M1MZ▲ 6.0 – –20 to +70 20 5 50 5 built-in amplifier circuit [3.0 x 3.5 mm] *1 Power monitoring photodiodes are also available. Please refer to the page for photodiodes. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GA104T1M1MZ▲ Optoelectronics Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 99

OPTO INFRARED EMITTING DIODE INDEX TREE ■ Infrared Emitting Diode Lineup Half intensity Type Package Features Model No. angle Epoxy resin with lens Single-end lead (ø3 mm type) General purpose ±13° GL380 (Top view type) High output type ±13° GL381 High speed signal transmission (12 MHz) ±17° GL382 Epoxy resin (Arch type) General purpose ±18° GL390 Low forward voltage type ±18° GL390V Single-end lead Epoxy resin with lens General purpose/Narrow beam angle ±13° GL480E00000F (Side view type) Compact and thin ±30° GL4800E0000F Flat epoxy resin Wide beam angle ±90° GL4100E0000F Epoxy resin with lens Compact package, bi-directional emitting type Bidirectional GL453E00000F ▲ Single-end lead TO-18 High reliability ±50° GL513F ▲ (Top view type) High reliability/Narrow beam angle ±7° GL514 ▲ Epoxy resin with lens (ø5 mm type) Low forward voltage type ±21° GL560 Low forward voltage type/Narrow beam angle ±13° GL561 High output type ±25° GL537 High output type/Narrow beam angle ±13° GL538 Surface mount type Leadless Compact ±60° GL610T Epoxy resin with lens/ leadless Compact/Narrow beam angle ±10° GL100MN0MP High output type (Mountable for Top view/ (Output: radiant flux/ GL100MN1MP / Side view type) radiant intensity indicated) ±10°/±9° GL100MN3MP Compact/Wide beam angle ±80° GL100MD1MP1 The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. 100

INFRARED EMITTING DIODES ■ Infrared Emitting Diodes (Ta = 25°C) Absolute maximum ratings Φe (mW) VF (V) ∆θ λp Model No. Package, features IF VR P Topr IF IF (°) (nm) MIN. TYP. TYP. MAX. TYP. TYP. (mA) (V) (mW) (°C) (mA) (mA) GL380 60 6 150 –25 to +85 4.5*1 11*1 50 1.3 1.5 50 ±13 950 ø3 epoxy resin GL381 60 6 150 –25 to +85 8.5*1 20*1 50 1.3 1.5 50 ±13 950 ø3 epoxy resin, for high speed GL382 60 4 – –25 to +85 6 18 50 1.5 1.7 50 ±17 880 signal transmission:12 MHz GL390 60 6 150 –25 to +85 7*1 13*1 50 1.3 1.5 50 ±18 950 Arch type GL390V 60 6 150 –25 to +85 9*1 16*1 50 1.3 1.5 50 ±18 950 (Bidirec- GL453E00000F ▲ Resin with bidirectional lens 50 6 75 –25 to +85 0.85 1.3 20 1.2 1.5 20 950 tional) GL480E00000F 50 6 75 –25 to +85 0.7 – 20 1.2 1.4 20 ±13 950 Epoxy resin with lens GL4800E0000F 50 6 75 –25 to +85 0.7 1.6 20 1.2 1.4 20 ±30 950 GL4100E0000F Side-view flat type, Epoxy resin 50 6 75 –25 to +85 1.0 – 20 1.2 1.4 20 ±90 950 GL513F ▲ 150 6 250 –40 to +125 1.44 2.88 100 1.35 1.6 100 ±50 950 TO-18 GL514 ▲ 150 6 250 –40 to +125 3.31 5.35 100 1.35 1.6 100 ±7 950 GL560 100 6 150 –25 to +85 5*1 14*1 50 1.25 1.37 50 ±21 940 GL561 100 6 150 –25 to +85 12*1 25*1 50 1.25 1.37 50 ±13 940 ø5 epoxy resin GL537 100 6 150 –25 to +85 6*1 13*1 50 1.3 1.5 50 ±25 950 GL538 100 6 150 –25 to +85 15*1 30*1 50 1.3 1.5 50 ±13 950 GL610T Leadless chip type 50 6 150 –25 to +85 0.7 2 20 1.3 1.5 50 ±60 950 Surface mounting leadless type, 3.0 GL100MN0MP 50 6 75 –30 to +85 1.0 20 1.2 1.4 20 ±10 940 Epoxy resin board with lens (MAX.) Surface mounting leadless type, 6.0 GL100MN1MP Epoxy resin board with lens, 50 6 75 –30 to +85 2.0 20 1.2 1.5 20 ±10 940 (MAX.) high output type Optoelectronics Surface mounting leadless type, GL100MN3MP Epoxy resin board with lens, 50 6 75 –30 to +85 3.0*1 6.0*1 20 1.25 1.5 20 ±9 940 high output type Surface mounting leadless type, 6.0 GL100MD1MP1 Epoxy resin board with lens, wide 50 6 75 –30 to +85 – 20 – 1.5 20 ±80 940 (MAX.) beam angle *1 Radiant intensity mW/sr Note) Some products are handled by the Compound Semiconductor Division. The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GL380 GL390 GL453E00000F ▲ GL480E00000F GL4800E0000F GL4100E0000F (GL381, GL382) (GL390V) GL513F ▲ GL514 ▲ GL560 GL537 GL610T GL100MN0MP (GL561) (GL538)  GL100MN1MP, GL100MN3MP,   GL100MD1MP1  Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 101

OPTO OPTICAL-ELECTRIC SENSOR INDEX TREE ■ Distance Measuring Sensor Lineup Range of distance Output Features Model No. measuring 1-bit digital output according 1-bit digital output GP2D150AJ00F/GP2D150MJ00F/ to distance measuring 3 to 30 cm (detected distance: 15/17.5/13 cm) GP2Y0D413K0F 10 to 80 cm 1-bit digital output (detected distance: 24 cm) GP2D15J0000F General purpose GP2Y0D21YK0F 20 to 150 cm 1-bit digital output (detected distance: 80 cm) GP2Y0D02YK0F Battery drive compatible, compact, operating supply voltage (2.7 V to 6.2 V), 1-bit digital output (detected distance: 5/10 cm) GP2Y0D805Z0F/GP2Y0D810Z0F Compact, thin 1-bit digital output (detected distance: 10/40 cm) GP2Y0D310K/GP2Y0D340K Battery drive compatible, compact, operating supply voltage (2.7 V to 6.2 V), 1-bit digital output (detected distance: 1.5 cm) Capable of operation at high temperature GP2Y5D91S00F Output according to distance measuring 4 to 30 cm Analog voltage output GP2D120XJ00F/GP2Y0A41SK0F 10 to 80 cm Analog voltage output GP2D12J0000F General purpose GP2Y0A21YK0F 20 to 150 cm Analog voltage output GP2Y0A02YK0F 100 to 550 cm Analog voltage output GP2Y0A710K0F ■ Wide Angle Sensor Lineup Range of distance Output Detection angle of view Model No. measuring Voltage output according to distance measuring 4 to 30 cm 25° (When using 5 beams) GP2Y3A001K0F 20 to 150 cm 25° (When using 5 beams) GP2Y3A002K0F 40 to 300 cm 25° (When using 5 beams) GP2Y3A003K0F ■ High-Precision Displacement Sensor Range of distance Output Features Model No. measuring Voltage output according to distance measuring 4.5 to 6.0 mm Resolution: 50 µm GP2Y0AH01K0F ■ Paper Size Sensor (Using Optical Distance Measuring Method) Lineup Output Features Model No. GP2D06J0000F/GP2D061J000F/ 8-bit serial output 1-beam GP2D062J000F Thin type (T: 11 mm) GP2Y2E101K0F 2-beam GP2D03J0000F/GP2D032J0000F GP2D07J0000F/GP2D071J000F/ 3-beam GP2D072J000F Thin type (T: 11 mm) GP2Y2E301K0F 1-bit output 1-beam (detection height: 60 mm) Thin type (T: 11.5 mm) GP2Y2D160K0F Analog output relative to measuring distance 1-beam (detection height: 80 mm) Thin type (T: 11.5 mm) GP2Y2A180K0F 2-beam (detection height: 80 mm) Thin type (T: 11.5 mm) GP2Y2A280K0F ■ Dust Sensor Unit Lineup Output Features Model No. Analog output With peak-hold circuit GP2U06J0000F Pulse analog output, single-shot detection of house dust, Gener al purpose GP2Y1010AU0F ■ Color Toner Concentration (Deposition Amount) Sensor Lineup Output Features Model No. Analog output Employs diffuse reflection system GP2TC1J0000F 102 Employs diffuse reflection system + mirror reflection system GP2Y40010K0F

OPTICAL SYSTEM DEVICE ✩New product ■ Distance Measuring Sensors (1) (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics*1 Distance Dissipation current Mea- Model No. Features VOH VOL Vcc Topr measuring sured (V) (V) Operating Standby distance (V) (°C) range MIN. MAX. (mA) (µA) (cm) (cm) VO (TYP.) = 0.4 V Distance measuring sensor united with PSD ❇, (at L = 80 cm), GP2D12J0000F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 10 to 80 MAX. 50 – – ∆VO (TYP.) = 2.0 V Linear voltage output (at L: 80 cm → 10 cm) VO (TYP.) = 0.4 V Distance measuring sensor united with PSD ❇, (at L = 80 cm), GP2Y0A21YK0F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 10 to 80 MAX. 40 – – ∆VO (TYP.) = 1.9 V Linear voltage output (at L: 80 cm → 10 cm) VO (TYP.) = 0.4 V Distance measuring sensor united with PSD ❇, (at L = 30 cm), GP2D120XJ00F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 4 to 30 MAX. 50 – – ∆VO (TYP.) = 2.25 V Linear voltage output (at L = 30 cm → 4 cm) Light detector, infrared LED and signal processing circuit, GP2Y0D805Z0F short distance measuring sensor unit, –0.3 to +7 –10 to +60 – Vcc –0.6 0.6 MAX. 6.5 MAX. 8 5 battery drive compatible (operating power supply: 2.7 to 6.2 V) Light detector, infrared LED and signal processing circuit, GP2Y0D810Z0F short distance measuring sensor unit, –0.3 to +7 –10 to +60 – Vcc –0.6 0.6 MAX. 6.5 MAX. 8 10 battery drive compatible (operating power supply: 2.7 to 6.2 V) Light detector, infrared LED and signal processing circuit, short distance measuring sensor unit, ✩GP2Y5D91S00F –0.3 to +7 –30 to +105 – Vcc –0.6 0.6 TYP. 7 – 1.5 battery drive compatible (operating power supply: 2.7 to 6.2 V), Capable of operation at high Optoelectronics temperature Digital voltage output according to the measured GP2Y0D310K –0.3 to +7 –10 to +60 – Vcc –0.3 0.6 MAX. 35 – 10 distance of GP2Y0D340K Compact, thin type (15 x 9.6 x 8.7 mm: sensor part), Light detector, infrared LED and signal pro- GP2Y0D340K –0.3 to +7 –10 to +60 – Vcc –0.3 0.6 MAX. 35 – 40 cessing circuit,Digital voltage output according to the measured distance Distance measuring sensor united with PSD ❇, GP2D15J0000F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 10 to 80 Vcc –0.3 0.6 MAX. 50 – 24 Digital voltage output Distance measuring sensor united with PSD ❇, GP2Y0D21YK0F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 10 to 80 Vcc –0.3 0.6 MAX. 40 – 24 Digital voltage output VO (TYP.) = 0.4 V Distance measuring sensor united with PSD ❇, (at L = 30 cm), GP2Y0A41SK0F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 4 to 30 MAX. 22 – – ∆VO (TYP.) = 2.25 V Short measuring cycle (16.5 ms) (at L = 30 cm → 4 cm) Distance measuring sensor united with PSD ❇, GP2D150AJ00F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 3 to 30 Vcc –0.3 0.6 MAX. 50 – – Digital voltage output Distance measuring sensor united with PSD ❇, GP2D150MJ00F▲ infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 3 to 30 Vcc –0.3 0.6 MAX. 50 – 17.5 Digital voltage output Distance measuring sensor united with PSD ❇, GP2Y0D413K0F infrared LED and signal processing circuit, –0.3 to +7 –10 to +60 3 to 30 Vcc –0.3 0.6 – – 13 Digital voltage output Distance measuring sensor united with PSD ❇, infrared LED and signal processing circuit, GP2Y0D02YK0F long distance measuring sensor unit –0.3 to +7 –10 to +60 20 to 150 Vcc –0.3 0.6 MAX. 50 – 80 (No external control signal required), Digital volt- age output according to the measured distance *1 Vcc = 5 V ❇ PSD: Position Sensitive Detector The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 103

OPTO OPTICAL SYSTEM DEVICE ✩New product ■ Distance Measuring Sensors (2) (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics*1 Distance Dissipation current Mea- Model No. Features VOH VOL Vcc Topr measuring sured (V) (V) Operating Standby distance (V) (°C) range MIN. MAX. (mA) (µA) (cm) (cm) VO (TYP.) = 0.4 V Distance measuring sensor united with PSD ❇, (at L = 150 cm), GP2Y0A02YK0F –0.3 to +7 –10 to +60 20 to 150 MAX. 50 – – infrared LED and signal processing circuit ∆VO (TYP.) = 2.0 V (at L = 150 cm → 20 cm) VO (TYP.) = 2.5 V Distance measuring sensor united with PSD ❇, (at L = 100 cm), ✩GP2Y0A710K0F –0.3 to +7 –10 to +60 100 to 550 TYP. 30 – – infrared LED and signal processing circuit ∆VO (TYP.) = 0.7 V (at L = 100 cm → 200 cm) *1 Vcc = 5 V ❇ PSD: Position Sensitive Detector GP2Y5D91S00F GP2Y0D805Z0F GP2Y0D340K GP2D15J0000F GP2Y0D02YK0F GP2Y0A710K0F (GP2Y0D810Z0F) (GP2Y0D310K)  GP2D12J0000F, GP2D120XJ00F,  (GP2Y0A02YK0F)  GP2D150AJ00F, GP2Y0A21YK0F,   GP2Y0D21YK0F, GP2Y0A41SK0F   GP2D150MJ00F, GP2Y0D413K:   without mounting hole  ■ Wide Angle Sensors (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Distance Output Output Input voltage (V) Model No. Features Vcc Topr measuring terminal voltage (V) (°C) range voltage difference VINH LEDL (cm) (V) (V) GP2Y3A001K0F Distance measuring sensor united with PSD ❇, –0.3 to +7 –10 to +60 4 to 30 TYP. 2.8*1 TYP. 1.6*4 MIN. 4.5 MAX. 0.5 infrared LED and signal processing circuit, GP2Y3A002K0F Distance measuring sensor application product, –0.3 to +7 –10 to +60 20 to 150 TYP. 2.3*2 TYP. 1.6*5 MIN. 4.5 MAX. 0.5 Wide range (field of view) detection using 5 infrared GP2Y3A003K0F beams –0.3 to +7 –10 to +60 40 to 300 TYP. 2.2*3 TYP. 1.2*6 MIN. 4.5 MAX. 0.5 ❇ PSD: Position Sensitive Detector L = Reflector - Sensor distance Reflector used: White paper (Gray chart R-27/white surface, made by Kodak Corp., reflectance 90%) *1 L = 4 cm *4 Change in output voltage from L = 4 cm to 10 cm *2 L = 20 cm *5 Change in output voltage from L = 20 cm to 80 cm *3 L = 40 cm *6 Change in output voltage from L = 40 cm to 100 cm GP2Y3A001K0F GP2Y3A002K0F GP2Y3A003K0F Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 104

OPTICAL SYSTEM DEVICE ■ Paper Size Sensors (Ta = 25°C) Paper Approved value of Paper Operating Supply LED beam Dissipation detection paper detection temperature voltage pitch current Model No. Features height position sliding density Topr Vcc H Lp ∆x Icc OD (°C) (V) (mm) (mm) (mm) (mA) GP2D03J0000F 8-bit serial output using optical distance 0 to +60 5 ±0.5 TYP. 60 TYP. 21 MAX. ±6 0.7 or less*1 TYP. 30 GP2D032J0000F* 4 measuring method (2-beam) GP2D06J0000F 8-bit serial output using optical distance GP2D061J000F* 2 0 to +60 5 ±0.5 TYP. 60 – MAX. ±6 0.7 or less*1 TYP. 33 measuring method (1-beam) GP2D062J000F* 2 Thin type (T: 11 mm) GP2Y2E101K0F 8-bit serial output using optical distance 0 to +60 5 ±0.5 TYP. 85 – MAX. ±6 0.7 or less*1 – measuring method (1-beam) Thin type (T: 11.5 mm) using optical distance measuring method GP2Y2D160K0F –10 to +60 5 ±0.5 TYP. 60 – MIN. ±7.5 0.7 or less*1 – (1-beam) Digital output (1-bit) GP2D07J0000F 8-bit serial output using optical distance 0 to +60 5 ±0.5 TYP. 60 TYP. 36 MAX. ±6 0.7 or less*1 TYP. 33 GP2D071J000F* 3 measuring method (3-beam) Thin type (T: 11 mm) GP2Y2E301K0F 8-bit serial output using optical distance 0 to +60 5 ±0.5 TYP. 85 TYP. 33 MAX. ±6 0.7 or less*1 – measuring method (3-beam) Thin type (T: 11.5 mm) GP2Y2A180K0F Analog output using optical distance –10 to +60 5 ±0.5 TYP. 80 – – – MAX. 25 measuring method (1-beam) Thin type (T: 11.5 mm) GP2Y2A280K0F Analog output using optical distance –10 to +60 5 ±0.5 TYP. 80 – – – MAX. 50 measuring method (2-beam) ❇ This table shows the characteristics when configured in the paper size sensor system. *1 Reflectivity: 18% or more, OD = log (1/T), T: Reflectivity *2 Paper detection height GP2D061: TYP. 45 mm GP2D062: TYP. 90 mm Optoelectronics *3 Paper detection height GP2D071: TYP. 45 mm *4 Paper detection height GP2D032: TYP. 45 mm GP2D03J0000F GP2D06J0000F GP2Y2E101K0F GP2Y2D160K0F GP2Y2A180K0F (GP2D032J000F) (GP2D061J000F/GP2D062J000F) GP2D07J0000F GP2Y2E301K0F GP2Y2A280K0F (GP2D071J000F) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 105

OPTO OPTICAL SYSTEM DEVICE ✩New product ■ High-Precision Displacement Sensor (Ta = 25°C) Operating Dissipation Distance Topr Model No. Features supply voltage current measuring Distance characteristic of output (°C) (V) (mA) range (mm) TYP. 1.73 V GP2Y0AH01K0F Resolution: 50 µm –10 to +60 4.5 to 5.5 TYP. 20 4.5 to 6.0 Variation in output over range (4.5 to 6.0 mm) GP2Y0AH01K0F ■ Dust Sensor Units (Ta = 25°C) Electro-optical characteristics Topr Operating Dissipation Detection Output voltage Output voltage Model No. Features (°C) supply voltage current sensitivity at no dust range (V) (mA) V/(0.1 mg/m 3) Voc (V) VOH (V) Built-in infrared emitting diode, GP2U06J0000F▲ –10 to +65 4.5 to 5.5 TYP. 15 TYP. 0.5 MAX. 1 MIN. 3.2 photodiode and signal processing circuit Compact, GP2Y1010AU0F –10 to +65 4.5 to 5.5 TYP. 11 TYP. 0.5 TYP. 0.9 MIN. 3.4 single-shot detection of house dust The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GP2U06J0000F GP2Y1010AU0F ■ Color Toner Concentration (Deposition Amount) Sensors (Ta = 25°C) Electro-optical characteristics Topr Model No. Features Dissipation current Output voltage Output voltage (°C) (mA) V01 (V) V02 (V) Employs diffuse reflection system, high-precision detection of toner GP2TC1J0000F 0 to +60 TYP. 4*1 TYP. 1.06*2 TYP. 2.63*2 concentration on photo-sensitive drum, 2-line analog output Employs diffuse reflection system + mirror reflection system, ✩GP2Y40010K0F high-precision detection of toner concentration on transfer belt, 0 to +60 MAX. 10 MAX. 1.61 MAX. 3.5 2-line analog output *1 Dissipation current with LED drive current of I F = 0 mA *2 With reflection object A (Reflectance: 15.6%) GP2TC1J0000F GP2Y40010K0F Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 106

OPTO FIBER OPTICS INDEX TREE ■ Fiber Optics Lineup for Audio Equipment Model No. Connector type Type Features Supply voltage Supply voltage Supply voltage 2.5 V 3.0 V 5.0 V High speed signal transmission (13.2 Mb/s MAX., 15.5 Mb/s Fiber optic Compact (without MAX.*, 50 Mb/s MAX.**), GP1FM313TZ0F*/ GP1FM513TZ0F/ Square connector transmitter mounting hole) With shutter – GP1FMV31TK0F* GP1FM55HTZ0F** High speed signal transmission (EIAJ RC-5720B) (13.2 Mb/s MAX. [15.5 Mb/s MAX.*, 25 Mb/s MAX.**, with mounting hole 50 Mb/s MAX.***]) – GP1FAV30TK0F* – TTL drive compatible GP1FAV50TK0F With shutter – GP1FAV31TK0F* – Vertical mounting type GP1FSV31TK0F – TTL drive compatible GP1FAV51TK0F Vertical mounting type GP1FSV51TK0F – High speed signal transmission GP1FAV55TK0F*** Electric jack integrated type (Transmission speed 13.2 Mb/s) With shutter – – GP1FP513TK0F High speed signal transmission Compact (without (13.2 Mb/s MAX., 15.5 Mb/s Fiber optic receiver mounting hole) MAX.*), With shutter – GP1FMV31RK0F* GP1FMV51RK0F Optoelectronics High speed signal transmission (13.2 Mb/s MAX. [15.5 Mb/s with mounting hole MAX.*, 25 Mb/s MAX.**]) – GP1FAV30RK0F* GP1FAV50RK0F With shutter – GP1FAV31RK0F* GP1FAV51RK0F Electric jack integrated type GP1FA51HRZ0F** (Transmission speed 13.2 Mb/s) With shutter – – GP1FP513RK0F ø3.5 mm Fiber optic GP1FD310TP0F/ Optical mini-jack transmitter Thin type (t: 4.2 mm) GP1FD210TP0F GP1FD320TP0F – (JIS C6560 & Low operating EIAJ RC5720B) Fiber optic receiver Thin type (t: 4.2 mm) voltage GP1FD210RP0F – – ■ Transmission/Reception Devices for MOST*1 Compatible Optical Fiber Connector type Type Features Transmission speed Operating voltage Model No. MOST ver1.1 Optic transmission Wide operating temperature range 25Mb/s as optic fiber link standard compatible device (–40°C to +105°C) (Biphase) 5V GP5FM5T01AZ Optic reception Wide operating temperature range 25Mb/s as optic fiber link device (–40°C to +105°C) (Biphase) 5V GP5FM5R01AZ *1 “MOST” is a registered trademark of MOST Cooperation. 107

OPTO FIBER OPTICS ✩New product ■ Fiber Optic Transmitters (Square Connector) (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Propagation Dissipation Pulse Transmis- Supply delay time current width sion speed Model No. Features Vcc Vin Topr voltage tPLH tPHL Icc distortion T (V) (V) (°C) (V) (ns) (ns) (mA) ∆tw (Mb/s) MAX. MAX. MAX. (ns) MAX. Compact (without mounting hole), GP1FM313TZ0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.7 to 3.6 180 180 12 ±15 15.5 High response speed (up to x2) Compact (without mounting hole), GP1FMV31TK0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.7 to 5.25 180 180 12 ±15 15.5 High response speed (up to x2) Compact (without mounting hole), GP1FM513TZ0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 13.2 High response speed (up to x2) Compact (without mounting hole), GP1FMV51TK0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 13.2 High response speed (up to x2) Compact (without mounting hole), GP1FM55HTZ0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 50 High response speed (up to x2) With mounting hole, GP1FAV30TK0F Low voltage drive, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.7 to 5.25 180 180 12 ±15 15.5 High response speed (up to x2) With mounting hole, 4.75 to 5.25 Mass-market model, GP1FAV50TK0F –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 Input voltage: 180 180 13 ±15 13.2 High response speed (up to x2), MIN. 2.0 V TTL drive compatible With mounting hole, Mass-market model, GP1FAV51TK0F –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 13.2 High response speed, With shutter, TTL drive compatible With mounting hole, Vertical mounting, ✩GP1FSV51TK0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 13.2 Low voltage drive, High response speed With mounting hole, With shutter, GP1FAV31TK0F Low voltage drive, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.7 to 5.25 180 180 12 ±15 15.5 High response speed With mounting hole, Vertical mounting, ✩GP1FSV31TK0F With shutter, –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.7 to 5.25 180 180 13 ±15 15.5 Low voltage drive, High response speed With mounting hole, GP1FAV55TK0F High response speed (50 Mb/s), –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 50 With shutter Electric jack/optical connector GP1FP513TK0F –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 4.75 to 5.25 180 180 13 ±15 13.2 integrated type ■ Fiber Optic Transmitters (ø3.5 mm Optical Mini-jack) (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Propagation Dissipation Pulse Transmis- Supply delay time current width sion speed Model No. Features Vcc Vin Topr voltage tPLH tPHL Icc distortion T (V) (V) (°C) (V) (ns) (ns) (mA) ∆tw (Mb/s) MAX. MAX. MAX. (ns) MAX. Compact, Thin type (t: 4.2 mm), GP1FD210TP0F –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.2 to 3.0 180 180 10 ±30 8 Optical mini-jack (low voltage type) Compact, Thin type (t: 4.2 mm), GP1FD310TP0F –0.5 to +7 –0.5 to Vcc + 0.5 –20 to +70 2.7 to 3.6 180 180 12 ±30 8 Optical mini-jack (low voltage type) Compact, Thin type (t: 4.2 mm), GP1FD320TP0F – – –20 to +70 2.3 to 5.5 – – 12 – 25 Optical mini-jack (low voltage type) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 108

FIBER OPTICS ■ Fiber Optic Receivers (Square Connector) (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Propagation Dissipation Pulse Transmis- Supply delay time current width sion speed Model No. Features IOL Topr Vcc (V) voltage tPLH tPHL Icc distortion T (mA) (°C) (V) (ns) (ns) (mA) ∆tw (Mb/s) MAX. MAX. MAX. (ns) MAX. Compact (without mounting hole), With shutter, GP1FMV31RK0F –0.5 to +7 10 –20 to +70 2.7 to 3.6 180 180 15 ±20 15.5 High response speed (up to x2) Compact (without mounting hole), With shutter, GP1FMV51RK0F –0.5 to +7 10 –20 to +70 4.75 to 5.25 180 180 25 ±20 13.2 High response speed (up to x2) With mounting hole, Low voltage drive, GP1FAV30RK0F –0.5 to +7 10 –20 to +70 2.7 to 3.6 180 180 15 ±20 15.5 High response speed With mounting hole, Mass-market model, GP1FAV50RK0F –0.5 to +7 10 –20 to +70 4.75 to 5.25 180 180 25 ±20 13.2 High response speed (up to x2) GP1FAV51RK0F High response speed (up to x2), with shutter –0.5 to +7 10 –20 to +70 4.75 to 5.25 180 180 25 ±20 13.2 With mounting hole, With shutter, Low voltage drive, GP1FAV31RK0F – – –20 to +70 2.7 to 3.6 – – 15 – 15.5 High response speed (up to x2) With mounting hole, High response speed (up to x4), GP1FA51HRZ0F – – –20 to +70 4.75 to 5.25 – – 15 – 25 with shutter GP1FP513RK0F Electric jack/optical connector integrated type –0.5 to +7 10 –20 to +70 4.75 to 5.25 180 180 25 ±20 13.2 ■ Fiber Optic Receivers (ø3.5 mm Optical Mini-jack) (Ta = 25°C) Absolute maximum ratings Electro-optical characteristics Propagation Dissipation Pulse Transmis- Supply delay time current width sion speed Model No. Jack Features IOL Topr Vcc (V) voltage tPLH tPHL Icc distortion T (mA) (°C) Optoelectronics (V) (ns) (ns) (mA) ∆tw (Mb/s) MAX. MAX. MAX. (ns) MAX. Thin (thickness: 4.2 mm), GP1FD210RP0F ø3.5 –0.5 to +7 4 –20 to +70 2.4 to 3.0 180 180 7.5 ±30 8 optical mini-jack (low voltage drive) GP1FM313 series GP1FMV31 series GP1FAV50TK0F (GP1FM513 series) (GP1FMV51 series)  GP1FAV50RK0F,   GP1FAV30TK0F,   GP1FAV30RK0F  GP1FSV31TK0F GP1FAV51TK0F GP1FP513TK0F GP1FD210TP0F (GP1FSV51TK0F)  GP1FAV31TK0F,  (GP1FP513RK0F)  GP1FD210RP0F,   GP1FAV55TK0F,   GP1FD310TP0F,   GP1FAV51RK0F,   GP1FD320TP0F   GP1FAV31RK0F  Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 109

OPTO FIBER OPTICS ■ Optical Transmission Device Transmission speed Operating temperature Optic output Operating voltage Model No. Features T (°C) (dBm) (V) (Mb/s) • MOST standard compatible 25 GP5FM5T01AZ –40 to +105 –9 to –1.5 4.75 to 5.25 • Wide operating temperature range (Biphase) GP5FM5T01AZ ■ Optical Reception Device Transmission speed Operating temperature Optic output Operating voltage Model No. Features T (°C) (dBm) (V) (Mb/s) • MOST standard compatible 25 GP5FM5R01AZ –40 to +105 –24 to –2 4.75 to 5.25 • Wide operating temperature range (Biphase) GP5FM5R01AZ Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 110

IR INFRARED DATA COMMUNICATION DEVICE INDEX TREE ■ Infrared Data Communication Device Lineup Communication Transmission Transmission Operating Features Model No. system speed distance supply voltage Compact, thin (height: 2.5 mm), low voltage operation type, IrDA data FIR 4 Mb/s 100 cm LP/HP mode switching function 2.4 to 3.6 V GP2W1004YP0F (IrDA 1.x) Compact 2.7 to 5.5 V GP2W1001YP0F 70 cm LP/HP mode switching function GP2W1010YP0F LP/HP mode switching and remote control 50/20 cm transmission functions GP2W3120YP0F FIR LP 4 Mb/s 50/20 cm LP/HP mode switching function 2.7 to 3.6 V GP2W1320YP0F LP/MP/HP mode switching and remote con- FIR LP 4 Mb/s 70/20 cm trol transmission functions 2.6 to 3.3 V GP2W3104YP0F MIR 1.152 Mb/s 100 cm Compact, low dissipation current 2.4 to 3.6 V GP2W1002YP0F 70 cm 2.4 to 3.6 V GP2W1302YP0F 50 cm 2.4 to 3.6 V GP2W1304YP GP2W0004YP0F/ SIR 115.2 kb/s 100 cm Compact, low dissipation current 2.4 to 5.5 V GP2W0004XP0F Remote control transmission function, 80 cm compact, low dissipation current 2.4 to 5.5 V GP2W3020YP Built-in LED constant current circuit, GP2W0110VX/ SIR LP 115.2 kb/s 20 cm 3-state output 2.0 to 3.6 V GP2W0110VY Compact 2.0 to 3.6 V GP2W0116YP0F (Height: 1.5 mm) 2.4 to 3.6 V GP2W0150YP0F Built-in LED constant current circuit, 3-state output, top view type 2.0 to 3.6 V GP2W0114YP0F Compact 2.0 to 3.6 V GP2W0118YP0F (Height: 2.1 mm) 2.4 to 3.6 V GP2W0150XP0F Built-in LED constant current circuit, 3-state output, low voltage operation type, low dissipation current type 1.8 to 2.5 V GP2W0112YP0F Remote control transmission func- tion (built-in drive circuit) λp: 870, 940 nm 2.4 to 3.6 V GP2W3240YP λp: 890 nm 2.4 to 3.6 V GP2W3250YP IR Device (Height: 1.5 mm) 2.4 to 3.6 V GP2W3270YP0F Top view type 2.4 to 3.6 V GP2W3270XP0F ■ Infrared Wireless Audio Transmission Device Lineup Operating Communication system Features Model No. supply voltage GP2WVR01YP0F/ Infrared system For designing compact, GP2WVC01MP0F (1-bit audio transmission) low-power-consumption audio transmission systems 2.4 to 3.6 V (Transmission LSI) 131

IR INFRARED DATA COMMUNICATION DEVICES ✩New product ★Under development ■ Infrared Data Communication Devices ◆IrDA FIR Compliant Devices Transmission Transmission Supply voltage Outline Model No. Communication system Description rate distance (cm) (V DC) dimensions (mm) Bi-directional (half-duplex) 9.6 k to 4 With remote control transmission function, ✩GP2W3120YP0F 50/20*1 2.4 to 3.6 7.16 × 2.73 × 1.82 communication Mb/s LP/HP mode switching function Bi-directional (half-duplex) 9.6 k to 4 ✩GP2W1010YP0F LP/HP mode switching function 70 2.4 to 3.6 7.9 × 2.85 × 2.15 communication Mb/s Bi-directional (half-duplex) 9.6 k to 4 ★GP2W1004YP0F LP/HP mode switching function 100 2.4 to 3.6 7.9 × 2.85 × 2.5 communication Mb/s Bi-directional (half-duplex) 9.6 k to 4 GP2W1001YP0F 100 2.7 to 5.5 10.01 × 4.4 × 3.5 communication Mb/s Compact, thin, Bi-directional (half-duplex) 9.6 k to 4 ✩GP2W1320YP0F low dissipation current during shutdown 50/20*1 2.7 to 3.6 7.16 × 2.73 × 1.82 communication Mb/s (Icc: TYP. 0.45 mA) Compact, thin, Bi-directional (half-duplex) 9.6 k to 4 ✩GP2W3104YP0F with remote control transmission function, 70/20*2 2.6 to 3.3 7.9 × 2.85 × 2.5 communication Mb/s LP/MP/HP mode switching function *1 MIN. 20 cm at 150 mA MIN. 50 cm at 250 mA *2 MIN. 21 cm at 150 mA MIN. 70 cm at 450 mA GP2W3120YP0F GP2W1010YP0F GP2W1004YP0F GP2W1001YP0F GP2W1320YP0F (GP2W3104YP0F) ◆IrDA MIR Compliant Devices Transmission Transmission Supply voltage Outline Model No. Communication system Description rate distance (cm) (V DC) dimensions (mm) Bi-directional (half-duplex) 9.6 k to 1.152 GP2W1002YP0F 100 2.4 to 3.6 8.0 × 3.0 × 2.5 communication Mb/s Bi-directional (half-duplex) 9.6 k to 1.152 Compact, compatible with 2.15 mm height for GP2W1302YP0F 70 2.4 to 3.6 7.9 × 2.85 × 2.15 communication Mb/s mobile phone Bi-directional (half-duplex) 9.6 k to 1.152 Compact, compatible with 1.82 mm height for GP2W1304YP 50 2.4 to 3.6 7.16 × 2.73 × 1.82 communication Mb/s mobile phone GP2W1304YP GP2W1302YP0F GP2W1002YP0F ◆IrDA SIR Compliant Front-Ends Transmission Transmission Supply voltage Outline Model No. Communication system Description rate distance (cm) (V DC) dimensions (mm) Bi-directional (half-duplex) 9.6 k to 115.2 Low dissipation current GP2W0004YP0F 100 2.4 to 5.5 9.21 × 3.76 × 2.71 communication kb/s (Icc: 130 µA MAX.) Bi-directional (half-duplex) 9.6 k to 115.2 Low dissipation current GP2W0004XP0F 100 2.4 to 5.5 9.2 × 3.35 × 2.95 communication kb/s (Icc: 130 µA MAX.) With remote control transmission function Bi-directional (half-duplex) 9.6 k to 115.2 (Transmission distance TYP. 7 m, IF = 350 mA) GP2W3020YP 80 2.4 to 5.5 7.9 × 2.85 × 2.15 communication kb/s Low dissipation current during shutdown (Icc: 130 µA MAX.) GP2W0004YP0F GP2W0004XP0F GP2W3020YP Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 132

INFRARED DATA COMMUNICATION DEVICE ◆IrDA SIR LP Compliant Front-Ends Transmission Transmission Supply voltage Outline Model No. Communication system Description rate distance (cm) (V DC) dimensions (mm) Top-view and side view compatible (Model Bi-directional (half-duplex) 2.4 k to 115.2 GP2W0110VX/VY name is prescribed based on the packaging 20 2.0 to 3.6 6.8 × 2.35 × 2.1 communication kb/s status.), lead-free type available Low voltage operation, low dissipation current, Bi-directional (half-duplex) 2.4 k to 115.2 GP2W0112YP0F▲ 3-state output type, independent power supply 20 1.7 to 2.5 7.9 × 2.85 × 2.15 communication kb/s for light-emitting and light-detecting circuits Bi-directional (half-duplex) 2.4 k to 115.2 Compact, thin, low dissipation current GP2W0150YP0F 20 2.4 to 3.6 7.6 × 2.4 × 1.5 communication kb/s (Icc: 100 µA MAX.) Compact, thin, low dissipation current Bi-directional (half-duplex) 2.4 k to 115.2 GP2W0150XP0F (Icc: 100 µA MAX.) 20 2.4 to 3.6 8.3 × 2.1 × 1.7 communication kb/s Top view type Bi-directional (half-duplex) 2.4 k to 115.2 Compact, thin, low dissipation current GP2W0116YP0F▲ 20 2.0 to 3.6 7.2 × 2.75 × 1.85 communication kb/s (Icc: 120 µA MAX.) Compact, thin, low dissipation current Bi-directional (half-duplex) 2.4 k to 115.2 GP2W0118YP0F▲ (Icc: 120 µA MAX.) 20 2.0 to 3.6 7.9 × 2.25 × 2.0 communication kb/s Top view type With remote control transmit function Bi-directional (half-duplex) 2.4 k to 115.2 GP2W3240YP▲ (with remote control drive circuit) (λp = 940 nm) 20 2.4 to 3.6 8.6 × 2.85 × 1.85 communication kb/s IR communication part (λp = 870 nm) Bi-directional (half-duplex) 2.4 k to 115.2 Remote control transmission function, shared GP2W3250YP 20 2.4 to 3.6 7.2 × 2.55 × 1.85 communication kb/s IR communication section (λp = 890 nm) Bi-directional (half-duplex) 2.4 k to 115.2 Remote control transmission function, shared GP2W3270YP0F 20 2.4 to 3.6 7.6 × 2.4 × 1.5 communication kb/s IR communication section (λp = 890 nm) Remote control transmission function, shared Bi-directional (half-duplex) 2.4 k to 115.2 GP2W3270XP0F IR communication section (λp = 890 nm) 20 2.4 to 3.6 8.3 × 2.1 × 1.7 communication kb/s Top view type The model marked with ▲ may not be available in the near future. Contact with SHARP for details before use. GP2W0110VX GP2W0112YP0F GP2W0150YP0F GP2W0150XP0F (GP2W0110VY) (GP2W3270YP0F) (GP2W3270XP0F) GP2W0116YP0F GP2W0118YP0F GP2W3240YP GP2W3250YP ■ Infrared Wireless Audio Transmission Device Supply voltage Outline IR Device Model No. Communication system Features S/N ratio (V DC) dimensions (mm) Compact, low power consumption type GP2WVR01YP0F 1-bit audio transmission Simple circuit configuration: 70 dB 2.4 to 3.6 2.5 × 8 × 3 (Reception Device) (1.5 MHz) Used in combination with transmission LSI (GP2WVC01MP0F) and transmission device (GP2W1004YP0F, etc.) GP2WVR01YP0F Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 133

IR IR DETECTING UNIT FOR REMOTE CONTROL INDEX TREE ■ IR Detecting Unit for Remote Control Lineup Package Model No. Type Detection Features Operating voltage: Operating voltage: Operating voltage: Form position*5 3V 5V 3 to 5 V (from PCB) Lead L IR detecting unit bend with for remote control holder 16.0 mm*1 Compact size GP1UE28XK0VF series GP1UM28XK0VF series Compact size, Strengthened resistance to electromagnetic induction noise (Mesh type) GP1UE28RK0VF series GP1UM28RK0VF series Low dissipation current GP1UD28XK00F series 12.0 mm*2 Compact size GP1UE27XK0VF series GP1UM27XK0VF series Compact size, Strengthened resistance to electromagnetic induction noise (Mesh type) GP1UE27RK0VF series GP1UM27RK0VF series Low dissipation current GP1UD27XK00F series 6.8 mm*3 Compact size GP1UE26XK0VF series GP1UM26XK0VF series Compact size, Strengthened resistance to electromagnetic induction noise (Mesh type) GP1UE26RK0VF series GP1UM26RK0VF series Low dissipation current GP1UD26XK00F series Compact size, Lead Strengthened resistance to straight with electromagnetic induction noise holder 19.0 mm (Mesh type) GP1UE29QK0VF series GP1UM29QK0VF series 9.6 mm Compact size GP1UE28YK0VF series GP1UM28YK0VF series Compact size, Strengthened resistance to electromagnetic induction noise (Mesh type) GP1UE28QK0VF series GP1UM28QK0VF series Low dissipation current GP1UD28YK00F series Compact, thin type SMD (4.1 × 3.84 × 0.95 t mm) GP1US30XP series Compact type SMD (6.8 × 2.1 × 2.35 t mm) GP1UF31 series Lead straight Holderless 6.0 mm GP1UX31QS series GP1UX51QS series Lead L bend*4 5.3 mm GP1UX31RK series GP1UX51RK series *1 Mesh type (strengthened resistance to electromagnetic induction noise): 16.4 mm *2 Mesh type: 12.4 mm *3 Mesh type: 7.2 mm *4 Mesh type: 5.3 mm *5 Lead straight: Distance from lens center to mounting board upper surface No mesh lead L bend: Distance from tip of lens to mounting board upper surface Mesh-type lead L bend: Distance from tip of mesh to mounting board upper surface 134

IR DETECTING UNIT FOR REMOTE CONTROL ✩New product ■ IR Detecting Units for Remote Control (Ta = 25°C) Absolute maximum ratings Electrical characteristics Series No. Icc VOH VOL fo Size (mm) Remarks Vcc (V) Topr (°C) (mA) *1 (V) (V) (kHz) MAX. MIN. MAX. TYP. GP1UM26XK0VF* 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*10 0.45*10 40*3 5.6 × 9.6 × 6.8 *5 GP1UM27XK0VF* 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*10 0.45*10 40*3 5.6 × 9.6 × 12.0 *5 GP1UM28XK0VF* 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*10 0.45*10 40*3 5.6 × 9.6 × 16.0 *5 GP1UM28YK0VF* 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*10 0.45*10 40*3 5.6 × 8.6 × 12.5(9.6)*2 *5 GP1UM26RK0VF* 4, 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*11 0.45*11 40*3 5.6 × 9.6 × 7.2 *5 GP1UM27RK0VF* 4, 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*11 0.45*11 40*3 5.6 × 9.6 × 12.4 *5 GP1UM28RK0VF* 4, 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*11 0.45*11 40*3 5.6 × 9.6 × 16.4 *5 GP1UM28QK0VF* 4, 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*11 0.45*11 40*3 5.6 × 9.0 × 12.5(9.6)*2 *5 GP1UM29QK0VF* 4, 12 0 to 6.0 –10 to +70 0.6 (0.65)*18 Vcc–0.5*11 0.45*11 40*3 5.6 × 16.2 × 21.9(19)*2 *5 GP1UE26XK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*9 0.45*9 40*16 5.6 × 9.6 × 6.8 *5 GP1UE27XK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*9 0.45*9 40*16 5.6 × 9.6 × 12.0 *5 GP1UE28XK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*9 0.45*9 40*16 5.6 × 9.6 × 16.0 *5 GP1UE28YK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*9 0.45*9 40*16 5.6 × 8.6 × 12.5(9.6)*2 *5 GP1UE26RK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40*16 5.6 × 9.6 × 7.2 *5 GP1UE27RK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40*16 5.6 × 9.6 × 12.4 *5 GP1UE28RK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40*16 5.6 × 9.6 × 16.4 *5 GP1UE28QK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40*16 5.6 × 9.0 × 12.5(9.6)*2 *5 GP1UE29QK0VF* 8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40*16 5.6 × 16.2 × 21.9(19)*2 *5 GP1UD26XK00F* 8 0 to 6.0 –10 to +70 0.2 (Vcc = 3 V) Vcc–0.5*9 0.5*9 40*3 7.3 × 13.1 × 6.8 *5 GP1UD27XK00F* 8 0 to 6.0 –10 to +70 0.2 (Vcc = 3 V) Vcc–0.5*9 0.5*9 40*3 7.3 × 13.1 × 12.0 *5 GP1UD28XK00F* 8 0 to 6.0 –10 to +70 0.2 (Vcc = 3 V) Vcc–0.5*9 0.5*9 40*3 7.3 × 13.1 × 16.0 *5 GP1UD28YK00F* 8 0 to 6.0 –10 to +70 0.2 (Vcc = 3 V) Vcc–0.5*9 0.5*9 40*3 7.3 × 8.4 × 13.0(9.6)*2 *5 *5, Pin configuration GP1UV70QS00F* 13 – –10 to +70 1.5 Vcc–0.5*11 0.45*11 40*3 5.6 × 6.2 × 7.6(6.0)*2 (Pin No. 2: GND) *5, Pin configuration GP1UW70QS00F* 7 – –10 to +70 0.6 Vcc–0.5 0.45 40*3 5.6 × 6.2 × 7.6(6.0)*2 (Pin No. 2: GND) *5, Pin configuration GP1UX51QS*13 0 to 6.0 –10 to +70 0.6 Vcc–0.5*11 0.45*11 40*16 5.5 × 5.3 × 7.5 (Pin No. 2: GND) *5, Pin configuration GP1UX51RK*13 0 to 6.0 –10 to +70 1.5 Vcc–0.5 0.45 40*3 5.5 × 5.3 × 7.5 (Pin No. 2: GND), Folded lead *5, Pin configuration GP1UX31QS*7, *8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40 5.5 × 5.3 × 7.5 (Pin No. 2: GND) *5, Pin configuration GP1UX31RK*8 0 to 6.0 –10 to +70 0.4 Vcc–0.5*14 0.45*14 40 5.5 × 5.3 × 7.5 (Pin No. 2: GND), Folded lead GP1US30XP*6, 17 – –30 to +85 0.6 Vcc–0.5*11 0.45*19 40 4.1 × 3.95 × 0.95 *5, Surface mount compatible ✩GP1UF31xXP0F 0 to 6.0 –30 to +85 0.4 Vcc–0.5 0.45 40*20 6.8 × 2.1 × 2.0 *5, Surface mount compatible ✩GP1UF31xYP0F 0 to 6.0 –30 to +85 0.4 Vcc–0.5 0.45 40*20 6.8 × 2.1 × 2.0 *5, Surface mount compatible *1 When no signal is input (during input light). <Burst wave> IR Device *2 Figures in parentheses indicate the distance to the light detection center. *3 In addition to the fo = 40kHz type, types fo = 36, 38, 36.7, 56.8, 32.75 kHz are also available. *4 Type with strengthened resistance to electromagnetic induction noise. *5 A voltage regulator circuit is built-in but may be affected by the usage environment. Install with an externally mounted C and R as a power supply filter. Duty = 50% 600 µs 1 000 µs *6 Allows reflow soldering. *7 Operating voltage: 2.4 to 3.6 V (2.7 to 3.6 V for fo = 56.8 kHz type) *8 Operating voltage: 2.7 to 5.5 V GP1UD series, GP1UM series, *9 Distance to transmitter on optical axis is 0.2 to 10.0 m. Ev < 10 lx when burst wave is input as shown in the right figure. GP1UE series have different fo *10 Distance to transmitter on optical axis is 0.2 to 10.0 m. Ev < 10 lx when burst wave is input as shown in the right figure. values for each model. (fo = 56.8 kHz: 0.2 to 9.0 m) *11 Distance to transmitter on optical axis is 0.2 to 8.5 m. Ev < 10 lx when burst wave is input as shown in the right figure. (fo = 56.8 kHz: 0.2 to 7.0 m, fo = 32.75 kHz: 0.2 to 6.5 m) *12 GP1UM series operating voltage: 4.5 to 5.5 V *13 Operating voltage: 4.5 to 5.5 V *14 Distance to transmitter on optical axis is 0.2 to 8.0 m. Ev < 10 lx when burst wave is input as shown in the right figure. *15 Distance to transmitter on optical axis is 0.2 to 6.5 m. Ev < 10 lx when burst wave is input as shown in the right figure. *16 Types fo = 32.75, 36, 36.7, and 38 kHz are also available. *17 Operating voltage: 2.4 to 5.5 V *18 fo = 56.8 kHz *19 Distance to transmitter on optical axis is 0.2 to 5.0 m. Ev < 10 lx when burst wave is input as shown in the right figure. *20 In addition to the fo = 40 kHz type, types fo = 36, 36.7, and 38 kHz are also available. Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 135

IR IR DETECTING UNIT FOR REMOTE CONTROL GP1UD28XK00F GP1UM28XK0VF GP1UM28RK0VF GP1UM29QK0VF (GP1UE28XK0VF) (GP1UE28RK0VF) (GP1UE29QK0VF) GP1UD27XK00F GP1UM27XK0VF GP1UM27RK0VF GP1UV70QS00F (GP1UE27XK0VF) (GP1UE27RK0VF) (GP1UW70QS00F) GP1UD26XK00F GP1UM26XK0VF GP1UM26RK0VF GP1UX51QS (GP1UE26XK0VF) (GP1UE26RK0VF) (GP1UX31QS) GP1UD28YK00F GP1UM28YK0VF GP1UM28QK0VF GP1US30XP GP1UF31xYP0F (GP1UE28YK0VF) (GP1UE28QK0VF) (GP1UF31xXP0F) Notice In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that may occur in equipment using any SHARP devices shown in catalogs, data books, etc. Except where specially indicated, models listed on this page comply with the RoHS Directive*. For details, please contact SHARP. *RoHS Directive: Prohibits use of lead, cadmium, hexavalent chromium, mercury and specific brominated flame retardants (PBBs and PBDEs), with certain exceptions. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 136