cost efficiency, benefiting industrial, computing, consumer and communication markets.

Photocoupler Lite-On offers a broad range of isolation products that provide high performance, while maintaining cost efficiency, benefiting industrial, computing, consumer and communication markets. Lite-On photocouplers are available in standard single, dual, and quad channel DIP(Dual-In Package), SOP(Small Outline Package), SSOP(Shrink Small Outline Package) & LSOP(Long Small Outline package) with Transistor, Triac, High Speed, Darlington, IGBT drive output and AC input configurations to serve various applications such as switch mode power, battery chargers, fax modems, home appliances, telecommunication and industry controllers. The SOP, SSOP & LSOP photocouplers are only available in tape and reel configurations. All photocouplers employ double transfer mold technology, which features high isolation voltage, with safety approval certificates including CQC, UL, CSA, BSI, VDE, FIMKO, NEMKO, DEMKO and SEMKO. Liteon integrates environmental-friendly value into every aspect of our design and manufacturing. We offer lead-free photocouplers for DIP and mini flat packages, and RoHS compliance since 00. To further enhance our step into green value, we have been offering Halogen-free solutions since Feb 00 in the form of worldwide-leading Halogen-free photocouplers. In May 0, UL awarded the world s first EN - D Mark to Lite-On Technology s photo coupler. The product also acquired Nordic Certification which is recognised by four northern European countries Norway, Denmark, Finland and Sweden. This achievement marks Taiwan s leading technology in the design and manufacture of electronic parts and products. The acquisition of international accreditation will enhance Lite-On s product differentiation and strengthen its competitiveness in the European markets.

Photocoupler package Transistor Output AC Input P. 9 DC Input P. 0 - Darlington Output General Purpose P. - P. Triac Output Random Phase Zero crossing Phase P. P. - SSR Random Phase Zero crossing Phase P. P. High Speed 00kBd MBd Darlington Output transistor Output P. P. MBd Schmitt Trigger P. 0 0MBd Logic Gate P. MBd CMOS P. Power Device Drive IGBT Gate Driver IPM Driver P. 9-0 P. -

package size A x B x C DIP. x. x. DIP DIP-M DIP-S DIP-S option DIP. x. x. DIP DIP-M DIP-S DIP. x 9. x. DIP DIP-M DIP-S DIP-S option DIP. x 9. x. DIP DIP-M DIP-S SOP SOP. x. x.0. x. x.0 (optional) SOP. x. x. SOP SOP.9 x. x. SOP LSOP LSOP LSOP LSOP. x. x.0 LSOP. x. x. LSOP-P type LSOP-W type SSOP. x. x.0 SSOP SSOP. x. x.0 SSOP SSOP. x 0. x.0 SSOP

Application Notes Smart Meter Power Sensor DSP Transistor DC Input P.0 - Clock Output High speed P. - RS- Switch Mode Power Supply Primary Side Secondary Side AC Input Control IC Transistor P.9 - ltage Detector DC/DC Converter PLC PLC RX RX Filter PLC Device PLC TX TX Filter TX Amp High speed 0MBd & MBd P. Powerline PLC TX Disable Transistor P.9 -

UPS Photo Triac : P. - Mosfet/IGBT Gate Driver : P.9-0 Mosfet/IGBT Gate Driver : P.9-0 Photo Triac : P. - PFC Booster Booster Full-Bridge Inverter AC filter line input Load SCR Switch Transistor : DC Input P.0 - control signals Charger Battery system conditions PWM control signal ltage/current Feedback DSP Controller Display & Operation CANBUS Parallel Function USB/RS- Communication Transistor : P.9 - High speed : P. - Motor Drive Breaker IGBT Gate Drive P.9-0 IGBT Gate Drive x P.9-0 DSP Isolation for Power Supply Transistor P.0 - Isolation for Data Communication High speed P. -

Application Notes PoE Power Sourcing Equipment (PSE) Powered Device (PD) RJ RJ AC IN / UPS IN SWITCH Core PHY 0/00 Transformer RD+ RD- TD+ TD- () Port() Port() () TD+ TD- RD+ RD- Transformer PHY 0/00 SWITCH Core Transistor P.0 - DC/DC Buck Converter Isolate Power HV SDA_OUT PSE Manager ALERT High Speed Coupler P. - ALERT SCL SCL Port() SDA_IN High Speed Coupler P. - Port(n) RJ TD+ TD- RD+ RD- TD+ TD- (n) Isolation CAT Cable Port(n) Port(n) RJ (n) RD+ RD- Port(n) Port() PD Controller + DC/DC Transistor P.0 - Examples of Powered Devices : IP Phone IP Camera Access Point SDA_OUT SDA_IN l C MCU Power MCU Examples of Power Sourcing Equipment : Private Branch Exchange (PBX) Ethernet Switch Coffee Machine Switch AC IN TRIAC Heater TRIAC M AC/DC Vref. DCV DC V Pump Transistor P.0 - Phototriac P. - Phototriac P. - MCU Electromagnetic Valve Sensor

Refrigerator Control Unit AC IN TRIAC Power Switch Damper Heater TRIAC Defrost Heater TRIAC Rectifier PFC IGBT/MOSFET Gate Drive P.9-0 MOSFET C MCU Motor Control IGBT/MOSFET Gate Drive P.9-0 x (pcs) IGBT Current Sensor BLDC M Compressor DC Motor Drive M M ice maker water pump LCD Display Key Entry Wheel Type P. - Photo Triac Photo Triac Photo Triac Stepper Motor Drive M damper Wireless Connectivity Wi-Fi ZigBee NFC Reset IC EEPROM Temp. Sensor MCU Main Control Fan Motor Drive M deodorize refrigerator freezer Panel Display Touch Key Unit MCU User Interface Control LED Display Speaker EEPROM Indoor Lighting High Speed Coupler P. - Series Port Interface Washing Machine TRIAC Control Unit AC IN TRIAC TRIAC TRIAC TRIAC TRIAC Heater Rectifier PFC MOSFET C IGBT/MOSFET Gate Drive P.9-0 x (pcs) IGBT Current Sensor BLDC M Tub Motor IGBT/MOSFET Gate Drive P.9-0 P. - Photo Triac Photo Triac Photo Triac Photo Triac Photo Triac Photo Triac To Operation Unit MCU Drain valve Water Supply valve Power Switch High Speed Coupler P. - heater Bath-water pump Softener Supply valve EEPROM Reset IC MCU IPM Driver P. - IPM Driver P. - IPM IPM Fan Motor Circulating Pump BLDC M Dryer Fan BLDC M Motor position Motor temp. Fin. temp. Water level(line) Weight Lid switch SENSOR Motor Current sensor

General Purpose Phototransistor Photocoupler A general purpose Photocoupler is the most common and preferred choice for providing isolated feedback in a regulation loop. They are available in -channel, -channel and -channel, both DC and AC inputs, to suit the requirements of multiple isolation such as interfaces between logic circuits. Application Ground loop elimination Interface between logic circuits Level shifting Regulation feedback circuits in SMPS Part No. Device Feature Package Vceo(V) min. min(%) max(%) I F (ma) LTV- AC input, SSOP 0 0 0 00 ± LTV- AC input, Channels, SSOP 0 0 0 00 ± 0 9 LTV- AC input, Channels, SSOP 0 0 0 00 ± LTV-T AC input SOP 0 0 00 ± LTV- AC input DIP 000 0 00 ± LTV- AC input, Channels DIP 000 0 00 ± 0 9 LTV- AC input, Channels DIP 000 0 00 ± LTV- AC input, With Base Connection DIP 000 0 - ± 9

Part No. Device Feature Package Vceo(V) min. min(%) max(%) I F (ma) LTV- SSOP 0 0 0 00 LTV- Channels, SSOP 0 0 0 00 0 9 LTV- Channels, SSOP 0 0 0 00 LTV-00 0 0 0 0 0 LTV-0 0 0 0 0 0 LTV-0 Channels, SOP 0 0 0 LTV-0 0 0 00 00 0 LTV-0 0 0 0 0 0 LTV-T Very SOP 0 0 0 00 LTV-T SOP 0 0 0 00 LTV-T DC input SOP 0 0 00 LTV-000 000 0 0 00 LTV-00 000 0 00 0 LTV-00 000 0 LTV-00 000 0 00 00 0 0 LTV-00 000 0 00 00 LTV-00 000 0 0 0 LTV-00 LTV-00, Creepage distance >mm LSOP 000 000 0 0 00 0 00 0 LTV-00 000 0 0 0 LTV-009 000 0 00 00 LTV-00 000 0 0 00 LTV-0 000 0 0 0 LTV-0 000 0 00 00 LTV-09 000 0 0 00 0 0

General Purpose Phototransistor Photocoupler Part No. Device Feature Package Vceo(V) min. min(%) max(%) I F (ma) LTV-00 000 0 0 00 LTV-0 000 0 00 0 LTV-0 000 0 LTV-0 000 0 00 00 0 LTV-0, LSOP 000 0 00 00 Creepage distance >mm LTV-0 000 0 0 0 LTV-0 000 0 00 00 LTV-0 000 0 0 0 LTV-0 000 0 0 0 LTV-09 000 0 00 00 0 LTV- DIP 000 0 0 00 LTV- DC input DIP 000 0 00 LTV- Channels, DIP 000 0 0 00 LTV- Channels DIP 000 0 00 LTV- 0 9 Channels, DIP 000 0 0 00 LTV- Channels DIP 000 0 00 LTV- Very DIP 000 0 0 - N 00 0 0-0 N 00 0 0-0 N 00 0 0-0 N 00 0 0-0 N 0 0 00-0 N With Base Connection DIP 00 0 00-0 CNY- 000 0 0 0 0 CNY- 000 0 0 CNY- 000 0 00 00 0 CNY- 000 0 0 0 0 LTV-0V 000 0 0 0 0 CNYF- 000 0 0 0 0 CNYF- 000 0 0 CNYF- DC input Without Base Connection DIP 000 0 00 00 0 CNYF- 000 0 0 0 0 LTV-0F 000 0 0 0 0

Darlington Transistor Output Photocoupler These photocouplers provide a very high current transfer ratio from a low input forward current. In addition, they are available in DC and AC inputs by DIP package as well as.0mm profile (mini-flat) package to increase designers options. High input-output isolation voltage and high collector-emitter voltage also add to the benefits for many power distribution applications. Application Hybrid substrates that require high density mounting Telephone sets Copiers, facsimiles Interfaces with various power supply circuits, power distribution boards Part No. Device Feature Package Vceo(V) min. min(%) max(%) I F (ma) LTV- DC input SSOP 0 0 00-0 9 LTV- Channels SSOP 0 0 00 - LTV-T DC input SOP 0 00 00 LTV- DC input DIP 000 00 00 LTV- Channels DIP 000 00 00 0 9 LTV- Channels DIP 000 00 00

Darlington Transistor Output Photocoupler Part No. Device Feature Package Vceo(V) min. min(%) max(%) I F (ma) LTV- AC input DIP 000 00 00 ± LTV- AC input, Channels DIP 000 00 00 ± 0 9 LTV- AC input, Channels DIP 000 00 00 ± LTV-F DC input Without Base Connection DIP 000 00 00 LTV-F Very Without Base Connection DIP 000 00 000 000 LTV-V Very With Base Connection DIP 000 00 000 000 LTV-T SOP 0 00 000 - LTV- DIP 000 00 000 000

Triac Output Photocoupler Triac output photocouplers provide a high isolation voltage between input and output of,0 Vrms (SOP)/,000Vrms(DIP). With two options of zero-crossing and random phase type of triac driver output, it will provide flexibility for circuit designers. Other benefits include high Off-State Output Terminal ltage (00V, 00V & 00V) and high critical rate of rise of off-state voltage (min 000V/μs). Application AC Motor Drives AC Motor Starters E.M. Contactors Lighting Controls Solenoid/Valve Controls Solid State Relays Static Power Switches Temperature Controls Part No. Device Feature Package Off-State Output Vdrm(V) Trigger Current IFT(mA) MOC0 00V VDRM, Random Phase DIP 000 00 LTV-0 00V VDRM, Random Phase DIP 000 00 LTV-0 00V VDRM, Random Phase SOP 0 00 MOC0-L 00V VDRM, Random Phase DIP 000 00 MOC0 00V VDRM, Random Phase DIP 000 00 0 MOC0-H 00V VDRM, Random Phase DIP 000 00 0 LTV-0 00V VDRM, Random Phase DIP 000 00 0 LTV-0 00V VDRM, Random Phase SOP 0 00 0 MOC0 00V VDRM, zero-cross Phase DIP 000 00 ZERO CROSSING CIRCUIT LTV-0 ZERO CROSSING CIRCUIT 00V VDRM, zero-cross Phase DIP 000 00

Triac Output Photocoupler Part No. Device Feature Package Off-State Output Vdrm(V) Trigger Current IFT(mA) LTV-0 ZERO CROSSING CIRCUIT 00V VDRM, zero-cross Phase SOP 0 00 MOC0 ZERO CROSSING CIRCUIT 00V VDRM, zero-cross Phase DIP 000 00 LTV-0 ZERO CROSSING CIRCUIT 00V VDRM, zero-cross Phase DIP 000 00 LTV-0 ZERO CROSSING CIRCUIT 00 VDRM, zero-cross Phase SOP 0 00 Solid State Relay Photocoupler Solid State Relays (SSR) are integration of an AlGaAs Light Emitting Diode, a Phototriac Detector and a main power Triac. These devices are ideally suited for controlling high voltage AC loads with solid state reliability while providing KV isolation ((rms)) between input to output. Application AC Motor drivers and starters E.M. contactors Solenoid / Valve controls Solid state relays Static Power Switches Temperature controls Part No. Device Feature Package Off-State Output Vdrm(V) Trigger Current IFT(mA) On-state RMS current (A) LTV- 00V VDRM, Random Phase Photo-Triac & Main-Triac output DIP 000 00 0. LTV- 00V VDRM, Zero-crossing Photo-Triac & Main-Triac output DIP 000 00 0.

MBd Transistor Output photocoupler These photocouplers consist of a high efficiency AlGaAs Light Emitting Diode and a high speed optical detector. This design provides excellent AC and DC isolation between the input and output sides of the photocoupler. The connection for the bias of the photodiode improves upon the speed of a conventional phototransistor coupler by reducing the base-collector capacitances. The internal shield ensures high common mode transient immunity. A guaranteed common mode transient immunity is up to KV/μsec. Application High ltage Isolation Isolation in line receivers Feedback element in switching mode power supplies Power transistor isolation in motor drives Interface between Microprocessor system, computer and their peripherals Replace pulse transformers Replace slower photocoupler isolators Part No. Device Feature Package V DD (V) max. min(%) max(%) I F(on) (ma) tplh tphl CM L CM H Min(V) min VB N-L MBd DIP 0.. 000 000 CATHODE VB N-L MBd DIP 9 0 0. 0. 000 000 CATHODE VB N-H MBd DIP 0 0.. 0000 000 CATHODE VB N-H MBd DIP 0 9 0 0. 0. 0000 000 CATHODE LTV-M0 MBd SOP 0 0 0 0. 0. 000 0 CATHODE VB LTV-00 MBd SOP 0 9-0. 0. 000 0 CATHODE LTV-0L CATHODE CATHODE MBd, dual channel SOP 0 9-0. 0. 000 0 LTV-0LW LTV-0LP MBd LSOP 0 0-0. 0. 000 000 CATHODE LTV-0 MBd, dual channel DIP 0 0.. 000 000

0MBd Logic Gate/ MBd CMOS Photocoupler These high gain series couplers use a AlGaAs LED and an integrated high gain photo detector to provide an extremely high current transfer ratio between input and output. Separate pins for the photodiode and output stage result in TTL compatible saturation voltage and high speed operation. Where desired the Vcc and terminals may be tied together to achieve conventional photo Darlington operation. A base access terminal allows a gain bandwidth adjustment to be made. Application High ltage Isolation Isolation in line receivers Ground loop elimination Feedback Element in Switching Mode Power Supplies High Speed Logic Ground Isolation TTL / TTL, TTL / CMOS, TTL / LSTTL Pulse transformer replacement Power transistor isolation in motor drives Interface between Microprocessor system, computer and their peripherals Part No. Device Feature Package V DD (V) I F(on) min(ma) tplh(ns) Max tphl(ns) Max PWD(ns) MAX CM L CM H Min(V) min N-L CATHODE VE 0 MBd, Logic Gate output DIP./ 90 0000 000 LTV-M0 CATHODE 0 MBd, Logic Gate output SOP./ 90 0000 0 LTV-00 CATHODE VE 0 MBd, Logic Gate output SOP./ 90 0000 0 LTV-0L CATHODE CATHODE 0 MBd, Dual channel, Logic Gate output SOP./ 90 0000 0 LTV-0LW LTV-0LP CATHODE 0 MBd, Logic Gate output LSOP./ 90 0000 000 VDD LTV-0L CATHODE MBd, Totem Pole output SOP./ 0 0 0 0000 0 LTV-0L CATHODE CATHODE MBd, Dual channel, Totem Pole output SOP./ 0 0 0 0000 0 VDD LTV-0LW LTV-0LP CATHODE MBd, Totem Pole output LSOP./ 0 0 0 0000 000 LTV-0 0 MBd, dual channel, Logic Gate output DIP./ 90 0000 000

00kBd Darlington Output Photocoupler These high gain series couplers use a AlGaAs LED and an integrated high gain photo detector to provide an extremely high current transfer ratio between input and output. Separate pins for the photodiode and output stage result in TTL compatible saturation voltage and high speed operation. Where desired the Vcc and terminals may be tied together to achieve conventional photo Darlington operation. A base access terminal allows a gain bandwidth adjustment to be made. Application Digital logic ground isolation Low input current line receiver Telephone ring detector EIA-RS-C line receiver Current loop receiver High common mode noise line receiver Part No. Device Feature Package V DD (V) I F(on) min (ma) min(%) I F (ma) tplh tphl CM L CM H Min(V) min VB N-L 00kBd DIP./. 00. 0 000 000 CATHODE VB N9-L 00kBd DIP./ 0. CATHODE 00 00 0.. 0 000 000 LTV-M0 00kBd SOP./. 00 00 0.. 0 000 0 CATHODE VB LTV-00 00kBd SOP./ 0. CATHODE 00 00 0.. 0 000 0 LTV-0L CATHODE CATHODE 00kBd, dual channel SOP./ 0. 00 00 0.. 0 000 0

Integrated Gate Drive Photocoupler These photocouplers are ideally suited for driving power IGBTs and MOSFETs used in motor control inverter applications and inverters in power supply system. It contains an AlGaAs LED optically coupled to an integrated circuit with a power output stage. The.A~A peak output current is capable of directly driving most IGBTs with ratings up to 00 V/00 A. The photocoupler operational parameters are guaranteed over the temperature range from -0 C ~ +0 C. Application IGBT/MOSFET gate drive Uninterruptible power supply (UPS) Industrial Inverter Motor Dirve Induction Heat Cooker Part No. Device Feature Package I F(on) min (ma) Peak Output Current min(a) Peak Output Current max(a) tplh Max tphl Max PWD (ns) Max Supply ltage (Vcc) CM L CM H Min(V) min LTV-0 CATHODE Rail-to-Rail Output ltage, Low power dissipation DIP. 0. 0. 0-000 000 LTV-0 CATHODE Rail-to-Rail Output ltage, Low power dissipation DIP 0. 0. 0. 0-000 000 LTV-0-L CATHODE Rail-to-Rail Output ltage, Low power dissipation DIP 0. 0. 0. 0 0-000 000 LTV-0 CATHODE Rail-to-Rail Output ltage, Low power dissipation DIP. 0. 0. 0 0-000 000 LTV-T0 CATHODE Direct drive of a medium-power, Low power dissipation DIP. 0. 0. 00-000 000 LTV- CATHODE Rail-to-Rail Output ltage, Low power dissipation SOP. 0. 0.9 0 0-000 0 LTV-E CATHODE Rail-to-Rail Output ltage, Low power dissipation SOP 0. 0. 0. 0 0-000 0 9

Part No. Device Feature Package I F(on) min (ma) Peak Output Current min(a) Peak Output Current max(a) tplh Max tphl Max PWD (ns) Max Supply ltage (Vcc) CM L CM H Min(V) min LTV-P LTV-W CATHODE Rail-to-Rail Output ltage, Low power dissipation LSOP 0. 0. 0-000 000 LTV-0P LTV-0W CATHODE Rail-to-Rail Output ltage, Low power dissipation LSOP 0. 0. 0. 0-000 000 LTV-P LTV-W CATHODE Rail-to-Rail Output ltage, Low power dissipation LSOP 0. 0. 0. 0 0-000 000 LTV-0 CATHODE Rail-to-Rail Output ltage, Low power dissipation SOP 0. 0. 0. 0 0-000 0 Schmitt Trigger Liteon HLx-L has a high-speed integrated circuit detector (MHz typical) optically coupled to infrared emitting diode. The output incorporates a Schmitt Trigger which provides hysteresis for noise immunity and pulse shaping. Application Logic to logic isolator Programmable current level sensor Line receiver eliminate noise and transient problems A.C. to TTL conversion square wave shaping Digital programming of power supplies Interfaces computers with peripherals Part No. Device Feature Package IF ON max (ma) Turn-on time max Turn-off time max Data rate (Mbd) V CC (V) CATHODE HL-L DC input DIP. - 000 HL-L CATHODE DC input DIP 0-000 HL-L CATHODE DC input DIP - 000 ltage regulator Vcc LTV-M00 DC input SO - 0 Amp CATHODE 0

Intelligent Power Module Interface Photocoupler Lite-On offers photocouplers ideal for isolated interfacing to an intelligent power module (IPM). IPM-drive photocouplers are available with an output in open-collector and inverting and noninverting totem-pole configurations. Therefore, you can find optimal photocouplers that best fit your needs, regardless of the input configuration (active level) of the driven IPM. Application Intelligent power module Inverter/Motor control Power switch design General purpose digital isolation Part No. Device Feature Package I F(on) min (ma) I O min (ma) min(%) max(%) I F (ma) tplh tphl P DD max V CC max (V) C ML CM H Min (V) LTV-M0 CATHODE IPM Totem Pole output, buffer logic SOP. 0 - - - 0. 0. 0. 0000 0 LTV-M CATHODE IPM Totem Pole output, Inverted logic SOP 0 - - - 0. 0. 0. 0000 0 LTV-0W LTV-0P CATHODE IPM Totem Pole output, buffer logic LSOP. 0 - - - 0. 0. 0. 0000 000 LTV-W LTV-P CATHODE IPM Totem Pole output, Inverted logic LSOP 0 - - - 0. 0. 0. 0000 000 LTV-00 CATHODE IPM Totem Pole output, buffer logic SOP. 0 - - - 0. 0. 0. 0000 0 LTV-0 CATHODE IPM Totem Pole output, Inverted logic SOP 0 - - - 0. 0. 0. 0000 0

Part No. Device Feature Package I F(on) min (ma) I O min (ma) min(%) max(%) I F (ma) tplh tphl P DD max V CC max (V) C ML CM H Min (V) LTV-00 CATHODE IPM Totem Pole output, buffer logic DIP. 0 - - - 0. 0. 0. 0000 000 LTV-00- CATHODE IPM Totem Pole output, buffer logic DIP. 0 - - - 0. 0. 0. 0000 000 LTV-0 CATHODE IPM Totem Pole output, Inverted logic DIP 0 - - - 0. 0. 0. 0000 000 LTV-M CATHODE IPM open collector output SOP 0. >90 0 0. 0. 0. 000 0 LTV-W LTV-P CATHODE IPM open collector output LSOP 0. >90 0 0. 0. 0. 000 000 LTV-0 CATHODE IPM open collector output SOP 0. >90 0 0. 0. 0. 000 0 LTV-0 CATHODE IPM open collector output DIP 0. >90 0 0. 0. 0. 000 000