Linear Optocoupler, High Gain Stability, Wide …

1 Semiconductors Rev. , 05-Mar-181 Document Number: 83622 For technical questions, contact: DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENTARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT optocoupler , High Gain Stability, Wide BandwidthDESCRIPTIONThe IL300 Linear optocoupler consists of an AlGaAs IRLED irradiating an isolated feedback and an output PIN photodiode in a bifurcated arrangement. The feedback photodiode captures a percentage of the LEDs flux and generates a control signal (IP1) that can be used to servo the LED drive current. This technique compensates for the LED s non- Linear , time, and temperature characteristics. The output PIN photodiode produces an output signal (IP2) that is linearly related to the servo optical flux created by the time and temperature stability of the input-output coupler gain (K3) is insured by using matched PIN photodiodes that accurately track the output flux of the Couples AC and DC signals % servo linearity Wide bandwidth, > 200 kHz High gain stability, %/ C typically Low input-output capacitance Low power consumption, < 15 mW Isolation rated voltage 4420 VRMS Internal insulation distance, > mm Material categorization.

2 For definitions of compliance please see Power supply feedback voltage / current Medical sensor isolation Audio signal interfacing Isolated process control transducers Digital telephone isolationAGENCY APPROVALS UL cUL DIN EN 60747-5-5 (VDE 0884-5) available with option 1 BSI FIMKO CQCNote(1)Also available in tubes, do not put T on the endACNCNCCAAC12348765K2K1i179026_2 VDEORDERING INFORMATIONI L300-DEFG-X0##TPART NUMBERK3 BINPACKAGE OPTIONTAPE ANDREELAGENCY CERTIFIED / PACKAGEK3 BINUL, cUL, BSI, to to to to to to to to IL300-DEFG--IL300-EF-IL300-EIL300-FDIP-8 , 400 mil, option 6IL300-X006IL300-DEFG-X006--IL300-EF-X00 6IL300-FG-X006 IL300-E-X006IL300-F-X006 SMD-8, option 7 IL300-X007T(1)IL300-DEFG-X007T(1)IL300-E FG-X007 IL300-DE-X007T IL300-EF-X007T(1)IL300-FG-X007T IL300-E-X007T IL300-F-X007T(1)SMD-8, option 9 IL300-X009T(1)IL300-DEFG-X009T(1)--IL300 -EF-X009T(1)--IL300-F-X009T(1)VDE, UL, BSI, to to to to to to to to , 400 mil, option 6IL300-X016IL300-DEFG-X016 IL300-EFG-X016-IL300-EF-X016--IL300-F-X0 16 SMD-8, option 7 IL300-X017 IL300-DEFG-X017T(1)--IL300-EF-X017T(1)-I L300-E-X017T IL300-F-X017T(1)SMD-8, option 9------IL300-E-X009T IL300-F-X019T(1)> mm> mmDIP-8 Option 7 Option 6 Option Semiconductors Rev.

3 , 05-Mar-182 Document Number: 83622 For technical questions, contact: DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENTARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT Stresses in excess of the absolute maximum ratings can cause permanent damage to the device. Functional operation of the device is not implied at these or any other conditions in excess of those given in the operational sections of this document. Exposure to absolute maximum ratings for extended periods of the time can adversely affect reliabilityABSOLUTE MAXIMUM RATINGS (Tamb = 25 C, unless otherwise specified)PARAMETERTEST CONDITIONSYMBOLVALUEUNITINPUTP ower dissipationPdiss160mWDerate linearly from 25 CForward currentIF60mASurge current (pulse width < 10 s)IPK250mAReverse voltageVR5 VThermal resistanceRth470K/WJunction temperatureTj100 COUTPUTP ower dissipationPdiss50mWDerate linearly from 25 CReverse voltageVR50 VThermal resistanceRth1500K/WJunction temperatureTj100 CCOUPLERT otal package dissipation at 25 CPtot210mWDerate linearly from 25 CStorage temperatureTstg-55 to +150 COperating temperatureTamb-55 to +100 CELECTRICAL CHARACTERISTICS (Tamb = 25 C, unless otherwise specified)PARAMETERTEST (LED EMITTER)

4 Forward voltageIF = 10 temperature coefficient VF/ CReverse currentVR = 5 VIR-1- AJunction capacitanceVF = 0 V, f = 1 MHzCj-15-pFDynamic resistanceIF = 10 mA VF/ IF-6- OUTPUTDark currentVdet = -15 V, IF = 0 AID-125nAOpen circuit voltageIF = 10 mAVD-500-mVShort circuit currentIF = 10 mAISC-120- AJunction capacitanceVF = 0 V, f = 1 MHzCj-12-pFNoise equivalent powerVdet = 15 VNEP-4 x 10-14-W/ HzCOUPLERI nput-output capacitanceVF = 0 V, f = 1 MHz-1-pFK1, servo gain (IP1/IF)IF = 10 mA, Vdet = -15 photocurrent (1)(2)IF = 10 mA, Vdet = -15 VIP1-120- AK2, forward gain (IP2/IF)IF = 10 mA, Vdet = -15 currentIF = 10 mA, Vdet = -15 VIP2-120- AK3, transfer gain (K2/K1) (1)(2)IF = 10 mA, Vdet = -15 gain stabilityIF = 10 mA, Vdet = -15 V K3/ TA- CTransfer gain linearityIF = 1 mA to 10 mA K3- = 1 mA to 10 mA, Tamb = 0 C to 75 C- Semiconductors Rev. , 05-Mar-183 Document Number: 83622 For technical questions, contact: DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE.

5 THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENTARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT Minimum and maximum values were tested requirements. Typical values are characteristics of the device and are the result of engineering evaluation. Typical values are for information only and are not part of the testing requirements(1)Bin sorting: K3 (transfer gain) is sorted into bins that are 6 %, as follows: Bin A = to Bin B = to Bin C = to Bin D = to Bin E = to Bin F = to Bin G = to Bin H = to Bin I = to Bin J = to K3 = K2/K1. K3 is tested at IF = 10 mA, Vdet = -15 V(2)Bin categories: All IL300s are sorted into a K3 bin, indicated by an alpha character that is marked on the part. The bins range from A through J . The IL300 is shipped in tubes of 50 each. Each tube contains only one category of K3. The category of the parts in the tube is marked on the tube label as well as on each individual part(3)Category options: standard IL300 orders will be shipped from the categories that are available at the time of the order.

6 Any of the ten categories may be shipped. For customers requiring a narrower selection of bins, the bins can be grouped together as follows: IL300-DEFG: order this part number to receive categories D, E, F, G only IL300-EF: order this part number to receive categories E, F only IL300-E: order this part number to receive category E onlyNote As per IEC 60747-5-5, , this optocoupler is suitable for safe electrical insulation only within the safety ratings. Compliance with the safety ratings shall be ensured by means of protective circuitsPHOTOCONDUCTIVE OPERATIONF requency responseIFq = 10 mA, MOD = 4 mA, RL = 50 BW (-3 db)-200-kHzPhase response at 200 kHzVdet = -15 CHARACTERISTICSPARAMETERTEST time IF = 2 mA, IFq = 10 mAtr-1- stf-1- sRise sFall sCOMMON MODE TRANSIENT IMMUNITYPARAMETERTEST mode capacitanceVF = 0 V, f = 1 pFCommon mode rejection ratiof = 60 Hz, RL = k CMRR-130-dBSAFETY AND INSULATION RATINGSPARAMETERTEST CONDITIONSYMBOLVALUEUNITC limatic classificationAccording to IEC 68 part 155 / 100 / 21 Comparative tracking indexCTI175 Maximum rated withstanding isolation voltaget = 1 minVISO4420 VRMSM aximum transient isolation voltageVIOTM10 000 VpeakMaximum repetitive peak isolation voltageVIORM890 VpeakIsolation resistanceVIO = 500 V, Tamb = 25 CRIO 1012 VIO = 500 V, Tamb = 100 CRIO 1011 Output safety powerPSO400mWInput safety currentISI275mASafety temperatureTS175 CCreepage distance 7mmClearance distance 7mmInsulation thicknessDTI CHARACTERISTICS (Tamb = 25 C, unless otherwise specified)PARAMETERTEST Semiconductors Rev.

7 , 05-Mar-184 Document Number: 83622 For technical questions, contact: DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENTARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT CHARACTERISTICS (Tamb = 25 C, unless otherwise specified)Fig. 1 - Forward Current vs. Forward VoltageFig. 2 - Servo Photocurrent vs. Forward CurrentFig. 3 - Normalized Photodiode Current vs. Forward CurrentFig. 4 - Servo Gain vs. Forward CurrentFig. 5 - Normalized Transfer Gain vs. Forward CurrentFig. 6 - Voltage Gain vs. Frequency(2 mA) Title1st line2nd line2nd lineIF- Forward Current (mA)VF- Forward Voltage (V)Tamb= 25 C101001000100000100200300400500051015202 5 Axis Title1st line2nd line2nd lineIP1- Servo Photocurrent ( A)IF- Forward Current (mA)Tamb= 25 CTamb= 0 CTamb= 85 CTamb= 100 CTamb=-55 C101001000100000123456780 1020304050 Axis Title1st line2nd line2nd lineNIP1- Normalized Photodiode CurrentIF- Forward Current (mA)Normalized to:IF= 10 mA,VD= -15 V,Tamb= 25 CTamb= 25 CTamb= 100 CTamb= 85 CTamb= -55 CTamb= 0 1020304050 Axis Title1st line2nd line2nd lineK1 - Servo Gain (IP1/IF)IF- Forward Current (mA)Tamb= 25 CTamb= 0 CTamb= 85 CTamb= 100 CTamb=-55 1020304050 Axis Title1st line2nd line2nd lineNK3 - Normalized Transfer Gain (K1/K2)IF- Forward Current (mA)Normalized to.

8 IF= 10 mA, Tamb= 25 CTamb= 100 CTamb= 25 CTamb= 0 CTamb= -55 CTamb= 85 Title1st line2nd line2nd lineVoltage Gain (dB)f - Frequency (kHz)IF= 10 mA,IF(MOD)= 2 mARL= 1 k RL= 10 k Semiconductors Rev. , 05-Mar-185 Document Number: 83622 For technical questions, contact: DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENTARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT 7 - Voltage Gain vs. FrequencyFig. 8 - Phase Angle vs. FrequencyFig. 9 - Common-Mode Rejection Ratio vs. FrequencyFig. 10 - Photodiode Junction Capacitance vs. Reverse Title1st line2nd line2nd lineVoltage Gain (dB)f - Frequency (kHz)IF= 10 mAIFmod= 4 mARL= 50 Title1st line2nd line2nd linePhase Angle ( )f - Frequency (kHz)IF= 10 mAIFmod= 4 mARL= 50 Title1st line2nd line2nd lineCommon Mode Rejection Ratio (dB)f - Frequency (kHz)10100100010000024681012140246810 Axis Title1st line2nd line2nd lineCj- Photodiode Junction Capacitance (pF)VR- Reverse Voltage (V)f = 1 Semiconductors Rev.

9 , 05-Mar-186 Document Number: 83622 For technical questions, contact: DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENTARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT DIMENSIONS (in millimeters)PACKAGE MARKING (example of IL300-E-X001)8 68 718450i178010 ISO method APin one ID3410 124 3 YWW 68 Legal Disclaimer Revision: 08-Feb-171 Document Number: 91000 Disclaimer ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE. vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, vishay ), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product.

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