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Part Number MOC3163SR2M
Manufacturer Fairchild/ON Semiconductor
Datasheet MOC3163SR2M Datasheet
Package 6-SMD, Gull Wing
In Stock 6,036 piece(s)
Unit Price $ 0.6958 *
Lead Time Can Ship Immediately
Estimated Delivery Time Aug 6 - Aug 11 (Choose Expedited Shipping)
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Part Number # MOC3163SR2M (Optoisolators - Triac, SCR Output) is manufactured by Fairchild/ON Semiconductor and distributed by Heisener. Being one of the leading electronics distributors, we carry many kinds of electronic components from some of the world’s top class manufacturers. Their quality is guaranteed by its stringent quality control to meet all required standards.

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MOC3163SR2M Specifications

ManufacturerFairchild/ON Semiconductor
CategoryIsolators - Optoisolators - Triac, SCR Output
Datasheet MOC3163SR2MDatasheet
Package6-SMD, Gull Wing
Output TypeTriac
Zero Crossing CircuitYes
Number of Channels1
Voltage - Isolation4170Vrms
Voltage - Off State600V
Static dV/dt (Min)1kV/µs
Current - LED Trigger (Ift) (Max)5mA
Current - On State (It (RMS)) (Max)-
Current - Hold (Ih)500µA (Typ)
Turn On Time-
Voltage - Forward (Vf) (Typ)1.3V
Current - DC Forward (If) (Max)60mA
Operating Temperature-40°C ~ 85°C
Mounting TypeSurface Mount
Package / Case6-SMD, Gull Wing
Supplier Device Package6-SMD

MOC3163SR2M Datasheet

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To learn more about ON Semiconductor, please visit our website at Please note: As part of the Fairchild Semiconductor integration, some of the Fairchild orderable part numbers will need to change in order to meet ON Semiconductor’s system requirements. Since the ON Semiconductor product management systems do not have the ability to manage part nomenclature that utilizes an underscore (_), the underscore (_) in the Fairchild part numbers will be changed to a dash (-). This document may contain device numbers with an underscore (_). Please check the ON Semiconductor website to verify the updated device numbers. The most current and up-to-date ordering information can be found at Please email any questions regarding the system integration to Is Now Part of ON Semiconductor and the ON Semiconductor logo are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries. ON Semiconductor owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of ON Semiconductor’s product/patent coverage may be accessed at ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages. Buyer is responsible for its products and applications using ON Semiconductor products, including compliance with all laws, regulations and safety requirements or standards, regardless of any support or applications information provided by ON Semiconductor. “Typical” parameters which may be provided in ON Semiconductor data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. ON Semiconductor does not convey any license under its patent rights nor the rights of others. ON Semiconductor products are not designed, intended, or authorized for use as a critical component in life support systems or any FDA Class 3 medical devices or medical devices with a same or similar classification in a foreign jurisdiction or any devices intended for implantation in the human body. Should Buyer purchase or use ON Semiconductor products for any such unintended or unauthorized application, Buyer shall indemnify and hold ON Semiconductor and its officers, employees, subsidiaries, affiliates, and distributors harmless against all claims, costs, damages, and expenses, and reasonable attorney fees arising out of, directly or indirectly, any claim of personal injury or death associated with such unintended or unauthorized use, even if such claim alleges that ON Semiconductor was negligent regarding the design or manufacture of the part. ON Semiconductor is an Equal Opportunity/Affirmative Action Employer. This literature is subject to all applicable copyright laws and is not for resale in any manner.

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M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) ©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 September 2015 MOC3061M, MOC3062M, MOC3063M, MOC3162M, MOC3163M 6-Pin DIP Zero-Cross Triac Driver Optocoupler (600 Volt Peak) Features • Simplifies Logic Control of 115/240 VAC Power • Zero Voltage Crossing to Minimize Conducted and Radiated Line Noise • 600 V Peak Blocking Voltage • Superior Static dv/dt – 600 V/μs (MOC306xM) – 1000 V/μs (MOC316xM) • Safety and Regulatory Approvals – UL1577, 4,170 VACRMS for 1 Minute – DIN EN/IEC60747-5-5 Applications • Solenoid/Valve Controls • Static Power Switches • Temperature Controls • AC Motor Starters • Lighting Controls • AC Motor Drives • E.M. Contactors • Solid State Relays Description The MOC306XM and MOC316XM devices consist of a GaAs infrared emitting diode optically coupled to a monolithic silicon detector performing the function of a zero voltage crossing bilateral triac driver. They are designed for use with a triac in the interface of logic systems to equipment powered from 115/240 VAC lines, such as solid-state relays, industrial controls, motors, solenoids and consumer appliances, etc. Schematic Package Outlines MAIN TERM. NC* N/C *DO NOT CONNECT (TRIAC SUBSTRATE) 1 2 3 ANODE CATHODE 4 5 6 MAIN TERM. ZERO CROSSING CIRCUIT Figure 1. Schematic Figure 2. Package Outlines

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 2 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) Safety and Insulation Ratings As per DIN EN/IEC 60747-5-5, this optocoupler is suitable for “safe electrical insulation” only within the safety limit data. Compliance with the safety ratings shall be ensured by means of protective circuits. Parameter Characteristics Installation Classifications per DIN VDE 0110/1.89 Table 1, For Rated Mains Voltage < 150 VRMS I–IV < 300 VRMS I–IV Climatic Classification 40/85/21 Pollution Degree (DIN VDE 0110/1.89) 2 Comparative Tracking Index 175 Symbol Parameter Value Unit VPR Input-to-Output Test Voltage, Method A, VIORM x 1.6 = VPR, Type and Sample Test with tm = 10 s, Partial Discharge < 5 pC 1360 Vpeak Input-to-Output Test Voltage, Method B, VIORM x 1.875 = VPR, 100% Production Test with tm = 1 s, Partial Discharge < 5 pC 1594 Vpeak VIORM Maximum Working Insulation Voltage 850 Vpeak VIOTM Highest Allowable Over-Voltage 6000 Vpeak External Creepage ≥ 7 mm External Clearance ≥ 7 mm External Clearance (for Option TV, 0.4" Lead Spacing) ≥ 10 mm DTI Distance Through Insulation (Insulation Thickness) ≥ 0.5 mm RIO Insulation Resistance at TS, VIO = 500 V > 10 9 Ω

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 3 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) Absolute Maximum Ratings Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be operable above the recommended operating conditions and stressing the parts to these levels is not recommended. In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability. The absolute maximum ratings are stress ratings only. TA = 25°C unless otherwise specified. Symbol Parameters Device Value Unit TOTAL DEVICE TSTG Storage Temperature All -40 to +150 °C TOPR Operating Temperature All -40 to +85 °C TJ Junction Temperature Range All -40 to +100 °C TSOL Lead Solder Temperature All 260 for 10 seconds °C PD Total Device Power Dissipation at 25°C Ambient All 250 mW Derate Above 25°C 2.94 mW/°C EMITTER IF Continuous Forward Current All 60 mA VR Reverse Voltage All 6 V PD Total Power Dissipation at 25°C Ambient All 120 mW Derate Above 25°C 1.41 mW/°C DETECTOR VDRM Off-State Output Terminal Voltage All 600 V ITSM Peak Non-Repetitive Surge Current (Single Cycle 60 Hz Sine Wave) All 1 A PD Total Power Dissipation at 25°C Ambient All 150 mW Derate Above 25°C 1.76 mW/°C

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 4 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) Electrical Characteristics TA = 25°C unless otherwise specified. Individual Component Characteristics Transfer Characteristics Zero Crossing Characteristics Isolation Characteristics Notes: 1. Test voltage must be applied within dv/dt rating. 2. This is static dv/dt. See Figure 11 for test circuit. Commutating dv/dt is a function of the load-driving thyristor(s) only. 3. All devices are guaranteed to trigger at an IF value less than or equal to max IFT. Therefore, recommended operating IF lies between max IFT (15 mA for MOC3061M, 10 mA for MOC3062M and MOC3162M, 5 mA for MOC3063M and MOC3163M) and absolute maximum IF (60 mA). 4. Isolation voltage, VISO, is an internal device dielectric breakdown rating. For this test, pins 1 and 2 are common, and pins 4, 5 and 6 are common. Symbol Parameters Test Conditions Device Min. Typ. Max. Unit EMITTER VF Input Forward Voltage IF = 30 mA All 1.3 1.5 V IR Reverse Leakage Current VR = 6 V All 0.005 100 μA DETECTOR IDRM1 Peak Blocking Current, Either Direction VDRM = 600 V, IF = 0 (1) MOC306XM 10 500 nA MOC316XM 10 100 dv/dt Critical Rate of Rise of Off-State Voltage IF = 0 (Figure 11) (2) MOC306XM 600 1500 V/μs MOC316XM 1000 Symbol DC Characteristics Test Conditions Device Min. Typ. Max. Unit IFT LED Trigger Current (Rated IFT) Main Terminal Voltage = 3 V(3) MOC3061M 15 mA MOC3062M MOC3162M 10 MOC3063M MOC3163M 5 VTM Peak On-State Voltage, Either Direction ITM = 100 mA peak, IF = rated IFT All 1.8 3.0 V IH Holding Current, Either Direction All 500 μA Symbol Characteristics Test Conditions Device Min. Typ. Max. Unit VINH Inhibit Voltage (MT1-MT2 voltage above which device will not trigger) IF = rated IFT MOC3061M MOC3062M MOC3063M 12 20 V MOC3162M MOC3163M 12 15 IDRM2 Leakage in Inhibited State IF = rated IFT, DRM = 600 V, off-state All 2 mA Symbol Parameter Test Conditions Min. Typ. Max. Unit VISO Isolation Voltage (4) f = 60 Hz, t = 1 Minute 4170 VACRMS RISO Isolation Resistance VI-O = 500 VDC 10 11 Ω CISO Isolation Capacitance V = 0 V, f = 1 MHz 0.2 pF

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 5 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) Typical Performance Curves Figure 3. LED Forward Voltage vs. Forward Current Figure 5. LED Current Required to Trigger vs. LED Pulse Width Figure 6. Leakage Current, IDRM vs. Temperature Figure 4. Trigger Current Vs. Temperature IF, LED FORWARD CURRENT (mA) 0.1 1 10 100 V F , F O R W A R D V O L T A G E ( V ) 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 TA, AMBIENT TEMPERATURE (°C) -40 -20 0 20 40 60 80 100 TA, AMBIENT TEMPERATURE (°C) -40 -20 0 20 40 60 80 100 I F T , N O R M A L IZ E D I D R M , L E A K A G E C U R R E N T ( n A ) 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 PWIN, LED TRIGGER PULSE WIDTH (μs) 101 100 I F T , L E D T R IG G E R C U R R E N T ( N O R M A L IZ E D ) 0 2 4 6 8 10 12 14 16 0.1 1 10 100 1000 10000 TA = -40°C VTM = 3V NORMALIZED TO TA = 25°C TA = 25°C NORMALIZED TO PWIN >> 100μs TA = 25°C TA = 85°C

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 6 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) Typical Performance Curves (Continued) Figure 7. IDRM2, Leakage in Inhibit State vs. Temperature Figure 9. IH, Holding Current vs. Temperature Figure 10. Inhibit Voltage vs. Temperature Figure 8. On-State Characteristics VTM, ON-STATE VOLTAGE (VOLTS) TA, AMBIENT TEMPERATURE (°C) -40 -20 0 20 40 60 80 100 TA, AMBIENT TEMPERATURE (°C) -40 -20 0 20 40 60 80 100 TA, AMBIENT TEMPERATURE (°C) -40 -20 0 20 40 60 80 100 I D R M 2 , N O R M A L IZ E D V IN H , N O R M A L IZ E D I H , H O L D IN G C U R R E N T ( N O R M A L IZ E D ) 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 IF = RATED IFT NORMALIZED TO TA = 25°C -4 -3 -2 -1 0 1 2 3 4 I T M , O N -S T A T E C U R R E N T ( m A ) TA = 25°C -800 -600 -400 -200 0 200 400 600 800 0.0 0.4 0.8 1.2 1.6 2.0 2.4 2.8 3.2 0.80 0.85 0.90 0.95 1.00 1.05 1.10 1.15 1.20 NORMALIZED TO TA = 25°C

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 7 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) 1. 100x scope probes are used, to allow high speeds and voltages. 2. The worst-case condition for static dv/dt is established by triggering the D.U.T. with a normal LED input current, then removing the current. The variable vernier resistor combined with various capacitor combinations allows the dv/dt to be gradually increased until the D.U.T. continues to trigger in response to the applied voltage pulse, even after the LED current has been removed. The dv/dt is then decreased until the D.U.T. stops triggering. tRC is measured at this point and recorded. 27 2W 2W 100 2W dV dt VERNIER MOUNT DUT ON TEMPERATURE CONTROLLED Cμ PLATE DIFFERENTIAL PREAMP f = 10 Hz PW = 100 μs 50 Ω PULSE GENERATOR ALL COMPONENTS ARE NON-INDUCTIVE UNLESS SHOWN 82 2W 470pF 0.001 0.005 0.01 0.047 0.47 0.1 56 2W 1N914 20V 1000 1/4W 1N967A 18V RFP4N100 DUT 20k X100 PROBE X100 PROBE VDRM/VRRM SELECT 6 4 1 2 1000 10 WATT WIREWOUND 0.33 1000V POWER 1 M 2W EACH 1.2 M 2W TEST 0-1000V 10mA 0.047 1000V Figure 11. Circuit for Static dV Measurement of Power Thyristors μF Ω Ω Ω Ω Ω ΩΩ Ω Ω μF μF μF μF μF μF μF dVt Basic Applications Typical circuit for use when hot line switching is required. In this circuit the “hot” side of the line is switched and the load connected to the cold or neutral side. The load may be connected to either the neutral or hot line. Rin is calculated so that IF is equal to the rated IFT of the part, 15mA for the MOC3061M, 10mA for the MOC3062M, or 5mA for the MOC3063M. The 39Ω resistor and 0.01μF capacitor are for snubbing of the triac and is often, but not always, necessary depending upon the particular triac and load used. Suggested method of firing two, back-to-back SCR’s with a Fairchild triac driver. Diodes can be 1N4001; resistors, R1 and R2, are optional 330Ω. Note: This optoisolator should not be used to drive a load directly. It is intended to be a trigger device only. Figure 12. Hot-Line Switching Application Circuit VCC Rin 1 2 3 6 5 4 240 VAC HOT NEUTRAL 360Ω 360Ω MOC3061M MOC3062M MOC3063M 39Ω 0.01μF FKPF12N60 LOAD Figure 13. Inverse-Parallel SCR Driver Circuit VCC Rin 1 2 3 6 5 4 115 VAC SCR 360Ω R1 D1 SCR R2 D2 LOAD MOC3061M MOC3062M MOC3063M

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©2005 Fairchild Semiconductor Corporation MOC306XM, MOC316XM Rev. 1.5 8 M O C 306X M , M O C 316X M — 6-P in D IP Z ero -C ro ss Triac D river O p to co u p ler (600 V o lt P eak) Reflow Profile Figure 14. Reflow Profile Profile Freature Pb-Free Assembly Profile Temperature Minimum (Tsmin) 150°C Temperature Maximum (Tsmax) 200°C Time (tS) from (Tsmin to Tsmax) 60 seconds to 120 seconds Ramp-up Rate (TL to TP) 3°C/second maximum Liquidous Temperature (TL) 217°C Time (tL) Maintained Above (TL) 60 seconds to 150 seconds Peak Body Package Temperature 260°C +0°C / –5°C Time (tP) within 5°C of 260°C 30 seconds Ramp-down Rate (TP to TL) 6°C/second maximum Time 25°C to Peak Temperature 8 minutes maximum Time (seconds) T e m p e ra tu re ( °C ) Time 25°C to Peak 260 240 220 200 180 160 140 120 100 80 60 40 20 0 TL ts tL tP TP Tsmax Tsmin 120 Preheat Area Max. Ramp-up Rate = 3°C/S Max. Ramp-down Rate = 6°C/S 240 360

MOC3163SR2M Reviews

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July 17, 2020

Not messy and easy to handle. I've used these professionally and for my self, and they never failed me.


July 13, 2020

The products are good, the amount is correct. The values are correct.


July 13, 2020

Heisener has a fantastic Web site shopping system! Best purchasing interface of the bundle.


July 8, 2020

I always have good experiences in dealing with Heisener Electronics. They have the components I need in stock, their search function is great, and shipping is fast and always as promised.


July 8, 2020

Very fast reply, professional seller and received the correct parts.


July 6, 2020

I was able to make my list of needed parts and use suggested products. The big plus is the fact they show inventory quantity.


July 3, 2020

Pleased with this purchase, good, quick service and item exactly as shown.

Leon***** Mani

June 23, 2020

Purchased this in May and didn't use it until last week. worked and all was good.


June 7, 2020

EXACTLY what I was looking for -- one piece with a low forward voltage drop to isolate some DC power sources. They work fantastic!

Flet***** Dayal

June 7, 2020

These very economical items will repair my expensive contactors with just a quick connection.

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