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| PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series PR29MF1xNSZ Series PR39MF1xNSZ Series PR49MF11NSZ Series Zero cross type is also available. (PR29MF2xNSZ Series/ PR39MF2xNSZ Series) IT(rms)0.9A, Non-Zero Cross type DIP 8pin Triac output SSR Description PR29MF1xNSZ Series, PR39MF1xNSZ Series and PR49MF11NSZ Series Solid State Relays (SSR) are an integration of an infrared emitting diode (IRED), a Phototriac Detector and a main output Triac. These devices are ideally suited for controlling high voltage AC loads with solid state reliability while providing 4.0kV isolation (Viso(rms)) from input to output. Agency approvals/Compliance 1. Recognized by UL508 (except for PR49MF11NSZ Series), file No. E94758 (as model No. R29MF1/ R39MF1) 2. Approved by CSA 22.2 No.14 (except for PR49MF11NSZ Series), file No. LR63705 (as model No. R29MF1/R39MF1) 3. Optionary available VDE approved ()(DIN EN 60747-52), file No.40008898 (only for PR39MF1xNSZ Series as model No. R39MF1) 4. Package resin : UL flammability grade (94V-0) () Features 1. Output current, IT(rms)0.9A 2. Non-zero crossing functionary 3. 8 pin DIP package (SMT gullwing also available) 4. High repetitive peak off-state voltage (VDRM : 800V, PR49MF11NSZ Series) (VDRM : 600V, PR39MF1xNSZ Series) (VDRM : 400V, PR29MF1xNSZ Series) 5. I FT ranks available (see Model Line-up in this datasheet) 6. Superior noise immunity (dV/dt : MIN. 100V/s, PR29MF1xNSZ Series and PR39MF1xNSZ Series) (dV/dt : MIN. 50V/s, PR49MF11NSZ Series) 7. Response time, ton : MAX. 100s 8. Lead-free terminal components are also available (see Model Line-up section in this datasheet) 9. High isolation voltage between input and output (Viso(rms) : 4.0kV) DIN EN60747-5-2 : successor standard of DIN VDE0884. Up to Date code "RD" (December 2003), approval of DIN VDE0884. From Date code "S1" (January 2004), approval of DIN EN60747-5-2. Applications 1. Isolated interface between high voltage AC devices and lower voltage DC control circuitry. 2. Switching motors, fans, heaters, solenoids, and valves. 3. Phase or power control in applications such as lighting and temperature control equipment. Notice The content of data sheet is subject to change without prior 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. Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. 1 Sheet No.: D4-A00601EN Date Mar. 31. 2004 (c) SHARP Corporation PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Internal Connection Diagram 8 6 5 1 2 3 4 Cathode Anode Cathode Cathode 5 6 8 Gate Output (T1) Output (T2) 1 2 3 4 Outline Dimensions 1. Through-Hole [ex. PR29MF11NSZF] 1.20.3 SHARP mark "S" 8 6 (Unit : mm) 2. SMT Gullwing Lead-Form [ex. PR29MF11NIPF] 1.20.3 SHARP mark "S" 8 6 1.050.2 5 1.050.2 5 Model No. 6.50.5 Model No. R29MF1 CSA mark 1 2 3 4 Rank mark Date code (2 digit) Factory identification mark 9.660.5 0.5TYP. 3.50.5 7.620.3 6.50.5 Rank mark 4 R29MF1 CSA mark 1 2 3 Anode mark Anode mark 9.660.5 Date code (2 digit) Factory identification mark 0.350.25 1.0+0.4 -0 1.0+0.4 -0 0.350.25 7.620.3 0.260.1 3.50.5 3.250.5 Epoxy resin 0.260.1 :0 to 13 2.540.25 2.540.25 0.50.1 1.0+0.4 -0 Epoxy resin 10.0+0 -0.5 Product mass : approx. 0.56g 3. Through-Hole [ex. PR39MF11NSZF] 1.20.3 SHARP mark "S" 8 6 Product mass : approx. 0.54g 4. SMT Gullwing Lead-Form [ex. PR39MF11NIPF] 1.20.3 SHARP mark "S" 8 6 1.050.2 5 1.050.2 5 Model No. 6.50.5 Model No. R39MF1 CSA mark 1 2 3 4 Rank mark Date code (2 digit) Factory identification mark 9.660.5 0.5TYP. 3.50.5 7.620.3 6.50.5 Rank mark 4 R39MF1 CSA mark 1 2 3 Anode mark Anode mark 9.660.5 Date code (2 digit) Factory identification mark 7.620.3 0.260.1 3.50.5 3.250.5 Epoxy resin 0.260.1 :0 to 13 2.540.25 2.540.25 0.50.1 1.0+0.4 -0 Epoxy resin 10.0+0 -0.5 Product mass : approx. 0.56g Product mass : approx. 0.54g Sheet No.: D4-A00601EN 2 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Outline Dimensions 5. Through-Hole [ex. PR49MF11NSZF] 1.20.3 SHARP mark "S" 8 6 (Unit : mm) 6. SMT Gullwing Lead-Form [ex. PR49MF11NIPF] 1.20.3 SHARP mark "S" 8 6 1.050.2 5 1.050.2 5 Model No. 6.50.5 Model No. R49MF1 Rank mark 1 2 3 4 1 2 3 4 6.50.5 Rank mark R49MF1 Anode mark 9.660.5 Date code (2 digit) Factory identification mark 7.620.3 0.5TYP. 3.50.5 Anode mark 9.660.5 Date code (2 digit) Factory identification mark 0.350.25 1.0+0.4 -0 1.0+0.4 -0 0.350.25 7.620.3 0.260.1 3.50.5 3.250.5 Epoxy resin 0.260.1 :0 to 13 2.540.25 2.540.25 0.50.1 1.0+0.4 -0 Epoxy resin 10.0+0 -0.5 Product mass : approx. 0.56g Product mass : approx. 0.54g 8. SMT Gullwing Lead-Form VDE option [ex. PR39MF11YIPF] 1.20.3 SHARP mark "S" 8 6 7. Through-Hole VDE option [ex. PR39MF11YSZF] 1.20.3 SHARP mark "S" 8 6 1.050.2 5 1.050.2 5 Model No. 6.50.5 Model No. 4 CSA mark 1 2 3 4 R39MF1 4 Rank mark CSA mark VDE identification mark 1 2 3 4 6.50.5 Rank mark VDE identification mark R39MF1 Anode mark 9.660.5 Date code (2 digit) Factory identification mark 7.620.3 0.5TYP. 3.50.5 Anode mark 9.660.5 Date code (2 digit) Factory identification mark 7.620.3 0.260.1 3.50.5 3.250.5 Epoxy resin 0.260.1 :0 to 13 2.540.25 2.540.25 0.50.1 1.0+0.4 -0 Epoxy resin 10.0+0 -0.5 Product mass : approx. 0.56g Product mass : approx. 0.54g Sheet No.: D4-A00601EN 3 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Date code (2 digit) 1st digit Year of production A.D Mark 2002 A 2003 B 2004 C 2005 D 2006 E 2007 F 2008 H 2009 J 2010 K 2011 L 2012 M * * N * 2nd digit Month of production Month Mark January 1 February 2 March 3 April 4 May 5 June 6 July 7 August 8 September 9 October O November N December D A.D. 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 Mark P R S T U V W X A B C * * * repeats in a 20 year cycle Factory identification mark Factory identification Mark no mark Japan * This factory marking is for identification purpose only. Please contact the local SHARP sales representative to see the actural status of the production. Country of origin Rank mark Please refer to the Model Line-up table. Sheet No.: D4-A00601EN 4 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Absolute Maximum Ratings (Ta=25C) Parameter Symbol Rating Unit *3 Forward current IF 50 mA Input Reverse voltage VR 6 V RMS ON-state current IT(rms) 0.9 *3 A *4 Peak one cycle surge current Isurge 9 A Output Repetitive PR29MF1xNSZ 400 peak OFF-state PR39MF1xNSZ VDRM 600 V voltage PR49MF11NSZ 800 *1 Isolation voltage 4.0 Viso(rms) kV Operating temperature -25 to +85 Topr C Storage temperature Tstg -40 to +125 C *5 *2 Soldering temperature Tsol 270 C *1 40 to 60%RH, AC for 1minute, f=60Hz *2 For 10s *3 Refer to Fig.1, Fig.2 *4 f=50Hz sine wave *5 Lead solder plating models : 260C Soldering area Electro-optical Characteristics Parameter Forward voltage Input Reverse current Repetitive peak OFF-state current ON-state voltage PR29MF1xNSZ Holding current PR39MF1xNSZ Output PR49MF11NSZ PR29MF1xNSZ Critical rate of rise of PR39MF1xNSZ OFF-state voltage PR49MF11NSZ Rank 1 Minimum trigger current Rank 2 Transfer charac- Isolation resistance teristics Rank 1 Turn-on time Rank 2 Symbol VF IR IDRM VT IH Conditions IF=20mA VR=3V VD=VDRM IT=0.9A VD=6V MIN. - - - - - - - 100 50 - - 5x1010 - TYP. 1.2 - - - - - - - - - - - 1011 - 1mm (Ta=25C) MAX. 1.4 10 100 3.0 25 50 - - - 10 5 - 100 Unit V A A V mA dV/dt - VD=1/2 *VDRM V/s IFT RISO ton VD=6V, RL=100 DC500V,40 to 60%RH IF=20mA, VD=6V, RL=100 IF=10mA, VD=6V, RL=100 mA s Sheet No.: D4-A00601EN 5 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Model Line-up (1) (Lead-free terminal components) Lead Form Shipping Package DIN EN60747-5-2 Through-Hole Sleeve 50pcs/sleeve Approved SMT Gullwing Taping 1 000pcs/reel Approved 800 600 400 1 1 2 1 2 MAX.10 MAX.10 MAX.5 MAX.10 MAX.5 VDRM [V] IFT[mA] (VD=6V, RL=100) Rank mark Model No. PR49MF11NSZF PR49MF11NIPF PR39MF11NSZF PR39MF11YSZF PR39MF11NIPF PR39MF11YIPF PR39MF12NSZF PR39MF12YSZF PR39MF12NIPF PR39MF12YIPF PR29MF11NSZF PR29MF11NIPF PR29MF12NSZF PR29MF12NIPF - Model Line-up (2) (Lead solder plating components) Lead Form Shipping Package DIN EN60747-5-2 Through-Hole Sleeve 50pcs/sleeve Approved SMT Gullwing Taping 1 000pcs/reel Approved 800 600 400 1 1 2 1 2 MAX.10 MAX.10 MAX.5 MAX.10 MAX.5 VDRM [V] IFT[mA] (VD=6V, RL=100) Rank mark Model No. PR49MF11NSZ PR39MF11NSZ PR39MF11YSZ PR39MF12NSZ PR39MF12YSZ PR29MF11NSZ PR29MF12NSZ - Please contact a local SHARP sales representative to see the actual status of the production. Sheet No.: D4-A00601EN 6 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Fig.1 Forward Current vs. Ambient Temperature 70 60 Forward current IF (mA) 50 40 30 20 10 0 -25 Fig.2 RMS ON-state Current vs. Ambient Temperature 1 RMS ON-state current IT (rms) (A) 0.8 PR29MF1xNSZ/ PR39MF1xNSZ PR49MF11NSZ 0.4 0.6 0.2 0 50 Ambient temperature Ta (C) 100 0 -30 0 50 100 Ambient temperature Ta (C) Fig.3-a Forward Current vs. Forward Voltage (Rank 1) 25C 100 Ta=75C Forward current IF (mA) 0C Fig.3-b Forward Current vs. Forward Voltage (Rank 2) 100 Ta=75C Forward current IF (mA) 50 50C 25C 10 5 -25C 50 -25C 50C 0C 10 5 1 0 0.5 1 1.5 2 2.5 3 Forward voltage VF (V) 1 0.9 1 1.1 1.2 1.3 1.4 1.5 Forward voltage VF (V) Fig.4-a Minimum Trigger Current vs. Ambient Temperature (Rank 1) 12 PR29MF11NSZ Minimum trigger current IFT (mA) 10 PR39MF11NSZ 8 6 PR49MF11NSZ 4 2 0 -40 VD=6V RL=100 Fig.4-b Minimum Trigger Current vs. Ambient Temperature (Rank 2) 6 VD=6V RL=100 Minimum trigger current IFT (mA) 5 4 3 2 1 0 -30 -20 0 20 40 60 80 100 0 50 100 Ambient temperature Ta (C) Ambient temperature Ta (C) Sheet No.: D4-A00601EN 7 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Fig.5 ON-state Voltage vs. Ambient Temperature 1.4 IT=0.9A 1.3 ON-state voltage VT (V) 1.2 1.1 1 0.9 0.8 -30 PR29MF1xNSZ/ PR39MF1xNSZ Relative holding current IH (tC) / IH (25C)x100% Fig.6 Relative Holding Current vs. Ambient Temperature 1000 VD=6V 100 PR49MF11NSZ 0 20 40 60 80 100 10 -30 0 20 40 60 80 100 Ambient temperature Ta (C) Ambient temperature Ta (C) Fig.7 ON-state Current vs. ON-state Voltage 1.8 IF=20mA Ta=25C 1.5 Fig.8-a Turn-on Time vs. Forward Current (Rank 1) 1 000 VD=6V RL=100 Ta=25C PR49MF11NSZ ON-state current IT (A) Turn-on time tON (s) 1.2 0.9 0.6 0.3 PR49MF11NSZ 0 0 0.5 1 1.5 ON-state voltage VT (V) PR29MF1xNSZ/ PR39MF1xNSZ 100 PR39MF11NSZ 10 PR29MF11NSZ 1 10 20 30 40 50 100 Forward current IF (mA) Fig.8-b Turn-on Time vs. Forward Current (Rank 2) 1 000 VD=6V RL=100 Ta=25C Turn-on time tON (s) 100 10 1 1 10 Forward current IF (mA) 100 Remarks : Please be aware that all data in the graph are just for reference. Sheet No.: D4-A00601EN 8 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Design Considerations Recommended Operating Conditions MIN. MAX. Conditions Parameter Symbol Input signal current 20 25 Rank 1 IF(ON) - at ON state 10 15 Input Rank 2 Input signal current at OFF state IF(OFF) 0 0.1 - PR29MF1xNSZ 120 Load supply PR39MF1xNSZ VOUT(rms) - 240 - voltage 300 PR49MF11NSZ Output PR29MF1xNSZ Locate snubber circuit between output terminals - Load supply current PR39MF1xNSZ IOUT(rms) IT(rms)x80%() (Cs=0.022F, Rs=47) 100 PR49MF11NSZ Frequency f - 60 50 Operating temperature Topr - 80 -20 () See Fig.2 about derating curve (IT(rms) vs. ambient temperature). Unit mA mA V mA Hz C Design guide In order for the SSR to turn off, the triggering current (IF) must be 0.1mA or less. In phase control applications or where the SSR is being by a pulse signal, please ensure that the pulse width is a minimum of 1ms. When the input current (IF) is below 0.1mA, the output Triac will be in the open circuit mode. However, if the voltage across the Triac, VD, increases faster than rated dV/dt, the Triac may turn on. To avoid this situation, please incorporate a snubber circuit. Due to the many different types of load that can be driven, we can merely recommend some circuit values to start with : Cs=0.022F and Rs=47. The operation of the SSR and snubber circuit should be tested and if unintentional switching occurs, please adjust the snubber circuit component values accordingly. When making the transition from On to Off state, a snubber circuit should be used ensure that sudden drops in current are not accompanied by large instantaneous changes in voltage across the Triac. This fast change in voltage is brought about by the phase difference between current and voltage. Primarily, this is experienced in driving loads which are inductive such as motors and solenods. Following the procedure outlined above should provide sufficient results. Any snubber or Varistor used for the above mentioned scenarios should be located as close to the main output triac as possible. All pins shall be used by soldering on the board. (Socket and others shall not be used.) Degradation In general, the emission of the IRED used in SSR will degrade over time. In the case where long term operation and / or constant extreme temperature fluctuations will be applied to the devices, please allow for a worst case scenario of 50% degradation over 5years. Therefore in order to maintain proper operation, a design implementing these SSRs should provide at least twice the minimum required triggering current from initial operation. Sheet No.: D4-A00601EN 9 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Recommended Foot Print (reference) SMT Gullwing Lead-form 8.2 2.54 2.54 2.54 2.2 1.7 (Unit : mm) Standard Circuit R1 +VCC D1 V1 Tr1 ZS : Surge absorption circuit (Snubber circuit) 3 2 8 Load ZS SSR 6 AC Line For additional design assistance, please review our corresponding Optoelectronic Application Notes. Sheet No.: D4-A00601EN 10 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Manufacturing Guidelines Soldering Method Reflow Soldering: Reflow soldering should follow the temperature profile shown below. Soldering should not exceed the curve of temperature profile and time. Please don't solder more than twice. (C) 300 Terminal : 260C peak ( package surface : 250C peak) 200 Reflow 220C or more, 60s or less 100 Preheat 150 to 180C, 120s or less 0 0 1 2 3 4 (min) Flow Soldering : Flow soldering should be completed below 270C and within 10s. Preheating is within the bounds of 100 to 150C and 30 to 80s. Please don't solder more than twice. Hand soldering Hand soldering should be completed within 3s when the point of solder iron is below 400C. Please don't solder more than twice. Other notices Please test the soldering method in actual condition and make sure the soldering works fine, since the impact on the junction between the device and PCB varies depending on the tooling and soldering conditions. Sheet No.: D4-A00601EN 11 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Cleaning instructions Solvent cleaning : Solvent temperature should be 45C or below. Immersion time should be 3minutes or less. Ultrasonic cleaning : The impact on the device varies depending on the size of the cleaning bath, ultrasonic output, cleaning time, size of PCB and mounting method of the device. Therefore, please make sure the device withstands the ultrasonic cleaning in actual conditions in advance of mass production. Recommended solvent materials : Ethyl alcohol, Methyl alcohol and Isopropyl alcohol. In case the other type of solvent materials are intended to be used, please make sure they work fine in actual using conditions since some materials may erode the packaging resin. Presence of ODC This product shall not contain the following materials. And they are not used in the production process for this device. Regulation substances : CFCs, Halon, Carbon tetrachloride, 1.1.1-Trichloroethane (Methylchloroform) Specific brominated flame retardants such as the PBBOs and PBBs are not used in this product at all. Sheet No.: D4-A00601EN 12 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Package specification Sleeve package Through-Hole Package materials Sleeve : HIPS (with anti-static material) Stopper : Styrene-Elastomer Package method MAX. 50pcs of products shall be packaged in a sleeve. Both ends shall be closed by tabbed and tabless stoppers. The product shall be arranged in the sleeve with its anode mark on the tabless stopper side. MAX. 20 sleeves in one case. Sleeve outline dimensions 12.0 520 2 6.7 5.8 10.8 (Unit : mm) Sheet No.: D4-A00601EN 13 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Tape and Reel package SMT Gullwing Package materials Carrier tape : A-PET (with anti-static material) Cover tape : PET (three layer system) Reel : PS Carrier tape structure and Dimensions F E D G C I J B H A H Dimensions List A B 16.00.3 7.50.1 H I 10.40.1 0.40.05 C 1.750.1 J 4.20.1 D 12.00.1 K 10.20.1 E 2.00.1 (Unit : mm) F G +0.1 4.00.1 1.5-0 Reel structure and Dimensions e g c d f a b Dimensions List a b 330 17.51.5 e f 231.0 2.00.5 5 K MA X. (Unit : mm) c d 1.0 100 130.5 g 2.00.5 Direction of product insertion Pull-out direction [Packing : 1 000pcs/reel] Sheet No.: D4-A00601EN 14 PR29MF1xNSZ Series/PR39MF1xNSZ Series/PR49MF11NSZ Series Important Notices * The circuit application examples in this publication are provided to explain representative applications of SHARP devices and are not intended to guarantee any circuit design or license any intellectual property rights. SHARP takes no responsibility for any problems related to any intellectual property right of a third party resulting from the use of SHARP's devices. * Contact SHARP in order to obtain the latest device specification sheets before using any SHARP device. SHARP reserves the right to make changes in the specifications, characteristics, data, materials, structure, and other contents described herein at any time without notice in order to improve design or reliability. Manufacturing locations are also subject to change without notice. * Observe the following points when using any devices in this publication. SHARP takes no responsibility for damage caused by improper use of the devices which does not meet the conditions and absolute maximum ratings to be used specified in the relevant specification sheet nor meet the following conditions: (i) The devices in this publication are designed for use in general electronic equipment designs such as: --- Personal computers --- Office automation equipment --- Telecommunication equipment [terminal] --- Test and measurement equipment --- Industrial control --- Audio visual equipment --- Consumer electronics (ii) Measures such as fail-safe function and redundant design should be taken to ensure reliability and safety when SHARP devices are used for or in connection with equipment that requires higher reliability such as: --- Transportation control and safety equipment (i.e., aircraft, trains, automobiles, etc.) --- Traffic signals --- Gas leakage sensor breakers --- Alarm equipment --- Various safety devices, etc. (iii) SHARP devices shall not be used for or in connection with equipment that requires an extremely high level of reliability and safety such as: --- Space applications --- Telecommunication equipment [trunk lines] --- Nuclear power control equipment --- Medical and other life support equipment (e.g., scuba). * If the SHARP devices listed in this publication fall within the scope of strategic products described in the Foreign Exchange and Foreign Trade Law of Japan, it is necessary to obtain approval to export such SHARP devices. * This publication is the proprietary product of SHARP and is copyrighted, with all rights reserved. Under the copyright laws, no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, in whole or in part, without the express written permission of SHARP. Express written permission is also required before any use of this publication may be made by a third party. * Contact and consult with a SHARP representative if there are any questions about the contents of this publication. Sheet No.: D4-A00601EN 15 |
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