Automation Controls Catalog For FPC/FFC* FPC connectors (0.5mm pitch) Back lock Y5B/Y5BW Series FEATURES 1. Low profile, space saving back lock type with improved lever operability 2. Mechanical design freedom achieved by top and bottom double contacts 3. Wide selection, including a type with a small number of pins Low profile and space saving design of 1.0 mm high and 3.20 mm deep (3.70 mm with lever) Y5B and Y5BW can have a minimum of four and two contacts respectively, maximum reduction in design packaging. Y5B/Y5BW RoHS compliant The FPC holding contacts located on both ends of the connector facilitate positioning of FPC and further enhance the FPC holding force. Structure to lock notches on both ends of the FPC with holding contacts Applicable FPC shape With notches 1.00 Unit: mm 0 3.2 4 pin contacts (Y5B: minimum) (1) The inserted FPC can be temporarily held until the lever is closed. (2) When the lever is closed, the holding contacts lock the FPC by its notches, enhancing the FPC holding force. * (Y5BW is compatible with FPC only.) 4. Wiring patterns can be placed underneath the connector. 5. Man-hours for assembly can be reduced by delivering the connectors with their levers opened. 6. Y5BW features lock holding type, including a structure to temporarily hold the FPC and a higher holding force. APPLICATIONS A wide range of digital equipment, including mobile phones, smartphones, PCs, digital still camera, and digital video camera. Ideal for touch panels and LCD backlights, which require connectors with a small number of pins. ORDERING INFORMATION Y5B AYF 5 3 3 5 6 5 53: FPC Connector 0.5 mm pitch (Back lock) Number of pins (2 digits) Function 3: Top and bottom double contacts Surface treatment (Contact portion / Terminal portion) 5: Au plating/Au plating (Ni barrier) Y5BW AYF 5 3 T 53: FPC Connector 0.5 mm pitch (Back lock) Number of pins (2 digits) Function 6: Top and bottom double contacts, lock holding type Surface treatment (Contact portion / Terminal portion) 5: Au plating/Au plating (Ni barrier) T: Suction area expansion type 2013.10 industrial.panasonic.com/ac/e/ -1- (c) Panasonic Corporation 2013 ACCTB1E 201310-T FPC connectors Y5B/Y5BW (0.5mm pitch) Back lock PRODUCT TYPES Y5B Height Number of pins 4 5 6 8 10 12 14 16 24 28 30 32 34 40 42 50 1.0 mm Y5BW Part number AYF530435 AYF530535 AYF530635 AYF530835 AYF531035 AYF531235 AYF531435 AYF531635 AYF532435 AYF532835 AYF533035 AYF533235 AYF533435 AYF534035 AYF534235 AYF535035 Number of pins 2 3 4 6 8 10 12 14 22 26 28 30 32 38 40 48 Part number AYF530265T AYF530365T AYF530465T AYF530665T AYF530865T AYF531065T AYF531265T AYF531465T AYF532265T AYF532665T AYF532865T AYF533065T AYF533265T AYF533865T AYF534065T AYF534865T Packing Inner carton (1-reel) Outer carton 5,000 pieces 10,000 pieces Notes: 1. Order unit; For volume production: 1-inner carton (1-reel) units Samples for mounting check: 50-connector units. Please contact our sales office. Samples: Small lot orders are possible. Please contact our sales office. 2. Please contact our sales office for connectors having a number of pins other than those listed above. SPECIFICATIONS 1. Characteristics: When using an applicable FPC (thickness 0.30 mm) Electrical characteristics Item Rated current Rated voltage Insulation resistance Specifications 0.5A/pin contact (Except for holding contact) 50V AC/DC Min. 1,000M (initial) Breakdown voltage 250V AC for 1 min. Contact resistance Mechanical characteristics FPC holding force Ambient temperature Storage temperature Max. 100m Y5B: Min. 0.2N/pin contact x pin contacts (initial) Y5BW: Min. 0.2N/pin contact x pin contacts + 2.0N (initial) -55C to +85C -55C to +85C (product only) -40C to +50C (emboss packing) Conditions Using 250V DC megger (applied for 1 min.) No short-circuiting or damage at a detection current of 1 mA when the specified voltage is applied for one minute. Based on the contact resistance measurement method specified by JIS C 5402. Measurement of the maximum force applied until the inserted compatible FPC is pulled out in the insertion axis direction while the connector lever is closed No freezing at low temperatures. No dew condensation. Conformed to MIL-STD-202F, method 107G Thermal shock resistance (with FPC mated) 5 cycles, insulation resistance min. 100M, contact resistance max. 100m Environmental characteristics Humidity resistance (with FPC mated) Saltwater spray resistance (with FPC mated) H2S resistance (with FPC mated) Soldering heat resistance Lifetime characteristics Unit weight Insertion and removal life 120 hours, insulation resistance min. 100M, contact resistance max. 100m 24 hours, insulation resistance min. 100M, contact resistance max. 100m 48 hours, contact resistance max. 100m Peak temperature: 260C or less 300C within 5 sec. 350C within 3 sec. 20 times Order Temperature (C) 1 -55 -30 2 3 85 +30 4 -55 -30 Time (minutes) 30 Max. 5 30 Max. 5 Bath temperature 402C, humidity 90 to 95% R.H. Bath temperature 352C, saltwater concentration 51% Bath temperature 402C, gas concentration 31 ppm, humidity 75 to 80% R.H. Reflow soldering Soldering iron Repeated insertion and removal: min. 10 sec./time Y5B (50 pin contacts): 0.16 g 2. Material and surface treatment Part name Molded portion Material Surface treatment Housing: LCP resin (UL94V-0) Lever: LCP resin (UL94V-0) -- Contact Copper alloy Holding contact (Only Y5BW) Soldering terminals Copper alloy Copper alloy Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -2- Contact portion; Base: Ni plating, Surface: Au plating Terminal portion; Base: Ni plating, Surface: Au plating Terminal portion; Base: Ni plating, Surface: Au plating Base: Ni plating, Surface: Au plating (c) Panasonic Corporation 2013 ACCTB1E 201310-T FPC connectors Y5B/Y5BW (0.5mm pitch) Back lock DIMENSIONS (Unit: mm) The CAD data of the products with a CAD Data mark can be downloaded from: http://industrial.panasonic.com/ac/e/ Y5B A CAD Data General tolerance: 0.3 0.500.10 Each mentioned sizes are at the stage of initial stage 1.000.10 (3.70) Terminal coplanarity (0.30) 0.1 (0.50) (Contact and soldering terminals) B0.20 4.00 3.36 1.50 5 6 8 10 12 14 16 24 28 30 32 34 40 42 50 4.50 5.00 6.00 7.00 8.00 9.00 10.00 14.00 16.00 17.00 18.00 19.00 22.00 23.00 27.00 3.86 4.36 5.36 6.36 7.36 8.36 9.36 13.36 15.36 16.36 17.36 18.36 21.36 22.36 26.36 2.00 2.50 3.50 4.50 5.50 6.50 7.50 11.50 13.50 14.50 15.50 16.50 19.50 20.50 24.50 (1.76) 1.60 (Suction area) Number of pins/ dimension 4 2.90 3.20 (0.15) (1.50) (FPC insertion depth) (0.32) (0.15) C0.20 Y5B RECOMMENDED FPC/FFC DIMENSIONS (Finished thickness: t = 0.30.03) The conductive parts should be based by Ni plating and then Au plating. (A+1)0.05 A0.03 5 6 8 10 12 14 16 24 28 30 32 34 40 42 50 2.00 2.50 3.50 4.50 5.50 6.50 7.50 11.50 13.50 14.50 15.50 16.50 19.50 20.50 24.50 5 0. 1.50 min. (Exposed part of the conductor) R 0.300.03 Cutting direction* * Cut FPC from the copper foil side to the reinforcing plate side. Y5BW C 1.50 .0 0 20 (FPC) 0.350.03 (FFC) 0.300.03 B Number of pins/ dimension 4 2.50 min. (Reinforcing plate) 0.500.07 0.500.03 A A A 0.500.10 CAD Data General tolerance: 0.3 Holding contacts (The holding contacts cannot be used as conductors.) 3.70 1.60 (Suction area) (1.76) 1.000.10 Each mentioned sizes are at the stage of initial stage Terminal coplanarity B0.20 0.1 (0.30) (Contact, holding (0.50) contact and soldering terminals) 2.90 3.20 (0.15) D0.20 C0.20 (0.32) (0.15) (0.32) (0.15) Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -3- (1.50) (FPC insertion depth) Number of pins/ dimension 2 4.00 3.36 1.50 0.50 3 4 6 8 10 12 4.50 5.00 6.00 7.00 8.00 9.00 3.86 4.36 5.36 6.36 7.36 8.36 2.00 2.50 3.50 4.50 5.50 6.50 1.00 1.50 2.50 3.50 4.50 5.50 14 22 26 28 30 32 38 40 48 10.00 14.00 16.00 17.00 18.00 19.00 22.00 23.00 27.00 9.36 13.36 15.36 16.36 17.36 18.36 21.36 22.36 26.36 7.50 11.50 13.50 14.50 15.50 16.50 19.50 20.50 24.50 6.50 10.50 12.50 13.50 14.50 15.50 18.50 19.50 23.50 (c) Panasonic Corporation 2013 A B C D ACCTB1E 201310-T FPC connectors Y5B/Y5BW (0.5mm pitch) Back lock Y5BW RECOMMENDED FPC DIMENSIONS (Finished thickness: t = 0.30.03) The conductive parts should be based by Ni plating and then Au plating. Notches type 1.000.07 (A+2)0.05 A0.03 0.500.03 (Pitch) 0.350.03 *1 0.700.05 3 4 6 8 10 12 14 22 26 28 30 32 38 40 48 1.00 1.50 2.50 3.50 4.50 5.50 6.50 10.50 12.50 13.50 14.50 15.50 18.50 19.50 23.50 0.300.03 2.50 min. (Reinforcing plate) .05 R0.20R0 0.200 .0 5 R0 .25 ma x. 0.50 R0.200.05 0.800.05 1.300.10 1.50 min. (Conductor exposed area) x. ma .25 R0 Number of pins/ dimension 2 *1 Not interfere conductor Cutting direction (*2) (*2) Cut FPC from the copper foil side to the reinforcing plate side. A EMBOSSED TAPE DIMENSIONS (Unit: mm) (Common for respective contact type) * Specifications for taping Tape I Tape II (A +0.3 -0.1 ) (A0.3) (C) (B) * Specifications for the plastic reel (In accordance with EIAJ ET-7200B.) (B) (1.75) (D1) (1.75) Taping reel Embossed carrier tape 380 dia. (2.0) (4.0) (2.0) (4.0) Leading direction after packaging Top cover tape (8.0) (8.0) Embossed mounting-hole Label 1.5 .1 +0 0.0 50 1. 0 +00.1 .0 dia a. di . * Y5B Dimension table (Unit: mm) Number of pins 4 to 10 12 to 30 32 to 34 40 to 50 Type of taping Tape I Tape I Tape II Tape II A 16.0 24.0 32.0 44.0 B 7.5 11.5 14.2 20.2 C - - 28.4 40.4 D 17.4 25.4 33.4 45.4 Quantity per reel 5,000 5,000 5,000 5,000 A 16.0 24.0 32.0 44.0 B 7.5 11.5 14.2 20.2 C - - 28.4 40.4 D 17.4 25.4 33.4 45.4 Quantity per reel 5,000 5,000 5,000 5,000 * Y5BW Dimension table (Unit: mm) Number of pins 2 to 8 10 to 28 30 to 32 38 to 48 Type of taping Tape I Tape I Tape II Tape II * Connector orientation with respect to embossed tape feeding direction Type Y5B/Y5BW Direction of tape progress Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -4- (c) Panasonic Corporation 2013 ACCTB1E 201310-T FPC connectors Y5B/Y5BW (0.5mm pitch) Back lock NOTES 1. Recommended PC board and metal mask patterns Connectors are mounted with high pitch density, intervals of 0.2 mm, 0.3 mm or 0.5 mm. In order to reduce solder and flux rise, solder bridges and other issues make sure the proper levels of solder is used. The figures to the right are recommended metal mask patterns. Please use our recommended patterns basically. Please refer to the latest product specifications when designing your product. * Y5B/Y5BW 0.800.05 Recommended PC board pattern (mounting layout) (TOP VIEW) 0.400.05 1.000.05 0.800.05 3.300.05 0.500.05 0.300.05 1.000.05 Recommended metal mask pattern 0.550.01 Metal mask thickness: When 120m (Terminal portion opening area ratio: 57%) (Soldering terminal portion opening area ratio: 100%) 0.400.01 1.000.01 1.000.01 0.800.01 3.300.01 0.500.01 0.250.01 Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -5- (c) Panasonic Corporation 2013 ACCTB1E 201310-T Notes on Using FPC Connectors Notes on Using FPC Connectors PC board design * Design the recommended foot pattern in order to secure the mechanical strength in the soldered areas of the terminal. * In order to facilitate the connector mount, make sure to design the board with reduced warpage. * Please design and pay attention to the distance from the board edge to the pattern. When cutting the board, do not give an excessive stress to the connector, which risks damaging the connector. (Y3BW/Y5BW) * Depending on FPC dimension and FPC insertion location, there is a possibility that the holding contact and an FPC pattern of both end of signal contacts are in short-circuited. Please design the equipment not to be affected even if a board pattern of holding contacts and an FPC pattern of both end of signal contacts are in short-circuited. (For example: Do not connect a board pattern of holding contacts and GND. If connect a board pattern of holding contacts and GND, also connect board pattern of both end of signal contacts.) FPC and equipment design * Design the FPC based with recommended dimensions to ensure the required connector performance. * When using back lock type, secure enough space for closing the lever and for open-close operation of the lever. * Make sure that connector positioning and FPC length are appropriate to prevent diagonal insertion of the FPC. * Due to the FPC size, weight, or the reaction force of the routed FPC, FPC removed and connector deformation may occur by a fall, vibration, or other impact. Carefully check the equipment design and take required measures to prevent the FPC removed. If the shock of falling, vibration is applied to the FPC, please design the equipment not to be applied a load to connector, such as fixing the FPC. * Make sure to design the FPC insertion part with reduced warpage. Otherwise, the warpage may adversely affect the FPC insertion. (Y3BW/Y5BW) The holding contacts cannot be used as conductors. The holding contacts are located on both ends of the connector, and the shape of the soldered portions is the same as that of the signal contacts. Use caution to ensure connect identification. (Y3BL) Soldering terminal structure Since soldering terminals touch FPC, note that the short circuit may occur when the metal parts exposed on side of FPC. Connector mounting Excessive mounter chucking force may deform the molded or metal part of the connector. Consult us in advance if chucking is to be applied. Soldering 1) Manual soldering * Due to the connector's compact size, if an excessive amount of solder is applied during manual soldering, the solder may creep up and flux wicking near the contact points, or solder interference may cause impact contact. * Make sure that the soldering iron tip is heated within the temperature and time limits indicated in the specifications. Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -6- * Flux from the solder wire may adhere to the contact surfaces during soldering operations. After soldering, carefully check the contact surfaces and cleans off any flux solder use. * Be aware that a load applied to the connector terminals while soldering may displace the contact. * Thoroughly clean the iron tip. 2) Reflow soldering * Screen-printing is recommended for printing paste solder. * To achieve the appropriate soldering state, make sure that the reflow temperature, PC board foot pattern, window size and thickness of metal mask are recommended condition. * Note that excess solder on the terminals prevents complete insertion of the FPC, and causes flux climbing up. * A screen thickness of 120m is recommended during cream solder printing. * Consult us when using a screen-printing thickness other than that recommended. * Depending on the size of the connector being used, self alignment may not be possible. Accordingly, carefully position the terminal with the PC board pattern. * The recommended reflow temperature profile is given in the figure below. Upper limit (Soldering heat resistance) Lower limit (Solder wettability) Temperature Peak temperature 260C 230C 180C Preheating 220C 200C 25 sec. 150C 60 to 120 sec. 70 sec. Time * The temperature is measured on the surface of the PC board near the connector terminals. * Depending on reflow condition, poor contact may occur by solder and flux wicking. Please set the reflow conditions that considering the characteristics of solder and flux. Also please make consideration in setting the reflow times and O2 concentration to prevent poor contact by solder and flux wicking. * When performing reflow soldering on the back of the PC board after reflow soldering the connector, secure the connector using, for example, an adhesive. (Double reflow soldering on the same side is possible.) Do not touch the lever or apply any load to the lever until the second reflow soldering. The terminals may be deformed by reflow heating, because if touching or applying any load to the lever, contact deflection occurs. 3) Reworking on a soldered portion * Finish reworking in one operation. * For reworking of the solder bridge, use a soldering iron with a flat tip. Do not add flux, otherwise the flux may creep to the contact parts. When adding the solder for reworking, do not add an excessive solder. Otherwise, solder and flux may creep up and solder bridges may occur. * Use a soldering iron whose tip temperature is within the temperature range specified in the specifications. (c) Panasonic Corporation 2013 ACCTB13E 201310-T Notes on Using FPC Connectors Do not drop or handle the connector carelessly. Otherwise, the terminals may become deformed due to excessive force or applied solderability may be during reflow degrade. Do not open/close the lever or insert/remove an FPC until the connector is soldered. Forcibly applied external pressure on the terminals can weaken the adherence of the terminals to the molded part or cause the terminals to lose their evenness. In addition, do not insert an FPC into the connector before soldering the connector. When cutting or bending the PC board after mounting the connector, be careful that the soldered sections are subjected to excessive force. The soldered areas should not be subjected to force. Precautions for insertion/removal of FPC * Avoid touching the lever (applying any external force) until an FPC is inserted. Do not open/close the lever without an FPC inserted. Failure to follow this instruction will cause the contacts to warp, leading to the contact tips to interfere with the insertion of an FPC, deforming the terminals. Failure to follow this instruction may cause the lever to be removed, terminals to be deformed, and/or the FPC insertion force to increase. Without an FPC inserted * In the case of Back-lock type, the FPC insertion section is on the opposite side of the lever. Be careful not to make a mistake in the FPC insertion position or the lever opening/closing position. Otherwise, a contact failure or connector breakage may occur. * Do not insert an FPC upside down. Inserting an FPC in a direction opposite to that you intended may cause an operation failure or malfunction. * Insert an FPC with the lever opened at right angle, that is, in the factory default position. * After checking the position of FPC insertion slot and FPC, completely insert the FPC horizontally to the full depth of the connector without altering the angle. An FPC inserted at an excessive angle to the board may cause the deformation of metal parts, crack of molding parts, FPC insertion failures, and FPC circuit breakages. * Do not apply an excessive load to the lever in a direction perpendicular to the lever rotation axis or in the lever opening direction; otherwise, the terminals may be deformed, and the lever may be removed. * To close the lever, turn down the lever by pressing the entire lever or both sides of the lever with fingers tips. And close the lever completely. Be careful not to apply partial load to the lever that may cause its deformation or destruction or lever going back to initial position. Close the lever completely to prevent contact failure. * If pressure to the lever is applied unevenly, it may deform or break the FPC. Make sure that the lever is closed completely. Not doing so will cause a faulty connection. * Avoid applying an excessive load to the top of the lever during or after closing the lever. Otherwise, the terminals may be deformed. * When opening the lever to remove the FPC, rotate the lever to the initial position. Do not push the lever into the FPC inlet side and ensure that the lever will not go over the initial position; otherwise, it may be deformed or broken. * To open the lever, if pressure to the lever is applied unevenly, such as to an edge only, it may deform or break. * Do not open the lever forcefully with something sharp tool, otherwise, the lever may be deformed. * Remove the FPC at parallel with the lever fully opened. If the lever is closed, or if the FPC is forcedly pulled, the product or FPC may break. * If a lever is accidentally detached during the handling of a connector, do not use the connector any longer. After an FPC is inserted, carefully handle it so as not to apply excessive stress to the base of the FPC. When using FPC with a bent condition, please pay attention to precautions below; otherwise, in some conditions it may cause conduction failure, connector breakage, unlocking lever or FPC disconnection. * Design so that a load is not applied to connector directly by FPC bending. * Avoid sharp FPC bending at the root of FPC insertion part. * Design so that a load is not applied to the part of FPC bending. * If there might be a load on FPC, please fix the FPC. * Fix the FPC if there might be a load to the cut out, do not apply bending load to the cutout part of FPC. Otherwise, it may cause FPC disconnection and deformation since the cutout part of FPC is subjected to bending stress. * Insert the FPC into the connector after checking the position of FPC insertion slot and FPC. Do not insert the FPC without positioning the FPC and connector. Otherwise, it may cause connector breakages. When it is hard to insert the FPC, do not insert the FPC on that condition. Confirm the FPC and connector positioning. * Do not apply an excessive load to the lever in the opening direction beyond its open position; otherwise, the lever may be deformed or removed. FPC cutout part Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -7- (c) Panasonic Corporation 2013 ACCTB13E 201310-T Notes on Using FPC Connectors Other cautions * When coating the PC board after soldering the connector (to prevent the deterioration of insulation), perform the coating in such a way so that the coating does not get on the connector. * The connectors are not meant to be used for switching. * There is no problem on the product quality though the swelling and the black spot, etc. might be generated in the molding parts. * Height in FPC mating depends on the way to being used, such as mounting condition, thickness of FPC, and angle of lever lock etc. Please check it by actual equipment. Please refer to the latest product specifications when designing your product. Panasonic Corporation Automation Controls Buisiness Division industrial.panasonic.com/ac/e/ -8- (c) Panasonic Corporation 2013 ACCTB13E 201310-T Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: Panasonic: AYF331165 AYF332565 AYF335165 AYF530265 AYF530365 AYF530435 AYF530465 AYF530535 AYF530565 AYF530635 AYF530665 AYF530735 AYF530765 AYF530835 AYF530865 AYF530935 AYF530965 AYF531035 AYF531065 AYF531135 AYF531165 AYF531235 AYF531265 AYF531335 AYF531365 AYF531435 AYF531465 AYF531535 AYF531565 AYF531635 AYF531665 AYF531735 AYF531765 AYF531835 AYF531865 AYF531935 AYF531965 AYF532035 AYF532065 AYF532135 AYF532165 AYF532235 AYF532265 AYF532335 AYF532365 AYF532435 AYF532465 AYF532535 AYF532565 AYF532635 AYF532665 AYF532735 AYF532765 AYF532835 AYF532865 AYF532935 AYF532965 AYF533035 AYF533065 AYF533135 AYF533165 AYF533235 AYF533265 AYF533335 AYF533365 AYF533435 AYF533465 AYF533535 AYF533565 AYF533635 AYF533665 AYF533735 AYF533765 AYF533835 AYF533865 AYF533935 AYF533965 AYF534035 AYF534065 AYF534135 AYF534165 AYF534235 AYF534265 AYF534335 AYF534365 AYF534435 AYF534465 AYF534535 AYF534565 AYF534635 AYF534665 AYF534735 AYF534765 AYF534835 AYF534865 AYF534935 AYF534965 AYF535035 AYF535065