For FPC/FFC FPC/FFC connectors (0.4mm pitch) Y4BH Back lock Differential impedance matching type, pitch 0.4 mm and double top and bottom contacts construction FEATURES 1. Differential impedance matching (100, 90 and 85 ) compliant with various high-speed transmission standards. 2. Double top and bottom contacts construction 3. Time and effort can be reduced by delivering with lever open APPLICATIONS Laptop and other mobile devices DETAILED FEATURES FPC/FFC connector for high-speed transmission. By matching the differential impedance, this FPC/FFC connector offers excellent high- speed differential transmission characteristics and supports all high- speed transmission standards. (when pin assignments are GSSG). FPC FFC Improvement of mechanical design exibility Prevent displacement of FPC insertion With top and bottom contact construction and no pin Constructed to make positional displacement difcult by assignments, this FPC/FFC connector contributes to customers surrounding the four sides on the FPC inlet side with wall design exibility. molding ACCTB67E 201803-T 1 FPC/FFC connectors Y4BH (0.4mm pitch) ORDERING INFORMATION PRODUCT TYPES Packing Height Differential impedance Number of pins Part number Inner carton (1-reel) Outer carton 40 AYF424035 85 and 90 types 50 AYF425035 1.0 mm 5,000 pieces 10,000 pieces 40 AYF414035 100 type 50 AYF415035 Notes: 1. Order unit: For volume production: 1-inner carton (1-reel) units. For samples, please contact our sales ofce. 2. Please contact our sales ofce for connectors having a number of pins other than those listed above. SPECIFICATIONS 1. Characteristics The followings show specications, when using an applicable FPC (thickness 0.30 mm) Item Specications Conditions Rated current 0.3A/pin contact Rated voltage 50V AC/DC No short-circuiting or damage at a detection current of 1 mA Dielectric strength 250V AC for 1 min. when the specied voltage is applied for one minute. Insulation resistance Min. 1,000M (initial) Using 250V DC megger (applied for 1 min.) Based on the contact resistance measurement method Contact resistance Max. 100m specied by JIS C 5402. Electrical characteristics Differential signal 8510 (Connector part) Rise times (Tr): 40 ps (20% to 80%) 85 and 90 types 9010 (Connector part) (FPC and PC board: Differential impedance 85 or 90 controlled.) Differential impedance Differential signal Rise times (Tr): 40 ps (20% to 80%) 100 type 10015 (Connector part) (FPC and PC board: Differential impedance 100 controlled.) Measurement of the maximum force applied until the Mechanical FPC holding force Min. 0.10N/pin contact pin contacts (initial) inserted compatible FPC is pulled out in the insertion axis characteristics direction while the connector lever is closed Ambient temperature 55 to +85C No icing. No condensation. Reow soldering: Peak temperature: 260C or less The initial specication must be satised electrically Soldering heat resistance (on the surface of the PC board around the connector and mechanically. terminals) Soldering iron: 300C within 5 sec. 350C within 3 sec. 55 to +85C (product only) Storage temperature No icing. No condensation. 40 to +50C (emboss packing) Conformed to MIL-STD-202F, method 107G Order Temperature (C) Time (minutes) 0 5 cycles, 1 553 30 Environmental Thermal shock resistance insulation resistance min. 100M, 2 Max. 5 characteristics (with FPC mated) +3 contact resistance max. 100m 3 85 0 30 4 Max. 5 0 553 120 hours, Humidity resistance Conformed to IEC60068-2-78 insulation resistance min. 100M, (with FPC mated) Temperature 402C, humidity 90 to 95% R.H. contact resistance max. 100m 24 hours, Saltwater spray resistance Conformed to IEC60068-2-11 insulation resistance min. 100M, (with FPC mated) Temperature 352C, saltwater concentration 51% contact resistance max. 100m H2S resistance 48 hours, Temperature 402C, gas concentration 31 ppm, (with FPC mated) contact resistance max. 100m humidity 75 to 80% R.H. Lifetime Insertion and removal life 20 times Repeated insertion and removal: min. 10 sec./time characteristics Unit weight 50 pins: 0.10 g ACCTB67E 201803-T 2