SMD POWER RESISTORS AEC-Q200 QUALIFIED Type 3522 Series Key Features 3 Watts at 70C Small size to power ratio Supplied on tape Value marked on resistor Available via distribution 500 volt maximum TE Connectivity is pleased to announce that our 3522 series resistor is now AEC- overload Q200 qualified. This low cost high power device, suitable for auto placement in volume and for most applications, including high frequency operations, owing to 250 volt the short lead structure is supplied as standard on 7 inch Reels of 2000 pieces working per reel. voltage Terminal finish matte Sn over Characteristics Electrical Ni Power rating at 70C 3W AEC-Q200 Rated current (Jumper) 2.5A Qualified Max. overload current (Jumper) 10A Max working voltage 250V Max overload voltage 500V Dielectric withstand voltage 500V Temperature range -55C ~ +155C Ambient temperature 70C * Rated continuous working voltage (RCWV) shall be determined from RCWV = (Rated Power x Resistance Value), or Maximum RCWV listed above, whichever is less **Recommended Circuit Board Design - If this device is anticipated to run at full continuous power then action to improve the cooling should be taken. This can be a metal substrate, copper pad left under the chip, an opening in the PCB or enlarged silver conductor pads each end. Dimensions in Dimensions Shown for 9-1773463-7 Rev. G 04/2020 For Email, phone or live chat, millimetres unless reference purposes only. go to: www.te.com/help otherwise specified Specifications subject to change SMD POWER RESISTORS AEC-Q200 QUALIFIED Power derating curve For resistors operated in ambient temperatures above 70C, power rating must be derated in accordance with this curve. Construction and dimensions L 0.10 W 0.15 H 0.10 .5 . 6.35 3.20 1.10 0.60 1.80 Power rating Tolerance % Resistance Standard series 70C Range Jumper <5 3W 1% - 10M E96 5% - M E24 Dimensions in Dimensions Shown for 9-1773463-7 Rev. G 04/2020 For Email, phone or live chat, millimetres unless reference purposes only. go to: www.te.com/help otherwise specified Specifications subject to change