DATASHEET DC Filters FN 2200 EMC/EMI Filter for PV Inverters Reduces conducted emissions towards the solar Approvals panel Reduces the probability of EMI radiation off the solar panel Helps to prevent pre-mature panel aging because of HF leakage currents (600 VDC) (850 VDC) Helps to meet international EMC regulations for the entire PV system Most compact standard solution in the industry, FN 2200 are the most compact dedicated DC filters optionally available without capacitors to ground for PV inverters in the industry and therefore support (B types) the integration in the ever shrinking frame sizes of New: up to 2300 A todays power electronics. All FN 2200 come in unsymmetrical housings, which help to prevent inverse installation and wrong electrical connection. Along with grid-side installed Schaffner AC EMC/EMI filters, FN 2200 are key to meet the stringent international standards for electromagnetic compatibility (EMC) like EN 61000-6-3 and -6-4 and help to ensure a reli- able and fault-free operation of the entire PV system. FN 2200 are designed for very low power loss, to support overall PV system efficiency. Features and benefits FN 2200 range of standard EMC/EMI filters is based on Schaffners years of experience in custom filter design for the global photovoltaic (PV) inverter industry. Installed between the PV inverter and the solar panel, FN 2200 DC filters help to control conducted emissions on the panel side of the system and therefore significantly reduce the potential for high- frequency (HF) interference radiation off the panel. The filter also protects the solar panel from HF stray and leakage currents which can cause pre-mature Technical specifications aging in the PV modules. Maximum continuous operating voltage Max. 1200 VDC Typical applications Rated currents 25 to 2300 A 55 C FN 2200 are primarily designed for PV inverters. High potential test voltage P > E 3600 VDC for 5 sec However, they can potentially also be used in other P > P 3000 VDC for 5 sec DC applications within published specifications, like Protection category IP20 (25 to 150 A types) IP00 (250 to 2300 A types) UPS, DC motor drives, or DC quick chargers. Overload capability 4 rated current at switch on, 1.5 rated current for 1 minute, once per hour Typical electrical schematic Temperature range (operation and storage) -40 C to +100 C (40/100/21) Design corresponding to UL 1283, CSA 22.2 No. 8 1986, IEC/EN 60939 Flammability corresponding to UL 94 V-2 or better MTBF 55C/1200 V (Mil-HB-217F) min. 223,000 hours Operating frequency DC EMC/EMI Products Schaffner Group Datasheets 2015 Filter selection table Filter Rated current Typical inverter Filter efficiency Power loss Input/Output Weight 55 C (40 C) AC power rating* 25 C/DC 25 C/DC connections A kW % W kg FN 2200-25-33 25 (28) 10 > 99.9 8 -33 0.9 FN 2200-50-34 50 (57) 20 > 99.9 17 -34 1.6 FN 2200-75-34 75 (86) 30 > 99.9 18 -34 1.7 FN 2200-100-35 100 (115) 40 > 99.9 22 -35 2.7 FN 2200-150-40 150 (173) 60 > 99.9 31 -40 4.9 FN 2200-250-99 250 (288) 100 > 99.9 10 -99 5.0 FN 2200-400-99 400 (460) 150 > 99.9 16 -99 6.1 FN 2200-600-99 600 (690) 250 > 99.9 29 -99 6.5 FN 2200-800-99 800 (920) 350 > 99.9 26 -99 9.3 FN 2200-1000-99 1000 (1150) 400 > 99.9 40 -99 9.4 FN 2200-1500-99 1500 (1600) 500 > 99.9 45 -99 14.6 FN 2200-2300-99 2300 (2500) 800/1000 > 99.9 400 -99 25.0 FN 2200B-25-33 25 (28) 10 > 99.9 8 -33 0.9 FN 2200B-50-34 50 (57) 20 > 99.9 17 -34 1.6 FN 2200B-75-34 75 (86) 30 > 99.9 18 -34 1.7 FN 2200B-100-35 100 (115) 40 > 99.9 22 -35 2.7 FN 2200B-150-40 150 (173) 60 > 99.9 31 -40 4.9 FN 2200B-250-99 250 (288) 100 > 99.9 10 -99 5.0 FN 2200B-400-99 400 (460) 150 > 99.9 16 -99 6.1 FN 2200B-600-99 600 (690) 250 > 99.9 29 -99 6.5 FN 2200B-800-99 800 (920) 350 > 99.9 26 -99 9.3 FN 2200B-1000-99 1000 (1150) 400 > 99.9 40 -99 9.4 FN 2200B-1500-99 1500 (1600) 500 > 99.9 45 -99 14.6 FN 2200B-2300-99 2300 (2500) 800/1000 > 99.9 84 -99 25.0 * Based on rated DC current of typical 3-phase PV inverters with 900 VDC input. Note: depending upon manufacturer and model, DC currents for a given PV inverter power can differ significantly. Filters with higher current ratings for large central inverters up to the MW range are available upon request. Typical filter attenuation Per CISPR 17 A = 50 /50 sym B = 50 /50 asym C = 0.1 /100 sym D = 100 /0.1 sym 25 to 75 A types 100 to 150 A types 250 A types 400 to 2300 A types