DATASHEET EV/EH series Common-mode Suppression Chokes Rated currents up to 5 A Approvals Broadband attenuation characteristics Low magnetic leakage flux UL rated materials RoHS compliant Common-mode suppression chokes are mainly used to filter noise on AC power lines. Noise on commercial power lines could enter the equipment and disturb the proper function. Noise generated by the equipment for example from switch mode power supplies need to be filtered and the spread of such generated noise need to be suppressed. Common- mode suppression chokes together with line bypass capacitors building an AC EMI suppression filter Technical specifications device. Maximum continuous operating voltage 250 VAC 50 C Features and benefits Operating frequency dc to 400Hz 50 C Rated currents up to 5A Rated currents 0.3 to 5 A Overcurrent 1.5x Inominal for 1 minute, once per hour Compact and light weight High potential test voltage Low magnetic leakage flux winding-to-winding 25C 3000 VAC, 60 sec, guaranteed Sectional winding 2000 V, 50 Hz, 2 sec, factory test Standard foot print Temperature range (operation and storage) -25 C to +100 C (25/100/21) Broad range of available inductances and current Flammability corresponding to UL 94 V-0 ratings Measuring frequency 10 kHz 5 mA < 16 H Custom-specific versions 500 A > 16 H < 160 H Schaffner offers you also EMI measure- ment service 50 A > 160 H > 16 mH to verify that your design will pass the required 50 mV > 16 mH < 160 mH safety standards Inductance tolerance 30% Resistance Tolerance max. 15% 25 C 20 m, 1 A Typical applications > 20 m 200 m, 100 mA > 200 m 2 V, 10 mA Input filters for switch mode power supplies Electrical characteristics 25 C 2 C Filters to reduce leaking noise TVs, VCRs, multimedia and audio equipment Office automation, communications and other electronic devices Electric ballast AC/AC converters Typical electrical schematic 2 EMC/EMI Products Schaffner Group Datasheets 2015 Choke selection table EV choke EH choke L nominal DC resistance Rated current Weight (30%) R I (50 C) mH m A g EV 20-0.3-02-33M EH 20-0.3-02-33M 33 1780 0.3 10 EV 20-0.5-02-18M EH 20-0.5-02-18M 18 725 0.5 10 EV 20-0.8-02-5M6 EH 20-0.8-02-5M6 5.6 245 0.8 10 EV 20-1.0-02-3M9 EH 20-1.0-02-3M9 3.9 168 1.0 10 EV 20-1.2-02-3M3 EH 20-1.2-02-3M3 3.3 127 1.2 10 EV 20-1.5-02-1M8 EH 20-1.5-02-1M8 1.8 72 1.5 10 EV 20-2.0-02-0M8 EH 20-2.0-02-0M8 0.82 38 2.0 10 EV 24-0.5-02-44M EH 24-0.5-02-44M 44 1250 0.5 18 EV 24-0.8-02-18M EH 24-0.8-02-18M 18 438 0.8 18 EV 24-1.0-02-10M EH 24-1.0-02-10M 10 244 1.0 18 EV 24-1.5-02-4M5 EH 24-1.5-02-4M5 4.5 116 1.5 18 EV 24-2.0-02-2M5 EH 24-2.0-02-2M5 2.5 62 2.0 18 EV 24-3.0-02-1M2 EH 24-3.0-02-1M2 1.2 29 3.0 18 EV 24-4.0-02-0M5 EH 24-4.0-02-0M5 0.5 16 4.0 18 EV 28-1.0-02-36M EH 28-1.0-02-36M 36 591 1.0 31 EV 28-1.5-02-20M EH 28-1.5-02-20M 20 282 1.5 31 EV 28-2.0-02-11M EH 28-2.0-02-11M 11 162 2.0 31 EV 28-3.0-02-5M0 EH 28-3.0-02-5M0 5 79 3.0 31 EV 28-4.0-02-2M3 EH 28-4.0-02-2M3 2.3 40 4.0 31 EV 28-5.0-02-1M1 EH 28-5.0-02-1M1 1.1 27 5.0 31 EV 35-1.0-02-90M EH 35-1.0-02-90M 90 628 1.0 70 EV 35-2.0-02-20M EH 35-2.0-02-20M 20 150 2.0 70 EV 35-3.0-02-10M EH 35-3.0-02-10M 10 72 3.0 70 EV 35-4.0-02-5M0 EH 35-4.0-02-5M0 5 53 4.0 70 EV 35-5.0-02-3M6 EH 35-5.0-02-3M6 3.6 33 5.0 70 All wires rated 130 C or higher. Typical choke attenuation Per CISPR 17 50 /50 asym EV/EH 20 types EV/EH 24 types EV/EH 28 types EV/EH 35 types A = 33mH A = 44mH A = 36mH A = 90mH B = 18mH B= 18mH B= 20mH B= 20mH C = 5.6mH C= 10mH C= 11mH C= 10mH D = 3.9mH D= 5.5mH D= 5mH D= 5mH E = 3.3mH E= 2.5mH E= 2.3mH E= 3.6mH F = 1.8mH F= 1.2mH F= 1.1mH G = 0.8mH G= 0.5mH