By using a closed magnetic circuit structure leakage flux is minimized. The rated voltage of 40V is realized by design that emphasizes voltage resistance. Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
By using a closed magnetic circuit structure leakage flux is minimized. The rated voltage of 40V is realized by design that emphasizes voltage resistance. Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
By using a closed magnetic circuit structure leakage flux is minimized. The rated voltage of 40V is realized by design that emphasizes voltage resistance. Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
By using a closed magnetic circuit structure leakage flux is minimized. The rated voltage of 40V is realized by design that emphasizes voltage resistance. Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
By using a closed magnetic circuit structure leakage flux is minimized. The rated voltage of 40V is realized by design that emphasizes voltage resistance. Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
By using a closed magnetic circuit structure leakage flux is minimized The rated voltage of 40V is realized by design that emphasizes voltage resistance Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
By using a closed magnetic circuit structure leakage flux is minimized. The rated voltage of 40V is realized by design that emphasizes voltage resistance. Operating temperature range: ??55 to +150?C (including self-temperature rise) Compliant with AEC-Q200
