Teknik Belgeler
Özellikler
Marka
Wurth ElektronikEndüktans
22 μH
Maksimum DC Akım
6.9A
Paket/Kılıf
1215
Yükseklik
15.8mm
Çap
12.8mm
Boyutlar
12.8 (Dia.) x 15.8mm
Korumalı
Yes
Tolerans
±20%
Maksimum DC Direnç
16mΩ
Seri
WE-FAMI
Çekirdek Malzemesi
Ferrit
Endüktör Yapısı
Tel Sargılı
Maksimum Çalışma Sıcaklığı
+125°C
Kalıplanmış
Yes
Minimum Çalışma Sıcaklığı
-40°C
Menşe
China
Ürün Ayrıntıları
WE-FAMI THT Series High-Current Inductors
Wurth WE-FAMI Series Inductors are THT high-current inductors made of coil design material. These inductors. The inductors have especially high saturation currents due to additional iron alloy powder (mixture) and a low stray field due to magnetic shielding of the iron alloy powder. The coil is used as a pin that results in no contact resistance, no additional soldering or welding joins, and increased mechanical stability. The wiring pattern no only ensures an additional reduction in the DC resistance, but also enhances the mechanical stability of the component.
Wurth Non Standard SMT Inductors (Chokes)
Stok bilgileri geçici olarak kullanılamıyor.
Ayrıntılı bilgi için iletşime geçiniz
50,353 TL
Each (In a Tray of 80) KDV Hariç
60,424 TL
Each (In a Tray of 80) KDV Dahil
80
50,353 TL
Each (In a Tray of 80) KDV Hariç
60,424 TL
Each (In a Tray of 80) KDV Dahil
80
Teknik Belgeler
Özellikler
Marka
Wurth ElektronikEndüktans
22 μH
Maksimum DC Akım
6.9A
Paket/Kılıf
1215
Yükseklik
15.8mm
Çap
12.8mm
Boyutlar
12.8 (Dia.) x 15.8mm
Korumalı
Yes
Tolerans
±20%
Maksimum DC Direnç
16mΩ
Seri
WE-FAMI
Çekirdek Malzemesi
Ferrit
Endüktör Yapısı
Tel Sargılı
Maksimum Çalışma Sıcaklığı
+125°C
Kalıplanmış
Yes
Minimum Çalışma Sıcaklığı
-40°C
Menşe
China
Ürün Ayrıntıları
WE-FAMI THT Series High-Current Inductors
Wurth WE-FAMI Series Inductors are THT high-current inductors made of coil design material. These inductors. The inductors have especially high saturation currents due to additional iron alloy powder (mixture) and a low stray field due to magnetic shielding of the iron alloy powder. The coil is used as a pin that results in no contact resistance, no additional soldering or welding joins, and increased mechanical stability. The wiring pattern no only ensures an additional reduction in the DC resistance, but also enhances the mechanical stability of the component.