Tehniskie dokumenti
Specifikācija
Brand
MurataSeries
DLM11G
DC Resistance
0.8Ω
Maximum Current
100 mA
Dimensions
1.25 x 0.5 x 1mm
Operating Temperature Range
-40 → +85 °C
Package/Case
1210 (3225M)
Maximum Operating Temperature
+85°C
Length
1.25mm
Depth
0.5mm
Minimum Operating Temperature
-40°C
Height
1mm
Izcelsmes valsts
Japan
Produkta apraksts
Murata DLM11G Series Common Mode Chokes
Murata DLM11 Series common mode chokes are effective for common mode noise. Common Mode Choke Coils can suppress noise with less effect of Signal, even if the frequency range of Signal and noise are the same. Because they separate each conductive mode of current. Common mode choke coils are effective for noise suppression of DC power lines, due to their less magnetic saturation at high-power current.
Murata SMD Common Mode Chokes
Noliktavas stāvoklis patreiz nav pieejams
Lūdzu pārbaudiet vēlreiz vēlāk
€ 0,363
Katrs (Paka ir 50) (bez PVN)
€ 0,439
Katrs (Paka ir 50) (Ieskaitot PVN)
50
€ 0,363
Katrs (Paka ir 50) (bez PVN)
€ 0,439
Katrs (Paka ir 50) (Ieskaitot PVN)
50
Pirkt iepakojumos
Daudzums | Vienības cena | Per Iepakojums |
---|---|---|
50 - 450 | € 0,363 | € 18,15 |
500 - 1200 | € 0,291 | € 14,55 |
1250 - 2450 | € 0,262 | € 13,10 |
2500 - 4950 | € 0,235 | € 11,75 |
5000+ | € 0,212 | € 10,60 |
Tehniskie dokumenti
Specifikācija
Brand
MurataSeries
DLM11G
DC Resistance
0.8Ω
Maximum Current
100 mA
Dimensions
1.25 x 0.5 x 1mm
Operating Temperature Range
-40 → +85 °C
Package/Case
1210 (3225M)
Maximum Operating Temperature
+85°C
Length
1.25mm
Depth
0.5mm
Minimum Operating Temperature
-40°C
Height
1mm
Izcelsmes valsts
Japan
Produkta apraksts
Murata DLM11G Series Common Mode Chokes
Murata DLM11 Series common mode chokes are effective for common mode noise. Common Mode Choke Coils can suppress noise with less effect of Signal, even if the frequency range of Signal and noise are the same. Because they separate each conductive mode of current. Common mode choke coils are effective for noise suppression of DC power lines, due to their less magnetic saturation at high-power current.