Manufacturer | Part # | Datasheet | Description |
Murata Manufacturing Co... |
BLM18KG121TN1D
|
157Kb/4P
|
EMIFIL (Inductor type) Chip Ferrite Bead BLM18K Series (0603 Size)
|
BLM18KG121TN1D
|
2Mb/88P
|
SMD/BLOCK Type EMI Suppression Filters
|
Murata Manufacturing Co... |
BLM18KG121TN1D
|
291Kb/3P
|
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022
|
Search Partnumber :
Start with "BLM18KG121TN1D" -
Total : 18 ( 1/1 Page) |
Murata Manufacturing Co... |
BLM18KG121TN1B
|
291Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
Murata Manufacturing Co... |
BLM18KG121TN1B
|
157Kb/4P |
EMIFIL (Inductor type) Chip Ferrite Bead BLM18K Series (0603 Size)
|
Murata Manufacturing Co... |
BLM18KG121TN1J
|
291Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
Murata Manufacturing Co... |
BLM18KG121TN1J
|
157Kb/4P |
EMIFIL (Inductor type) Chip Ferrite Bead BLM18K Series (0603 Size)
|
Murata Manufacturing Co... |
BLM18KG121TN1
|
291Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
Murata Manufacturing Co... |
BLM18KG121TH1
|
204Kb/3P |
Operating Temperature Range
|
Murata Manufacturing Co... |
BLM18KG121TH1
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TH1B
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TH1D
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TH1J
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TH1
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TZ1
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
Murata Manufacturing Co... |
BLM18KG121TZ1
|
204Kb/3P |
Operating Temperature Range
|
Murata Manufacturing Co... |
BLM18KG121TZ1B
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TZ1D
|
285Kb/11P |
Chip Ferrite Bead BLM18xxxxxxZ1D Murata Standard Reference Specification [AEC-Q200]
|
BLM18KG121TZ1D
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |
BLM18KG121TZ1J
|
292Kb/3P |
The chip ferrite beads BLM series is designed to function nearly as a resistor at noise frequencies, which greatly reduces the possibility of resonance and leaves signal wave forms undistorted.
Last updated07/05/2022 |