Manufacturer | Part # | Datasheet | Description |
Murata Manufacturing Co... |
BLM15PD600SN1B
|
283Kb/4P |
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 updated06/30/2022 |
BLM15PD600SN1J
|
283Kb/4P |
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 updated06/30/2022 |
BLM15PD600SN1
|
283Kb/4P |
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 updated06/30/2022 |
Murata Manufacturing Co... |
BLM15PD600SZ1
|
203Kb/3P |
Operating Temperature Range
|
Murata Manufacturing Co... |
BLM15PD600SZ1
|
284Kb/4P |
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 updated06/30/2022 |
BLM15PD600SZ1B
|
284Kb/4P |
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 updated06/30/2022 |
BLM15PD600SZ1D
|
284Kb/4P |
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 updated06/30/2022 |
BLM15PD600SZ1J
|
284Kb/4P |
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 updated06/30/2022 |
BLM15PD600SZ1
|
284Kb/4P |
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 updated06/30/2022 |