BLE18PK100SN1

Noise suppression technologies/case study introduction (Consumer)
INDEX
We confirmed the change in noise suppression effectiveness with and without insertion of ferrite beads.
We also checked to determine if there were any effects on voltage or current waveforms, aside from noise suppression effectiveness.
We checked for changes in ripple noise to confirm effectiveness in reducing noise flowing to the power supply side on transmitter power line ① in the figure below, and we checked for changes in transient response to confirm absence of harmful effects on the voltage waveform at VCSEL power input ②.
We also checked for changes in the current waveform flowing to the VCSEL.
Voltage① → Confirmation based on ripple noise
Voltage② → Confirmation based on transient response
Current → Confirmation based on current wave form
We can see that inserting BLE18PK100SN1 ferrite beads into the power line as shown in the figure below reduced ripple at location ① to about 1/5 the previous level.
We confirmed that insertion of ferrite beads substantially reduces ripple noise.
On the other hand, it would be unacceptable if ferrite bead insertion had a harmful effect on the voltage supplied to the VCSEL.
We checked the transient response before and after insertion of ferrite beads and confirmed that there was no reduction in wave height due to ferrite bead insertion.
Inserting ferrite beads resulted in no observable harmful effect on the operation of the circuit.
Next, we checked the waveform of the current flowing to the VCSEL.
A comparison of current waveforms before and after ferrite bead insertion shows almost no difference.
Thus, we confirmed no harmful effects due to reduction in wave height following ferrite bead insertion.