Power Electronics
RT9193 is an Ultra-Low Noise, Ultra-Fast CMOS LDO Regulator with power consumption less than 0.01μA in shutdown mode and has fast turn-on time less than 50μs.
Relays and Contactors: Types, Working and Difference between them
Relays are basically switches which are primarily used for the protection of equipment. It generally uses two circuits – A control circuit and a power circuit.
TFI Series – New RIA12 Surge Filter
The new TFI line from Traco Power is a set of surge filters which come in compact DIP-24 (TFI 20) or 1.6” x 1” (TFI 150 and TFI 300) packages.
MIC5205: 150 mA Low-Noise LDO Regulator
The MIC5205 is a low current, very low dropout voltage regulator with a maximum current of 150mA and a voltage drop of 165mV at full load. MIC5205 has an Enable pin to provide Zero-current shutdown mode.
5-10W Ultra-Compact Size AC/DC Converter Series LSxx-13Bxx
MORNSUN introduced an ultra-compact size AC/DC converter series LSxx-13Bxx which cover 5W, 8W and 10W takes the LS series to next steps. After this launch, the power range in the AC/DC converters is diversified and LS family can now provide 1W, 3W, 5W, 8W and 10W.
VIPer26K Converter Features High MOSFET Breakdown Voltage 1050V
The STMicroelectronics launched VIPer26K high-voltage converter comprises a 1050V avalanche-rugged N-channel power MOSFET that allow offline power supplies to combine a wide input-voltage range with the advantages of a simplified design.
AMS1117 1A LDO Regulator – Fixed/Variable
The AMS1117 is a popular SMD package 3-pin voltage regulator that is available in many models for fixed and adjustable voltage requirements. The IC can deliver a maximum current of 1A and the output voltage can vary from 1.5V to 5V.
MIC29302 3A Adjustable LDO Regulator
The MIC29302 is a high current low drop variable voltage regulator with a maximum current of 3A and a voltage drop of 450mV at full load.
VIPER22A SMPS Controller IC
The VIPER22A is a Popular SMPS controller IC form STMicroelectronics that has been extensively used in AC to DC Converters in offline power circuit designs.