Tehnilised dokumendid
Spetsifikatsioonid:
Brand
EXARRegulator Function
Buck Controller
Minimum Output Voltage
0.8 V
Minimum Input Voltage
2.5 V
Maximum Input Voltage
20 V
Output Type
Adjustable
Mounting Type
Surface Mount
Number of Outputs
1
Pin Count
26
Maximum Switching Frequency
990 kHz
Package Type
DFN
Switching Regulator
Yes
Height
0.95mm
Width
4mm
Minimum Operating Temperature
-40 °C
Dimensions
7 x 4 x 0.95mm
Maximum Operating Temperature
+85 °C
Length
7mm
Toote üksikasjad
PowerBlox Switching Regulators, EXAR
EXAR PowerBlox™ synchronous step-down switching regulators offer high efficiency in compact space-saving packages. They feature a wide input voltage range of 4.5 to 22V, allowing single supply operation from industry standard 5, 12 & 19.6V power rails. A constant on-time (COT) emulated current mode control scheme allows extremely fast line and load transient response using ceramic output capacitors and requires no loop compensation.
Switching Regulators, EXAR
Lao andmed ajutiselt ei ole saadaval.
Palun kontrollige hiljem uuesti.
€ 1,90
tk (rullis 3000) (ilma käibemaksuta)
€ 2,318
tk (rullis 3000) (koos käibemaksuga)
3000
€ 1,90
tk (rullis 3000) (ilma käibemaksuta)
€ 2,318
tk (rullis 3000) (koos käibemaksuga)
3000
Tehnilised dokumendid
Spetsifikatsioonid:
Brand
EXARRegulator Function
Buck Controller
Minimum Output Voltage
0.8 V
Minimum Input Voltage
2.5 V
Maximum Input Voltage
20 V
Output Type
Adjustable
Mounting Type
Surface Mount
Number of Outputs
1
Pin Count
26
Maximum Switching Frequency
990 kHz
Package Type
DFN
Switching Regulator
Yes
Height
0.95mm
Width
4mm
Minimum Operating Temperature
-40 °C
Dimensions
7 x 4 x 0.95mm
Maximum Operating Temperature
+85 °C
Length
7mm
Toote üksikasjad
PowerBlox Switching Regulators, EXAR
EXAR PowerBlox™ synchronous step-down switching regulators offer high efficiency in compact space-saving packages. They feature a wide input voltage range of 4.5 to 22V, allowing single supply operation from industry standard 5, 12 & 19.6V power rails. A constant on-time (COT) emulated current mode control scheme allows extremely fast line and load transient response using ceramic output capacitors and requires no loop compensation.