Tehniskie dokumenti
Specifikācija
Brand
STMicroelectronicsMotor Type
BLDC
Output Configuration
3 Phase
Maximum IGBT Collector Current
2.8A
Maximum Collector Emitter Voltage
52 V
Mounting Type
Surface Mount
Package Type
PowerSO
Pin Count
36
Maximum Operating Supply Voltage
52 V
Minimum Operating Supply Voltage
12 V
Typical Switching Frequency
100kHz
Height
3.3mm
Width
11.1mm
Minimum Operating Temperature
-40 °C
Dimensions
16 x 11.1 x 3.3mm
Maximum Operating Temperature
+150 °C
Length
16mm
Produkta apraksts
Three Phase BLDC Motor Drivers, STMicroelectronics
The Brushless DC Motor Drivers include power drivers in a 3 phase bridge configuration. The ICs integrate decoding logic for Hall-effect sensors and a PWM current controller to drive autonomously a BLDC motor with microcontroller commands.
A robust and reliable electronic design can depend on the build-in circuit protection and diagnostic features from over-temperature, overcurrent and under-voltage conditions.
Motor Controllers & Drivers, STMicroelectronics
€ 182,90
€ 5,90 Katrs (Tubina ir 31) (bez PVN)
€ 221,31
€ 7,139 Katrs (Tubina ir 31) (Ieskaitot PVN)
31
€ 182,90
€ 5,90 Katrs (Tubina ir 31) (bez PVN)
€ 221,31
€ 7,139 Katrs (Tubina ir 31) (Ieskaitot PVN)
31
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Tehniskie dokumenti
Specifikācija
Brand
STMicroelectronicsMotor Type
BLDC
Output Configuration
3 Phase
Maximum IGBT Collector Current
2.8A
Maximum Collector Emitter Voltage
52 V
Mounting Type
Surface Mount
Package Type
PowerSO
Pin Count
36
Maximum Operating Supply Voltage
52 V
Minimum Operating Supply Voltage
12 V
Typical Switching Frequency
100kHz
Height
3.3mm
Width
11.1mm
Minimum Operating Temperature
-40 °C
Dimensions
16 x 11.1 x 3.3mm
Maximum Operating Temperature
+150 °C
Length
16mm
Produkta apraksts
Three Phase BLDC Motor Drivers, STMicroelectronics
The Brushless DC Motor Drivers include power drivers in a 3 phase bridge configuration. The ICs integrate decoding logic for Hall-effect sensors and a PWM current controller to drive autonomously a BLDC motor with microcontroller commands.
A robust and reliable electronic design can depend on the build-in circuit protection and diagnostic features from over-temperature, overcurrent and under-voltage conditions.