Documente tehnice
Specificatii
Numar iesiri
1
Tip iesire
Adjustable
Switching Regulator
Yes
Temperatura minima de lucru
-40 °C
Numar pini
8
Timp montare
Surface Mount
Temperatura maxima de lucru
+125 °C
Maximum Output Current
1A
Regulator Function
Step Down
Line Regulation
0.15 %/V
Inaltime
0.75mm
Minimum Output Voltage
2 V
Maximum Input Voltage
30 V
Load Regulation
0.25 %
Minimum Input Voltage
4.4 V
Latime
2mm
Lungime
3mm
Maximum Switching Frequency
575 kHz
Maximum Output Voltage
24 V
Tip pachet
TDFN
Marca
MicrochipDimensiuni
3 x 2 x 0.75mm
Tara de origine
Thailand
Detalii produs
X-NUCLEO-IHM06A1 Bipolar Stepper Motor Driver Expansion Board
The X-NUCLEO-IHM06A1 is a low-voltage stepper motor driver expansion board based on the STSPIN220 quad half-bridge chip. The device is designed for battery-powered applications and can be forced into a zero-consumption state, yielding a significant increase in battery life.
Motor Controllers & Drivers, STMicroelectronics
Informatii indisponibile despre stoc
Incercati din nou mai tarziu
€ 1,53
Buc. (Pe o rola de 3300) (fara TVA)
€ 1,821
Buc. (Pe o rola de 3300) (cu TVA)
3300
€ 1,53
Buc. (Pe o rola de 3300) (fara TVA)
€ 1,821
Buc. (Pe o rola de 3300) (cu TVA)
3300
Documente tehnice
Specificatii
Numar iesiri
1
Tip iesire
Adjustable
Switching Regulator
Yes
Temperatura minima de lucru
-40 °C
Numar pini
8
Timp montare
Surface Mount
Temperatura maxima de lucru
+125 °C
Maximum Output Current
1A
Regulator Function
Step Down
Line Regulation
0.15 %/V
Inaltime
0.75mm
Minimum Output Voltage
2 V
Maximum Input Voltage
30 V
Load Regulation
0.25 %
Minimum Input Voltage
4.4 V
Latime
2mm
Lungime
3mm
Maximum Switching Frequency
575 kHz
Maximum Output Voltage
24 V
Tip pachet
TDFN
Marca
MicrochipDimensiuni
3 x 2 x 0.75mm
Tara de origine
Thailand
Detalii produs
X-NUCLEO-IHM06A1 Bipolar Stepper Motor Driver Expansion Board
The X-NUCLEO-IHM06A1 is a low-voltage stepper motor driver expansion board based on the STSPIN220 quad half-bridge chip. The device is designed for battery-powered applications and can be forced into a zero-consumption state, yielding a significant increase in battery life.