Tehnička dokumentacija
Tehnički podaci
Number of Elements
1
Capacitance Tolerance
±20%
Resistance Tolerance
±10%
Minimum Operating Temperature
-55°C
Dielectric
Metallised Polyester
Maximum Operating Temperature
+85°C
Range
SCT
Mounting Type
Through Hole
Depth
15mm
Quantity
6pack
Length
37mm
Height
30mm
Proizvođač
Cornell-DubilierResistance
100Ω
Capacitance
500nF
Series
Q
Dimensions
37 x 15 x 30mm
Zemlja podrijetla
China
Detalji o proizvodu
A1391/2/3/5 3V Linear Hall Effect Sensors, Allegro Microsystems
The A1391/2/3/5 family of linear Hall effect sensors provides a voltage output that is directly proportional to an applied magnetic field.
The A139x minimise current consumption to less than 25 μA through the addition of a user-selectable sleep mode, perfect for battery-operated applications. You can control the current consumption by applying a logic level signal to the SLEEP pin. The outputs of the devices are not valid (high-impedance mode) during sleep mode.
Hall Effect Sensors, Allegro MicroSystems
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€ 19,00
komadno (bez PDV-a)
€ 23,75
komadno (s PDV-om)
1
€ 19,00
komadno (bez PDV-a)
€ 23,75
komadno (s PDV-om)
1
Kupujte na veliko
količina | jedinična cijena |
---|---|
1 - 4 | € 19,00 |
5 - 9 | € 18,50 |
10 - 24 | € 18,25 |
25+ | € 17,75 |
Tehnička dokumentacija
Tehnički podaci
Number of Elements
1
Capacitance Tolerance
±20%
Resistance Tolerance
±10%
Minimum Operating Temperature
-55°C
Dielectric
Metallised Polyester
Maximum Operating Temperature
+85°C
Range
SCT
Mounting Type
Through Hole
Depth
15mm
Quantity
6pack
Length
37mm
Height
30mm
Proizvođač
Cornell-DubilierResistance
100Ω
Capacitance
500nF
Series
Q
Dimensions
37 x 15 x 30mm
Zemlja podrijetla
China
Detalji o proizvodu
A1391/2/3/5 3V Linear Hall Effect Sensors, Allegro Microsystems
The A1391/2/3/5 family of linear Hall effect sensors provides a voltage output that is directly proportional to an applied magnetic field.
The A139x minimise current consumption to less than 25 μA through the addition of a user-selectable sleep mode, perfect for battery-operated applications. You can control the current consumption by applying a logic level signal to the SLEEP pin. The outputs of the devices are not valid (high-impedance mode) during sleep mode.