BU52012HFV-TR Rohm Semiconductor, BU52012HFV-TR Datasheet - Page 17
BU52012HFV-TR
Manufacturer Part Number
BU52012HFV-TR
Description
Industrial Hall Effect / Magnetic Sensors MONO DETECTION SENSOR; 1.65-3.3V
Manufacturer
Rohm Semiconductor
Series
-r
Type
Unipolar Switchr
Datasheets
1.BU52002GUL-E2.pdf
(20 pages)
2.BU52012HFV-TR.pdf
(6 pages)
3.BU52002GUL-E2.pdf
(15 pages)
Specifications of BU52012HFV-TR
Operational Type
Unipolar
Operating Supply Voltage
1.8 V or 2.5 V
Current Rating
3.5 uA
Operating Point Min/max
3 mT to 5 mT
Mounting Style
SMD/SMT
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Maximum Output Current
0.5 mA
Package / Case
HVSOF
Hall Effect Type
Unipolar
Output Current
500µA
Power Dissipation Pd
536mW
Sensor Case Style
HVSOF
No. Of Pins
5
Supply Voltage Range
1.65V To 3.3V
Operating Temperature Range
-40°C To +85°C
Svhc
No SVHC
Sensing Range
5mT Trip, 0.6mT Release
Voltage - Supply
1.65 V ~ 3.3 V
Current - Supply
5.5µA
Current - Output (max)
±0.5mA
Output Type
Digital, Open Collector
Features
Regulated Voltage
Operating Temperature
-40°C ~ 85°C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Part Number:
BU52012HFV-TR
Manufacturer:
ROHM/罗姆
Quantity:
20 000
●Operation Notes
© 2010 ROHM Co., Ltd. All rights reserved.
BU52002GUL,BU52003GUL,BU52012NVX,BU52012HFV,BU52013HFV
www.rohm.com
10) Power source design
1) Absolute maximum ratings
2) GND voltage
3) Thermal design
4) Pin shorts and mounting errors
5) Positioning components in proximity to the Hall IC and magnet
6) Operation in strong electromagnetic fields
7) Common impedance
8) GND wiring pattern
9) Exposure to strong light
Exceeding the absolute maximum ratings for supply voltage, operating conditions, etc. may result in damage to or
destruction of the IC. Because the source (short mode or open mode) cannot be identified if the device is damaged in this
way, it is important to take physical safety measures such as fusing when implementing any special mode that operates in
excess of absolute rating limits.
Make sure that the GND terminal potential is maintained at the minimum in any operating state, and is always kept lower
than the potential of all other pins.
Use a thermal design that allows for sufficient margin in light of the power dissipation (Pd) in actual operating conditions.
Use caution when positioning the IC for mounting on printed circuit boards. Mounting errors, such as improper positioning
or orientation, may damage or destroy the device. The IC may also be damaged or destroyed if output pins are shorted
together, or if shorts occur between the output pin and supply pin or GND.
Positioning magnetic components in close proximity to the Hall IC or magnet may alter the magnetic field, and therefore
the magnetic detection operation. Thus, placing magnetic components near the Hall IC and magnet should be avoided in
the design if possible. However, where there is no alternative to employing such a design, be sure to thoroughly test and
evaluate performance with the magnetic component(s) in place to verify normal operation before implementing the design.
Exercise extreme caution about using the device in the presence of a strong electromagnetic field, as such use may cause
the IC to malfunction.
Make sure that the power supply and GND wiring limits common impedance to the extent possible by, for example,
employing short, thick supply and ground lines. Also, take measures to minimize ripple such as using an inductor or
capacitor.
When both a small-signal GND and high-current GND are provided, single-point grounding at the reference point of the set
PCB is recommended, in order to separate the small-signal and high-current patterns, and to ensure that voltage changes
due to the wiring resistance and high current do not cause any voltage fluctuation in the small-signal GND. In the same
way, care must also be taken to avoid wiring pattern fluctuations in the GND wiring pattern of external components.
Exposure to halogen lamps, UV and other strong light sources may cause the IC to malfunction. If the IC is subject to such
exposure, provide a shield or take other measures to protect it from the light. In testing, exposure to white LED and
fluorescent light sources was shown to have no significant effect on the IC.
Since the IC performs intermittent operation, it has peak current when it’s ON. Please taking that into account and under
examine adequate evaluations when designing the power source.
17/19
Technical Note
2010.08 - Rev.C
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