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BMM150 Sensor Overview: Pin Configuration, Applications, and Manufacturer Insights

Nov29
Browse: 230
The BMM150 is a geomagnetic sensor meticulously designed for integration into consumer electronics. This section investigates its datasheet, pin configuration, applications, capabilities, and other technical details. Comprehending the detailed aspects of these sensors guides thoughtful decision-making, leading to inventive applications and improved device performance. This fosters a profound appreciation for the high-tech solutions the BMM150 contributes to daily technology usage.

Catalog

1. BMM150 Pin Configuration
2. BMM150 CAD Model
3. Overview of BMM150
4. Specifications
5. BMM150 Block Diagram
6. Distinctive Characteristics of BMM150
7. Diverse Uses of BMM150
8. BMM150 Application Circuit
9. BMM150 Outline Dimension
10. Manufacturer
BMM150

BMM150 Pin Configuration

BMM150 Pinout

BMM150 Pinout Details

BMM150 CAD Model

Symbol

Symbol

Footprint

Footprint

3D Model

3D Model

Overview of BMM150

The BMM150 functions as an independent sensor dedicated to detecting geomagnetic fields in consumer gadgets. Crafted with Bosch’s innovatively engineered FlipCore technology, it adeptly meets the rigorous standards set for three-axis mobile uses, such as electronic compasses and navigation tools. Beyond the realm of simple geomagnetic measurements, the BMM150 brings advanced capabilities, including smart orientation recognition and motion tracking.

Specifications

Type
Parameter
Type
Parameter
Mounting Type
Surface Mount
Factory Lead Time
14 Weeks
Surface Mount
YES
Package / Case
12-XFBGA, WLCSP
Packaging
Tape & Reel (TR)
Operating Temperature
-40°C~85°C TA
Part Status
Active
Published
2012
Number of Terminations
12
Moisture Sensitivity Level (MSL)
1 (Unlimited)
Current - Supply (Max)
20mA
Voltage - Supply
1.62V~3.6V
Body Breadth
1.56 mm
Body Length or Diameter
1.56mm
Operating Supply Voltage
3.6V
Output Type
I2C, SPI
Bandwidth
10Hz
Termination Type
SOLDER
Linearity
1 %
Resolution
13 b
Sensing Range
±1.3mT (X,Y), ±2.5mT (Z)
Sensing Method
Hall Effect
Axis
X, Y, Z
Ambient Temperature Range High
85°C
Magnetic Field Range-Max
2.5 mT
Magnetic Field Range-Min
1.2 mT
Height
595μm
Number of Axes
3
RoHS Status
ROHS3 Compliant
 
 

BMM150 Block Diagram

BMM150 Block Diagram

Distinctive Characteristics of BMM150

The BMM150 sensor distinguishes itself through its outstanding energy conservation and exceptional signal clarity, making it particularly suited for eCompass applications. Encased in a highly compact 12-pin WLCSP, it offers developers remarkable flexibility in integrating it into mobile devices. Its diminutive size, measuring just 1.56 x 1.56 mm with a slim height of 0.60 mm, allows for innovative design solutions.

Diverse Uses of BMM150

BMM150 finds its place in scenarios demanding precision in magnetic heading data, offering depth to electronic compasses. With features like tilt compensation, it contributes to the accurate rotation of maps and effective navigation. This function enriches users' ability to discern their orientation, enhancing both outdoor adventures and indoor explorations. Its integration into mobile devices aids in calibrating gyroscopes, striving to refine sensor performance by reducing errors due to magnetic disturbances.

Indoor navigation systems reap the benefits of BMM150, especially in settings where typical GPS signals struggle to penetrate.

In the realm of gaming, BMM150 introduces an intriguing layer to gameplay across platforms. By delivering precise orientation data, it fosters the creation of movement-based controls, allowing for more lifelike interactions within virtual worlds.

BMM150 Application Circuit

BMM150 Application Circuit

BMM150 Outline Dimension

Bottom view

TOP view

Side view

Manufacturer

Bosch Sensortec is a focal point within Robert Bosch GmbH, directing its passion toward consumer electronics and crafting refined expertise in micro-electromechanical systems (MEMS) technology. This division's dedication manifests in the creation of sensors like the BMM150, which elevate device capabilities across diverse applications, notably in the realm of wearable tech and IoT innovations. These sensors seamlessly empower mobile devices to engage with their surroundings, providing invaluable environmental data and fostering user context awareness.

Datasheet PDF

BMM150 Datasheets

BMM150 Details PDF

BMM150 Details PDF for FR.pdf

BMM150 Details PDF for KR.pdf

BMM150 Details PDF for ES.pdf

BMM150 Details PDF for DE.pdf

BMM150 Details PDF for IT.pdf






Frequently Asked Questions [FAQ]

1. What is BMM150?

The BMM150 is introduced as a geomagnetic sensor achieving low power consumption alongside low noise, offering three-axis digital capabilities, making it suitable for compass applications. It meets the demands of modern experiences, such as virtual reality or gaming, on mobile devices like smartphones, tablets, and portable media players. These devices crave the immersive experience enabled by 9-axis inertial sensing that deftly integrates magnetic heading information.

2. What is BMM150 used for?

The BMM150's qualities of low power usage and minimal noise output resonate with the nuances of compass applications requiring three-axis digital geomagnetic sensing. Sensor data fusion software, crafted specifically for this hardware, facilitates the delivery of absolute spatial orientation and motion vectors with a noteworthy degree of accuracy and dynamic response, resonating with those seeking precision in electronic navigation.

3. How does BMM150 work?

BMM150 stands as an independent geomagnetic sensor aimed at the consumer market, strategically designed to cater to various applications. Within its evaluation circuitry (ASIC), it adeptly converts geomagnetic sensor outputs into digital results. These outcomes are accessible via standard digital interfaces such as SPI and I2C, ensuring compatibility and ease of integration for developers.

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