MagAlpha
MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with
Side-Shaft Positioning Capability
Key Features
UVW Signals for Block Commutation
11-Bit Resolution Absolute Angle Encoder
500kHz Refresh Rate
Ultra-Low Latency: 3 µs
Serial Interface for Data Readout and Settings
10-Bit Incremental Output (A, B, Z)
Built-In Linearization for Side-Shaft Mounting
7.5mA Supply Current
QFN-16 3x3mm Package
General Description
The MagAlpha MA300 is a magnetic sensor
designed to replace the 3 Hall switch solutions
for 3-phase block commutation in brushless dc
motors. The IC detects the absolute angular
position of a permanent magnet, typically a
diametrically magnetized cylinder attached to
the rotor. The MagAlpha is an extremely fast
acquisition and processing sensor, allowing
accurate angle measurement at speeds from 0
to 120’000 RPM.
Since the measurement is spatially confined, the
user has flexibility in terms of magnet shapes
and configurations. This helps relax mechanical
tolerances and, in case the end-of-shaft position
is not available, the MagAlpha MA300 operates
away from the axis of rotation (“side-shaft”
mounting).
Figure 1: Functional Block Diagram
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
1. Specifications
TABLE 1. OPERATING CONDITIONS
Parameters
Symbol
Min
Typ
Max
Unit
Supply Voltage
VDD
3.0
3.3
3.6
V
Supply Current
Isup
5.7
6.6
8.0
mA
Supply Voltage for OTP Flashing
Vflash
3.6
3.8
V
Iflash
50
100
mA
Top
-40
B
30
Supply Current for OTP Flashing
(1)
Operating Temperature
Thermal Resistor Sensor/Environment
Applied Magnetic Field
(1)
125
40
75
150
°C
K/V
mT
See section 11 for more details about the supply circuit for OTP flashing.
TABLE 2. SENSOR OUTPUT SPECIFICATIONS
Measurement conditions: VDD = 3.3V, 50mT < B < 100mT, Temp = -40...+125°C, unless otherwise noted
Parameters
Min
Typ
Max
2
3
ms
+/- 0.7
+/- 1.5
+/-2.5
deg
+/-0.005
+/-0.008
+/-0.05
deg/°C
Magnetic Field Induced
-0.005
-0.01
-0.025
deg/mT
Voltage Supply Induced
0.0007
0.001
0.005
deg/mV
Power-Up Time
INL
Unit
Remark
Output Drift
Temperature Induced
Absolute Output - Serial
Data Output Length
16
Refresh Rate
500
Latency
Resolution (3σ Noise Level)
520
16
bit
550
kHz
2
3
4
µs
10.5
11.0
11.5
bit
1024
edge/revol.
Incremental Output
Resolution
Jitter
256
% of a
period
10
Hysteresis
0.35
deg
Digital I/O
Threshold Voltage High
1.75
V
Threshold Voltage Low
1.05
V
Rising Edge Slew Rate
0.7
V/ns
CL = 50 pF
Falling Edge Slew Rate
0.7
V/ns
CL = 50 pF
4
mA
Maximum Sink/Source Current per Pin
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
2. Timing of the Serial Interface
The data link is a 4-wire serial bus, complying to the Serial Peripheral Interface (SPI) usual convention (see
Table 3 and Table 4).The MagAlpha sensor operates as slave. During one transmission, a 16-bit word can
be sent simultaneously to the sensor MOSI and received from the sensor MISO (see Figure 2). Note that it is
possible to receive 24 bits of data (16 bits for the angle and 8 bits for a time index). For additional details,
refer to the “Output Signals” section.
Figure 2: SPI Timing Diagram
TABLE 3. SPI SPECIFICATION
TABLE 4. SPI STANDARD
SCLK Idle State
High
CPOL
1
SCLK Readout Edge
Rising
CPHA
1
CS Idle State
High
MODE
3
Data Order
MSB First
DORD
0
TABLE 5. SPI TIMING
Parameter
Description
Min
Max
Unit
tidle
Time between two subsequent transmissions.
20
ns
tcsL
Time between CS falling edge and SCLK falling edge.
25
ns
tsclk
SCLK period.
40
ns
tsclkL
Low level of SCLK signal.
20
ns
tsclkH
High level of SCLK signal.
20
ns
tcsH
Time between SCLK rising edge and CS rising edge.
25
ns
tMOSI
Data input valid to SCLK reading edge.
15
tMISO
SCLK setting edge to data output valid.
ns
15
ns
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
3. Registers
TABLE 6. REGISTER MAP
Register Address
No
Hex
Bin
3
0x3
0011
BCT(7:0)
4
0x4
0100
Z(11:4)
5
0x5
0101
0
0
ETY
ETX
9
0x9
1001
F7
-
F5
F4
Bit 7 MSB
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0 LSB
Z(3:0)
F3
-
-
-
TABLE 7. PROGRAMMING PARAMETERS
Symbol
Number of
Bits
BCT
8
Z
12
Enable Trimming X
ETX
1
Enable Trimming Y
ETY
1
Fn
1
Parameters
Bias Current Trimming
Zero Setting
Flash Register n
Brief Description
For side-shaft configuration, reduce the Hall
device bias current of the X- and/or Y-axis.
Sets the zero position.
When enabled, the X-axis bias current is
trimmed by the quantity BCT.
When enabled, the Y-axis bias current is
trimmed by the quantity BCT.
Flashes the content of register number n.
See
Table
9
11
10
10
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
4. Pin Configuration
TABLE 8. PIN FUNCTIONS
Figure 3: QFN-16 Top View
No
Name
Function
1
V
V (Incremental Output)
2
B
B (Incremental Output)
3
Z
Z (Incremental Output)
4
MOSI
5
CS
6
A
7
MISO
Data Out (Serial)
8
GND
Ground
9
W
W (Incremental Output)
10
NC
-
11
NC
-
12
SCLK
Clock (Serial)
13
VDD
3.3V Supply
14
NC
15
U
16
VFLASH
Data In (Serial)
Chip Select (Serial)
A (Incremental Output)
U (Incremental Output)
3.6V Supply for OTP Flashing
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
5. Sensor – Magnet Mounting
The sensitive volume of the MA300 is confined in
a region less than 100µm wide and has multiple,
integrated Hall devices. This volume is located
both horizontally and vertically (with a precision
50µm in the center of the QFN package). The
sensor detects the angle of the magnetic field
projected in a plane parallel to the upper surface
of the package, making the only magnetic field
that matters, the in-plane component (X and Y
components) in the middle point of the package.
specifications (see Table 2). The straightforward
solution places the MA300 sensor on the rotation
axis of a permanent magnet, i.e., a cylinder
diametrically magnetized (see Figure 4).
If the end-of-shaft position is not available, the
sensor can be positioned away from the rotation
axis of a cylinder or ring magnet (see Figure 5). In
this case, the magnetic field angle is no longer
directly proportional to the mechanical angle. The
MA300 can be adjusted to compensate this effect
and recover the linear relation between the
mechanical angle and the sensor output. With
multiple pole pairs, the MA300 indicates multiple
rotations for each mechanical turn.
Figure 4: End-of-Shaft Mounting
This detection mode allows flexibility for the
design of an angular encoder. All the sensor
needs is the magnetic vector to lie essentially
within the sensor plane with its amplitude between
30mT and 150mT. Note that the MA300 works
with fields smaller than 30mT, but the linearity and
resolution performance may deviate from the
Figure 5: Side-Shaft Mounting
6. Power Supply Decoupling
For most applications, a single 100nF bypass
capacitor placed close to the supply pins
sufficiently decouples the MA300 from noise from
the power supply. If improved decoupling is
required, a larger capacitor (10 µF) can be added
in parallel with the 100nF capacitor, and/or a
resistor (10) can be added between the supply
line and the capacitor node.
VFLASH must be supplied only when flashing the
memory. Otherwise VFLASH can remain
unconnected or grounded (see Figure 6).
In any case, make sure that the connection
between the MA300 ground and the power supply
ground has low impedance in order to avoid noise
transmitted from the ground.
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
Figure 6: Connection for Supply Decoupling
7. Sensor Front-End
The magnetic field is detected with integrated Hall
devices located in the center of the package. The
particularity of this sensor is that the angle is
measured using the spinaxis method, which
digitizes directly the direction of the field without
any ATAN computation or a feedback loop based
circuit (interpolators, etc.).
The spinaxis method is based on phase detection.
It requires a sensitive circuitry generating a
sinusoidal signal with a phase that represents the
angle of the magnetic field. The angle is then
retrieved by a time-to-digital converter, which
counts the time between the zero crossing of the
sinusoidal signal and the edge of a constant
waveform (see Figure 7). The digitized time is the
front-end output.
Looking further down the treatment chain, it is
crucial that the signal treatment does not add
unwanted phase shifts. For this purpose, the
MagAlpha incorporates an architecture that
automatically compensates these shifts, resulting
in the stability displayed in Table 2. In short, the
front-end delivers in a straightforward and openloop manner a digital number proportional to the
angle of the magnetic field at the rate of 500kHz.
Side-Shaft
The default current biasing of the Hall devices is
adjusted by programming to accommodate a low
field or compensate non-linearities inherent to
side-shaft configurations (see Figure 8).
Figure 7: Phase Detection Method. Top: Sine Waveform.
Bottom: Clock of Time-to-Digital Converter.
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
255 (see Table 9). For optimum compensation,
the radial axis should be reduced by the quantity
in equation (2):
(2)
TABLE 9. EXAMPLE OF OPTIMUM BCT SETTING
BCT(7:0)
Magnet Ratio k
0
1
1
1.003
…
…
Figure 8: Hall Devices Biasing Diagram
128
1.50
If the MA300 is mounted in a side-shaft configuration, the relationship between the field angle and
the mechanical angle is no longer directly linear.
This effect is related in that the tangential
magnetic field is usually smaller than the radial
field. We define the field ratio in equation (1):
…
…
255
3.00
The dot printed on the package informs whether
the radial field is detected by sensor X or Y
components (see Figure 10).
(1)
where
and
are the maximum radial,
respectively, tangential magnetic field (see Figure
9).
Figure 10: Package Top View with X and Y Axes
Figure 9: Side-Shaft Field
First the user must determine which axis must be
reduced (see the qualitative field distribution
around a ring in Figure 9). For instance, with the
arrangement depicted in Figure 8, the X-axis
should be reduced. Then the parameter ETX or
ETY can be set. Note that if both ETX and ETY
are set to 1, the current bias will be reduced in
both directions the same way, i.e. without side-
8. Digital Signal Conditioning
The ratio k depends on the magnet geometry and
the distance to the sensor.
shaft correction (see Table 10).
The X-axis or Y-axis bias currents can be reduced
to recover an equal Hall signal for all angles and
therefore suppress the non-linearity. The current
reduction is set by the parameter bias current
trimming, BCT (7:0), which is an integer from 0 to
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
TABLE 10. ETX AND ETY
ETX
Enable Trimming the X-Axis
0
Disabled
1
Enabled
ETY
Enable Trimming the Y-Axis
Digital Filtering
Advanced digital filtering improves the resolution
without adding latency. The principle is to
measure the rotation speed over the last 512 data
points (in addition to the angular position) to
evaluate of the present position with the best
possible accuracy. This principle gives a lag-free
position at constant speed.
TABLE 11. ZERO POSITION
Z(11:0)
Zero Position
0
0
1
0.088
…
…
4095
359.912
(deg)
Zero Setting
Rotation Direction
The zero position of the MagAlpha ( ), can be
programmed with 12-bit resolution. The angle
streamed out (
) is given by equation (3):
Looking at the MagAlpha top, the angle increases
when the magnetic field rotates clockwise.
(3)
Where
is the raw angle out of the front-end.
The parameter Z(11:0), which is 0 by default,
determines
(see Table 18). This setting is valid
for all output formats: SPI, ABZ, and UV.
0
Disabled
1
Enabled
9. Programming the MA300
The MA300 incorporates 3 programmable
registers. Each register has an 8 bit of memory.
When the MA300 is powered up, each of these
3x8 bits are set to zero, unless the register was
previously stored in the one-time programmable
(OTP) memory. This means that during start-up,
the content of the OTP memory is copied to the
registers. Once flashed, the register content can
no longer be modified.
In order to set the content of a register, the user
must send a digital stream composed of the 4-bit
REGISTER WRITE command (0010), followed by
a 4-bit register address and the 8-bit value to be
sent to the register. The data stream, sent through
the MOSI wire, is therefore 16-bits long:
command
0 0 1 0
reg. address
MSB
value
LSB
Once the command is sent, it is immediately
effective and affects the next data sent from the
MagAlpha.
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
Read Back the Register Content
It might be helpful to check the content of a
register, for instance to verify that the
programming was successful. The user must send
MagAlpha sends the 8 MSB of the measured
angle A(15:8). The second byte is the content of
the register being tested. After this transmission,
the MagAlpha continues delivering the usual 16bit angles A(15:0).
Example
the REGISTER READ command (0001), then the
4-bit address of the register being tested. The last
8 bits of the stream will be ignored. The user can
send for instance 0000 0000:
command
0 0 0 1
reg. address
x x x x
value
LSB
0 0 0 0 0 0 0 0
MSB
To check the content of register 4 (0100), which
contains 8 MSB’s of the zero setting, send the
data:
command
0 0 0 1
reg. address
0 1 0 0
Value
LSB
0 0 0 0 0 0 0 0
MSB
Simultaneously the MagAlpha replies:
The MagAlpha response is within the same
transmission. In the first byte (simultaneous to the
4-bit READ command and the 4-bit address), the
Angle Out
A(15:12)
A(11:8)
MSB
Value
Z(11:4)
LSB
10. Output Signals
The bit order of the transmitted data is MSB first,
LSB last. The timing requirements are indicated in
section 3. Every 2µs, new data is transferred into
the output buffer. The master device connected to
the MagAlpha triggers the reading by pulling CS
down. When a falling edge of the CS signal
occurs, the data remains in the output buffer until
the CS signal returns to logic 1. When the CS is
low, the master can read the data by sending
clock pulses with a maximum frequency of
25MHz. There is no minimum frequency or
timeout. See Figure 11 for a simple reading of 16bit data.
Figure 11: Timing Diagram for Simple SPI Readout
A full reading requires 16 clock pulses. The
MA300 delivers:
MSB
LSB
A(15:8)
A(7:0)
If the user needs less resolution (since the MSB is
sent first), they can read the angle by sending less
than 16 pulses. For instance, by sending only 8
pulses, the MagAlpha provides an 8-bit angle
without ambiguity over 360 deg:
MSB
LSB
A(15:8)
If the master triggers the reading faster than the
refresh rate, the MagAlpha may send the same
data point several times.
In some applications, it is helpful to know how
many data updates occur between two successive
readouts or if the same data points were read
more than once. For this purpose, the user can
read an 8-bit index attached to the data. This
keeps track of the precise time of measurement
without the need of precisely controlling the
readout time. This index runs from 0 to 255 and is
incremented by 1 each time the output buffer is
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
refreshed. Using the index, the user can detect a
double reading of the same data (same index), or
the user can see how many data points were
skipped (see Figure 12).
a duty cycle of ½ and are shifted 60 deg relative
to each other (see Figure 14).
For reading the 8-bit index, the master has to
send 16 + 8 = 24 clock pulses.
Figure 12: Timing Diagram for SPI Angle + Index Readout
Incremental - ABZ
Figure 14. UVW Output during Rotation
With the ABZ output, the MA300 emulates a 10-bit
incremental encoder, such as an optical encoder,
providing logic pulses in quadrature (see Figure
13). Compared to signal signal B is shifted by a
quarter of the pulse period. Over one revolution,
signal A pulses 256 times; it makes 256-1024
edges per revolution. Signal Z (“Zero” or “Index”)
raises only once per turn, at the zero angle
position.
Figure 13 : ABZ Output during Rotation
Block Commutation - UVW
The UVW output emulates the three Hall switches
usually used for the block commutation of the 3phase electric motor. The three logic signals have
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
11. OTP Programming
The one-time programmable (OTP) memory
permanently stores the content of the
programmable registers. The OTP memory is
made of poly-silicon fuses. By activating the
“flash” command, the content of the entire register
is stored in the OTP memory. The flash command
consists in setting some bits (Fn, where n is the
register number) in register 9. When the bit Fn is
set, the register n is stored permanently.
Important: the user can flash only one register
at a time. It is possible to operate the MagAlpha
without flashing the registers (see Fig. 15).
2. Tie VFLASH to 3.6V. Note: It is possible
to supply both VDD and VFLASH with
the same 3.6V source.
3. In register 9, set the bit so it correspondes
to the register being flashed.
4. Untie VFLASH. Then switch off and on
and check by reading back the register
content.
Example: Set & flash the zero position at 50 deg
Note: Permanently storing the zero position
requires burning two registers (4 and 5).
Permanently Storing the Zero Position:
1. Convert into binary (within a resolution of
12 bits). 50 deg is the binary number,
001000111000 (49.92 deg).
2. Store the 8 MSB (00100011) of the zero
position in register 4:
command
0 0 1 0
reg. address
0 1 0 0
value
LSB
0 0 1 0 0 0 1 1
MSB
Figure 15. Circuit for Flashing
The burning of the fuses during the flash process
is irreversible: Once a register is flashed, the
default values at power up will always be the
same. After flashing, the registers’ content can no
longer be modified.
Flashing Procedure
Prior to flashing, it is recommended to test the
MagAlpha with the new settings and verify the
performance of the sensor.
Once satisfied, the user can proceed with the
flashing.
Flashing:
1. Send the parameter to the register, and
read back for verification.
3. Read back register 4:
command
0 0 0 1
reg. address
0 1 0 0
value
LSB
0 0 0 0 0 0 0 0
MSB
If the programming was correct, the
MagAlpha replies with the register 4
content:
Angle out
A(15:12)
A(11:8)
value
LSB
0 0 1 0 0 0 1 1
MSB
4. Store the 4 LSB (1000) of the zero
position into the 4 LSB of register 5:
command
0 0 1 0
reg. address
0 1 0 1
value
LSB
0 0 0 0 1 0 0 0
MSB
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
5. Read back register 5:
command
0 0 0 1
reg. address
0 1 0 1
command
0 0 1 0
reg. address
1 0 0 1
value
LSB
0 0 0 1 0 0 0 0
MSB
value
LSB
0 0 0 0 0 0 0 0
MSB
3. Flash register 5:
command
0 0 1 0
The MagAlpha returns:
Angle out
A(15:12)
A(11:8)
value
LSB
0 0 0 0 1 0 0 0
MSB
Complete Flashing:
reg. address
1 0 0 1
value
LSB
0 0 1 0 0 0 0 0
MSB
4. Disconnect VFLASH from 3.6V.
5. Turn the MagAlpha off and on and read
back registers 4 and 5 to verify that the
flashing was successfully accomplished
(steps 3 & 5 in the “Permanently Storing
the Zero Position” section).
1. Connect VFLASH to 3.6V.
2. Flash register 4:
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
12. Typical Characteristics
Measurement conditions: VDD = 3.3V, Temp =
25°C, unless otherwise noted.
Figure 16: Error Curve at Different Magnetic Fields. The INL is
the Maximum Value of this Curve
Figure 17: Resolution in Bits (3-Sigma) vs. Magnetic Field
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
13. Package Dimensions
Package: Plastic Quad Flatpack No-lead QFN-16 3x3mm
NOTES:
1.
All dimensions are in mm.
2.
Package dimensions do not include mold flash, protrusions, burrs, or metal smearing.
3.
Coplanarity shall be 0.08.
4.
Compliant with JEDEC MO-220.
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�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
14. Ordering Information
Part Number
Package
Free Air Temperature (TA)
MA300GQ
QFN 3mmx3mm
-40° to 125°
* For Tape & Reel, add suffix –Z (e.g. MA300GQ–Z).
Monolithic Power Systems, Inc. | Gland, Switzerland | Tel: +41 22 364 63 50 | euroinfo@monolithicpower.com | www.sensimatech.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2014 Monolithic Power Systems. All Rights
Reserved. MA700 Rev 1.0 September 2014
16
�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
Appendix A: Definitions
Resolution (3 σ Noise Level)
The smallest angle increment distinguishable from the noise. Here the
resolution is defined as 3 times σ, the standard deviation in degrees,
taken over 1000 data points at a constant position. The resolution in bits
is obtained with:
σ .
Refresh rate
Rate at which new data points are stored in the output buffer.
Latency
The time between when the data is ready at the output, and the instant at
which the shaft passes that position. The lag in degrees is
, where is the angular velocity in deg/s.
Power-Up Time
Starting at power-up, the time until the sensor delivers valid data.
Integral Non-Linearity (INL)
Maximum deviation between the sensor output and the best line fit (see
Figure A1).
400
sensor out (deg)
350
300
lag
250
ideal
sensor output
200
150
INL
100
0
sensor out
best straight fit
resolution
( ± 3 )
50
0
100
200
300
400
500
600
700
rotor position (deg)
Figure A1: Absolute Angle Errors
Jitter
For the incremental output maximum fluctuation of the angular position of
the raising edges.
Overall Reproducibility
Maximum variation between two readings, successive or not, of the
same shaft position at a fixed magnetic field over the complete
temperature range.
Monolithic Power Systems, Inc. | Gland, Switzerland | Tel: +41 22 364 63 50 | euroinfo@monolithicpower.com | www.sensimatech.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2014 Monolithic Power Systems. All Rights
Reserved. MA700 Rev 1.0 September 2014
17
�MA300
Angular Sensor for 3-Phase Brushless Motor
Commutation and Position Control with Side-Shaft
Positioning Capability
Monolithic Power Systems, Inc.
Switzerland
www.sensimatech.com
euroinfo@monolithicpower.com
+41 22 364 63 50
The information provided by Monolithic Power Systems, Inc. in this document is believed to be correct. However MPS reserves the right,
without further notice, (i) to change the product specification and/or the information in this document and (ii) to improve reliability,
functions, and design of the product and (iii) to discontinue or limit production or distribution of any product version.
Monolithic Power Systems, Inc. does not assume any liability arising out of any application or use of any product or information,
including without limitation consequential or incidental damages. All operating parameters must be validated for each customer's
application by customer's technical experts. Recommended parameters can and do vary in different applications.
Devices sold by MPS are covered by patents and patent applications. By this publication MPS does not assume responsibility for patent
infringements or other rights of third parties which may result from its use.
Monolithic Power Systems, Inc. | Gland, Switzerland | Tel: +41 22 364 63 50 | euroinfo@monolithicpower.com | www.sensimatech.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2014 Monolithic Power Systems. All Rights
Reserved. MA700 Rev 1.0 September 2014
18
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