ams-OSRAM AS5040 10 bit Rotary Position Sensor with Digital Angle Instruction Manual

Instruction Manual for ams-OSRAM models including: AS5040 10 bit Rotary Position Sensor with Digital Angle, AS5040 10 bit Rotary Position Sensor with Digital Angle, Rotary Position Sensor with Digital Angle, Sensor with Digital Angle, Digital Angle

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as5x40 as5x45 ug000214 1-00

Product Document
Published by ams OSRAM Group Downloaded from Arrow.com.

User Manual AS5x40/AS5x45-AB-v2.1

AS5x40/AS5x45
10-bit Rotary Position Sensor with Digital Angle (Interface), ABI, UVW and PWM output

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User Manual AS5x40/AS5x45 AB 2.1

Table of Contents

General Description ............................................................................................................. 3

The AS5040 adapter board.................................................................................................. 3

2.1

Board description ................................................................................................................. 3

2.2

Mounting the AS5040 adapter board ................................................................................... 4

AS5040 Adapterboard and pinout........................................................................................ 6

Operation cases ................................................................................................................... 8

4.1

Standalone SSI output mode ............................................................................................... 8

4.2

Standalone PWM output mode ............................................................................................ 9

4.3

Standalone incremental Output ......................................................................................... 10

4.4

Daisy chain mode............................................................................................................... 12

Programming the AS5040.................................................................................................. 13

AS5040 differences to AS5045 .......................................................................................... 14

AS5040 AB-Hardware........................................................................................................ 15

7.1

AS5040-AB-2.1 schematics ............................................................................................... 15

7.2

AS5040 AB 2.1 PCB layout ......................................................................................... 15

Copyright ............................................................................................................................ 16

Disclaimer .......................................................................................................................... 16

Contact Information............................................................................................................ 16

Revision History

Revision

Date

1.0

01.10.2009

1.3

05.07.2013

1.4

09.08.2013

Owner
azen azen

Description Initial revision Updated to new template Minor corrections

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User Manual AS5x40/AS5x45 AB 2.1
1 General Description
The AS5x40/AS5x45 series are contactless magnetic position sensors for accurate angular measurement over a full turn of 360°. They are system-on-chip, combining integrated Hall elements, analog front end and digital signal processing in a single device. To measure the angle, only a simple two-pole magnet, rotating over the center of the chip, is required. The magnet may be placed above or below the IC. (See Figure 1:) Figure 1: Rotary Position Sensor AS5040 + Magnet

2 The AS5040 adapter board
The AS5040 adapter board is a simple circuit allowing test and evaluation of the AS5x40/AS5x45 position sensor without building a test fixture or PCB.
2.1 Board description
The PCB can be used as standalone unit or attached to a microcontroller. The standalone operation requires a 5V power supply only; the magnet's angle can be read on the PWM or analog output. (See Figure 2:).

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User Manual AS5x40/AS5x45 AB 2.1

Figure 2: AS5040 Adapterboard

AS5x40/AS5x45magnetic position sensor
J1 connector (Prg, power supply, serial interface)

4 x 2.6mm mounting holes

J2 connector (PWM, incremental and status output)

2.2 Mounting the AS5040 adapter board
A diametric magnet must be placed over on under the AS5x40/AS5x45 sensor and should be centered on the middle of the package with a tolerance of 0.5mm. The airgap between the magnet and the sensor casing should be maintained in the range 0.5mm~2mm. The magnet holder must not be ferromagnetic. Materials as brass, copper, aluminum, stainless steel are the best choices to make this part. (See Figure 3:)

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User Manual AS5x40/AS5x45 AB 2.1
Figure 3: AS5040 adapter board mounting and dimension

Magnet
AS5x4x

0.5~2mm

22mm
PWM Ind B A Mag Mag GND DEC INC
Prg 5V 3V3 CSn CLK DO GND

Diametral Magnet
N
AS50S40

4x2.6mm

11mm

18mm

28mm

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User Manual AS5x40/AS5x45 AB 2.1

3 AS5040 Adapterboard and pinout

The Adapterboard Pinout is shown below.

Figure 4: AS5040 adapter board connectors and sensor pinout

PWM Ind B A Mag Mag GND DEC INC
Prg 5V 3V3 CSn CLK DO GND
AS5x40-AB-2.1 AS5x45-AB-2.1
AS5040

MagINCn 1

MagDECn 2

A_LSB_U 3

B_Dir_V 4

NC 5

Index_W

VSS

Prog

AS5x40/ AS5x45

16 VDD5V

15 VDD3V3

14 NC

13 NC

12 PWM_LSB

11 CSn

10 CLK

Table 1: Pin description

Pin# Board
JP1 - 1 JP1 - 2 JP1 - 3

Pin# AS5x40 AS5x45
7 9 10

JP1 - 4

JP1 - 5

JP1 - 6

JP1 - 7

JP2 - 1

JP2 - 2

JP2 - 3

JP2 - 4

Symbol Board GND DO CLK CSn 3V3
5V Prg
GND MagINC MagDEC
A

Type

Description

S DO_T DI_ST DI_PU_ST
S S DI_PD
S DO_OD DO_OD
DO

Supply ground Data Output of Synchronous Serial Interface
Clock Input of Synchronous Serial Interface; Schmitt-Trigger input
Chip Select, active low; Schmitt-Trigger input, internal pull-up resistor (~50k) connect to VSS in incremental mode
3V-Regulator Output 5V Supply OTP Programming Input and Data Input for Daisy Chain mode. Internal pulldown resistor (~74k). May be connected to VSS if programming is not used
Supply ground
Magnet Field Magnitude INCrease; active low, indicates a distance reduction between the magnet and the device surface. Magnet Field Magnitude DECrease; active low, indicates a distance increase between the device and the magnet
AS5040 AS5140 AS5145 (programmed) only Mode1.x: Quadrature A channel Mode2.x: Least Significant Bit

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User Manual AS5x40/AS5x45 AB 2.1

Pin# Board

Pin# AS5x40 AS5x45

Symbol Board

Type

Description

Mode3.x: U signal (phase1)

JP2 - 5

JP2 - 6

Ind

JP2 - 7

PWM

AS5040 AS5140 AS5145 (programmed) only

Mode1.x: Quadrature B channel quarter period shift to channel A.

Mode2.x: Direction of Rotation

Mode3.x: V signal (phase2)

AS5040 AS5140 AS5145 (programmed) only Mode1.x and Mode2.x : Index signal indicates the absolute zero position Mode3.x: W signal (phase3) DO AS5045 AS5145 (unprogrammed) Mode input, connect to VDD5 (Fast mode) or GND (Slow mode); do not change during operation

Pulse Width Modulation of approx. 1kHz; LSB in Mode3.x

Pin types:

DO_OD DI_PD DI_PU DI

digital output open drain digital input pull-down digital input pull-up digital input

supply pin

DO_T digital output /tri-state

ST schmitt-trigger input

DO digital output

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User Manual AS5x40/AS5x45 AB 2.1

4 Operation cases
The most complete and accurate solution for a MCU to read the angle of a magnet is the serial interface.
4.1 Standalone SSI output mode
The serial word contains 16 bits for AS5x40 or 18 bits for AS5x45 and consists of 10 bit (AS5x40) or 12 bit (AS5x45) angle value and some other indicator bits like MagINC, MagDEC, which can be read at the same time.
Figure 5: Using the analog output with the adapter board

MCU

out out

VDDp in

PWM Ind B A Mag Mag GND DEC INC

Prg 5V 3V3 CSn CLK DO GND GND
N
AS50S40

Regulated +5V Power
GND
Supply
OR
+3V3 3.3V reg. GND Power
Supply

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User Manual AS5x40/AS5x45 AB 2.1
4.2 Standalone PWM output mode
The AS5040 provides a pulse width modulated output (PWM), whose duty cycle is proportional to the measured angle. The PWM signal (J2 pin #7) with a period of 1025us (1us step) and 5V pulse voltage can be connected to the capture/timer input of a microcontroller in order to decode the angle value. Figure 6: Using the PWM output with the adapter board

MCU
VDDp in

PWM Ind B A Mag Mag GND DEC INC

Prg 5V 3V3 CSn CLK DO GND GND

Regulated +5V Power
GND
Supply

N
AS50S40

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User Manual AS5x40/AS5x45 AB 2.1

Figure 7: PWM duty cycle depending on magnet position

Angle
0 deg (Pos 0)

PWMIN

1µs
359.65 deg (Pos 1023)

PWMAX

1025µs 1024µs

4.3 Standalone incremental Output
Three different incremental output modes are possible with quadrature A/B being the default mode (two-channel quadrature, step / direction incremental signal (LSB) and the direction bit in clockwise (CW) and counter-clockwise (CCW) direction. The pre-programmed version AS5145-I10 provides a 10bit and AS5145-I12 a 12bit incremental output. The AS5045 doesn't provide an incremental output. For further information, please refer to the datasheet.

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User Manual AS5x40/AS5x45 AB 2.1
Figure 8: Using the Incremental output with the adapter board

MCU
VDDp in in in

PWM Ind B A Mag Mag GND DEC INC

Prg 5V 3V3 CSn CLK DO GND GND

Regulated
+5V
Power
GND
Supply

N
AS50S40

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User Manual AS5x40/AS5x45 AB 2.1

4.4 Daisy chain mode
By using more than one adapter board, a setup in daisy chain mode is possible.
Note: In this mode capacitor C3 (refer to Fig.12) must be disconnected when using the 1nF capacitor shown in Fig.9 or directly replaced by this capacitor.
The serial data of all connected devices is read from the DO pin of the first device in the chain. The Prog pin of the last device in the chain should be connected to VSS. The length of the serial bit stream increases with every connected device (board) by n * (16+1) bits. Due to R = 100R and C = 1nF, the CLK is limited the maximum 1MHz.
Figure 9: Using Daisy-Chain mode with the adapter board

MCU

out out

VDDp in

PWM Ind B A Mag Mag GND DEC INC
Prg 5V 3V3 CSn CLK DO GND

Regulated +5V Power
GND
Supply

N
AS50S40

100R
PWM Ind B A Mag Mag GND DEC INC
Prg 5V 3V3 CSn CLK DO GND

1nF

N
AS50S40
next Board

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User Manual AS5x40/AS5x45 AB 2.1

5 Programming the AS5040
After power-on, programming the AS5040 is enabled with the rising edge of CSn with Prog = high and CLK = low. 16 bit configuration data must be serially shifted into the OTP register via the Prog-pin. The first "CCW" bit is followed by the zero position data (MSB first / 10 bit for AS5x40 and 12 bit for AS5x45) and some mode settings (please refer to datasheet). Data must be valid at the rising edge of CLK.
After writing data into the OTP register it can be permanently programmed by rising the Prog pin to the programming voltage VPROG of 7.3-7.5V. 16 CLK pulses must be applied to program the fuses. For exiting the programming mode, the chip must be reset by a power-on-reset. The programmed data is available after the next power-up.
Figure 10: Programming the AS5040

MCU

out out out

VDDp

PWM Ind

A Mag Mag GND

DEC INC

Prg 5V 3V3 CSn CLK DO GND

Regulated
+5V
Power
GND
Supply

N
AS50S40

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User Manual AS5x40/AS5x45 AB 2.1

6 AS5040 differences to AS5045

The Table below shows the differences between AS5040 and AS5045

Table 2: Differences AS5040/ AS5045

Building Block Resolution Data length
incremental encoder
Pins 1 and 2
Pin 6 Pin 12
sampling frequency Propagation delay Transition noise (rms; 1sigma) OTP programming options

AS5045 12bits, 0.088°/step.
read: 18bits (12bits data + 6 bits status) OTP write: 18 bits (12bits zero position + 6 bits mode selection)
Not used Pin 3: not used Pin 4:not used
MagINCn, MagDECn: same feature as AS5040, additional OTP option for redyellow-green magnetic range
MODE pin, switch between fast and slow mode
PWM output: frequency selectable by OTP: 1µs / step, 4096 steps per revolution, f=244Hz 2µs/ step, 4096 steps per revolution, f=122Hz
selectable by MODE input pin: 2.5kHz, 10kHz
384µs (slow mode) 96µs (fast mode)
0.03 degrees max. (slow mode) 0.06 degrees max. (fast mode)
zero position, rotational direction, PWM disable, 2 Magnetic Field indicator modes, 2 PWM frequencies

AS5040 10bit, 0.35°/step read: 16bits (10bits data + 6 bits status) OTP write: 16 bits (10bits zero position + 6 bits mode selection) quadrature, step/direction and BLDC motor commutation modes Pin 3:incremental output A_LSB_U Pin 4:incremental output B_DIR_V MagINCn, MagDECn indicate in-range or out-of-range magnetic field plus movement of magnet in z-axis Pin 6:Index output
PWM output: 1µs / step, 1024 steps per revolution, 976Hz PWM frequency
fixed at 10kHz @10bit resolution
48µs
0.12 degrees
zero position, rotational direction, incremental modes, index bit width

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User Manual AS5x40/AS5x45 AB 2.1

7 AS5040 AB-Hardware
Below the schematic and layout can be found.
7.1 AS5040-AB-2.1 schematics
Figure 11: AS5040-AB-2.1-Schematics

GND

MagINCn 1

MagDECn 2

Index

PROG

MagINCn VDD5V

MagDECn VDD3V3

A_LSB_U

B_DIR_V

PWM_LSB

Index_W

CSn

VSS

CLK

Prog

16 15 14 13 12 PWM 11 CSn 10 CLK 9 DO

AS5040

100n

GND

3.3V

10u/10V 10u/10V

GND

7.2 AS5040 AB 2.1 PCB layout
Figure 12: AS5040-AB-2.1-Layout

GND

PWM Index B A MagDECn MagINCn

J2
7 6 5 4 3 2 1
Header 7

GND
3.3V 5V

DO CLK CSn
PROG

J1
1 2 3 4 5 6 7
Header 7

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User Manual AS5x40/AS5x45 AB 2.1
8 Copyright
Copyright ams AG, Tobelbader Strasse 30, 8141 Unterpremstätten, Austria-Europe. Trademarks Registered. All rights reserved. The material herein may not be reproduced, adapted, merged, translated, stored, or used without the prior written consent of the copyright owner.
9 Disclaimer
Devices sold by ams AG are covered by the warranty and patent indemnification provisions appearing in its Term of Sale. ams AG makes no warranty, express, statutory, implied, or by description regarding the information set forth herein. ams AG reserves the right to change specifications and prices at any time and without notice. Therefore, prior to designing this product into a system, it is necessary to check with ams AG for current information. This product is intended for use in commercial applications. Applications requiring extended temperature range, unusual environmental requirements, or high reliability applications, such as military, medical life-support or life-sustaining equipment are specifically not recommended without additional processing by ams AG for each application. This Product is provided by ams "AS IS" and any express or implied warranties, including, but not limited to the implied warranties of merchantability and fitness for a particular purpose are disclaimed.
ams AG shall not be liable to recipient or any third party for any damages, including but not limited to personal injury, property damage, loss of profits, loss of use, interruption of business or indirect, special, incidental or consequential damages, of any kind, in connection with or arising out of the furnishing, performance or use of the technical data herein. No obligation or liability to recipient or any third party shall arise or flow out of ams AG rendering of technical or other services.
10 Contact Information
Headquarters ams AG Tobelbader Strasse 30 8141 Unterpremstaetten Austria T. +43 (0) 3136 500 0 For Sales Offices, Distributors and Representatives, please visit: http://www.ams.com/contact

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References