AS5035 austriamicrosystems, AS5035 Datasheet - Page 10

AS5035

Manufacturer Part Number

AS5035

Description

IC, MAGNETIC ROTARY ENCODER 8BIT SSOP-16

Manufacturer

austriamicrosystems

Type

Magnetic Rotary Encoderr

Datasheet

1.AS5035.pdf (17 pages)

Specifications of AS5035

Ic Function

Encoder IC

Supply Voltage Range

3.3V, 5V

Operating Temperature Range

-40Â°C To +125Â°C

Digital Ic Case Style

SSOP

No. Of Pins

Filter Terminals

SMD

No. Of Bits

8 Bit

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

AS5035

Manufacturer:

INFINEON

Quantity:

210

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AS5035 – 64 PPR INCREMENTAL MAGNETIC ROTARY ENCODER

10.4 Output Delays

Due to the sampling rate of 10kHz, there will be a delay

of up to 100µs between the time that the sample is taken

until it is converted and available as angular data.

A rotating magnet will therefore cause an angular error

caused by the output delay.

This error increases linearly with speed:

At low speeds this error is small (e.g. <= 0.06° at 100

rpm).

At speeds over 586 rpm, the error approaches 1LSB

(0.35°). The maximum error caused by the sampling rate

of the ADCs is 0/+100µs. It has a peak of 1LSB = 0.35°

at 586 rpm.

At higher speeds this error is reduced again due to

interpolation and the output delay remains at 200µs

as the DSP requires two sampling periods (2x100µs) to

synthesize and redistribute any missing pulses.

10.5 Temperature

10.5.1

One of the major benefits of the AS5035 compared to

linear Hall sensors is that it is much less sensitive to

temperature. While linear Hall sensors require a

compensation of the magnet’s temperature coefficients,

the AS5035 automatically compensates for the varying

magnetic field strength over temperature. The magnet’s

temperature drift does not need to be considered, as the

AS5035 operates with magnetic field strengths from

± 45… ± 75mT.

Example:

A NdFeB magnet has a field strength of

75mT @ –40°C and a temperature coefficient of

-0.12% per Kelvin. The temperature change is from

–40° to +125° = 165K.

The magnetic field change is: 165 x -0.12% = -19.8%,

which corresponds to

75mT at –40°C and 60mT at 125°C .

The AS5035 can compensate for this temperature related

field strength change automatically, no user adjustment

is required.

10.5.2

The influence of temperature in the absolute accuracy is

very low. While the accuracy is ≤ ± 0.5° at room

temperature, it may increase to ≤± 0.9° due to increasing

noise at high temperatures.

Revision 1.5

sampling

Magnetic Temperature Coefficient

Accuracy over Temperature

rpm

∗

−

www.austriamicrosystems.com

10.5.3

The internal RC oscillator is factory trimmed to ± 5%.

Over temperature, this tolerance may increase to ± 10%.

Generally, the timing tolerance has no influence in the

accuracy or resolution of the system, as it is used mainly

for internal clock generation.

11 Failure Diagnostics

The AS5035 also offers several diagnostic and failure

detection features:

11.1 Magnetic Field Strength Diagnosis

Pins #1 (MagINCn) and #2 (MagDECn) are open-drain

outputs and will both be turned on (= low with external

pull-up resistor) when the magnetic field is out of range.

If only one of the outputs is low, the magnet is either

moving towards the chip (MagINCn) or away from the

chip (MagDECn).

11.2 Power Supply Failure Detection

11.2.1

These are open drain outputs and require external pull-

up resistors. In normal operation, these pins are high

ohmic and the outputs are high (see Table 2). In a failure

case, either when the magnetic field is out of range or

the power supply is missing, these outputs will become

low. To ensure adequate low levels in case of a broken

power supply to the AS5035, the pull-up resistors

(>10k Ω ) must be connected to the positive supply at pin

16 (VDD5V).

11.2.2

In normal operation, pins A(#3), B(#4) and Index (#6) will

never be high at the same time, as Index is only high

when A=B=low. However, after a power-on-reset, if VDD

is powered up or restarts after a power supply

interruption, all three outputs will remain in high state

until pin CSn is pulled low (see 5.4.2 ). If CSn is already

tied to VSS during power-up, the incremental outputs will

all be high until the internal offset compensation is

finished (within t

Another way to detect a power supply loss is by

connecting pull-up resistors to the A,B and Index pins at

the receiving side (µC, control unit, etc..). If the negative

power line to the sensor is interrupted, all three outputs

will be pulled high by the external pull-up resistors. This

unique state again indicates a failure as it does not occur

in normal operation.

Timing Tolerance over Temperature

MagINCn and MagDECn Pins:

Incremental Outputs:

PwrUp

Page 10 of 17

AS5035 austriamicrosystems, AS5035 Datasheet - Page 10

AS5035

Specifications of AS5035

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