AS5040 PB austriamicrosystems, AS5040 PB Datasheet - Page 11

AS5040 PB

Manufacturer Part Number

AS5040 PB

Description

BOARD PROGRAM AS5040

Manufacturer

austriamicrosystems

Datasheet

1.AS5040_PB.pdf (33 pages)

Specifications of AS5040 PB

Module/board Type

ZIF Socket

For Use With/related Products

AS5000 Programmer, AS5040

Lead Free Status / RoHS Status

Lead free by exemption / RoHS compliant by exemption

Other names

AS5045 PB
AS5140H PB
AS5145 PB

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AS5040

Data Sheet

Table 3: Magnetic Magnitude Variation Indicator

Note: Pins 1 and 2 (MagINCn, MagDECn) are open drain outputs and require external pull-up resistors. If the

magnetic field is in range, both outputs are turned off.

The two pins may also be combined with a single pull-up resistor. In this case, the signal is high when the magnetic

field is in range. It is low in all other cases (see Table 3).

Even Parity bit for transmission error detection of bits 1…15 (D9…D0, OCF, COF, LIN, MagINCn, MagDECn)

The absolute angular output is always set to a resolution of 10 bit. Placing the magnet above the chip, angular values

increase in clockwise direction by default.

Data D9:D0 is valid, when the status bits have the following configurations:

Table 4: Status Bit Outputs

The absolute angular position is sampled at a rate of 10kHz (0.1ms). This allows reading of all 1024 positions per 360

degrees within 0.1 seconds = 9.76Hz (~10Hz) without skipping any position. Multiplying 10Hz by 60, results the

corresponding maximum rotational speed of 600 rpm.

Readout of every second angular position allows for rotational speeds of up to 1200rpm.

Consequently, increasing the rotational speed reduces the number of absolute angular positions per revolution (see

Table 7). Regardless of the rotational speed or the number of positions to be read out, the absolute angular value is

always given at the highest resolution of 10 bit.

The incremental outputs are not affected by rotational speed restrictions due to the implemented interpolator. The

incremental output signals may be used for high-speed applications with rotational speeds of up to 30,000 rpm without

missing pulses.

Daisy Chain Mode

The Daisy Chain mode allows connection of several AS5040’s in series, while still keeping just one digital input for

data transfer (see “Data IN” in Figure 6 below). This mode is accomplished by connecting the data output (DO; pin 9)

to the data input (Prog; pin 8) of the subsequent device. An RC filter must be implemented between each PROG pin

of device n and DO pin of device n+1, to prevent the encoders to enter the alignment mode, in case of ESD

discharge, long cables, or not conform signal levels or shape. Using the values R=100R and C=1nF allow a max. CLK

frequency of 1MHz on the whole chain. 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, it is

The last data bit of the first device (Parity) is followed by a logic low bit and the first data bit of the second device (D9),

etc… (see Figure 7).

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OCF

INCn

Mag

n * (16+1) bits:

e.g. 34 bit for two devices, 51 bit for three devices, etc…

COF

DECn

Mag

LIN

Description

No distance change; Magnetic input field OK (in range, 45..75mT)

Distance increase: Pull-function. This state is dynamic, it is only active while the magnet is

moving away from the chip in Z-axis

Distance decrease: Push- function. This state is dynamic, it is only active while the magnet is

moving towards the chip in Z.-axis.

Magnetic Input Field invalid – out of range: <45mT or >75mT (or missing magnet)

INCn

Mag

DECn

Mag

Revision 2.10

even checksum of bits

Parity

1:15

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AS5040 PB austriamicrosystems, AS5040 PB Datasheet - Page 11

AS5040 PB

Specifications of AS5040 PB

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