IC-NVH Datasheet, PDF(7/13 Page) IC-Haus GmbH – 6-BIT Sin/D FLASH CONVERTER

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IC-NVH Datasheet, PDF (7/13 Pages) IC-Haus GmbH – 6-BIT Sin/D FLASH CONVERTER

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iC-NVH

6-BIT Sin/D FLASH CONVERTER

Rev D1, Page 7/13

DESCRIPTION OF FUNCTIONS

Input Amplifiers

Input stages SIN and COS are configured as instrumentation amplifiers. The gain is dependent on the amplitude

of the input signal and set via pins SG0 and SG1 according to the following table. So that the DC level to be

adjusted half of the supply voltage is available at VREF.

GAIN SELECT

SG1

open

SG0

open

Gain

66.667

50.000

33.333

20.000

14.300

10.000

7.125

4.000

3.030

Sine/Cosine Input Signal Levels Vin()

Amplitude

Average value (DC)

differential

up to 60mVpp

up to 80mVpp

up to 120mVpp

up to 0.2Vpp

up to 0.28Vpp

up to 0.4Vpp

up to 0.56Vpp

up to 1Vpp

up to 1.3Vpp

single ended

up to 120mVpp

up to 160mVpp

up to 240mVpp

up to 0.4Vpp

up to 0.56Vpp

up to 0.8Vpp

up to 1.1Vpp

up to 2Vpp

up to 2.6Vpp

differential

0.7V .. VCC-1.2V

1.2V .. VCC-1.2V

0.7V .. VCC-1.3V

1.2V .. VCC-1.3V

1.2V .. VCC-1.4V

1.2V .. VCC-1.6V

1.2V .. VCC-1.7V

single ended

0.7V .. VCC-1.2V

1.2V .. VCC-1.3V

0.8V .. VCC-1.4V

1.3V .. VCC-1.5V

1.4V .. VCC-1.7V

1.6V .. VCC-2.1V

1.8V .. VCC-2.4V

Converter Core, Transition Distance Control

For each of the 64 comparator levels the sine/cosine input signals are calculated according to the theorem of

addition and are fed into single comparators. This procedure guarantees a very high converter frequency yet also

means that consecutive comparators can switch in a very short space of time in the event of input signal

disturbances.

The comparator outputs are thus fed into a transition distance control unit. This monitors the temporal sequence

of the switching operations in such a way that each event is delayed by the length of the settable minimum gap

to the previous event. If no errors arise the transitions pass the control unit without a time delay. Synchronization

with a fixed clock pulse does not occur.

The minimum transition distance is set via an external resistor positioned between RCLK and GNDA. Alterna-

tively, pin RCLK can be shorted to VCC. Depending on the resolution maximum input frequencies of at least

200kHz are then guaranteed (see table of resolution).

Digital Processing Unit

The transition distance control unit is followed by the digital processing unit. This is where the transition events

are converted into a pulse sequence for the incremental outputs A and B. The square-wave signals generated

have a phase shift of +90Â° or -90Â°, depending on the direction of rotation. The phase relation between the

sine/cosine input signals and the A/B output signals can be set using programming pin ROT.

Alternatively, the MSB of the converter can be output to Z when ROT is high. With the zero signal this changes

to high and has the pulse length of half a cycle. This signal can be used to synchronize the high-order tracks of

an absolute-value encoder device.

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