IC-TW8_13 Datasheet, PDF(50/63 Page) IC-Haus GmbH – 16-BIT SIN/COS INTERPOLATOR WITH AUTO-CALIBRATION

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IC-TW8_13 Datasheet, PDF (50/63 Pages) IC-Haus GmbH – 16-BIT SIN/COS INTERPOLATOR WITH AUTO-CALIBRATION

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iC-TW8 16-BIT SIN/COS INTERPOLATOR

Serial Configuration Mode

preliminary

Jan 9, 2013 Page SC23/36

eration above the maximum speed shown on the AB

Configuration tab (see page 18). It is recommended

to configure fatal operational faults to latch the

FAULT output as they can result in erroneous inter-

polator output.

An operational warning is active if the instantaneous

sensor input velocity is greater than the maximum

speed or warning fault speed shown on the AB con-

figuration tab (see page 18). Interpolator output is

still correct while an operational warning is active.

Maximum speed is determined by the desired speed

limit (see page 18) while the warning fault speed is

always half the fatal fault speed. If operational

warnings are treated as faults, they can be config-

ured to activate or latch the FAULT output. If op-

erational warnings are not treated as faults, they are

ignored. It is recommended to configure operational

warnings to be treated as faults but not to latch the

FAULT output so that the FAULT output is de-

activated when the condition is resolved.

resolution for the adaption limits is available if the

adaption quality monitor is also used (see page 24).

If adaption faults are not used, the design tool sets

the adaption limits to their highest possible (actual)

values to avoid ever stopping auto adaption. Since

an adaption fault always latches the FAULT output

and stops auto adaption if adaption faults are used, it

is recommended not to use adaption faults without

precise knowledge of how the parameters adapt un-

der all operating conditions. Adaption faults are

cleared at restart when valid startup values for the

parameters are read from the EEPROM.

Finally, the design tool summarizes the conditions

that activate the FAULT output, the conditions that

latch the FAULT output, and the conditions that are

ignored. Latched faults are cleared by restarting the

iC-TW8 or by writing to the STAT_SP, STAT_EE,

or FLT_STAT registers using one of the serial ports

(see Programmerâs Reference).

An ADC fault is active if the signal input level to

the analog-to-digital converters in the AB signal

path (see page 5) is outside defined operational lim-

its. The upper signal level (called ADC overflow) is

fixed at 1.5V, which is 106% of the nominal signal

level into the ADC.

The lower signal level (called ADC underflow) can

be set between 10% and 100% of nominal signal

level or left at the default (10%). Enter the desired

ADC underflow level and the design tool confirms

the closest possible (actual) level. Less resolution

for the ADC underflow level is available if the ADC

quality monitor is used (see page 23).

ADC overflow and underflow faults are not fatal,

but interpolation accuracy is reduced when operat-

ing under these conditions. Therefore, it is recom-

mended not to latch ADC faults, but to stop auto

adaption when an ADC fault is active. This prevents

auto adaption from overcompensating for an out-of-

range input signal and de-activates the FAULT out-

put when the input signal is back in range.

If adaption faults are used, enter the desired maxi-

mum adaption values for offset, gain match, and

phase. The design tool confirms the closest possible

(actual) values. When any of these levels is exceed-

ed, adaption of the corresponding parameter stops

and an adaption fault is activated (see page 21). Less

ADC Quality Monitor

If Set ADC Underflow? = No in the FAULT Pin

Configuration tab, the ADC Quality Monitor tab can

be ignored in its entirety. If Set ADC Underflow? =

Yes in the FAULT Pin Configuration tab, use the

ADC Quality Monitor tab to enable or disable the

ADC quality monitor. If the ADC quality monitor is

not used, the remainder of the ADC Quality Monitor

tab may be ignored.

If the ADC quality monitor is used, enter the desired

ADC quality threshold level. This is the ADC level

in percent of nominal signal input amplitude that is

considered to be the boundary between acceptable

and marginal signal level for the application. The

design tool shows the closest possible (actual) ADC

quality threshold level and the desired and actual

ADC underflow fault levels from the FAULT Pin

Configuration tab.

In operation, the iC-TW8 continuously calculates

the variable QM_ADC as a value between 0 (ADC

level > ADC quality threshold) and 255 (ADC level

â¤ ADC underflow level). Between the quality

threshold level and the underflow level, QM_ADC

is inversely proportional to the ADC level as shown

in the design tool graph. Thus, QM_ADC indicates

the relative quality (signal amplitude) of the input

signal. QM_ADC is a component of the PWM sig-

nal that drives the STATUS output (pin 19) for ex-

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