RX24U Datasheet, PDF(110/131 Page) Renesas Technology Corp

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RX24U Datasheet, PDF (110/131 Pages) Renesas Technology Corp – 32-bit RXv2 CPU core

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RX24U Group

5. Electrical Characteristics

FFFh

Full-scale error

A/D converter

output code

Integral nonlinearity

error (INL)

Actual A/D conversion

characteristic

Ideal line of actual A/D

conversion characteristic

Ideal A/D conversion

characteristic

Differential nonlinearity error (DNL)

1-LSB width for ideal A/D

conversion characteristic

Differential nonlinearity error (DNL)

1-LSB width for ideal A/D

conversion characteristic

Absolute accuracy

000h

Offset error

Analog input voltage

Figure 5.51 Illustration of A/D Converter Characteristic Terms

AVCCn ( = VREFHn) (n = 0 to 2)

(full-scale)

Absolute accuracy

Absolute accuracy is the difference between output code based on the theoretical A/D conversion characteristics, and the

actual A/D conversion result. When measuring absolute accuracy, the voltage at the midpoint of the width of analog

input voltage (1-LSB width), that can meet the expectation of outputting an equal code based on the theoretical A/D

conversion characteristics, is used as an analog input voltage. For example, if 12-bit resolution is used and if reference

voltage (AVCCn ( = VREFHn) (n = 0 to 2)) is 3.072 V, then 1-LSB width becomes 0.75 mV, and 0 mV, 0.75 mV, 1.5 mV,

... are used as analog input voltages.

If analog input voltage is 6 mV, absolute accuracy = Â±5 LSB means that the actual A/D conversion result is in the range

of 003h to 00Dh though an output code, 008h, can be expected from the theoretical A/D conversion characteristics.

Integral nonlinearity error (INL)

Integral nonlinearity error is the maximum deviation between the ideal line when the measured offset and full-scale

errors are zeroed, and the actual output code.

R01DS0278EJ0100 Rev.1.00

Mar 31, 2017

Page 110 of 131

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