UPD78F1502AGK-GAK-AX Datasheet, PDF(428/1031 Page) Renesas Technology Corp – 16-Bit Single-Chip Microcontrollers

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UPD78F1502AGK-GAK-AX Datasheet, PDF (428/1031 Pages) Renesas Technology Corp – 16-Bit Single-Chip Microcontrollers

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78K0R/Lx3

CHAPTER 10 12-BIT A/D CONVERTER (Î¼ PD78F150xA),

10-BIT A/D CONVERTER (Î¼ PD78F151xA)

10.5 How to Read A/D Converter Characteristics Table

Here, special terms unique to the A/D converter are explained.

(1) Resolution

This is the minimum analog input voltage that can be identified. That is, the percentage of the analog input voltage

per bit of digital output is called 1LSB (Least Significant Bit). The percentage of 1LSB with respect to the full scale is

expressed by %FSR (Full Scale Range).

1LSB is as follows when the resolution is 12 bits.

1LSB = 1/212 = 1/4096

<R>

= 0.024 %FSR

Accuracy has no relation to resolution, but is determined by overall error.

(2) Overall error

This shows the maximum error value between the actual measured value and the theoretical value.

Zero-scale error, full-scale error, integral linearity error, and differential linearity errors that are combinations of these

express the overall error.

Note that the quantization error is not included in the overall error in the characteristics table.

(3) Quantization error

When analog values are converted to digital values, a Â±1/2LSB error naturally occurs. In an A/D converter, an analog

input voltage in a range of Â±1/2LSB is converted to the same digital code, so a quantization error cannot be avoided.

Note that the quantization error is not included in the overall error, zero-scale error, full-scale error, integral linearity

error, and differential linearity error in the characteristics table.

Figure 10-22. Overall Error

Figure 10-23. Quantization Error

1......1

1......1

Ideal line

Overall

error

1/2LSB

Quantization error

1/2LSB

0......0

0

Analog input

AVREF

0......0

0

Analog input

AVREF

(4) Zero-scale error

This shows the difference between the actual measurement value of the analog input voltage and the theoretical

value (1/2LSB) when the digital output changes from 0......000 to 0......001.

If the actual measurement value is greater than the theoretical value, it shows the difference between the actual

measurement value of the analog input voltage and the theoretical value (3/2LSB) when the digital output changes

from 0â¦â¦001 to 0â¦â¦010.

R01UH0004EJ0501 Rev.5.01

412

Jun 20, 2011

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