Network Device User Guide
Device User Guide — 9S12C128DGV1/D V01.05
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B.4.4 ATD accuracy (5V Range)
Table B-6 specifies the ATD conversion performance excluding any errors due to current injection, input
capacitance and source resistance.
B.4.5 ATD accuracy (3.3V Range)
Table B-6 specifies the ATD conversion performance excluding any errors due to current injection, input
capacitance and source resistance.
Table B-6 ATD Conversion Performance
Conditions are shown in Table A-4 unless otherwise noted
V
REF
= V
RH
- V
RL
= 5.12V. Resulting to one 8 bit count = 20mV and one 10 bit count = 5mV
f
ATDCLK
= 2.0MHz
Num C Rating Symbol Min Typ Max Unit
1 P 10-Bit Resolution LSB 5 mV
2 P 10-Bit Differential Nonlinearity DNL –1 1 Counts
3 P 10-Bit Integral Nonlinearity INL –2 2 Counts
4P
10-Bit Absolute Error
1
NOTES:
1. These values include quantization error which is inherently 1/2 count for any A/D converter.
AE -2.5 2.5 Counts
5 P 8-Bit Resolution LSB 20 mV
6 P 8-Bit Differential Nonlinearity DNL –0.5 0.5 Counts
7 P 8-Bit Integral Nonlinearity INL –1.0 ±0.5 1.0 Counts
8P
8-Bit Absolute Error
(1)
AE -1.5 ±1 1.5 Counts
Table B-7 ATD Conversion Performance
Conditions are shown in Table A-4 unless otherwise noted
V
REF
= V
RH
- V
RL
= 3.328V. Resulting to one 8 bit count = 13mV and one 10 bit count = 3.25mV
f
ATDCLK
= 2.0MHz
Num C Rating Symbol Min Typ Max Unit
1 P 10-Bit Resolution LSB 3.25 mV
2 P 10-Bit Differential Nonlinearity DNL –1.5 1.5 Counts
3 P 10-Bit Integral Nonlinearity INL –3.5 ±1.5 3.5 Counts
4P
10-Bit Absolute Error
1
NOTES:
1. These values include the quantization error which is inherently 1/2 count for any A/D converter.
AE -5 ±2.5 5 Counts
5 P 8-Bit Resolution LSB 13 mV
6 P 8-Bit Differential Nonlinearity DNL –0.5 0.5 Counts
7 P 8-Bit Integral Nonlinearity INL –1.5 ±1 1.5 Counts
8P
8-Bit Absolute Error
(1)
AE -2.0 ±1.5 2.0 Counts