21
21-18
ELECTRICAL CHARACTERISTICS
32180 Group User's Manual (Rev.1.0)
21.5.3 A-D Conversion Characteristics (when VCCE = 3.3 V ± 0.3 V, f(XIN) = 8 MHz)
A-D Conversion Characteristics (Referenced to VCCE, OSC-VCC, VCC-BUS, VDDE = 3.3 V, Ta = –40°C to
125°C Unless Otherwise Noted)
Symbol Parameter Test Condition Rated Value Unit
MIN TYP MAX
– Resolution VREF=VCCE=AVCC 10 bits
– Absolute Without sample- Slow mode Normal speed ±TBD LSB
Accuracy and-hold or Double speed ±TBD
(Note 1) during normal Fast mode Normal speed ±TBD
sample-and-hold Double speed ±TBD
During fast Slow mode Normal speed ±TBD
sample-and Double speed ±TBD
-hold Fast mode Normal speed ±TBD
Double speed ±TBD
TCONV Conversion Without sample- Slow mode Normal speed 18.6875 µs
Time and-hold or Double speed 10.8125
during normal Fast mode Normal speed 8.1875
sample-and-hold Double speed 5.5625
During fast Slow mode Normal speed 11.9375
sample-and Double speed 6.3125
-hold Fast mode Normal speed 5.9375
Double speed 3.3125
IIAN Analog Input Leakage Current (Note 2) AVSS≤ANi≤AVCC -5 5 µA
Note 1: Absolute accuracy refers to the accuracy of output code relative to the analog input including all error sources
(including quantization error) in an A-D converter, and is calculated using the equation below.
Absolute accuracy = output code – (analog input voltage Ani / 1 LSB)
When AVCC = AVREF = 3.072 V, 1 LSB = 3 mV.
Note 2: This refers to the input leakage current on ANi while the A-D converter remains idle.
21.5 Electrical Characteristics when VCCE = 3.3 V, f(XIN) = 8 MHz
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