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4513_03 Datasheet, PDF (54/210 Pages) Renesas Technology Corp – 4-BIT SINGLE-CHIP MICROCOMPUTER
HARDWARE
FUNCTION BLOCK OPERATIONS
A-D CONVERTER
The 4513/4514 Group has a built-in A-D conversion circuit that
performs conversion by 10-bit successive comparison method.
Table 14 shows the characteristics of this A-D converter. This A-
D converter can also be used as an 8-bit comparator to compare
analog voltages input from the analog input pin with preset val-
ues.
Table 14 A-D converter characteristics
Parameter
Characteristics
Conversion format Successive comparison method
Resolution
10 bits
Relative accuracy Linearity error: ±2LSB
Non-linearity error: ±0.9LSB
Conversion speed 46.5 µs (High-speed mode at 4.0 MHz
oscillation frequency)
Analog input pin
4 for 4513 Group
8 for 4514 Group
Register B (4)
IAP4
(P40—P43)
OP4A
(P40—P43)
(Note 3)
AIN0/CMP0-
AIN1/CMP0+
AIN2/CMP1-
AIN3/CMP1+
P40/AIN4
P41/AIN5
P42/AIN6
P43/AIN7
TAQ2
TQ2A
TAQ1
TQ1A
Q23 Q22 Q21 Q20 Q13 Q12 Q11 Q10
Register A (4)
Instruction clock
1/6
2
TALA
44
44
8
TABAD
8
TADAB
3
Q23
0
A-D control circuit
1
ADF
(1)
A-D interrupt
Comparator
1
0
Q23
Successive comparison
register (AD) (10)
10
10
DAC
operation
signal
01
Q23
8
DA converter
(Note 1)
VSS
Comparator register (8)
VDD
(Note 2)
Q23
8
01
1
88
Notes 1: This switch is turned ON only when A-D converter is operating and generates the comparison voltage.
2: Writing/reading data to the comparator register is possible only in the comparator mode (Q23=1).
The value of the comparator register is retained even when the mode is switched to the A-D conversion
mode (Q23=0) because it is separated from the successive comparison register (AD). Also, the resolution in
the comparator mode is 8 bits because the comparator register consists of 8 bits.
3: The 4513 Group does not have ports P40/AIN4–P43/AIN7 and the IAP4 and OP4A instructions.
Fig. 26 A-D conversion circuit structure
4513/4514 Group User’s Manual
1-41