M16C5L_15 Datasheet, PDF(60/116 Page) Renesas Technology Corp

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M16C5L_15 Datasheet, PDF (60/116 Pages) Renesas Technology Corp – RENESAS MCU

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M16C/5L Group, M16C/56 Group

5. Electrical Characteristics

J-Version

5.1.3 A/D Conversion Characteristics

Table 5.4 A/D Conversion Characteristics (1)

VCC = AVCC = VREF = 3.0 to 5.5 V, VSS = AVSS = 0 V at Topr = -40Â°C to 85Â°C unless otherwise specified.

Symbol

Parameter

Measuring Condition

Standard

Unit

Min. Typ. Max.

ââ

INL

ââ

ÏAD

ââ

Resolution

Integral non-linearity error

Absolute accuracy

A/D operating clock frequency

Tolerance level impedance

VREF = VCC

VREF = VCC = 5.0 V (2)

VREF = VCC = 3.3 V (2)

VREF = VCC = 5.0 V (2)

VREF = VCC = 3.3 V (2)

4.0 V â¤ VCC â¤ 5.5 V

3.2 V â¤ VCC â¤ 4.0 V

3.0 V â¤ VCC â¤ 3.2 V

10 Bits

Â±3 LSB

Â±5 LSB

Â±3 LSB

Â±5 LSB

25 MHz

16 MHz

10 MHz

kÎ©

DNL

Differential non-linearity error

See note 2

ââ

Offset error

See note 2

Â±1 LSB

Â±3 LSB

ââ

Gain error

See note 2

Â±3 LSB

tCONV 10-bit conversion time

VREF = VCC = 5V,

ÏAD = 25 MHz

1.60

Î¼s

tSAMP

VREF

VIA

Sampling time

Reference voltage

Analog input voltage (3)

0.6

Î¼s

3.0

VCC

VREF

Notes:

1. Use when AVCC = VCC

2. Flash memory rewrite disabled. Except for the analog input pin, set the pins to be measured as input

ports and connect them to VSS. See Figure 5.3 âA/D Accuracy Measure Circuitâ.

3. When analog input voltage is over reference voltage, the result of A/D conversion is 3FFh.

P0 to P10

Analog input

AN: One of the analog input pin

P0 to P10: I/O pins other than AN

Figure 5.3 A/D Accuracy Measure Circuit

R01DS0035EJ0110 Rev.1.10

Sep 01, 2011

Page 60 of 112

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