M306N4FGTFP#U0 Renesas Electronics America, M306N4FGTFP#U0 Datasheet - Page 232

M306N4FGTFP#U0

Manufacturer Part Number

M306N4FGTFP#U0

Description

MCU 5V 256K T-TEMP PB-FREE 100-Q

Manufacturer

Renesas Electronics America

Series

M16C™ M16C/6Nr

Datasheets

1.M306N4FGGPU3.pdf (94 pages)

2.M306N4FGGPU3.pdf (414 pages)

Specifications of M306N4FGTFP#U0

Core Processor

M16C/60

Core Size

16-Bit

Speed

20MHz

Connectivity

CAN, I²C, IEBus, SIO, UART/USART

Peripherals

DMA, WDT

Number Of I /o

Program Memory Size

256KB (256K x 8)

Program Memory Type

FLASH

Ram Size

10K x 8

Voltage - Supply (vcc/vdd)

4.2 V ~ 5.5 V

Data Converters

A/D 26x10b; D/A 2x8b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

100-QFP

For Use With

R0K3306NKS001BE - KIT DEV RSK RSK-M16C/6NKR0K3306NKS000BE - KIT DEV RSK RSK-M16C/6NK

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

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M16C/6N Group (M16C/6N4)

Rev.2.40

REJ09B0009-0240

16.2.5 Current Consumption Reducing Function

16.2.6 Output Impedance of Sensor under A/D Conversion

When not using the A/D converter, its resistor ladder and reference voltage input pin (VREF) can be

separated using the VCUT bit in the ADCON1 register. When separated, no current will flow from the

VREF pin into the resistor ladder, helping to reduce the power consumption of the chip.

To use the A/D converter, set the VCUT bit to 1 (VREF connected) and then set the ADST bit in the

ADCON0 register to 1 (A/D conversion start). The VCUT and ADST bits cannot be set to 1 at the same time.

Nor can the VCUT bit be set to 0 (VREF unconnected) during A/D conversion.

Note that this does not affect VREF for the D/A converter (irrelevant).

To carry out A/D conversion properly, charging the internal capacitor C shown in Figure 16.10 has to be

completed within a specified period of time. T (sampling time) as the specified time. Let output impedance

of sensor equivalent circuit be R0, internal resistance of MCU be R, precision (error) of the A/D converter

be X, and the resolution of A/D converter be Y (Y is 1024 in 10-bit mode, and 256 in 8-bit mode).

Figure 16.10 shows the Analog Input Pin and External Sensor Equivalent Circuit.

When the difference between VIN and VC becomes 0.1 LSB, we find impedance R0 when voltage

between pins VC changes from 0 to VIN-(0.1/1024) VIN in time T. (0.1/1024) means that A/D precision

drop due to insufficient capacitor charge is held to 0.1 LSB at time of A/D conversion in 10-bit mode.

Actual error however is the value of absolute precision added to 0.1 LSB.

When f(φAD) = 10 MHz, T = 0.3 µs in the A/D conversion mode with sample & hold. Output impedance R0

for sufficiently charging capacitor C within time T is determined as follows.

Thus, the allowable output impedance of the sensor equivalent circuit, making the precision (error) 0.1

LSB or less, is approximately 13.9 kΩ. maximum.

Apr 14, 2006

VC is generally VC = VIN {1 – e

And when t = T,

Hence, R0 = –

T = 0.3 µs, R = 7.8 kΩ, C = 1.5 pF, X = 0.1, and Y = 1024. Hence,

R0 = –

1.5 ✕ 10

page 208 of 376

0.3 ✕ 10

C • ln

–12

VC=VIN –

–

• ln

–

C (R0 + R)

-6

C (R0 + R)

1024

0.1

– R

–

T = ln

–7.8 ✕10

VIN = VIN(1 –

C (R0 + R)

= 13.9 ✕ 10

}

)

16. A/D Converter

M306N4FGTFP#U0 Renesas Electronics America, M306N4FGTFP#U0 Datasheet - Page 232

M306N4FGTFP#U0

Specifications of M306N4FGTFP#U0

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