M16C62P_06 Datasheet, PDF(40/421 Page) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY / M16C/60 SERIES

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M16C62P_06 Datasheet, PDF (40/421 Pages) Renesas Technology Corp – 16-BIT SINGLE-CHIP MICROCOMPUTER M16C FAMILY / M16C/60 SERIES

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M16C/62P Group (M16C/62P, M16C/62PT)

1. Overview

1.6 Pin Description

Table 1.17 Pin Description (100-pin and 128-pin Version) (1)

Signal Name

Power supply

input

Analog power

supply input

Reset input

CNVSS

External data

bus width

select input

Bus control

pins (4)

Pin Name

VCC1,VCC2

VSS

AVCC

AVSS

RESET

CNVSS

BYTE

D0 to D7

D8 to D15

A0 to A19

A0/D0 to

A7/D7

A1/D0 to

A8/D7

I/O Power

Type Supply(3)

Description

I

â Apply 2.7 to 5.5 V to the VCC1 and VCC2 pins and 0 V to the VSS

pin. The VCC apply condition is that VCC1 â¥ VCC2. (1, 2)

I

VCC1 Applies the power supply for the A/D converter. Connect the AVCC

pin to VCC1. Connect the AVSS pin to VSS.

I

VCC1 The microcomputer is in a reset state when applying âLâ to the this pin.

I

VCC1 Switches processor mode. Connect this pin to VSS to when after

a reset to start up in single-chip mode. Connect this pin to VCC1 to

start up in microprocessor mode.

I

VCC1 Switches the data bus in external memory space. The data bus is

16 bits long when the this pin is held "L" and 8 bits long when the

this pin is held "H". Set it to either one. Connect this pin to VSS

when an single-chip mode.

I/O VCC2 Inputs and outputs data (D0 to D7) when these pins are set as the

separate bus.

I/O VCC2 Inputs and outputs data (D8 to D15) when external 16-bit data bus

is set as the separate bus.

O VCC2 Output address bits (A0 to A19).

I/O VCC2 Input and output data (D0 to D7) and output address bits (A0 to A7) by

timesharing when external 8-bit data bus are set as the multiplexed bus.

I/O VCC2 Input and output data (D0 to D7) and output address bits (A1 to A8)

by timesharing when external 16-bit data bus are set as the

multiplexed bus.

CS0 to CS3 O

VCC2 Output CS0 to CS3 signals. CS0 to CS3 are chip-select signals to

specify an external space.

WRL/WR

O VCC2 Output WRL, WRH, (WR, BHE), RD signals. WRL and WRH or

WRH/BHE

BHE and WR can be switched by program.

RD

â¢ WRL, WRH and RD are selected

The WRL signal becomes "L" by writing data to an even address in

an external memory space.

The WRH signal becomes "L" by writing data to an odd address in

an external memory space.

The RD pin signal becomes "L" by reading data in an external

memory space.

â¢ WR, BHE and RD are selected

The WR signal becomes "L" by writing data in an external memory space.

The RD signal becomes "L" by reading data in an external memory space.

The BHE signal becomes "L" by accessing an odd address.

Select WR, BHE and RD for an external 8-bit data bus.

ALE

O VCC2 ALE is a signal to latch the address.

HOLD

I

VCC2 While the HOLD pin is held "L", the microcomputer is placed in a

hold state.

HLDA

O VCC2 In a hold state, HLDA outputs a "L" signal.

RDY

I

VCC2 While applying a "L" signal to the RDY pin, the microcomputer is

placed in a wait state.

I : Input O : Output I/O : Input and output

Power Supply : Power supplies which relate to the external bus pins are separated as VCC2, thus they can be

interfaced using the different voltage as VCC1.

NOTES:

1. In this manual, hereafter, VCC refers to VCC1 unless otherwise noted.

2. In M16C/62PT, apply 4.0 to 5.5 V to the VCC1 and VCC2 pins. Also the apply condition is that VCC1 = VCC2.

3. When use VCC1 > VCC2, contacts due to some points or restrictions to be checked.

4. Bus control pins in M16C/62PT cannot be used.

Rev.2.41 Jan 10, 2006 Page 25 of 390

REJ09B0185-0241

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