TMP89xy60UG/FG Toshiba, TMP89xy60UG/FG Datasheet - Page 409

TMP89xy60UG/FG

Manufacturer Part Number

TMP89xy60UG/FG

Description

Manufacturer

Toshiba

Datasheet

1.TMP89XY60UGFG.pdf (432 pages)

Specifications of TMP89xy60UG/FG

Package

LQFP64/QFP64

Rom Types (m=mask,p=otp,f=flash)

M/F

Rom Size

32/60

Ram Size

Driver Led

Driver Lcd

Spi/sio Channels

Uart/sio Channels

I2c/sio Channels

High-speed Serial Output

Adc 8-bit Channels

Adc 10-bit Channels

Da Converter Channels

Timer Counter 18-bit Channel

Timer Counter 16-bit Channel

Timer Counter 8-bit Channel

Motor Channels

Watchdog Timer

Dual Clock

Clock Gear

Number Of I/o Ports

Power Supply (v)

4.3 to 5.5

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RA000

23. On-chip Debug Function (OCD)

23.1

23.2

Table 23-1 Pins Used for the On-chip Debug Function

OCDCK

OCDIO

RESET

MODE

VDD

VSS

Input and output ports other than

P20 and P21

XIN

XOUT

debug emulator RTE870/C1, the user is able to perform software debugging in the on-board environment. This em-

ulator can be operated from a debugger installed on a PC so that the emulation and debugging functions of an application

program can be used to modify a program or for other purposes.

to the on-chip debug function. For more detailed information on how to use the on-chip debug emulator RTE870/C1,

refer to the emulator operating manual.

control. The pins used for the on-chip debug function are shown in Table 23-1.

Chip Debug Emulator is used, therefore, Ports P20 and P21 cannot be debugged as port pins or UART0 and SIO0

pins.

(during on-chip debugging)

The TMP89FS60 has an on-chip debug function. Using a combination of this function and the TOSHIBA on-chip

This chapter describes the control pins needed to use the on-chip debug function and how a target system is connected

The on-chip debug function of the TMP89FS60 has the following features:

The on-chip debug function uses two pins for communication and four pins for power supply, reset and mode

Ports P20 and P21 are used as communication control pins of the on-chip debug function. If the RTE870/C1 On-

Note 1: To use all on-chip debug functions, the power supply voltage must be within the range 4.5 V to 5.5 V. If it is within the

Features

Control Pins

・ Debugging can be performed in much the same way as when a microcontroller packaged with the MCU is

・ The debugging function can be realized using two communication control pins.

・ Useful on-chip debug functions include the following:

・ Built-in flash memory can be erased and written.

Pin name

used.

range 2.7 V to 4.5 V, functional limitations occur with some of the debug functions. For more detailed information, refer

to the emulator operating manual.

8 breaks function are provided (one of which can also be used as an event function).

A trace function that allows the newest two branch instructions to be stored in real time is provided.

Functions to display active memory and to overwrite active memory are provided.

Power sup-

Input/out-

Output

Input

put

I/O

ply

Communication control pin (clock control)

Communication control pin (data control)

Reset control pin

Mode control pin

4.5 V to 5.5 V (Note 1)

0 V

Can be used for an application in a target system

To be connected to an oscillator to put these pins in a state of self-oscillation

Page 393

Function

(Note 1)

P20 / TXD0 / SO0

P21 / RXD0 / SI0

RESET

MODE

(in MCU mode)

TMP89FS60

Pin name

TMP89xy60UG/FG Toshiba, TMP89xy60UG/FG Datasheet - Page 409

TMP89xy60UG/FG

Specifications of TMP89xy60UG/FG

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