TMPM362F10FG Toshiba, TMPM362F10FG Datasheet - Page 691

TMPM362F10FG

Manufacturer Part Number

TMPM362F10FG

Description

32BIT MICROCONTROLLER

Manufacturer

Toshiba

Series

TX03r

Datasheet

1.TMPM362F10FG.pdf (744 pages)

Specifications of TMPM362F10FG

Core Processor

ARM® Cortex-M3™

Core Size

32-Bit

Speed

64MHz

Connectivity

I²C, Microwire, SIO, SPI, SSP, UART/USART

Peripherals

DMA, WDT

Program Memory Size

1MB (1M x 8)

Program Memory Type

FLASH

Ram Size

64K x 8

Voltage - Supply (vcc/vdd)

2.7 V ~ 3.6 V

Data Converters

A/D 16x10b

Package / Case

144-LQFP

Processor Series

TX03

Core

ARM Cortex M3

3rd Party Development Tools

MDK-ARM, RL-ARM, ULINK2

Product Summaries

Summary

Lead Free

Yes

Rohs Compatible Product(s)

Available

Rom (kbytes)

1024K

Rom Type

Flash

Ram (kbytes)

64K

Number Of Pins

144

Package

LQFP(20x20)

Vcc

Cpu Mhz

Ssp (ch) Spi

I2c/sio (ch)

Uart/sio (ch)

Usb

Can

Ethernet

External Bus Interface

Cs/wait Controller (ch)

Dma Controller

10-bit Da Converter

10-bit Ad Converter

12-bit Ad Converter

16-bit Timer / Counter

Motor / Igbt Control

Real Time Clock

Watchdog Timer

Osc Freq Detect

Clock Gear

Low-power Hold Function

Remote Control Interface

Hardware Cec Controller

Comparators

Low-voltage Detector

Etm Hardware Trace

4-bit

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Operating Temperature

Number Of I /o

Eeprom Size

Oscillator Type

Lead Free Status / Rohs Status

Details

Other names

Q5704184A

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

TMPM362F10FG

Manufacturer:

Freescale

Quantity:

488

Company:

BOSTOCK HK LIMITED

Part Number:

TMPM362F10FG(C)

Manufacturer:

Toshiba

Quantity:

10 000

Current page: 691 of 744
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22.3.1.3

22.3.1.4

bly terminated during auto programming/erasing or abnormal termination in the automatic operation.

fore, when the RESET input pin of this device is set to VIL or when the CPU is reset due to any over-

flow of the watch dog timer, the flash memory will return to the read mode terminating any automatic op-

eration that may be in progress. It should also be noted that applying a hardware reset during an automat-

ic operation can result in incorrect rewriting of data. In such a case, be sure to perform the rewriting again.

will read the reset vector data from the flash memory and starts operation after the reset is removed.

(1)

A hardware reset is used to cancel the operational mode set by the command write operation when forci-

The flash memory has a reset input as the memory block and it is connected to the CPU reset signal. There-

Refer to Section "1.2.1 Reset Operation" for CPU reset operations. After a given reset input, the CPU

Reset (Hardware reset)

Commands

not be changed to a "1" data cell. For changing "0" data cells to "1" data cells, it is necessary to per-

form an erase operation.

TMPM362F10FG contains 128 words in a page. A 128 word block is defined by the same [31:9] ad-

dress. It starts from the address [8:0] = 0x00 and ends at the address [8:0] = 0x1FF. This program-

ming unit is hereafter referred to as a "page".

by the CPU is required. The state of automatic page programming (whether it is in writing opera-

tion or not) can be checked by FCFLCS [0] <RDY/BSY>.

mode. If it is desired to interrupt the automatic page programming, use the hardware reset function.

If the operation is stopped by a hardware reset operation, it is necessary to once erase the page and

then perform the automatic page programming again because writing to the page has not been normal-

ly terminated.

gramming can be performed twice or more. Note that rewriting to a page that has been once written

requires execution of the automatic block erase or automatic chip erase command before executing

the automatic page programming command again. Note that an attempt to rewrite a page two or

more times without erasing the content may cause damages to the device.

grammed to confirm that it has been correctly written.

cycle is completed. After the fifth bus write cycle, data will be written sequentially starting from

the next address of the address specified in the fourth bus write cycle (in the fourth bus write cycle,

the page top address will be command written) (32 bits of data is input at one time). Be sure to use

Note 3: For the command sequencer to recognize a command, the device must be in the read

Note 4: Upon issuing a command, if any address or data is incorrectly written, be sure to per-

Writing to a flash memory device is to change "1" data cells to "0" data cells. Any "0" data cell can-

The automatic page programming function of this device writes data of each page. The

Writing to data cells is automatically performed by an internal sequencer and no external control

Also, any new command sequence is not accepted while it is in the automatic page programming

The automatic page programming operation is allowed only once for a page already erased. No pro-

No automatic verify operation is performed internally to the device. So, be sure to read the data pro-

The automatic page programming operation starts when the third bus write cycle of the command

Automatic Page Program

the command. While it may cause an abnormal termination of the command sequence,

it also may cause an incorrect recognition of the command.

mode prior to executing the command. Be sure to check before the first bus write cycle

where FCFLCS <RDY / BSY> is set to "1". It is recommended to subsequently execute a

Read command.

form a software reset to return to the read mode again.

Page 667

TMPM362F10FG

TMPM362F10FG Toshiba, TMPM362F10FG Datasheet - Page 691

TMPM362F10FG

Specifications of TMPM362F10FG

Available stocks

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