TMPA901CMXBG Toshiba, TMPA901CMXBG Datasheet - Page 280

TMPA901CMXBG

Manufacturer Part Number

TMPA901CMXBG

Description

Microcontrollers (MCU) 32-bit RISC MCU 16kb ARM926EJ 16kb 200Mhz

Manufacturer

Toshiba

Datasheet

1.TMPA901CMXBG.pdf (858 pages)

Specifications of TMPA901CMXBG

Product Summaries

Summary

Lead Free

Yes

Rohs Compatible Product(s)

Available

Rom (kbytes)

Rom Type

ROMless

Ram (kbytes)

Number Of Pins

177

Package

BGA

Vcc

Tft Lcd Controller

Touchscreen Controller

Usb Host Fs With Phy

Usb Device Hs With Phy

Sd Host Controller

Cmos Image Sensor Interface

I2s

Ssp (ch) Spi

I2mc/sio (ch)

Uart/sio (ch)

External Bus Interface

Cs/wait Controller (ch)

Dma Controller

10-bit Ad Converter

12-bit Da Converter

16-bit Timer / Counter

Real Time Clock

Watchdog Timer

Osc Freq Detect

Low-power Modes

Lead Free Status / Rohs Status

Details

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

TMPA901CMXBG

Manufacturer:

Toshiba

Quantity:

10 000

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Number of Error

Maximum number of

correctable errors

Number of ECC bits

Error bit detection

method

Error bit correction

method

Error bit detection time

Others

3.11.4.1 Difference between Hamming Code ECC Calculation Method and Reed-Solomon ECC

Table 3.11.1 Differences between Hamming Code ECC Calculation Method and

Bits

ECC for every 256 bytes of valid data and is capable of detecting and correcting a

single-bit error for every 256 bytes. Error bit detection calculation and correction must

be implemented by software.

of ECC for every 1 byte to 512 bytes of valid data and is capable of detecting and

correcting error bits at 4-symbol for every 512 bytes. Although the Reed-Solomon ECC

calculation method needs error bit correction to be implemented by software as in the

case of the Hamming Code ECC calculation method, error bit detection calculation is

supported by hardware.

Reed-Solomon ECC calculation method are summarized in Table 3.11.1

Calculation Method

The NDFC includes an ECC generator supporting 2LC and 4LC.

The ECC calculation using Hamming codes (supporting 2LC) generates 22 bits of

When using Smart Media, Hamming codes should be used.

The ECC calculation using Reed-Solomon codes (supporting 4LC) generates 80 bits

The

differences

813 (max)

648 (max)

358 (max)

219 (max)

Reed-Solomon Error

Bit Detection Time

1-bit

22 bits/256 bytes

Supported by software.

Supported by software, so it depends

on how the software is made.

Supports SmartMedia.

(Units: HCLK)

Reed-Solomon ECC Calculation Method

Hamming

between

TMPA901CM- 279

Hamming

These values indicate the total number of clocks for

detecting error bit(s) but do not include the register

read/write time by the CPU.

4-symbol

(All the 8 bits at one symbol are correctable.)

80 bits / up to 512 bytes

Detected by hardware.

Supported by software.

See the table below.

－

Code

Remarks

ECC

Reed Solomon

calculation

TMPA901CM

method

2010-07-29

and

TMPA901CMXBG Toshiba, TMPA901CMXBG Datasheet - Page 280

TMPA901CMXBG

Specifications of TMPA901CMXBG

Available stocks

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