TMP92CF26AXBG Toshiba, TMP92CF26AXBG Datasheet - Page 251

TMP92CF26AXBG

Manufacturer Part Number

TMP92CF26AXBG

Description

Microcontrollers (MCU) TLCS-900/H1 ROMLESS 144KB RAM

Manufacturer

Toshiba

Datasheet

1.TMP92CF26AXBG.pdf (767 pages)

Specifications of TMP92CF26AXBG

Processor Series

TLCS-900

Core

900/H

Data Bus Width

16 bit

Program Memory Type

ROM

Program Memory Size

8 KB

Data Ram Size

144 KB

Interface Type

I2C, I2S, UART, USB

Maximum Clock Frequency

80 MHz

Number Of Programmable I/os

136

Number Of Timers

Maximum Operating Temperature

+ 50 C

Mounting Style

SMD/SMT

Package / Case

FBGA-228

Development Tools By Supplier

BM1040R0A, BM1055R0B, SW96CN0-ZCC, SW00MN0-ZCC

Minimum Operating Temperature

0 C

On-chip Adc

10 bit, 6 Channel

Lead Free Status / Rohs Status

Details

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(d) <CE1:0>, <CLE>, <ALE>

(e) <WE>

(f)

(g) <RSESTA>

(h) <RSEDN>

Note 1: Valid data and ECC cannot be read continuously by DMA transfer. After valid data has been read, DMA

Note 2: Immediately after ECC is read from the NAND Flash, the NAND Flash access operation or error bit

generator (to set <ECCRST> to “1”), the ECC generator must be enabled (<ECCE> = “1”).

codes to control the pins of the NAND Flash memory.

write operations.

this bit should be set to “0”.

valid data or ECC is to be read. This control is implemented by software using this bit.

the redundant area in the NAND Flash, set <RSECGW> to “1”.

generated from the ECC for written data and the ECC for read data. Setting <RSESTA> to

“1” starts this calculation.

bit should be set to “0”.

read from the NDECCRDn register is written to the redundant area in the NAND Flash.

For a read operation, this bit should be set to “1” (decode). In this case, valid data is read

from the NAND Flash and the ECC written in the redundant area is also read to generate

an intermediate code for calculating the error address and error bit position.

The <RSEDN> bit is used only for Reed-Solomon codes. When using Hamming codes, this

For a write operation, this bit should be set to “0” (encode) to generate ECC. The ECC

The <ECCE> bit is used for both Hamming and Reed-Solomon codes.

This bit is used to enable or disable the ECC generator. To reset the ECC in the ECC

The <CE1:0>, <CLE>, and <ALE> bits are used for both Hamming and Reed-Solomon

The <WE> bit is used for both Hamming and Reed-Solomon codes to enable or disable

The <RSECGW> bit is used only for Reed-Solomon codes. When Hamming codes are used,

Since valid data and ECC are processed differently, the NDFC needs to know whether

To read valid data from the NAND Flash, set <RSECGW> to “0”. To read ECC written in

The <RSESTA> bit is used only for Reed-Solomon codes.

The error address and error bit position are calculated using an intermediate code

transfer should be stopped once to change the <RSECGW> bit from “0” to “1” before ECC can be read.

calculation cannot be performed for a duration of 20 system clocks (f

instructions or the like.

92CF26A-250

SYS

). It is necessary to insert 20 NOP

TMP92CF26A

2007-11-21

TMP92CF26AXBG Toshiba, TMP92CF26AXBG Datasheet - Page 251

TMP92CF26AXBG

Specifications of TMP92CF26AXBG

Available stocks

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