TMP92CF26AXBG Toshiba, TMP92CF26AXBG Datasheet - Page 441

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) Isochronous transfer type

(d-1) Isochronous transmission mode

•

each frame.

transfer type transfer only 2 phases (token, data) and it does not use handshake

phase. And data PID for data phase is always DATA0 because of this transaction does

not support toggle sequence. Therefore, UDC does not confirm when data PID is in

receiving mode.

completed transfer use receiving SOF token. The UDC uses FIFO that is divided into

two in Isochronous transfer type.

given below.

in endpoint is transmitted by IN token in the next frame.

condition or Y condition. The flow below is explained as X Condition (packet A), Y

Condition (packet B) in present frame.

X. FIFO for storing data that transmits to host in present frame

Y. FIFO for storing data for transmitting host in next frame

Isochronous transfer type is guaranteed transfer by data number that is limited to

However, this transfer does not retry when an error occurs. Therefore, Isochronous

Isochronous transfer type processes data every frame. Therefore, all transaction for

The transaction format for Isochronous transfer type format in transmitting is

Control flow

Isochronous transfer type is frame management. And data that is written to FIFO

Below are two conditions in FIFO of Isochronous transmission mode transferring.

FIFO that is divided into two (packet A and packet B) conditions is whether X

X and Y conditions change one after the other by receiving SOF.

Control flow in the UDC when receiving IN token is shown below.

1. Token packet is received and address endpoint number error is confirmed, and it

2. Condition of status register is confirmed.

3. Data packet is generated.

4. CRC bit (counted transfer data of FIFO from first to last) is attached to last.

Token

Data

(DATASET register bit = 1)

(DATASET register bit = 0)

INVALID condition: State returns to IDLE.

Data packet is generated. At this point, data PID is always attached to DATA0.

Next, data is transferred from FIFO (X condition) of packet A in UDC to SIE and

DATA packet is generated.

checks whether the relevant endpoint transfer mode corresponds with the IN

token. If it does not correspond, the state returns to IDLE.

: IN

: DATA0

92CF26A-440

TMP92CF26A

2007-11-21

TMP92CF26AXBG Toshiba, TMP92CF26AXBG Datasheet - Page 441

TMP92CF26AXBG

Specifications of TMP92CF26AXBG

Available stocks

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