AT90USB647-MU Atmel, AT90USB647-MU Datasheet - Page 32

AT90USB647-MU

Manufacturer Part Number

AT90USB647-MU

Description

MCU, 8BIT, 64K FLASH, USB, 64QFN

Manufacturer

Atmel

Datasheets

1.AT90USB646-MU.pdf (461 pages)

2.AT90USB1286-MU.pdf (35 pages)

Specifications of AT90USB647-MU

Controller Family/series

AT90

No. Of I/o's

Eeprom Memory Size

2KB

Ram Memory Size

4KB

Cpu Speed

16MHz

No. Of

RoHS Compliant

Core Size

8bit

Program Memory Size

64KB

Oscillator Type

External, Internal

Package

64QFN EP

Device Core

AVR

Family Name

AT90

Maximum Speed

20 MHz

Ram Size

4 KB

Operating Supply Voltage

3.3|5 V

Data Bus Width

8 Bit

Program Memory Type

Flash

Number Of Programmable I/os

Interface Type

SPI/TWI/USART/USB

On-chip Adc

8-chx10-bit

Operating Temperature

-40 to 85 Â°C

Number Of Timers

Lead Free Status / Rohs Status

Details

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5.5.4

5.5.5

AT90USB64/128

Pull-up and Bus-keeper

Timing

The pull-ups on the AD7:0 ports may be activated if the corresponding Port register is written to

one. To reduce power consumption in sleep mode, it is recommended to disable the pull-ups by

writing the Port register to zero before entering sleep.

The XMEM interface also provides a bus-keeper on the AD7:0 lines. The bus-keeper can be dis-

abled and enabled in software as described in

on page

these lines are tri-stated by the XMEM interface.

External Memory devices have different timing requirements. To meet these requirements, the

XMEM interface provides four different wait-states as shown in

sider the timing specification of the External Memory device before selecting the wait-state. The

most important parameters are the access time for the external memory compared to the set-up

requirement. The access time for the External Memory is defined to be the time from receiving

the chip select/address until the data of this address actually is driven on the bus. The access

time cannot exceed the time from the ALE pulse must be asserted low until data is stable during

a read sequence (See t

409). The different wait-states are set up in software. As an additional feature, it is possible to

divide the external memory space in two sectors with individual wait-state settings. This makes it

possible to connect two different memory devices with different timing requirements to the same

XMEM interface. For XMEM interface timing details, please refer to Tables 30-6 through Tables

30-13 and

Note that the XMEM interface is asynchronous and that the waveforms in the following figures

are related to the internal system clock. The skew between the internal and external clock

(XTAL1) is not guarantied (varies between devices temperature, and supply voltage). Conse-

quently, the XMEM interface is not suited for synchronous operation.

Figure 5-6.

Note:

System Clock (CLK

1. SRWn1 = SRW11 (upper sector) or SRW01 (lower sector), SRWn0 = SRW10 (upper sector) or

35. When enabled, the bus-keeper will keep the previous value on the AD7:0 bus while

DA7:0 (XMBK = 0)

DA7:0 (XMBK = 1)

Figure 30-7

SRW00 (lower sector). The ALE pulse in period T4 is only present if the next instruction

accesses the RAM (internal or external).

External Data Memory Cycles without Wait-state (SRWn1=0 and SRWn0=0)

DA7:0

A15:8

CPU

ALE

)

LLRL

Prev. addr.

Prev. data

Figure 30-10

+ t

RLRH

- t

DVRH

in the

in Tables 30-6 through Tables 30-13 on pages 407 -

Address

“External Data Memory Timing” on page

Address

“External Memory Control Register B – XMCRB”

Address

Data

Table

5-5. It is important to con-

7593K–AVR–11/09

407.

AT90USB647-MU Atmel, AT90USB647-MU Datasheet - Page 32

AT90USB647-MU

Specifications of AT90USB647-MU

Available stocks

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