ATMEGA8535 データシートの表示（PDF） - Atmel Corporation

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ATMEGA8535

8-bit Microcontroller with 8K Bytes In-System Programmable Flash

Atmel Corporation 

ATmega8535(L)

The EEPROM Address

Register – EEARH and EEARL Bit

Read/Write

Initial Value

15

–

EEAR7

7

R

R/W

0

X

14

–

EEAR6

6

R

R/W

0

X

13

–

EEAR5

5

R

R/W

0

X

12

–

EEAR4

4

R

R/W

0

X

11

–

EEAR3

3

R

R/W

0

X

10

–

EEAR2

2

R

R/W

0

X

9

–

EEAR1

1

R

R/W

0

X

8

EEAR8

EEAR0

0

R/W

R/W

X

X

EEARH

EEARL

• Bits 15..9 – Res: Reserved Bits

These bits are reserved bits in the ATmega8535 and will always read as zero.

• Bits 8..0 – EEAR8..0: EEPROM Address

The EEPROM Address Registers – EEARH and EEARL specify the EEPROM address

in the 512 bytes EEPROM space. The EEPROM data bytes are addressed linearly

between 0 and 511. The initial value of EEAR is undefined. A proper value must be writ-

ten before the EEPROM may be accessed.

The EEPROM Data Register –

EEDR

Bit

Read/Write

Initial Value

7

6

MSB

R/W

R/W

0

0

5

R/W

0

4

R/W

0

3

R/W

0

2

R/W

0

1

R/W

0

0

LSB

R/W

0

EEDR

• Bits 7..0 – EEDR7..0: EEPROM Data

For the EEPROM write operation, the EEDR Register contains the data to be written to

the EEPROM in the address given by the EEAR Register. For the EEPROM read oper-

ation, the EEDR contains the data read out from the EEPROM at the address given by

EEAR.

The EEPROM Control Register

– EECR

Bit

7

6

5

4

3

2

1

0

–

–

–

–

EERIE EEMWE EEWE EERE

EECR

Read/Write

R

R

R

R

R/W

R/W

R/W

R/W

Initial Value

0

0

0

0

0

0

X

0

• Bits 7..4 – Res: Reserved Bits

These bits are reserved bits in the ATmega8535 and will always read as zero.

• Bit 3 – EERIE: EEPROM Ready Interrupt Enable

Writing EERIE to one enables the EEPROM Ready Interrupt if the I-bit in SREG is set.

Writing EERIE to zero disables the interrupt. The EEPROM Ready interrupt generates a

constant interrupt when EEWE is cleared.

• Bit 2 – EEMWE: EEPROM Master Write Enable

The EEMWE bit determines whether setting EEWE to one causes the EEPROM to be

written. When EEMWE is set, setting EEWE within four clock cycles will write data to the

EEPROM at the selected address If EEMWE is zero, setting EEWE will have no effect.

When EEMWE has been written to one by software, hardware clears the bit to zero after

four clock cycles. See the description of the EEWE bit for an EEPROM write procedure.

• Bit 1 – EEWE: EEPROM Write Enable

The EEPROM Write Enable Signal EEWE is the write strobe to the EEPROM. When

address and data are correctly set up, the EEWE bit must be written to one to write the

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2502K–AVR–10/06

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