ST7FLITE09Y0B6 FARNELL, ST7FLITE09Y0B6 Datasheet - Page 17

ST7FLITE09Y0B6

Manufacturer Part Number

ST7FLITE09Y0B6

Description

IC, 8BIT MCU, ST7, 16MHZ, DIP-16

Manufacturer

FARNELL

Datasheet

1.ST7FLITE05Y0B6.pdf (124 pages)

Specifications of ST7FLITE09Y0B6

Controller Family/series

ST7

No. Of I/o's

Eeprom Memory Size

128Byte

Ram Memory Size

128Byte

Cpu Speed

16MHz

No. Of Timers

Core Size

8 Bit

Program Memory Size

1.5 Kb

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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DATA EEPROM (Cont’d)

5.3 MEMORY ACCESS

The Data EEPROM memory read/write access

modes are controlled by the E2LAT bit of the EEP-

ROM Control/Status register (EECSR). The flow-

chart in

access modes.

Read Operation (E2LAT = 0)

The EEPROM can be read as a normal ROM loca-

tion when the E2LAT bit of the EECSR register is

cleared.

On this device, Data EEPROM can also be used to

execute machine code. Take care not to write to

the Data EEPROM while executing from it. This

would result in an unexpected code being execut-

ed.

Write Operation (E2LAT = 1)

To access the write mode, the E2LAT bit has to be

set by software (the E2PGM bit remains cleared).

When a write access to the EEPROM area occurs,

Figure 8. Data EEPROM Programming Flowchart

Figure 8

describes these different memory

IN EEPROM AREA

READ MODE

READ BYTES

E2PGM = 0

E2LAT = 0

CLEARED BY HARDWARE

(with the same 11 MSB of the address)

the value is latched inside the 32 data latches ac-

cording to its address.

When PGM bit is set by the software, all the previ-

ous bytes written in the data latches (up to 32) are

programmed in the EEPROM cells. The effective

high address (row) is determined by the last EEP-

ROM write sequence. To avoid wrong program-

ming, the user must take care that all the bytes

written between two programming sequences

have the same high address: Only the five Least

Significant Bits of the address can change.

At the end of the programming cycle, the PGM and

LAT bits are cleared simultaneously.

Note: Care should be taken during the program-

ming cycle. Writing to the same memory location

will over-program the memory (logical AND be-

tween the two write access data result) because

the data latches are only cleared at the end of the

programming cycle and by the falling edge of the

E2LAT bit.

It is not possible to read the latched data.

This note is illustrated by the

START PROGRAMMING CYCLE

E2PGM=1 (set by software)

WRITE UP TO 32 BYTES

IN EEPROM AREA

WRITE MODE

E2PGM = 0

E2LAT = 1

E2LAT=1

E2LAT

ST7LITE0xY0, ST7LITESxY0

Figure

10.

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ST7FLITE09Y0B6 FARNELL, ST7FLITE09Y0B6 Datasheet - Page 17

ST7FLITE09Y0B6

Specifications of ST7FLITE09Y0B6

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