ht82m75r Holtek Semiconductor Inc., ht82m75r Datasheet - Page 42

ht82m75r

Manufacturer Part Number

ht82m75r

Description

I/o Type 8-bit Otp Mcu

Manufacturer

Holtek Semiconductor Inc.

Datasheet

1.HT82M75R.pdf (66 pages)

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EEPROM Data Memory Functional Description

The embedded EEPROM Data Memory is an I2C type

device and therefore operates using a two wire serial

bus. It has a capacity is 1K organized into a structure of

128 8-bit words and contains the information or data im-

portant for user.

EEPROM Data Memory Internal Connection

In addition to the pins described above there are other

MCU to EEPROM Data Memory interconnecting lines

that are described in the above EEPROM Pin Descrip-

tion table. Note that the SDA and SCL lines are internal

connected to the MCU I/O pins respectively and are not

bonded to external pins.

Accessing the EEPROM Data Memory

The two I2C lines are the Serial Clock line, SCL, and the

Serial Data line SDA. The SDA and SCL pins are inter-

nal connected to the host MCU I/O pins. Normal I/O con-

trol software instructions are used to control the reading

and writing operations on the EEPROM Data Memory.

Rev. 1.10

Serial data - SDA

The SDA line is the bidirectional EEPROM serial data

line which is controlled by the host MCU I/O pin. The

host MCU should configure this I/O pin as input or out-

put dynamically opposite to the data direction of the

EEPROM. The SDA line is an internal line and not

connected to an output pin.

MCU to EEPROM Internal Connection

Dual VDD/Single VSS Power Supply

Dual VDD / Dual VSS Power Supply

MCU

VDD

VSS

VDD

VSS

VDD

I/O.x

I/O.y

I/O.x

I/O.y

SDA

SCL

SDA

SCL

EEPROM

VDDP

VSSP

VDDP

VSSP

VDD

Device Addressing

All EEPROM devices require an 8-bit device address

word following a start condition to enable the EEPROM

for read or write operations. The device address word

consist of a mandatory one, zero sequence for the first

four most significant bits. Refer to the diagram showing

the Device Address. This is common to all the EEPROM

devices. The next three bits are all zero bits.

The 8th bit of device address is the read/write operation

select bit. A read operation is initiated if this bit is high

and a write operation is initiated if this bit is low.

Serial clock - SCL

The SCL line is the EEPROM serial clock input line

which is controlled by the host MCU I/O pin. The host

MCU should configure this I/O pin connected to the

SCL line as output pin. The SCL line is an internal line

and not connected to an output pin. The SCL input

clocks data into the EEPROM on its positive edge and

clocks data out of the EEPROM on its negative edge.

Clock and data transition

Data transfer may be initiated only when the bus is not

busy. During data transfer, the data line must remain

stable whenever the clock line is high. Changes in the

data line while the clock line is high will be interpreted

as a START or STOP condition.

Start condition

A high-to-low transition of SDA with SCL high will be

interpreted as a start condition which must precede

any other command - refer to the Start and Stop Defi-

nition Timing diagram.

Stop condition

A low-to-high transition of SDA with SCL high will be

interpreted as a stop condition. After a read sequence

the stop command will place the EEPROM in a

standby power mode - refer to Start and Stop Defini-

tion Timing Diagram.

Acknowledge

All addresses and data words are serially transmitted

to and from the EEPROM in 8-bit words. The

EEPROM sends a zero to acknowledge that it has re-

ceived each word. This happens during the ninth clock

cycle.

Start and Stop Definition Timing Diagram

HT82M75R/HT82M75RE

HT82K75R/HT82K75RE

June 11, 2010

ht82m75r Holtek Semiconductor Inc., ht82m75r Datasheet - Page 42

ht82m75r

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