BU9799KV Datasheet, PDF(7/28 Page) Rohm – Standard LCD Segment Driver

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BU9799KV Datasheet, PDF (7/28 Pages) Rohm – Standard LCD Segment Driver

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BU9799KV MAX 200 segments (SEG50ÃCOM4)

Datasheet

âCommand transfer method

Issue Slave Address (â01111100â) after generation of âSTART conditionâ.

1byte after Slave Address always becomes command input.

MSB (âcommand or data judge bitâ) of command decide if next data is command or display data.

When set âcommand or data judge bitâ=â1â, next byte data is command.

When set âcommand or data judge bitâ=â0â, next byte data is display data.

S Slave address A 1 Command A 1 Command A 1 Command A 0 Command A Display Data â¦ P

When display data is transferred, inputting of command is not allowed

When one wants to input command again, please generate âSTART conditionâ once.

If âSTART conditionâ or âSTOP conditionâ are inputted in the middle of command transmission, command will be

canceled.

If Slave address is inputted after âSTART conditionâ, execution of command is allowed.

Please input âSlave Addressâ in the first data transmission after âSTART conditionâ.

When Slave Address cannot be recognized in the first data transmission, Acknowledge does not return and next

transmission will be invalid. When data transmission is invalid status, if âSTART conditionsâ are transmitted again, it will

return to valid status.

Take care to observe MPU Interface characteristic such as Input rise time and Setup/Hold time when transferring

command and data (Refer to MPU Interface).

âWrite display and transfer method

This device has Display Data RAM (DDRAM) of 50Ã4=200bits.

The relationship between data input and display data, DDRAM data and address are as follows;

Slave address

Command

S 01111100 A 0 0000000 A a b c d e f g h A i j k l m n o p

Aâ¦P

Display Data

8 bit data will be stored in DDRAM. The address to be written is the address specified by ADSET command, and the

address is automatically incremented in every 4bit data.

Data can be continuously written in DDRAM by transmitting Data continuously.

(When RAM data is written successively after writing RAM data to 31h (SEG49), the address is returned to 00h (SEG0)

by the auto-increment function.

DDRAM address

00 01 02 03 04 05 06 07 ã»ã»ã» 2Fh 30h 31h

COM0

BIT

COM1

COM2

SEG0 SEG1 SEG2 SEG3 SEG4 SEG5 SEG6 SEG7

COM3

SEG47 SEG48 SEG49

Data transfer to DDRAM happens every 4bit data.

So it will be finished to transfer with no need to wait ACK.

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