MAX8649 Maxim Integrated Products, MAX8649 Datasheet - Page 18

MAX8649

Manufacturer Part Number

MAX8649

Description

1.8A Step-Down Regulator

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX8649.pdf (31 pages)

Current page: 18 of 31
Download datasheet (2Mb)

www.DataSheet4U.com

1.8A Step-Down Regulator with Differential

Remote Sense in 2mm x 2mm WLP

If updating the output voltage or Operation Mode regis-

ter for the mode that the MAX8649 is currently operat-

ing in, the output voltage/operation mode is updated at

the same time the MAX8649 sends the acknowledge for

the I

A bus master initiates communication with a slave

device (MAX8649) by issuing a START (S) condition fol-

lowed by the slave address. The slave address byte

consists of 7 address bits (1100 000x) and a read/write

bit (R/W). After receiving the proper address, the

MAX8649 issues an acknowledge by pulling SDA low

during the ninth clock cycle.

Other slave addresses can be assigned. Contact the

factory for details.

The MAX8649 recognizes the write byte protocol as

defined in the SMBus specification and shown in Figures

14a and 14b. The write byte protocol allows the I

ter device to send 1 byte of data to the slave device. The

write byte protocol requires a register pointer address for

the subsequent write. The MAX8649 acknowledges any

ters actually exists in the device. The write byte protocol

is as follows:

1) The master sends a start command.

2) The master sends the 7-bit slave address followed

3) The addressed slave asserts an acknowledge by

Figure 13. Update Output Operation

A: I

B: I

C: MAX8649 I

D: MAX8649 DATA SEND OUT.

E: MAX8649 ISSUES ACKNOWLEDGE AND CHANGES THE OUTPUT VOLTAGE ACCORDING TO NEW I

by a write bit.

pulling SDA low.

VID0

VID1

OUT

SDA

______________________________________________________________________________________

C data byte (see Figure 13).

C START COMMAND.

C SLAVE ADDRESS OF MAX8649 SEND OUT.

C REGISTER POINTER SEND OUT.

Update of Output Operation Mode

SLAVE ID

Write Operations

Slave Address

ASr

C mas-

REG PTR

4) The master sends an 8-bit register pointer.

5) The slave acknowledges the register pointer.

6) The master sends a data byte.

7) The slave acknowledges the data byte.

8) The slave updates with the new data.

9) The master sends a STOP (P) condition.

In addition to the write-byte protocol, the MAX8649 can

write to multiple registers as shown in Figure 14b. This

protocol allows the I

slave only once and then send data to a sequential block

of registers starting at the specified register pointer.

Use the following procedure to write to a sequential

block of registers:

1) The master sends a start command.

2) The master sends the 7-bit slave address followed

3) The addressed slave asserts an acknowledge by

4) The master sends the 8-bit register pointer of the

5) The slave acknowledges the register pointer.

6) The master sends a data byte.

7) The slave acknowledges the data byte.

8) The slave updates with the new data.

9) Steps 6 to 8 are repeated for as many registers in

10) The master sends a STOP condition.

C SETTINGS.

by a write bit.

pulling SDA low.

first register to write.

the block, with the register pointer automatically

incremented each time.

ASr

C master device to address the

DATA

MAX8649 Maxim Integrated Products, MAX8649 Datasheet - Page 18

MAX8649

Related parts for MAX8649