LM4856LQBD National Semiconductor, LM4856LQBD Datasheet - Page 14

LM4856LQBD

Manufacturer Part Number

LM4856LQBD

Description

BOARD EVALUATION LM4856LQ

Manufacturer

National Semiconductor

Series

Boomer®r

Datasheets

1.LM4856ITLNOPB.pdf (23 pages)

2.LM4856LQBD.pdf (3 pages)

Specifications of LM4856LQBD

Amplifier Type

Class AB

Output Type

1-Channel (Mono) with Stereo Headphones

Max Output Power X Channels @ Load

1.5W x 1 @ 4 Ohm; 60mW x 2 @ 32 Ohm

Voltage - Supply

2.6 V ~ 5 V

Operating Temperature

-40°C ~ 85°C

Board Type

Fully Populated

Utilized Ic / Part

LM4856

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Application Information

SDA: This is the serial data input pin.

SCL: This is the clock input pin.

ADR: This is the address select input pin.

The LM4856 uses a serial bus, which conforms to the I

protocol, to control the chip’s functions with two wires: clock

and data. The clock line is uni-directional. The data line is

bi-directional (open-collector) with a pullup resistor (typically

10kΩ).The maximum clock frequency specified by the I

standard is 400kHz. In this discussion, the master is the

controlling microcontroller and the slave is the LM4856.

The I

ADR pin. The LM4856’s two possible I

of the form 110110X

logic low; and X

is used to address a number of chips in a system and the

LM4856’s chip address can be changed to avoid address

conflicts.

The timing diagram for the I

is latched in on the stable high level of the clock and the data

line should be held high when not in use. The timing diagram

is broken up into six major sections:

C PIN DESCRIPTION

C INTERFACE

C address for the LM4856 is determined using the

= 1, if ADR is logic high. If the I

0 (binary), where the X

C is shown in Figure 2. The data

C chip addresses are

= 0, if ADR is

FIGURE 3. I

C interface

FIGURE 2. I

C Timing Diagram

C Bus Format

The “start” signal is generated by lowering the data signal

while the clock signal is high. The start signal will alert all

devices attached to the I

dress against their own chip address.

The 8-bit chip address is sent next, most significant bit first.

Each address bit must be stable while the clock level is high.

After the last bit of the address is sent, the master checks for

the LM4856’s acknowledge. The master releases the data

line high (through a pullup resistor). Then the master sends

a clock pulse. If the LM4856 has received the address

correctly, then it holds the data line low during the clock

pulse. If the data line is not low, then the master should send

a “stop” signal (discussed later) and abort the transfer.

The 8 bits of data are sent next, most significant bit first.

Each data bit should be valid while the clock level is stable

high.

After the data byte is sent, the master must generate another

acknowledge to see if the LM4856 received the data.

If the master has more data bytes to send to the LM4856,

then the master can repeat the previous two steps until all

data bytes have been sent.

The “stop” signal ends the transfer. To signal “stop”, the data

signal goes high while the clock signal is high.

C bus to check the incoming ad-

200607F4

200607F5

LM4856LQBD National Semiconductor, LM4856LQBD Datasheet - Page 14

LM4856LQBD

Specifications of LM4856LQBD

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