MAX98307EVKIT# Maxim Integrated, MAX98307EVKIT# Datasheet - Page 2

MAX98307EVKIT#

Manufacturer Part Number

MAX98307EVKIT#

Description

Audio IC Development Tools MAX98307 Eval Kit

Manufacturer

Maxim Integrated

Type

Audio Amplifiersr

Series

MAX98307, MAX98308r

Datasheet

1.MAX98307EVKIT.pdf (7 pages)

Specifications of MAX98307EVKIT#

Rohs

yes

Product

Evaluation Kits

Tool Is For Evaluation Of

MAX98307

Operating Supply Voltage

2.6 V to 5.5 V

Description/function

MAX98307 evaluation kit (EV kit) is a fully assembled and tested circuit board that evaluates the MAX98307 filterless Class DG multilevel amplifier to drive a speaker in portable audio applications

Operating Supply Current

2 A

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Note: Indicate that you are using the MAX98307 when contacting these component suppliers.

• MAX98307 EV kit

• 2.6V to 5.25V, 2A power supply

• Audio source (e.g., CD player, MP3 player, etc.)

• 8I speaker

The EV kit is fully assembled and tested. Follow the steps

listed below to verify board operation. Caution: Do not

turn on the power supply until all connections are

completed.

1) Install a shunt on pins 1-2 on jumper JU1 (EV kit on).

2) Verify that a shunt is not installed on jumper JU2

3) Connect the 8I speaker across the FOUT- and

4) Connect the positive terminal of the power supply to

5) Connect the audio source output to the IN RCA jack.

6) Connect the ground terminal of the audio source to

7) Turn on the audio source.

8) Turn on the power supply.

The MAX98307 EV kit features the MAX98307 filterless

Class DG amplifier IC, designed to drive an 8I speaker

in portable audio applications. The EV kit comes with

a MAX98307 IC in a 16-pin TQFN package with an

exposed pad. The EV kit operates from a DC power sup-

ply that provides 2.6V to 5.25V and 2A of current. The EV

kit accepts differential or single-ended audio input and

provides a fully differential output. The audio input source

is amplified to drive up to 3.3W into an 8I speaker. The

device outputs, available at the OUT+, OUT- test points

or FOUT+, FOUT- binding posts, can be connected

directly to a speaker load without any filtering and up

to 30cm of cable. However, filter components can be

added to ease evaluation. See the Filtered Output sec-

tion for additional information.

Murata Electronics North America, Inc.

Sumida Corp.

Detailed Description of Hardware

(differential input mode)

FOUT+ PCB pads.

the PVDD PCB pad and the ground terminal to the

PGND PCB pad.

the PGND PCB pad.

SUPPLIER

_________________________________________________________________ Maxim Integrated Products 2

Recommended Equipment

Quick Start

Procedure

770-436-1300

847-545-6700

PHONE

The EV kit is shipped with a gain of +14.5dB. Change the

resistors (R1–R4) to customize the gain of the EV kit. Refer

to the MAX98307/MAX98308 IC data sheet for details.

The EV kit is shipped with filterless outputs by default.

The EV kit’s filterless outputs, available at the OUT+,

OUT- test points or the FOUT+, FOUT- binding posts,

can be connected directly to a speaker load without any

filtering. Use the OUT+, OUT- test points or the FOUT+,

FOUT- binding posts to connect a speaker directly to the

device’s outputs.

Audio analyzers typically cannot accept pulse-width-

modulated (PWM) signals at their inputs. Therefore, the

EV kit provides component footprints for a lowpass filter

at its outputs to ease evaluation. Cut open the PCB traces

between inductor L1 and L2 pads. Install inductors L1,

L2, capacitors C9–C13, and resistors R5, R6 (provided

with the EV kit) and use the filtering output binding posts

(FOUT- and FOUT+) to connect the filtered PWM outputs

to the audio analyzer. The default lowpass filter at the EV

kit outputs is optimized for an 8I speaker.

The IC can pass CE EN55022B regulations with up to

30cm of speaker cable and no filtering. However, ferrite-

bead filters can be used to achieve further attenuation

of radiated emissions. To install the ferrite-bead filters,

verify that filter inductors L1 and L2 are not installed.

Next, replace shorting resistors R7 and R8 with 0603 or

smaller ferrite beads and install filter capacitors on the

C14 and C15 pads. The speaker wire should be con-

nected to the OUT- and OUT+ test points.

Jumper JU1 controls the shutdown pin (SHDN) of the IC.

The shutdown pin can also be controlled by an external

logic controller connected to the EV kit SHDN PCB pad.

Remove the shunt from JU1 before connecting an external

controller to the SHDN pad. See Table 1 for shunt positions.

Jumper JU2 provides an option to select between a

differential or single-ended input mode for the EV kit. See

Table 2 for jumper JU2 configuration.

Evaluates: MAX98307

www.murata-northamerica.com

www.sumida.com

Component Suppliers

WEBSITE

Customizing the Gain

Shutdown Mode (SHDN)

Jumper Selection

Filterless Output

Filtered Output

Input Mode (IN-)

MAX98307EVKIT# Maxim Integrated, MAX98307EVKIT# Datasheet - Page 2

MAX98307EVKIT#

Specifications of MAX98307EVKIT#

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