MAX98500EVKIT+ [MAXIM]

MAX98500 Evaluation Kit;


型号：	MAX98500EVKIT+
厂家：	MAXIM INTEGRATED PRODUCTS
描述：	MAX98500 Evaluation Kit
文件：	总6页 (文件大小：605K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

19-5221; Rev 0; 5/10

MAX98500 Evaluation Kit

General Description

Features

S 2.5V to 5.5V Single-Supply Operation

S Output Power: 2.2W into 8ω, 10% THD+N

S Selectable Gain Settings (6dB, 15.5dB, and 20dB)

S Boosted Class D Output

The MAX98500 evaluation kit (EV kit) is a fully assembled

and tested circuit board that uses the MAX98500 boost-

ed Class D amplifier to drive a mono bridge-tied-load

(BTL) speaker in portable audio applications. Designed

to operate from a 2.5V to 5.5V DC power supply, the EV

kit delivers 2.2W into an 8I load. The EV kit accepts

differential or single-ended input signals, features three

selectable gain settings (6dB, 15.5dB, and 20dB), and

provides separate speaker and boost shutdown inputs.

S Differential or Single-Ended Input Signals

S Boost Converter Shutdown

S Speaker Output Shutdown

S Fully Assembled and Tested

Ordering Information

PART

TYPE

MAX98500EVKIT+

EV Kit

+Denotes lead(Pb)-free and RoHS compliant.

Component List

DESIGNATION QTY

DESCRIPTION

DESIGNATION QTY

DESCRIPTION

REQUIRED COMPONENTS

0.22FF Q10%, 25V X7R ceramic

capacitors (0603)

Murata GRM188R71E224K

TDK C1608X7R1E224K

10FF Q10%, 6.3V X7R ceramic

capacitor (0805)

Murata GRM21BR70J106K

TDK C2012X7R0J106K

C14–C18

FB1

0I resistor (0603)

FB2, FB3

Not installed, ferrite beads (0603)

22FF Q20%, 16V X5R ceramic

capacitor (1206)

Murata GRM31CR61226M

Taiyo Yuden EMK316BJ226M

Phono jack, black (side-entry

PCB mount)

JU1, JU2, JU3

JU4

3-pin headers

2-pin header

1FF Q10%, 25V X7R ceramic

capacitors (0603)

Murata GRM188R71E105K

Murata GRM188R71E105M

2.2FH, 34mI, 4.5A inductor

TOKO FDV0530S-2R2M

(5mm x 5mm x 3mm)

TDK LTF5022T-2R2N3R2-LC

(5mm x 5mm x 2.2mm)

NEC MPLC0525L2R2

C3, C4

22FF Q10%, 6.3V X5R ceramic

capacitor (0805)

Murata GRM21BR60J226M

TDK C2012X5R0J226K

(5.2mm x 6.2mm x 2.5mm)

Not installed, inductors

TOKO A916CY-220M (provided

with EV kit)

0.1FF Q10%, 16V X7R ceramic

capacitor (0402)

Murata GRM155R71C104K

TDK C1005X7R1C104K

L2, L3

OUT-, OUT+,

PGND, RKNEE

Test points

Not installed, ceramic capacitors

(0402)

C9, C10

27.4kω Q1% resistor (0603)

22ω Q5% resistors (0603)

R2, R3

Not installed, ceramic capacitors

(0603)

C12, C13

_______________________________________________________________ Maxim Integrated Products

For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,

or visit Maxim’s website at www.maxim-ic.com.

MAX98500 Evaluation Kit

Component List (continued)

DESIGNATION QTY

DESCRIPTION

DESIGNATION QTY

OPTIONAL COMPONENTS

DESCRIPTION

Boosted Class D amplifier

(16 WLP)

Maxim MAX98500EWE+

22FH Q20%, 0.7A inductors

(D63CB)

L2, L3

TOKO A916CY-220M

VCCOUT

—

Not installed, test point

Shunts

PCB: MAX98500 EVALUATION

KIT+

—

Component Suppliers

SUPPLIER

PHONE

WEBSITE

Murata Electronics North America, Inc.

NEC TOKIN America, Inc.

TDK Corp.

770-436-1300

408-324-1790

847-803-6100

847-297-0070

www.murata-northamerica.com

www.nec-tokinamerica.com

www.component.tdk.com

www.tokoam.com

TOKO America, Inc.

Note: Indicate that you are using the MAX98500 when contacting these component suppliers.

5) Verify that the audio source output is disabled.

Quick Start

Recommended Equipment

6) Connect the mono audio source between the IN+

and IN- pads or J1 on the EV kit.

•ꢀ 2.5Vꢀtoꢀ5.5V,ꢀ4AꢀDCꢀpowerꢀsupply

7) Connect the speaker across the OUT+ and OUT-

test points.

•ꢀ 8I speaker

•ꢀ Monoꢀaudioꢀsignalꢀsource

8) Enable the power-supply output.

9) Enable the audio source.

Procedure

The MAX98500 EV kit is fully assembled and test-

ed. Follow the steps below to verify board operation.

Caution: Do not turn on the power supply until all

connections are completed.

10) Verify that the speaker is playing the audio source

signal.

Detailed Description of Hardware

1) Verify that shunts are installed as follows:

JU1: Open (15.5dB gain)

The MAX98500 EV kit features the MAX98500 boosted

Class D amplifier IC, designed to drive a BTL mono

speaker in portable audio applications. The EV kit

accepts a differential or single-ended audio input, fea-

tures three selectable gain settings (6dB, 15.5dB, and

20dB), and provides two active-low shutdown inputs for

flexibility. The audio input source is amplified to drive

2.2W into an 8I speaker. The EV kit operates from a

single DC power supply that provides 2.5V to 5.5V.

JU2: Pins 1-2 (speaker enabled)

JU3: Pins 1-2 (boost enabled)

JU4: Short (single-ended/unbalanced input)

2) Set the power-supply output to 3.6V.

3) Disable the power-supply output.

4) Connect the power-supply ground to the PGND pad

and the power-supply positive output to the VBAT

pad on the EV kit. Keep VBAT lengths < 6in and

twisted to minimize inductance, to ensure proper

device operation.

The EV kit provides two sets of differential outputs. The

device outputs (OUT+ and OUT-) can be connected

directly to a speaker load without any filtering. However,

a filter can be added to ease evaluation.

______________________________________________________________________________________

MAX98500 Evaluation Kit

Selectable Gain Setting

The MAX98500 features three internal gain settings that

are selectable with the GAIN input. Jumper JU1 controls

the amplifier’s gain select input. See Table 1 for jumper

JU1 configuration.

Optional Output Filtering

The MAX98500 speaker amplifier is designed to pass

FCC emissions standards without any filtering. When

evaluating the MAX98500 without any filtering, connect

the speaker to the output test points (OUT+, OUT-).

The EV kit also features PCB pads for a lowpass filter

that can be added to ease evaluation. Audio analyzers

typically cannot accept the Class D amplifier’s pulse-

width-modulated (PWM) waveform at their inputs. The

lowpass filter extracts the audio content from the PWM

output signal and allows the device to be connected

directly to an audio analyzer. The PWM output signal

can be lowpass-filtered by simply installing L2 and L3;

all other components are populated. The filtered outputs

should then be monitored at the FOUT+/FOUT- pads.

See Table 4 for suggested filtering components for an

8I load.

Shutdown Inputs

The MAX98500 features two active-low shutdown inputs

(SDSPK and SDBST). Jumper JU2 enables or disables

the speaker amplifier (SDSPK) and jumper JU3 controls

the boost converter (SDBST). See Table 2 for jumpers

JU2 and JU3 configuration. Note that the boost must be

enabled for the speaker amplifier to enable.

Input Mode

Jumper JU4 provides the option to select between a dif-

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

Table 3 for JU4 configuration.

Table 1. Gain Input (JU1)

Table 3. Input Mode (JU4)

SHUNT

POSITION

GAIN SETTING

(dB)

SHUNT

POSITION

GAIN PIN

IN- PIN

INPUT MODE

2-3

Not installed*

1-2

Connected to AGND

Unconnected

Single-ended/

unbalanced input

Installed*

Connected to AGND

15.5

Connected to VBAT

Connected to user-

supplied negative

differential output

Not installed

Differential input

*Default position.

Table 2. Shutdown Configuration

(JU2, JU3)

*Default position.

Table 4. Suggested Filtering Components

for 8I Load

DESIGNATION

BOOST

SPEAKER

STATUS

SDSPK PIN

SDBST PIN

STATUS

(JU2)

(JU3)

QTY

DESCRIPTION

2-3 (low)

1-2 (high)

2-3 (low)

2-3 (high)

1-2 (low)

Off

22FH Q20%, 0.7A inductor

(D63CB)

TOKO A916CY-220M

L2, L3

2-3 (low)

1-2* (high)

*Default position.

_______________________________________________________________________________________

MAX98500 Evaluation Kit

Figure 1. MAX98500 EV Kit Schematic

______________________________________________________________________________________

MAX98500 Evaluation Kit

1.0”

Figure 2. MAX98500 EV Kit Component Placement Guide—

Component Side

Figure 3. MAX98500 EV Kit PCB Layout—Component Side

1.0”

Figure 4. MAX98500 EV Kit PCB Layout—Solder Side

_______________________________________________________________________________________

MAX98500 Evaluation Kit

Revision History

REVISION

NUMBER

REVISION

DATE

PAGES

CHANGED

DESCRIPTION

5/10

Initial release

—

Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied.

Maxim reserves the right to change the circuitry and specifications without notice at any time.

Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600

2010 Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.

MAX98500EVKIT+ [MAXIM]

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