EVAL-SSM2306_15 Datasheet, PDF(4/8 Page) Analog Devices – Evaluation Board for 2 W, Filterless, Class-D Stereo Audio Amplifier

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EVAL-SSM2306_15 Datasheet, PDF (4/8 Pages) Analog Devices – Evaluation Board for 2 W, Filterless, Class-D Stereo Audio Amplifier

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EVAL-SSM2306

COMPONENT SELECTION

Selecting the right components is the key to achieving the

performance required at the budgeted cost. The BOM for the

SSM2306 evaluation board is provided in Table 4.

Input Coupling Capacitors

The input coupling capacitors, C1, C2, C3, and C4, should be

large enough to couple the low frequency signal components in

the incoming signal and small enough to filter out unnecessary

low frequency signals. For music signals, the selected cutoff

frequency is often between 20 Hz and 30 Hz. The value of the

coupling capacitor is calculated as follows:

C = 1/(2Ï Ã R Ã fc)

where:

R = 43 kÎ© + REXT.

fc is the cutoff frequency.

Input Series Resistors

The input series resistors, R1, R2, R3, and R4, are not necessary

for amplifier operation and are needed only when special gain

values are required. Using resistors with too high a value increases

the input noise.

Output Beads

The output beads, B1, B2, B3, and B4, are necessary components

for filtering out the EMI caused at the switching output nodes

when the length of the speaker wire is greater than 10 cm. The

penalty for using ferrite beads for EMI filtering is slightly worse

noise and distortion performance at the system level due to the

nonlinearity of the beads.

Ensure that these beads have enough current conducting capability

while providing sufficient EMI attenuation. The current rating

needed for an 8 Î© load is approximately 600 mA, and impedance

at 100 MHz must be > 220 Î©. In addition, the lower the dc

resistance (DCR) of these beads, the better for minimizing their

power consumption. Table 2 describes the recommended bead.

Table 2. Recommended Output Bead

Part Number

Manu-

IMAX

facturer Z (Î©) (mA)

BLM18EG221SN1D Murata 220 2000

DCR

(Î©) Size (mm)

0.05 1.6 Ã 0.8 Ã 0.8

Output Shunting Capacitors for the Beads

There are two groups of output shunting capacitors for the

beads: C11 to C14 and C23 to C26. Capacitors C11 to C14 filter

out lower frequency EMI â¤250 MHz; Capacitors C23 to C26 filter

out higher frequency EMI >250 MHz. Use small size (0603 or

0402) multilayer ceramic capacitors made of X7R or C0G (NP0)

materials. The higher the value of these capacitors, the lower the

residual EMI level at the output, and the higher the quiescent

current at the power supply. The recommended values for

Capacitors C11 to C14 are 500 pF to 1 nF; the recommended

values for Capacitors C23 to C26 are 100 pF to 200 pF.

Output Inductors

Some users do not allow high frequency EMI in the system and

prefer using inductors to filter out high frequency components

at the output nodes. Choose inductance >2.2 Î¼H for these

inductors. The higher the inductance, the lower the EMI at the

output and the lower the quiescent current at the power supply.

However, note that higher inductance increases the power

consumption of the inductors when the output power level is

high. Analog Devices, Inc., recommends using 2.2 Î¼H to 10 Î¼H

inductors with a current rating of >600 mA (saturation current)

for an 8 Î© load. Table 3 describes the recommended inductors.

Table 3. Recommended Output Inductors

Part Number

Manu- L

IMAX DCR

facturer (Î¼H) (mA) (Î©)

LQH32CN4R7M53 Murata 4.7 650 0.15

LQH32CN3R3M53 Murata 3.3 710 0.12

LQH32CN2R2M53 Murata 2.2 790 0.1

SD3118-100-R

Cooper 10 900 0.3

Bussmann

ELL4LM100M

Panasonic 10 690 0.18

LBC2518T2R2M Taiyo

Yuden

2.2 630 0.169

1033AS-4R7M

Toko

4.7 680 0.31

Size (mm)

3.2 Ã 2.5 Ã 1.55

3.1 Ã 3.1 Ã 1.8

3.8 Ã 3.8 Ã 1.8

2.5 Ã 1.8 Ã 1.8

3.8 Ã 3.8 Ã 1.0

PCB LAYOUT GUIDELINES

Correct PCB layout is critical in application designs to prevent

EMI from exceeding allowable limits and to ensure that the

amplifier chip operates below the temperature limit. Follow

these guidelines carefully when designing the PCB layout.

1. Place nine vias onto the thermal pad of the amplifier. The

outer diameter of the vias should be 0.5 mm, and the inner

diameter should be 0.33 mm. If internal layers are available

in the PCB, allocate an area as large as possible to the ground

planes and connect these vias to the ground planes (see

Figure 3). If internal layers are available, allocate a specific

area as a heat sink; make sure to connect the vias

conducting heat to the internal layers.

TOP LAYER

INTERNAL AND/OR

BOTTOM LAYER

Figure 3. Heat Sink Layout

2. Place the EMI filtering beads (B1, B2, B3, and B4) as close to

the amplifier chip as possible. If you use output inductors

(L1, L2, L3, and L4) in the application design, place them

as close to the amplifier chip as possible.

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