NCP2809BDMR2G ON Semiconductor, NCP2809BDMR2G Datasheet - Page 16

NCP2809BDMR2G

Manufacturer Part Number

NCP2809BDMR2G

Description

IC AMP STEREO AUD 135ME MICRO-10

Manufacturer

ON Semiconductor

Series

NOCAP™r

Type

Class ABr

Datasheet

1.NCP2809ADMR2G.pdf (24 pages)

Specifications of NCP2809BDMR2G

Output Type

Headphones, 2-Channel (Stereo)

Max Output Power X Channels @ Load

135mW x 2 @ 16 Ohm

Voltage - Supply

2.2 V ~ 5.5 V

Features

Depop, Short-Circuit and Thermal Protection, Shutdown

Mounting Type

Surface Mount

Package / Case

10-MSOP, Micro10™, 10-uMAX, 10-uSOP

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

NCP2809BDMR2G
NCP2809BDMR2GOSTR

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Bypass Capacitor Selection (C

and determines how fast the NCP2809 turns on.

performance and high power supply rejection ratio.

minimize the turn−on pop noise. A 1.0 mF bypass capacitor

value should produce clickless and popless shutdown

transitions. The amplifier is still functional with a 0.1 mF

capacitor value but is more sensitive to “pop and click”

noises.

bypassing capacitor is recommended.

Without Output Coupling Capacitor

NCP2809 device eliminates need of heavy bypassing

capacitors when connecting a stereo headset with 3

connecting points. This circuitry produces a virtual ground

and does not affect either output power or PSRR.

Additionally, eliminating these capacitors reduces cost and

PCB place.

pin REF_I and ground of the headset: this pin is the ground

reference for the headset. So, in order to improve

crosstalk performances, this pin must be plugged

directly to the middle point of the headset connector.

With Output Coupling Capacitor

third connection to ground), the headset amplifier requires

very few external components as described in Figure 43.

Only two external coupling capacitors are needed. The

main concern is in output coupling capacitors, because of

the value and consequently the size of the components

required. Purpose of these capacitors is biasing DC voltage

and very low frequency elimination. Both, coupling

capacitor and output load form a high pass filter. Audible

frequency ranges from 20 Hz to 20 kHz, but headset used

in portable appliance has poor ability to reproduce signals

below 75 or 100 Hz. Input coupling capacitor and input

resistance also form a high pass filter. These two first order

filters form a second order high pass filter with the same

−3 dB cut off frequency. Consequently, the below formula

must be followed:

value for calculating filters cut off frequency is the

minimum input impedance value at maximum output

volume.

The bypass capacitor C

A proper supply bypassing is critical for low noise

Moreover, this capacitor is a critical component to

Thus, for optimized performances, a 1.0 mF ceramic

As described in Figure 42, the internal circuitry of the

However, user must take care to the connection between

However, when using a low cost jack connector (with

As for a loudspeaker amplifier, the input impedance

R in

C in

[

provides half−supply filtering

bypass

R L

)

C out

http://onsemi.com

(eq. 2)

the cut off frequency, attenuation is 0.5 dB. So if we want

a ±0.5 dB at 150 Hz, we need to have a –3 dB cut off

frequency of 30 Hz:

be 225 Hz with a –3.0 dB cut off frequency of 45 Hz.

Following this, the input coupling capacitor choice is

straightforward. Using formula (2) input coupling

capacitor value would be 68 nF for a 220 mF output

coupling capacitor and 100 nF for a 330 mF output coupling

capacitor.

REF_I and OUT_I must be left unconnected

(see Figure 43).

Optimum Equivalent Capacitance at Output Stage

normally

capacitors and ESD protection devices between the outputs

and the headset connector. Those devices are usually

connected between amplifier outputs and ground, or

amplifier output and virtual ground. Different headsets

with different impedance can be used with NCP2809. 16,

32 and 64Ohm are standard values. The extra impedance

resulting of parasitic headset inductance and protections

capacitance can affect sound quality.

optimum value of total equivalent capacitance:

•

frequency filtering capacitors and ESD protection device

equivalent parasitic capacitance. Because of their very low

parasitic capacitance value, diode based ESD protection

are preferred.

a series resistor between each NCP2809 output and the

protection device can improve amplifier operation. In

order to keep dynamic output signal range, the resistor

value should be very small compared to the loudspeaker

impedance. For example, a 10Ohm resistor for a 64Ohm

loudspeaker allows up to 400pF parasitic capacitance load.

out

To obtain a frequency equal to when frequency is 5 times

With R

With C

When using the NCP2809 with this configuration, pins

Cellular phone and wireless portable device designers

In order to achieve the best sound quality, we suggest the

This total equivalent capacitance consists of the radio

If for some reason the above requirements cannot be met,

should be less than or equal to 100pF

less than or equal to 100pF.

Between each output terminal to the virtual ground

Between each output terminal to the ground should be

≥ 330 mF.

out

= 16 W, and f

place several Radio Frequency filtering

= 220 mF, ±0.5 dB attenuation frequency will

f− 3dB w

C out w

−3dB

= 30 Hz formula (4) shows that

R L

f− 3dB

C out

(eq. 3)

(eq. 4)

NCP2809BDMR2G ON Semiconductor, NCP2809BDMR2G Datasheet - Page 16

NCP2809BDMR2G

Specifications of NCP2809BDMR2G

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