LMV1032UP-25/NOPB National Semiconductor, LMV1032UP-25/NOPB Datasheet - Page 9

LMV1032UP-25/NOPB

Manufacturer Part Number

LMV1032UP-25/NOPB

Description

IC AMP AUDIO MONO AB MIC 4USMD

Manufacturer

National Semiconductor

Type

Class ABr

Datasheet

1.LMV1032UPX-06NOPB.pdf (12 pages)

Specifications of LMV1032UP-25/NOPB

Output Type

1-Channel (Mono)

Voltage - Supply

1.7 V ~ 5 V

Features

Microphone

Mounting Type

Surface Mount

Package / Case

4-MicroSMD

Operational Class

Class-AB

Audio Amplifier Output Configuration

1-Channel Mono

Audio Amplifier Function

Microphone

Total Harmonic Distortion

0.35%

Single Supply Voltage (typ)

Dual Supply Voltage (typ)

Not RequiredV

Supply Current (max)

0.085@5VmA

Power Supply Requirement

Single

Rail/rail I/o Type

Power Supply Rejection Ratio

65dB

Single Supply Voltage (min)

1.7V

Single Supply Voltage (max)

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

uSMD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Max Output Power X Channels @ Load

Lead Free Status / Rohs Status

Compliant

Other names

LMV1032UP-25
LMV1032UP-25TR

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Application Section

The conversion is given by:

Translation from absolute sound pressure level to a voltage

is specified by the sensitivity of the microphone. A conven-

tional microphone has a sensitivity of −44 dBV/Pa.

Example: Busy traffic is 70 dB SPL

Since the LMV1032-15 has a gain of 5.6 (15 dB) over the

JFET, the output voltage of the microphone is 6.35 mV

replacing the JFET with the LMV1032-15, the sensitivity of

the microphone is −29 dBV/Pa (−44 + 15).

LOW FREQUENCY CUT OFF FILTER

To reduce noise on the output of the microphone a low cut

filter has been implemented in the LMV1032. This filter

reduces the effect of wind and handling noise.

It’s also helpful to reduce the proximity effect in directional

microphones. This effect occurs when the sound source is

very close to the microphone. The lower frequencies are

amplified which gives a bass sound. This amplification can

cause an overload, which results in a distortion of the signal.

dBPa = dB SPL - 94 dB

This is equivalent to 1.13 mV

dBPa = dB SPL + 20*log 20 µPa

OUT

= 70 −94 −44 = −68 dBV

FIGURE 4. dB SPL to dBV Conversion

FIGURE 5. Gain vs. Frequency

(Continued)

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The LMV1032 is optimized to be used in audio band appli-

cations. The LMV1032 provides a flat gain response within

the audio band and offers linearity and excellent temperature

stability.

ADVANTAGE OF THREE PINS

The LMV1032 ECM solution has three pins instead of the

two pins provided in the case of a JFET solution. The third

pin provides the advantage of a low supply current, high

PSRR and eliminates the need for additional components.

Noise pick-up by a microphone in a cell phone is a well-

known problem. A conventional JFET circuit is sensitive for

noise pick-up because of its high output impedance. The

output impedance is usually around 2.2 kΩ. By providing

separate output and supply pins a much lower output imped-

ance is achieved and therefore is less sensitive to noise

pick-up.

RF noise is among other caused by non-linear behavior. The

non-linear behavior of the amplifier at high frequencies, well

above the usable bandwidth of the device, causes AM de-

modulation of high frequency signals. The AM modulation

contained in such signals folds back into the audio band,

thereby disturbing the intended microphone signal. The

GSM signal of a cell phone is such an AM-modulated signal.

The modulation frequency of 216 Hz and its harmonics can

be observed in the audio band. This type of noise is called

bumblebee noise.

EXTERNAL PRE-AMPLIFIER APPLICATION

The LMV1032 can also be used outside of an ECM as a

space saving external pre-amplifier. In this application, the

LMV1032 follows a phantom biased JFET microphone in the

circuit. This is shown in Figure 6. The input of the LMV1032

is connected to the microphone via the 2.2 µF capacitor. The

advantage of this circuit over one with only a JFET micro-

phone are the additional gain and the high pass filter sup-

plied by the LMV1032. The high pass filter makes the output

signal more robust and less sensitive to low frequency dis-

turbances. In this configuration the LMV1032 should be

placed as close as possible to the microphone.

FIGURE 6. LMV1032 as External Pre-Amplifier

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LMV1032UP-25/NOPB National Semiconductor, LMV1032UP-25/NOPB Datasheet - Page 9

LMV1032UP-25/NOPB

Specifications of LMV1032UP-25/NOPB

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