MC34119DTBR2 Freescale Semiconductor, MC34119DTBR2 Datasheet - Page 4

MC34119DTBR2

Manufacturer Part Number

MC34119DTBR2

Description

IC AMP AUDIO 4W MONO AB 8TSSOP

Manufacturer

Freescale Semiconductor

Type

Class ABr

Datasheet

1.MC34119DR2.pdf (12 pages)

Specifications of MC34119DTBR2

Output Type

1-Channel (Mono)

Max Output Power X Channels @ Load

400mW x 1 @ 100 Ohm

Voltage - Supply

2 V ~ 16 V, ±1 V ~ 8 V

Features

Shutdown

Mounting Type

Surface Mount

Package / Case

8-TSSOP

Operational Class

Class-AB

Audio Amplifier Output Configuration

1-Channel Mono

Output Power (typ)

0.4(Min)x1@100OhmW

Audio Amplifier Function

Speaker

Input Offset Voltage

30mV

Total Harmonic Distortion

0.6%

Single Supply Voltage (typ)

3/5/9/12/15V

Dual Supply Voltage (typ)

Not RequiredV

Power Supply Requirement

Single

Unity Gain Bandwidth Product (typ)

1.5MHz

Rail/rail I/o Type

Power Supply Rejection Ratio

52dB

Single Supply Voltage (min)

Single Supply Voltage (max)

16V

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-20C to 70C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Pin Count

Package Type

TSSOP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

MC34119DTBR2TR

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MC34119DTBR2

Manufacturer:

DIALIGHT

Quantity:

100

Company:

Meier Automation Equipment Co., Limited

Part Number:

MC34119DTBR2

Manufacturer:

MOTOROLA/摩托罗拉

Quantity:

20 000

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General

low voltage operation (V CC = 2.0 V minimum) such as that

encountered in line–powered speakerphones. The circuit

provides a differential output (V O1 –V O2 ) to the speaker to

maximize the available voltage swing at low voltages. The

differential gain is set by two external resistors. Pins FC1 and

FC2 allow controlling the amount of power supply and noise

rejection, as well as providing alternate inputs to the

amplifiers. The CD pin permits powering down the IC for

muting purposes and to conserve power.

Amplifiers

consists of two identical operational amplifiers. Amplifier #1

has an open loop gain of 80 dB (at f

closed loop gain is set by external resistor R f and R i . The

amplifier is unity gain stable, and has a unity gain frequency

of approximately 1.5 MHz. In order to adequately cover the

telephone voice band (300 Hz to 3400 Hz), a maximum

closed loop gain of 46 is recommended. Amplifier #2 is

internally set to a gain of – 1.0 (0 dB).

sinking a peak current of 200 mA. The outputs can typically

swing to within 0.4 V above ground, and to within 1.3 V

below V CC , at the maximum current. See Figures 18 and 19

for V OH and V OL curves.

function of the feedback resistor (R f ), and secondarily due to

the amplifiers’ input offset voltages. The input offset voltage

of the two amplifiers will generally be similar for a particular

IC, and therefore nearly cancel each other at the outputs.

Amplifier #1’s bias current, however, flows out of V in (Pin 4)

and through R f , forcing V O1 to shift negative by an amount

equal to [R f

The output offset voltage, specified in the Electrical

Characteristics, is measured with the feedback resistor

shown in the Typical Application Circuit, and therefore takes

into account the bias current as well as internal offset

voltages of the amplifiers. The bias current is constant with

respect to V CC .

FC1 and FC2

and C2 in the Typical Application Circuit) at FC1 and FC2. C2

is somewhat dominant at low frequencies, while C1 is

dominant at high frequencies, as shown in the graphs of

Figures 4 to 7. The required values of C1 and C2 depend on

the conditions of each application. A line powered

speakerphone, for example, will require more filtering than a

circuit powered by a well regulated power supply. The

amount of rejection is a function of the capacitors, and the

equivalent impedance looking into FC1 and FC2 (listed in the

Electrical Characteristics as R FC1 and R FC2 ).

turn–on time of the circuit at power–up, since the two

capacitors must charge up through the internal 50 k and

125 k

turn–on time upon application of V CC of +6.0 V. The turn–on

time is 60% longer for V CC = 3.0 V, and 20% less for

V CC = 9.0 V. Turn–off time is <10 s upon removal of V CC .

The MC34119 is a low power audio amplifier capable of

Referring to the block diagram, the internal configuration

The outputs of both amplifiers are capable of sourcing and

The output dc offset voltage (V O1 –V O2 ) is primarily a

Power supply rejection is provided by the capacitors (C1

In addition to providing filtering, C1 and C2 also affect the

resistors. The graph of Figure 1 indicates the

I IB ]. V O2 is shifted positive an equal amount.

100 Hz), and the

DESIGN GUIDELINES

MC34119

Chip Disable

IC to conserve power, or for muting, or both. When at a Logic

“0” (0 V to 0.8 V), the MC34119 is enabled for normal

operation. When Pin 1 is at a Logic “1” (2.0 V to V CC V), the

IC is disabled. If Pin 1 is open, that is equivalent to a Logic

“0,” although good design practice dictates that an input

should never be left open. Input impedance at Pin 1 is a

nominal 90 k . The power supply current (when disabled) is

shown in Figure 15.

normal operation to muted operation, is in excess of 70 dB.

The turn–off time of the audio output, from the application of

the CD signal, is <2.0 s, and turn on–time is 12 ms–15 ms.

Both times are independent of C1, C2, and V CC .

FC2 do not change as they are powered from V CC . The

outputs, V O1 and V O2 , change to a high impedance condition,

removing the signal from the speaker. If signals from other

sources are to be applied to the outputs (while disabled), they

must be within the range of V CC and Ground.

Power Dissipation

IC) for various combinations of V CC , R L , and load power. The

maximum power which can safely be dissipated within the

MC34119 is found from the following equation:

where T A is the ambient temperature; and JA is the package

thermal resistance (100 C/W for the standard DIP package,

and 180 C/W for the surface mount package.)

application, is found from the following equation:

where I CC is obtained from Figure 15; and I RMS is the RMS

current at the load; and R L is the load resistance.

curves), and a peak working load current of 200 mA, define

the operating range for the MC34119. The operating range is

further defined in terms of allowable load power in Figure 14

for loads of 8.0 , 16

The Chip Disable (Pin 1) can be used to power down the

Muting, defined as the change in differential gain from

When the MC34119 is disabled, the voltages at FC1 and

Figures 8 to 10 indicate the device dissipation (within the

The power dissipated within the MC34119, in a given

Figures 8 to 10, along with Figures 11 to 13 (distortion

Figure 1. Turn–On Time versus C1, C2 at Power–On

360

300

240

180

120

P D = (V CC x I CC ) + (I RMS x V CC ) – (R L x I RMS 2 )

C1 = 5.0 F

2.0

MOTOROLA ANALOG IC DEVICE DATA

P D = (140 C – T A )/ JA

C1 = 1.0 F

C2, CAPACITANCE ( F)

and 32 . The left (ascending) portion

4.0

6.0

V CC switching from

0 V to 6.0 V

8.0

MC34119DTBR2 Freescale Semiconductor, MC34119DTBR2 Datasheet - Page 4

MC34119DTBR2

Specifications of MC34119DTBR2

Available stocks

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