LM1876TF/NOPB National Semiconductor, LM1876TF/NOPB Datasheet - Page 8
LM1876TF/NOPB
Manufacturer Part Number
LM1876TF/NOPB
Description
IC AMP AUDIO PWR 22W AB TO220-15
Manufacturer
National Semiconductor
Series
Overture™r
Type
Class ABr
Specifications of LM1876TF/NOPB
Output Type
2-Channel (Stereo)
Max Output Power X Channels @ Load
22W x 2 @ 4 Ohm
Voltage - Supply
20 V ~ 64 V, ±10 V ~ 32 V
Features
Depop, Mute, Standby, Thermal Protection
Mounting Type
Through Hole
Package / Case
TO-220-15 (Bent and Staggered Leads)
Amplifier Type
Audio
Bandwidth
20 Hz to 20 kHz
Common Mode Rejection Ratio
110
Current, Input Bias
0.2 μA
Current, Input Offset
0.002 μA
Current, Output
3.5 A
Current, Supply
50 mA (Standby Off), 4.2 mA (Standby On)
Harmonic Distortion
0.08 %
Impedance, Thermal
2 °C/W
Number Of Amplifiers
Dual
Open Loop Gain
110
Package Type
TO220-15
Power Dissipation
62.5 W
Slew Rate
18
Temperature, Operating, Range
-20 to +85 °C
Time, Rise
2 ns
Voltage, Input Offset
2 mV
Voltage, Noise
2 μV
Voltage, Supply
20 to 64 V
Amplifier Class
AB
No. Of Channels
2
Output Power
20W
Supply Voltage Range
20V To 64V
Load Impedance
4ohm
Operating Temperature Range
-20°C To +85°C
Amplifier Case Style
TO-220
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Other names
*LM1876TF
*LM1876TF/NOPB
LM1876TF
*LM1876TF/NOPB
LM1876TF
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
LM1876TF/NOPB
Manufacturer:
RAYTHEON
Quantity:
334
www.national.com
10
11
12
13
14
15
16
17
External Components Description
1
2
3
4
5
6
7
8
9
Note 14: Optional components dependent upon specific design requirements.
Typical Performance Characteristics
Components
R
R
R
C
(Note 14)
C
R
(Note 14)
R
(Note 14)
C
(Note 14)
R
(Note 14)
C
(Note 14)
L (Note 14)
R (Note 14)
R
C
R
(Note 14)
R
R
B
i
f
i
S
V
IN
IN
SN
SN
A
A
INP
BI
E
THD + N vs Frequency
Prevents currents from entering the amplifier’s non-inverting input which may be passed through to the load
upon power down of the system due to the low input impedance of the circuitry when the undervoltage
circuitry is off. This phenomenon occurs when the supply voltages are below 1.5V.
Inverting input resistance to provide AC gain in conjunction with R
Feedback resistance to provide AC gain in conjunction with R
Feedback capacitor which ensures unity gain at DC. Also creates a highpass filter with R
Provides power supply filtering and bypassing. Refer to the Supply Bypassing application section for proper
placement and selection of bypass capacitors.
Acts as a volume control by setting the input voltage level.
Sets the amplifier’s input terminals DC bias point when C
create a highpass filter at f
Input capacitor which blocks the input signal’s DC offsets from being passed onto the amplifier’s inputs.
Works with C
Works with R
The pole is set at f
Provides high impedance at high frequencies so that R may decouple a highly capacitive load and reduce
the Q of the series resonant circuit. Also provides a low impedance at low frequencies to short out R and
pass audio signals to the load. Refer to Figure 4.
Provides DC voltage biasing for the transistor Q1 in single supply operation.
Provides bias filtering for single supply operation.
Limits the voltage difference between the amplifier’s inputs for single supply operation. Refer to the Clicks
and Pops application section for a more detailed explanation of the function of R
Provides input bias current for single supply operation. Refer to the Clicks and Pops application section for
a more detailed explanation of the function of R
Establishes a fixed DC current for the transistor Q1 in single supply operation. This resistor stabilizes the
half-supply point along with C
SN
SN
to stabilize the output stage by creating a pole that reduces high frequency instabilities.
to stabilize the output stage by creating a pole that reduces high frequency instabilities.
C
= 1/(2πR
01207213
C
= 1/(2πR
A
SN
.
C
SN
). Refer to Figure 4.
IN
C
IN
Functional Description
8
). Refer to Figure 4.
BI
.
IN
is present in the circuit. Also works with C
i
.
THD + N vs Frequency
f
.
INP
.
i
at f
01207214
C
= 1/(2πR
IN
to
i
C
i
).
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