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LMC1983 Datasheet, PDF (3/14 Pages) National Semiconductor (TI) – Digitally-Controlled Stereo Tone and Volume Circuit with Three Selectable Stereo Inputs
Electrical Characteristics (Continued)
The following specifications apply for V+ = 9V,
0 dB, treble = 0 dB, and loudness is off unless
fIN = 1 kHz, input signal (300
otherwise specified. All limits
mV) applied
apply for TA
to INPUT 1, volume
= TJ = +25˚C.
=
0
dB,
bass
=
Symbol
Parameter
Conditions
Typical Limit
Unit
(Note 6) (Note 7) (Limit)
All Volume Attenuation Settings from
Channel-to-Channel
0100010XXX100110 (76 dB) to
±0.1
±1.5
dB (min)
Tracking Error
0100010XXX000000 (0 dB)
from
0100010XXX101XXX (80 dB) to
±2.0
dB (min)
0100010XXX100111 (78 dB)
Mute Attenuation
Bass Gain Range
VIN = 1.0 Vrms
fIN = 100 Hz, Pins 13, 16
105
86
dB (max)
±12
±10.0 dB (min)
±14.0 dB (max)
Bass Tracking Error
Bass Step Size
fIN = 100 Hz, Pins 13, 16
fIN = 100 Hz, Pins 13, 16
(Relative to Previous Level)
±0.1
2.0
±1.5
1.5
2.5
dB (max)
dB (min)
dB (max)
Treble Gain Range
fIN = 10 kHz, Pins 13, 16
±12
±10.0 dB (min)
±14.0 dB (max)
Treble Tracking Error
Treble Step Size
fIN = 10 kHz, Pins 13, 16
fIN = 10 kHz, Pins 13, 16
(Relative to Previous Level)
±0.1
2.0
±1.5
1.5
2.5
dB (max)
dB (min)
dB (max)
Frequency Response
VIN Applied to Input 1 and Input 2;
fIN = 20 Hz − 20 kHz
(Relative to Signal Amplitude at 1 kHz)
±0.1
±1.0
dB (max)
Loudness
Volume Attenuator = 40 dB, Loudness
on (See Figure 5 )
Gain at 100 Hz (Referenced
11.5
13.5
dB (max)
to Gain at 1 kHz)
9.5
dB (min)
Gain at 10 kHz (Referenced
6.5
8.5
dB (max)
to Gain at 1 kHz)
4.5
dB (min)
Signal-to-Noise Ratio
Channel Balance
VIN = 1.0 Vrms, A Weighted,
Measured at 1 kHz, RS = 470Ω
All Volume Settings
95
90
dB (min)
0.2
1.0
dB (max)
Channel Separation
Input Pins 4, 25: Output Pins 13, 16;
80
60
dB (min)
PSSR
Input-Input Isolation
Power Supply Rejection
Ratio
VIN = 1.0 Vrms (Note 8)
470Ω to AC Ground on Unused Input
V+ = 9 VDC; 200 mVrms, 100 Hz
Sinewave Applied to Pin 26
95
60
dB (min)
32
28
dB (min)
fCLK
VIN(1)
Clock Frequency
Logic “1” Input Voltage
Pins 1, 27, 28 (IM Bus)
Pins 2, 3
5.0
1.0
MHz (max)
1.3
2.0
V (min)
2.9
5.5
V (min)
VIN(0) Logic “0” Input Voltage
Pins 1, 27, 28 (IM Bus)
Pins 2, 3
0.4
0.8
V (max)
1.2
3.5
V (max)
VOUT(1) Logic “1” Output Voltage
VOUT(0) Logic “0” Output Voltage
Pin 28 (IM Bus)
Pin 28 (IM Bus)
2.0
V (min)
0.4
0.8
V (max)
Note 1: Absolute Maximum Ratings indicate limits beyond which damage to the deivce may occur. Operating Ratings indicate conditions for which the device is func-
tional, but do not guarantee specific performance limits. For guaranteed specifications and test conditions, see the Electrical Characteristics. The guaranteed speci-
fications apply only for the test conditions listed. Some performance characteristics may degrade when the device is not operated under the listed test conditions.
Note 2: All voltages are specified with respect to ground.
Note 3: When the input voltage (VIN) at any pin exceeds the power supply voltages (VIN < V− or VIN > V+) the absolute value of the current at that pin should be
limited to 5 mA or less. The 20 mA package input current limits the number of pins that can exceed the power supply voltages with 5 mA current limit to four.
Note 4: The maximum power dissipation must be derated at elevated temperatures and is dictated by TJMAX, θJA, and the ambient temperature TA. The maximum
allowable power dissipation is PD = (TJMAX − TA)/θJA or the number given in the Absolute Maximum Ratings, whichever is lower. For the LMC1983CIN, TJMAX =
+125˚C, and the typical junction-to-ambient thermal resistance, when board mounted, is 67˚C/W.
3
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