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UNISONIC TECHNOLOGIES CO., LTD S486
DUAL 100mW AUDIO POWER AMPLIFIER WITH STANDBY MODE
DESCRIPTION
The UTC S486 is a dual power amplifier capable of delivering typically 100mW per channel of continuous average power to an 8 load with 0.1% THD+N using a 5V power supply. The UTC S486 features an externally controlled, low-power consumption shutdown mode. The UTC S486 exhibit a low quiescent current of typically 1.8mA, allowing usage in portable applications. The unity-gain stable UTC S486 can be configured by external gain-setting resistors.
CMOS IC
SOP-8
*Pb-free plating product number: S486L
FEATURES
* Operating voltage range VCC=2V ~ 5.5V * Output power: - 102mW @5V into 16 with 0.1% THD+N max (1kHz) * Shutdown mode available * Low current consumption: 2.5mA max * Click and pop reduction circuitry * Unity-gain stable * Short circuit protected
ORDERING INFORMATION
Normal S486-S08-R S486-S08-T Order Number Lead Free Plating S486L-S08-R S486L-S08-T Package SOP-8 SOP-8 Packing Tape Reel Tube
S486L-S08-R (1)Packing Type (2)Package Type (3)Lead Plating (1) R: Tape Reel, T: Tube (2) S08: SOP-8 (3) L: Lead Free Plating, Blank: Pb/Sn
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PIN CONFIGURATION
CMOS IC
OUT (1) VIN (1) BYPASS GND
1 2 3 4
8 7 6 5
VCC OUT (2) VIN (2) SHUTDOWN
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ABSOLUTE MAXIMUM RATING (Ta=25 )
CMOS IC
PARAMETER SYMBOL RATINGS UNIT Supply voltage (Note 2) VCC 6 V Input Voltage VIN -0.3V ~ VCC+0.3V V Output Short-Circuit to VCC or GND Continuous(Note 3) Power Dissipation (TJ=150 ) PD 0.71 W Junction Temperature TJ +150 Operating Temperature TOPR -40 ~ +85 Storage Temperature TSTG -65 ~ +150 Note: 1.Absolute maximum ratings are those values beyond which the device could be permanently damaged. Absolute maximum ratings are stress ratings only and functional device operation is not implied. 2.All voltage values are measured with respect to the ground pin. 3.Attention must be paid to continuous power dissipation (VDD x 300mA). Exposure of the IC to a short circuit for an extended time period is dramatically reducing product life expectancy.
THERMAL DATA
PARAMETER Thermal Resistance Junction to Ambient SYMBOL JA RATINGS 175 UNIT /W
RECOMMENDED OPERATING CONDITIONS
RATINGS Supply Voltage 2 ~ 5.5 ACTIVE 1.5VSHDNVCC Shutdown Voltage Input VST-BY SHUTDOWN GNDVSHDN0.4(Note) Load Resistor RL 16 RL = 16 ~ 100 400 Load Capacitor CL RL > 100 100 Thermal Resistance Junction to Ambient JA 150 Note: The minimum current consumption (ISHDN) is guaranteed at GND for the whole temperature range. PARAMETER SYMBOL VCC UNIT V V pF /W
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ELECTRICAL CHARACTERISTICS (Ta = 25 , GND = 0V, unless otherwise specified)
For VCC = +5V TEST CONDITIONS VOL : RL = 32 VOH : RL = 32 Output Swing VOUT VOL : RL = 16 VOH : RL = 16 Input Offset Voltage VI(OFF) VICM = VCC/2 Supply Current ICC No input signal, no load Shutdown Current ISHDN No input signal, VSHDN=GND, RL=32 Input Bias Current II(BIAS) VICM = VCC/2 THD+N1%, Max Output Current IOUT RL=16 connected between out and VCC/2 RL = 16 THD+N = 0.1% Max, F= 1kHz RL = 32 Output Power POUT RL = 16 THD+N = 1% Max, F= 1kHz RL = 32 Total Harmonic Distortion + RL = 32, POUT= 60mW, 20HzF20kHz THD+N Noise (Gv=-1) RL = 16, POUT= 90mW, 20HzF20kHz inputs grounded(GV=-1)(Note), RL 16, Power Supply Rejection Ratio PSRR CB=1mF, F = 1kHz, VRIPPLE = 200mVPP (A weighted, GV=-1)(Note), RL = 32, Signal-to-Noise Ratio SNR THD +N < 0.4%, 20HzF20kHz Channel Separation, RL = 16 GV=-1, F = 1kHz RL = 32 Crosstalk CT RL = 16 Channel Separation, GV=-1, F = 20Hz ~ 20kHz RL = 32 Input Capacitance CIN Gain Bandwidth Product GBW RL = 32 Slew Rate SR Unity Gain Inverting(RL = 16) Note: Guaranteed by design and evaluation. PARAMETER SYMBOL MIN 4.45 4.2 TYP 0.45 4.52 0.6 4.35 1 1.8 10 90 115 102 64 108 65 0.3 0.3 58 103 80 83 72 79 1 1.1 0.4
CMOS IC
MAX 0.5 0.7
UNIT V mV mA nA nA mA
2.5 1000 200
106
95 60
mW
% dB dB
53 80
dB pF MHz V/s
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For VCC = +3.3V PARAMETER Output Swing SYMBOL VOUT TEST CONDITIONS VOL : RL = 32 MIN TYP 0.3 3 0.45 2.85 1 1.8 10 90 75 38 26 42 28 0.3 0.3 58 98 77 80 69 76 1 1.1 0.4
CMOS IC
ELECTRICAL CHARACTERISTICS(Cont.) (Ta = 25 , GND = 0V, unless otherwise specified)
MAX 0.38 0.52
UNIT V
VOH : RL = 32 2.85 VOL : RL = 16 VOH : RL = 16 2.68 Input Offset Voltage VI(OFF) VICM = VCC/2 Supply Current ICC No input signal, no load Shutdown Current ISHDN No input signal, VSHDN=GND, RL=32 Input Bias Current II(BIAS) VICM = VCC/2 THD +N1%, 64 Max Output Current IOUT RL = 16 connected between out and VCC/2 RL = 16 THD+N = 0.1% Max, F= 1kHz RL = 32 Output Power POUT RL = 16 36 THD+N = 1% Max, F= 1kHz RL = 32 23 Total Harmonic Distortion + RL = 32, POUT= 60mW, 20HzF20kHz THD+N Noise (Gv=-1) RL = 16, POUT= 90mW, 20HzF20kHz inputs grounded (GV=-1)(Note 2), RL 16, 53 Power Supply Rejection Ratio PSRR CB=1mF, F = 1kHz, VRIPPLE = 200mVPP (A weighted, GV=-1)(Note 2), RL = 32, 80 Signal-to-Noise Ratio SNR THD +N < 0.4%, 20HzF20kHz Channel Separation, RL = 16 GV=-1, F = 1kHz RL = 32 Crosstalk CT Channel Separation, RL = 16 GV=-1, F = 20Hz ~ 20kHz RL = 32 Input Capacitance CIN Gain Bandwidth Product GBw RL = 32 Slew Rate SR Unity Gain Inverting( RL = 16) Note 1. All electrical values are guaranteed with correlation measurements at 2V and 5V. 2. Guaranteed by design and evaluation.
2.5 1000 200
mV mA nA nA mA
mW
% dB dB
dB pF MHz V/s
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For VCC = +2.5V TEST CONDITIONS MIN VOL : RL = 32 VOH : RL = 32 2.14 Output Swing VOUT VOL : RL = 16 VOH : RL = 16 1.97 Input Offset Voltage VI(OFF) VICM = VCC/2 Supply Current ICC No input signal, no load Shutdown Current ISHDN No input signal, VSHDN=GND, RL=32 Input Bias Current II(BIAS) VICM = VCC/2 THD +N 1%, 45 Max Output Current IOUT RL = 16 connected between out and VCC/2 RL = 16 THD+N = 0.1% Max, F= 1kHz RL = 32 Output Power POUT RL = 16 17.5 THD+N = 1% Max, F= 1kHz RL = 32 12.5 RL = 32,POUT = 60mW, 20Hz F 20kHz Total Harmonic Distortion + THD+N RL = 16, POUT = 90mW, 20Hz F 20kHz Noise (Gv=-1) inputs grounded(GV=-1)(Note 2), RL 16, 53 Power Supply Rejection Ratio PSRR CB=1mF, F = 1kHz, VRIPPLE = 200mVPP (A weighted, AV=-1)(Note 2), RL = 32, Signal-to-Noise Ratio SNR 80 THD +N < 0.4%, 20Hz F 20kHz Channel Separation, RL = 16 GV=-1, F = 1kHz RL = 32 Crosstalk CT RL = 16 Channel Separation, GV=-1, F = 20Hz ~ 20kHz RL = 32 Input Capacitance CIN Gain Bandwidth Product GBP RL = 32 Slew Rate SR Unity Gain Inverting (RL = 16) Note 1. All electrical values are guaranteed with correlation measurements at 2V and 5V. 2. Guaranteed by design and evaluation. PARAMETER SYMBOL TYP 0.25 0.25 0.35 2.15 1 1.7 10 90 56 21 13 22 14 0.3 0.3 58 95 77 80 69 76 1 1.1 0.4
CMOS IC
ELECTRICAL CHARACTERISTICS(Cont.) (Ta = 25 , GND = 0V, unless otherwise specified)
MAX 0.32 0.45
UNIT V mV mA nA nA mA
2.5 1000 200
mW
% dB dB
dB pF MHz V/s
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For VCC = +2V TEST CONDITIONS VOL : RL = 32 VOH : RL = 32 Output Swing VOUT VOL : RL = 16 VOH : RL = 16 Input Offset Voltage VI(OFF) VICM = VCC/2 Supply Current ICC No input signal, no load Shutdown Current ISHDN No input signal, VSHDN=GND, RL=32 Input Bias Current II(BIAS) VICM = VCC/2 THD +N 1%, Max Output Current IOUT RL=16 connected between out and VCC/2 RL = 16 THD+N = 0.1% Max, F= 1kHz RL = 32 Output Power POUT RL = 16 THD+N = 1% Max, F= 1kHz RL = 32 RL = 32, POUT= 60mW, 20Hz F 20kHz Total Harmonic Distortion + THD+N RL = 16, POUT= 90mW, 20Hz F 20kHz Noise (Gv=-1) inputs grounded (GV=-1)(Note) ,RL 16, Power Supply Rejection Ratio PSRR CB=1mF, F = 1kHz, VRIPPLE = 200mVPP (A weighted, GV=-1)(Note), RL = 32, Signal-to-Noise Ratio SNR THD +N < 0.4%, 20HzF20kHz Channel Separation, RL = 16 GV=-1, F = 1kHz RL = 32 Crosstalk CT RL = 16 Channel Separation, GV=-1, F = 20Hz ~ 20kHz RL = 32 Input Capacitance CIN Gain Bandwidth Product GBP RL = 32 Slew Rate SR Unity Gain Inverting (RL = 16) Note: Guaranteed by design and evaluation. PARAMETER SYMBOL MIN 1.67 1.53 TYP 0.24 1.73 0.33 1.63 1 1.7 10 90 41 12 8 13 9 0.3 0.3 57 93 77 80 69 76 1 1.1 0.4
CMOS IC
ELECTRICAL CHARACTERIST(Cont.) (Ta = 25 , GND = 0V, unless otherwise specified)
MAX 0.29 0.41
UNIT V mV mA nA nA mA
2.5 1000 200
33
9.5 7
mW
% dB dB
52 80
dB pF MHz V/s
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TYPICAL APPLICATION CIRCUIT
Stdby level threshold=0.9V
Stdby ctrl
CMOS IC
VCC RFEED 1 20K 8 VCC 1 UTC S486=Stdby 7 GND 4 20K RFEED 2 CS 1F 220F COUT1 COUT2 220F ZL=32
Right In
CIN1 330nF
20K RIN1 CB
2 5 3 Stdby BIAS
1K ZL=32
330nF Left In CIN2
1F RIN2 20K
3
1K
COMPONENTS INFORMATION Components RIN1, 2 CIN1, 2 RFEED1, 2 CS CB COUT1, 2 Functional Description Inverting input resistor which sets the closed loop gain in conjunction with RFEED. This resistor also forms a high pass filter with CIN (fc = 1 / (2 x x RIN x CIN) . Input coupling capacitor which blocks the DC voltage at the amplifier's input terminal. Feedback resistor which sets the closed loop gain in conjunction with RIN. AV= Closed Loop Gain= -RFEED/RIN. Supply Bypass capacitor which provides power supply filtering. Bypass capacitor which provides half supply filtering. Output coupling capacitor which blocks the DC voltage at the load input terminal. This capacitor also forms a high pass filter with RL (fc = 1 / (2 x x RL x COUT)).
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TYPICAL CHARACTERISTICS
Fig1. THD + N vs Frequency RL =16 GV=-1 CB = 1F BW < 125kHz 0.1 Ta = 25 VCC=2V, POUT=7.5mW VCC=5V, POUT=85mW Fig 2. THD + N vs Frequency RL =32 GV=-1 CB = 1F BW < 125kHz 0.1 Ta = 25 VCC=2V, POUT=6mW VCC=5V, POUT=55mW
CMOS IC
THD + N (%)
0.01 20 100 1000 Frequency (Hz) 10000 20k 20 100 1000 Frequency (Hz) 10000 20k
Fig 3. THD + N vs Output Power 10 R L =16 F = 1kHz G V = -1 1 C B = 1F BW < 125kHz Ta = 25 10
THD + N (%)
0.01
Fig 4. THD + N vs Output Power RL =32 F = 1kHz G V = -1 1 C = 1F B BW < 125kHz Ta = 25 0.1 VCC=2V
THD + N (%)
0.1 VCC=2V
0.01 1
VCC=2.5V VCC=3.3V VCC=5V 10 100 Output Power (mW)
THD + N (%)
0.01 VCC=2.5V 1E-3 1 VCC=3.3V VCC=5V 100
10 Output Power (mW)
Fig 5. THD + N vs Output Power 10 R L =16 F = 20kHz G V = -1 C B = 1F BW < 125kHz 1 Ta = 25 VCC=2V VCC=2.5V VCC=3.3V VCC=5V 1 10 Output Power (mW) 100 1 10
Fig 6. THD + N vs Output Power RL =32 F = 20kHz G V = -1 CB = 1F B < 125kHz 1W Ta = 25 VCC=2V VCC=2.5V
THD + N (%)
0.1
THD + N (%)
0.1 VCC=3.3V VCC=5V 10 Output Power (mW) 100
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TYPICAL CHARACTERISTICS(Cont.)
Fig 7. Open Loop Gain and Phase vs Frequency 80 60
Gain (dB)
CMOS IC
Fig 8. Open Loop Gain and Phase vs Frequency 180 160 140 120 100 80 60 40 20 0 -20 10 100 1000 10000 Frequency (kHz) 80 60
Gain (dB)
VCC=5V RL=16 Ta=25 Gain Phase
Gain
VCC=5V RL=32 Ta=25
180 160 140 120 100 80 60 40
Phase (Deg)
40 20 0
40 20 0 Phase
-20 -40 0.1 1
-20 -40 0.1 1
20 0 -20 10 100 1000 10000 Frequency (kHz)
Fig 9. Open Loop Gain and Phase vs Frequency 80 60
Gain (dB)
40 20 0
Gain Phase
Phase (Deg)
120 100 80 60 40
Output Power (mW)
VCC=5V RL=600 Ta=25
180 160 140
Fig 10. Output Power vs Power Supply Voltage 200 RL = 16 175 F = 1kHz B < 125kHz 150 W Ta = 25 125 100 75 50 25 0 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 VCC(V) THD+N=10% THD+N=0.1%
THD+N=1%
-20 -40 0.1 1
20 0 -20 10 100 1000 10000 Frequency (kHz)
Fig 11. Output Power vs Power Supply Voltage
Power Dissipation (mW)
Fig 12. Power Dissipation vs Output Power
V CC =5V
Output Power (mW)
R L = 32 F = 1kHz 100 B < 125kHz W Ta = 25 75 50 25
80 F=1kHz 60 40 20 0
THD+N<1%
THD+N=1%
R L=16
THD+N=10%
THD+N=0.1%
R L=32
0 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 VCC(V)
0
20
40 60 80 100 Output Power (mW)
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Phase (Deg)
S486
TYPICAL CHARACTERISTICS(Cont.)
Fig 13. Power Dissipation vs Output Power 15 VCC=2V F=1kHz THD+N<1% 10 RL=16 Fig 14. Power Derating vs Ambiant Temperature 1.0 0.9
CMOS IC
Power Dissipation (mW)
Power Dissipation (W)
0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0.0 0
5 RL=32
0 0
2
8 10 6 4 Output Power (mW)
12
25 50 75 100 125 Ambiant Temperature ( )
150
Fig 15. Current Consumption vs Power Supply Voltage 2.0 Ta=85 2.0
Fig 16. Current Consumption vs Standby Voltage
Current Consumption (mA)
1.5 Ta=25 1.0 Ta=-40
Current Consumption (mA)
1.5
Ta=85 Ta=25
1.0 Ta=-40 0.5 VCC = 5V No load 0 1 2 3 Standby Voltage (V) 4 5
0.5 No load 1 2 3 VCC (V) 4 5
0.0 0
0.0
VOH & VOL (V)
5.0 Ta=25 4.5 4.0 3.5 3.0 2.5 2.0 1.5 1.0 0.5 0.0 2.0
Fig 17. Output Voltage Swing vs Power Supply Voltage
RL=32 R L=16
2.5
3.0
3.5 4.0 VCC (V)
4.5
5.0
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CMOS IC
UTC assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all UTC products described or contained herein. UTC products are not designed for use in life support appliances, devices or systems where malfunction of these products can be reasonably expected to result in personal injury. Reproduction in whole or in part is prohibited without the prior written consent of the copyright owner. The information presented in this document does not form part of any quotation or contract, is believed to be accurate and reliable and may be changed without notice.
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