Stereo Audio Power Amplifier

www.DataSheet4U.com EUA5202 2-W Stereo Audio Power Amplifier with Mute DESCRIPTION The EUA5202 is a stereo audio power amplifier that delivering 2W of continuous RMS power per channel into 3-Ω loads. When driving 1W into 8-Ω speakers, the EUA5202 has less than 0.04% THD+N across its specified frequency range. Included within this device is integrated de-pop circuitry that virtually eliminates transients that cause noise in the speakers. Amplifier gain is externally configured by means of two resistors per input channel and does not require external compensation for settings of 2 to 20 in BTL mode (1 to 10 in SE mode). An internal input MUX allows two sets of stereo inputs to the amplifier. In notebook applications, where internal speakers are driven as BTL and the line (often headphone drive) outputs are required to be SE, the EUA5202 automatically switches into SE mode when the SE/BTL inputs is activated. Consume only 7mA of supply current during normal operation, and the EUA5202 also features a shutdown function for power sensitive applications, holding the supply current at 1µA. FEATURES Output Power at 3Ω Load - 2W/ch at VDD=5V - 800mW/ch at 3V Low Supply Current and Shutdown Current Integrated Depop Circuit Mute and Shutdown Control Function Thermal Shutdown Protection Stereo Input MUX Bridge-Tied Load (BTL) or Single-Ended (SE) Modes. TSSOP-24 with Thermal Pad APPLICATIONS Notebook Computers Multimedia Monitors Digital Radios and Portable TVs Block Diagram DS5202 Ver 1.4 Nov. 2004 1 www.DataSheet4U.com EUA5202 Typical Application Circuit Figure 1. EUA5202 Minimum Configuration Application Circuit Figure 2. EUA5202 Full Configuration Application Circuit DS5202 Ver 1.4 Nov. 2004 2 www.DataSheet4U.com EUA5202 Pin Configurations Package Pin Configurations TSSOP-24 with Thermal Pad, exposure on the bottom of the package Pin Description PIN PIN I/O DESCRIPTION HP/ LINE LBYPASS LHPIN LLINE IN LOUT+ LOUTGND/HS LVDD MUTE IN MUTE OUT NC RBYPASS RHPIN RLINEIN ROUT+ ROUTRVDD SE/BTL SHUTDOWN TJ 16 6 5 4 3 10 1,12,13, 24 7 11 9 17,23 19 20 21 22 15 18 14 8 2 I I I O O I I O Input MUX control input, hold high to select LHP IN or RHP IN (5, 20), hold low to select LLINE IN or RLINE IN (4, 21) Tap to voltage divider for left channel internal mid-supply bias Left channel headphone input, selected when HP/LINE terminal (16) is held high Left channel line input, selected when HP/LINE terminal (16) is held low Left channel + output in BTL mode, + output in SE mode Left channel - output in BTL mode, high-impedance state in SE mode Ground connection for circuitry, directly connected to thermal pad Supply voltage input for left channel and for primary bias circuits Mute all amplifiers, hold low for normal operation, hold high to mute Follows MUTE IN terminal (11), provides buffered output No internal connection Tap to voltage divider for right channel internal mid-supply bias Right channel headphone input, selected when HP/LINE terminal (16) is held high Right channel line input, selected when HP/LINE terminal (16) is held low Right channel + output in BTL mode, + output in SE mode Right channel - output in BTL mode, high-impedance state in SE mode Supply voltage input for high channel Hold low foe BTL mod, hold high for SE mode Places entire IC in shutdown mode when held high, IDD=5µA Sources a current proportional to the junction temperature. This terminal should be left unconnected during normal operation. I I O O I I I O DS5202 Ver 1.4 Nov. 2004 3 www.DataSheet4U.com EUA5202 Ordering Information Order Number Package Type Marking Operating Temperature range EUA5202QIR EUA5202QIT TSSOP 24 TSSOP 24 xxxx EUA5202 xxxx EUA5202 -40°C to 85°C -40°C to 85°C EUA5202 ¡¼ ¡¼ ¡¼ Packing R: Tape& Reel T: Tube Operating temperature range I: Industry Standard Package Type Q: TSSOP DS5202 Ver 1.4 Nov. 2004 4 www.DataSheet4U.com EUA5202 Absolute Maximum Ratings Supply voltage , VDD------------------------------------------------------------------------------------------6V Input voltage, V1----------------------------------------------------------------------------0.3V to VDD+0.3V Continuous total power dissipation------------------------------------------------------------internally limited Operating free-air temperature range ,TA ------------------------------------------------------- –40°C to 85°C Operating junction temperature range, TJ ------------------------------------------------------- –40°C to 150°C Storage temperature range, Tstg ---------------------------------------------------------------–65°C to 150°C Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds-------------------------------------260°C Recommended Operating Conditions MIN NOM MAX UNIT Supply Voltage, VDD VDD = 5V, 250m W/Ch average power, VDD = 5V, 2 W/Ch average power, VDD = 5V VDD = 3.3V 3 4-Ω stereo BTL drive, with proper PCB design -40 3-Ω stereo BTL drive, with proper PCB design -40 and 300 CFM forced-air cooling 1.25 1.25 5 5.5 85 V Operating free-air temperature, TA °C 85 4.5 2.7 Common mode input voltage, VICM V DC Electrical Characteristics, TA=25°C Symbol Parameter VDD=5V IDD Supply Current VDD=3.3V VOO IDD (Mute) IDD(SD) Output Offset Voltage (measured differentially) Supply Current in Mute Mode IDD in Shutdown Conditions Stereo BTL Stereo SE Stereo BTL Stereo SE EUA5202 Unit Min. Typ Max. 7.1 3.9 5.7 3.1 5 1.55 1 5 11 6 9 5 25 mA mA mA mA mV mA µA VDD=5V, Gain=2 VDD=5V VDD=5V DS5202 Ver 1.4 Nov. 2004 5 www.DataSheet4U.com EUA5202 Typical Ac Operating Characteristics, VDD=5V, TA=25°C, RL=3Ω Symbol PO THD+N Parameter Output Power(each channel)*1 Total Harmonic Distortion Plus Noise Maximum Output Power Bandwidth Supply Ripple Rejection Ratio Mute Attenuation Channel-to- Channel Output Separation Line/HP Input Separation BTL Attenuation in SE Mode Input Impedance Signal-to-Noise Ratio Output Noise Voltage Conditions THD=0.2%, BTL, See Figure 3 THD=1%, BTL, See Figure 3 PO=2W, f=1KHz ,See Figure5 V1=1V, RL=10kΩ, AV=1V/V Typ. 2 2.2 200 100 >20 65 40 85 85 88 86 Unit W m% m% KHz dB dB dB dB dB MΩ dB µV(rms) BOM AV=10V/V THD <1%, See Figure5 f=1KHz, See Figure37 f=20-20KHz, See Figure37 f=1KHz, See Figure 39 Z1 VN PO=2W,BTL, 5V See Figure 35 2 101 22 *1: Output Power is measured at the output terminals of the IC at 1 KHz Typical Ac Operating Characteristics, VDD=3.3V, TA=25°C, RL=3Ω Symbol PO THD+N Parameter Output Power(each channel)*1 Total Harmonic Distortion Plus Noise Maximum Output Power Bandwidth Supply Ripple Rejection Ratio Mute Attenuation Channel-to- Channel Output Separation Line/HP Input Separation BTL Attenuation in SE Mode Input Impedance Signal - to - Noise Ratio Output Noise Voltage Conditions THD=0.2%, BTL, See Figure 10 THD=1%, BTL, See Figure 10 PO=2W, f=1KHz ,See Figure11 V1=1V, RL=10kΩ, AV =1V/V Typ. 800 900 350 200 >20 60 40 85 80 88 86 Unit W m% m% KHz dB dB dB dB dB MΩ dB µV(rms) BOM AV=10V/V THD <1%, See Figure11 f=1KHz, See Figure37 f=20-20KHz, See Figure37 f=1KHz, See Figure 40 Z1 VN PO=700mW,BTL, 5V See Figure 36 2 96 22 *1: Output Power is measured at the output terminals of the IC at 1 KHz DS5202 Ver 1.4 Nov. 2004 6 www.DataSheet4U.com EUA5202 Typical Operating Characteristics (Table of Graphs) No 1 2 3 4 5 6 7 8 9 Item THD+N vs. Output Power THD+N vs. Frequency THD+N vs. Frequency THD+N vs. Output Power THD+N vs. Frequency THD+N vs. Output Power THD+N vs. Output Power THD+N vs. Output Power THD+N vs. Frequency Conditions VDD=5V¡A RL=3 & 8 ohm¡A BTL¡A f=1KHz VDD=5V¡A RL=4 ohm¡A BTL¡A Po=1.5W f=20 to 20KHz¡A Av= -2 & -10 & -20V/V VDD=5V¡A RL=3 & 4 ohm¡A BTL¡A Po=1.5W ¡A f=20 to 20KHz VDD=5V¡A RL=3 ohm¡A BTL¡A f=20 & 1K & 20KHz VDD=5V¡A RL=8 ohm¡A BTL¡A f=20 to 20KHz¡A Av=-2V/V VDD=5V¡A RL=8 ohm¡A BTL¡A Po=1W¡A Av= -2 &-10 & -20V/V¡A f=20 to 20KHz VDD=5V¡A RL=8 ohm¡A BTL¡A f=20 & 1K & 20KHz VDD=3.3V¡A RL=3 & 8 ohm¡A BTL¡A f=1KHz VDD=3.3V¡A RL=4 ohm¡A BTL¡A Po=0.75W¡A Av= -2 &-10 &-20V/V¡A f=20 to 20KHz VDD=3.3V¡A RL=4 ohm¡A BTL¡A Av=-2V/V¡A Po=0.1 & 0.35 & 0.75W & 800mW(RL=3 ohm) VDD=3.3V¡A RL=3 ohm¡A BTL¡A Av=-2V/V¡A f=20 & 1K & 20KHz VDD=3.3V¡A RL=8 ohm¡A BTL¡A Po=0.4W ¡A Av=-2 &-10 & -20V/V VDD=3.3V¡A RL=8 ohm¡A BTL¡A Av=-2V/V ¡A Po=0.1 & 0.25 & 0.4W VDD=3.3V¡A RL=8 ohm¡A BTL¡A Av= -2V/V¡A f=20 & 1K &20KHz VDD=5V¡A RL=4 ohm¡A SE¡A Po=0.5W¡A Av= -1&-5&-10V/V VDD=5V¡A RL=4 ohm¡A SE¡A Av= -2V/V¡A Po=0.1 & 0.25 & 0.5W VDD=5V¡A RL=4 ohm¡A SE¡A Av= -2V/V¡A f=100 & 1K & 20KHz VDD=5V¡A RL=8 ohm¡A SE¡A Po=0.25W¡A Av= -1 &-5 &-10V/V VDD=5V¡A RL=8 ohm¡A SE¡A Av= -2V/V¡A Po=0.05 & 0.1 & 0.25W VDD=5V¡A RL=8 ohm¡A SE¡A Av= -2V/V¡A f=100 &1K & 20KHz VDD=5V¡A RL=32 ohm¡A SE¡A Po=0.075W¡A Av= -1 &-5 &-10V/V VDD=5V¡A RL=32 ohm¡A SE¡A Av= -1V/V¡A Po=25 & 50 & 75mW VDD=5V¡A RL=32 ohm¡A SE¡A Av= -1V/V¡A f=20 & 1K & 20KHz VDD=3.3V¡A RL=4 ohm¡A SE¡A Po=0.2W¡A Av= -1 &-5 &-10V/V VDD=3.3V¡A RL=4 ohm¡A SE¡A Av= -1V/V¡A Po=0.05 & 0.1 & 0.2W VDD=3.3V¡A RL=4 ohm¡A SE¡A Av= -2V/V¡A f=100 & 1K & 20KHz VDD=3.3V¡A RL=8 ohm¡A SE¡A Po=100mW¡A Av= -1 &-5 &-10V/V VDD=3.3V¡A RL=8 ohm¡A SE¡A Av= -1V/V¡A Po=25 & 50 &100mW VDD=3.3V¡A RL=8 ohm¡A SE¡A Av= -1V/V¡A f=100 & 1K & 20KHz VDD=3.3V¡A RL=32 ohm¡A SE¡A Po=30mW¡A Av= -1 &-5 &-10V/V VDD=3.3V¡A RL=32 ohm¡A SE¡A Av= -1V/V¡A Po=10 & 20 & 30mW VDD=3.3V¡A RL=32 ohm¡A SE¡A Av=-1V/V¡A f=20 & 1K & 20KHz Figure Page 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 9 9 9 9 9 9 10 10 10 10 10 10 11 11 11 11 11 11 12 12 12 12 12 12 13 13 13 13 13 13 14 14 10 THD+N vs. Frequency 11 THD+N vs. Output Power 12 THD+N vs. Frequency 13 THD+N vs. Frequency 14 THD+N vs. Output Power 15 THD+N vs. Frequency 16 THD+N vs. Frequency 17 THD+N vs. Output Power 18 THD+N vs. Frequency 19 THD+N vs. Frequency 20 THD+N vs. Output Power 21 THD+N