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Partno	Mfg	Dc	Qty	Available	Descript
TS4890ID	ST	N/a	610	avai	RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITH STANDBY MODE
TS4890IDT	STM	N/a	4804	avai	RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITH STANDBY MODE
TS4890IST	ST	N/a	104000	avai	RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITH STANDBY MODE

TS4890IST ,RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITH STANDBY MODETS4890RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITHSTANDBY MODE ACTIVE LOW ■ OPERATING FROM V ..
TS4900 ,300MW AT 3.3V SUPPLY AUDIO POWER AMPLIFIER WITH STANDBY MODE ACTIVE HIGHELECTRICAL CHARACTERISTICSV = +5V, GND = 0V, T = 25°C (unless otherwise specified) CC ambSymbol ..
TS4900ID ,300MW AT 3.3V SUPPLY AUDIO POWER AMPLIFIER WITH STANDBY MODE ACTIVE HIGHTS4900 300mW at 3.3V SUPPLY AUDIO POWER AMPLIFIERWITH STANDBY MODE ACTIVE HIGH ■ OPERATING FROM V ..
TS4902ID ,300MW AT 3.3V SUPPLY AUDIO POWER AMPLIFIER WITH STANDBY MODE ACTIVE LOWABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit1)V6VCC Supply voltage 2)V G to VVi Input ..
TS4902IDT ,300MW AT 3.3V SUPPLY AUDIO POWER AMPLIFIER WITH STANDBY MODE ACTIVE LOWELECTRICAL CHARACTERISTICSV = +5V, GND = 0V, T = 25°C (unless otherwise specified) CC ambSymbol ..
TS4909IQT ,Ultra low power stereo headphone amplifier with capacitor-less outputapplications for the TS4909 . . . 4Figure 2. Open-loop frequency response, R = 1 MΩ . .9LF ..
UA709 ,HIGH-PERFORMANCE OPERATIONAL AMPLIFIERapplications and for the generation of special linear and nonlinear transfer functions. ABSOLUT ..
UA709HC ,HIGH-PERFORMANCE OPERATIONAL AMPLIFIERfeatures low offset, high input impedance, large input common mode range, high output swing under ..
UA709HM ,HIGH-PERFORMANCE OPERATIONAL AMPLIFIERGENERAL DESCRIPTION - The pA709 is a monolithic High Gain Operational Amplifier con- structed usin ..
UA709PC ,HIGH-PERFORMANCE OPERATIONAL AMPLIFIERELECTRICAL CHARACTERISTICS: TA " +25''C, 19 V < VS < t15 V unless otherwise specified. CHARACTER ..
UA709TC ,High-performance operational amplifierapplications and for the generation of special linear and nonlinear transfer functions. ABSOLUT ..
UA709TC ,High-performance operational amplifierELECTRICAL CHARACTERISTICS: TA " +25''C, 19 V < VS < t15 V unless otherwise specified. CHARACTER ..

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TS4890ID-TS4890IDT-TS4890IST
RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITH STANDBY MODE
OPERATING FROM VCC = 2.2V to 5.5V 1W RAI L TO RAIL OUTPUT POWER @ Vcc=5V, THD=1%, f=1kHz, with 8Ω Load ULTRA LOW CONSUMPTION IN STANDBY MODE (10nA) 75dB PSRR @ 217Hz from 5 to 2.2V POP & CLICK REDUCTION CIRCUITRY ULTRA LOW DISTORTION (0.1%) UNITY GAIN STABLE AVAILABLE IN SO8, MiniSO8 & QFN8
DESCRIPTION
The TS4890 (MiniSO8 & SO8) is an Audio Power
Amplifier capable of delivering 1W of continuous
RMS. ouput power into 8Ω load @ 5V.
This Audio Amplifier is exhibiting 0.1% distortion
level (THD) from a 5V supply for a Pout = 250mW
RMS. An external standby mode control reduces
the supply current to less than 10nA. An internal
thermal shutdown protection is also provided.
The TS4890 have been designed for high quality
audio applications such as mobile phones and to
minimize the number of external components.
The unity-gain stable amplifier can be configured
by external gain setting resistors.
APPLICATIONS Mobile Phones (Cellular / Cordless) Laptop / Notebook Computers PDAs Portable Audio Devices
ORDER CODE
MiniSO & QFN only available in Tape & Reel: with T suffix.
PIN CONNECTIONS (Top View)
TS4890
RAIL TO RAIL OUTPUT 1W AUDIO POWER AMPLIFIER WITH
STANDBY MODE ACTIVE LOW
TS4890
ABSOLUTE MAXIMUM RATINGS
OPERATING CONDITIONS All voltages values are measured with respect to the ground pin. The magnitude of input signal must never exceed VCC + 0.3V / GND - 0.3V Device is protected in case of over temperature by a thermal shutdown active @ 150°C. Exceeding the power derating curves during a long period may involve abnormal working of the device. This thermal resistance can be reduced with a suitable PCB layout (see Power Derating Curves Fig. 24) When mounted on a 4 layers PCB
TS4890
ELECTRICAL CHARACTERISTICS
VCC = +5V, GND = 0V, Tamb = 25°C (unless otherwise specified)
VCC = +3.3V, GND = 0V, Tamb = 25°C (unless otherwise specified) Standby mode is actived when Vstdby is tied to GND Dynamic measurements - 20*log(rms(Vout)/rms(Vripple)). Vripple is the surimposed sinus signal to Vcc @ f = 217Hz Standby mode is actived when Vstdby is tied to GND Dynamic measurements - 20*log(rms(Vout)/rms(Vripple)). Vripple is the surimposed sinus signal to Vcc @ f = 217Hz
TS4890
VCC = 2.6V, GND = 0V, Tamb = 25°C (unless otherwise specified)
VCC = 2.2V, GND = 0V, Tamb = 25°C (unless otherwise specified) Standby mode is actived when Vstdby is tied to GND Dynamic measurements - 20*log(rms(Vout)/rms(Vripple)). Vripple is the surimposed sinus signal to Vcc @ f = 217Hz Standby mode is actived when Vstdby is tied to GND Dynamic measurements - 20*log(rms(Vout)/rms(Vripple)). Vripple is the surimposed sinus signal to Vcc @ f = 217Hz
TS4890

REMARKS
1. All measurements, except PSRR measurements, are made with a supply bypass capacitor Cs = 100μF.
1. External resistors are not needed for having better stability when supply @ Vcc down to 3V. The
quiescent current still remains the same.
2. The standby response time is about 1μs.
TS4890
Fig. 1 : Open Loop Frequency Response
Fig. 3 : Open Loop Frequency Response
Fig. 5 : Open Loop Frequency Response
Fig. 2 : Open Loop Frequency Response
Fig. 4 : Open Loop Frequency Response
Fig. 6 : Open Loop Frequency Response
TS4890
Fig. 7 : Open Loop Frequency Response
Fig. 9 : Open Loop Frequency Response
Fig. 11 : Open Loop Frequency Response
Fig. 8 : Open Loop Frequency Response
Fig. 10 : Open Loop Frequency Response
Fig. 12 : Open Loop Frequency Response
TS4890
Fig. 13 : Power Supply Rejection Ratio (PSRR)
vs Power supply
Fig. 15 : Power Supply Rejection Ratio (PSRR)
vs Bypass Capacitor
Fig. 17 : Power Supply Rejection Ratio (PSRR)
vs Feedback Resistor
Fig. 14 : Power Supply Rejection Ratio (PSRR)
vs Feedback Capacitor
Fig. 16 : Power Supply Rejection Ratio (PSRR)
vs Input Capacitor
Fig. 18 : Pout @ THD + N = 1% vs Supply
Voltage vs RL
TS4890
Fig. 19 : Pout @ THD + N = 10% vs Supply
Voltage vs RL
Fig. 21 : Power Dissipation vs Pout
Fig. 23 : Power Dissipation vs Pout
Fig. 20 : Power Dissipation vs Pout

Fig. 22 : Power Dissipation vs Pout
Fig. 24 : Power Derating Curves
TS4890
Fig. 25 : THD + N vs Output Power
Fig. 27 : THD + N vs Output Power
Fig. 29 : THD + N vs Output Power
Fig. 26 : THD + N vs Output Power
Fig. 28 : THD + N vs Output Power
Fig. 30 : THD + N vs Output Power
TS4890
Fig. 31 : THD + N vs Output Power
Fig. 33 : THD + N vs Output Power
Fig. 35 : THD + N vs Output Power
Fig. 32 : THD + N vs Output Power
Fig. 34 : THD + N vs Output Power
Fig. 36 : THD + N vs Output Power
TS4890
Fig. 37 : THD + N vs Output Power
Fig. 39 : THD + N vs Output Power
Fig. 41 : THD + N vs Output Power
Fig. 38 : THD + N vs Output Power
Fig. 40 : THD + N vs Output Power
Fig. 42 : THD + N vs Output Power
TS4890
Fig. 43 : THD + N vs Output Power
Fig. 45 : THD + N vs Output Power
Fig. 47 : THD + N vs Output Power
Fig. 44 : THD + N vs Output Power
Fig. 46 : THD + N vs Output Power
Fig. 48 : THD + N vs Output Power
TS4890
Fig. 49 : THD + N vs Output Power
Fig. 51 : THD + N vs Output Power
Fig. 53 : THD + N vs Output Power
Fig. 50 : THD + N vs Output Power
Fig. 52 : THD + N vs Output Power
Fig. 54 : THD + N vs Output Power
TS4890
Fig. 55 : THD + N vs Output Power
Fig. 57 : THD + N vs Frequency
Fig. 59 : THD + N vs Frequency
Fig. 56 : THD + N vs Output Power
Fig. 58 : THD + N vs Frequency
Fig. 60 : THD + N vs Frequency
TS4890
Fig. 61 : THD + N vs Frequency
Fig. 63 : THD + N vs Frequency
Fig. 65 : THD + N vs Frequency
Fig. 62 : THD + N vs Frequency
Fig. 64 : THD + N vs Frequency
Fig. 66 : THD + N vs Frequency

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