User manual PHILIPS TDA1526 DATA SHEET

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[. . . ] QUICK REFERENCE DATA PARAMETER Supply voltage (pin 3) Supply current (pin 3) Signal handling with DC feedback Input signal handling (RMS value) Output signal handling (RMS value) Control range Maximum gain of volume Volume control range Balance control range Bass control range Treble control range Total harmonic distortion Noise performance Output noise voltage (unweighted) at f = 20 Hz to 20 kHz for Gv = -16 dB Signal processing Channel separation at Gv = -20 to 21. 5 dB Tracking between channels for Gv = 21. 5 to -26 dB Ripple rejection Operating ambient temperature range For explanation of notes see Notes to the characteristics. PACKAGE OUTLINE: 18-lead DIL; plastic (SOT102); SOT102-1; 1996 August 06. VP(rms) = 200 mV; f = 100 Hz; Gv = 0 dB RR Tamb 35 -30 50 - f = 250 Hz to 10 kHz f = 250 Hz to 6. 3 kHz; balance at Gv = 10 dB Gv - - cs 46 60 RMS value; note 4 note 5 Vno(rms) - 100 VP = 12 V see Fig. 4 Gv max/Gv min Gv = 0 dB; see Fig. 5 at 40 Hz; see Fig. 6 at 16 kHz; see Fig. 7 Gv max Gv Gv Gv Gv THD 20. 5 90 - - - - 21. 5 100 -40 -19 to +17 ±3 ±15 ±3 - notes 2 and 3 VP = 12 V VP = 8. 5 to 15 V; THD = 0. 7%; f = 1 kHz Vi(rms) Vo(rms) 1. 8 1. 8 2. 0 2. 0 CONDITIONS SYMBOL VP IP MIN. [. . . ] Measured in Fig. 1 (internal potentiometer supply from pin 17 used); VP = 8. 5 V. Fig. 6 Bass control curve; voltage gain (Gv) as a function of control voltage (V9-18). Measured in Fig. 1 with single-pole filter (internal potentiometer supply from pin 17 used); VP = 8. 5 V; f = 40 Hz. Fig. 7 Treble control curve; voltage gain (Gv) as a function of control voltage (V10-18). Measured in Fig. 1 (internal potentiometer supply from pin 17 used); VP = 8. 5 V; f = 16 kHz. May 1992 8 Philips Semiconductors Product specification Stereo-tone/volume control circuit TDA1526 Fig. 8 Contour frequency response curves; voltage gain (Gv) as a function of audio input frequency. Measured in Fig. 1 with single-pole filter; VP = 8. 5 V. Fig. 9 Contour frequency response curves; voltage gain (Gv) as a function of audio input frequency. Measured in Fig. 1 with double-pole filter; VP = 8. 5 V. May 1992 9 Philips Semiconductors Product specification Stereo-tone/volume control circuit TDA1526 Fig. 10 Tone control frequency response curves; voltage gain (Gv) as a function of audio input frequency. Measured in Fig. 1 with single-pole filter; VP = 8. 5 V. Fig. 11 Tone control frequency response curves; voltage gain (Gv) as a function of audio input frequency. Measured in Fig. 1 with double-pole filter; VP = 8. 5 V. May 1992 10 Philips Semiconductors Product specification Stereo-tone/volume control circuit TDA1526 Fig. 12 Total harmonic distortion (THD); as a function of audio input frequency. Measured in Fig. 1; VP = 8. 5 V; volume control voltage gain at Vo G v = 20 log ------- = 0dB Vi Fig. 13 Total harmonic distortion (THD); as a function of output voltage (Vo). Measured in Fig. 1; VP = 8. 5 V; fi = 1 kHz. May 1992 11 Philips Semiconductors Product specification Stereo-tone/volume control circuit TDA1526 Fig. 14 Noise output voltage (Vno(rms); unweighted); as a function of voltage gain (Gv). Measured in Fig. 1; VP = 15 V; f = 20 Hz to 20 kHz. May 1992 12 Philips Semiconductors Product specification Stereo-tone/volume control circuit PACKAGE OUTLINE DIP18: plastic dual in-line package; 18 leads (300 mil) TDA1526 SOT102-1 D seating plane ME A2 A L A1 c Z e b1 b 18 10 b2 MH wM (e 1) pin 1 index E 1 9 0 5 scale 10 mm DIMENSIONS (inch dimensions are derived from the original mm dimensions) UNIT mm inches A max. 3. 7 0. 15 b 1. 40 1. 14 0. 055 0. 044 b1 0. 53 0. 38 0. 021 0. 015 b2 1. 40 1. 14 0. 055 0. 044 c 0. 32 0. 23 0. 013 0. 009 D (1) 21. 8 21. 4 0. 86 0. 84 E (1) 6. 48 6. 20 0. 26 0. 24 e 2. 54 0. 10 e1 7. 62 0. 30 L 3. 9 3. 4 0. 15 0. 13 ME 8. 25 7. 80 0. 32 0. 31 MH 9. 5 8. 3 0. 37 0. 33 w 0. 254 0. 01 Z (1) max. Plastic or metal protrusions of 0. 25 mm maximum per side are not included. OUTLINE VERSION SOT102-1 REFERENCES IEC JEDEC EIAJ EUROPEAN PROJECTION ISSUE DATE 93-10-14 95-01-23 May 1992 13 Philips Semiconductors Product specification Stereo-tone/volume control circuit SOLDERING Introduction There is no soldering method that is ideal for all IC packages. Wave soldering is often preferred when through-hole and surface mounted components are mixed on one printed-circuit board. However, wave soldering is not always suitable for surface mounted ICs, or for printed-circuits with high population densities. A more in-depth account of soldering ICs can be found in our "IC Package Databook" (order code 9398 652 90011). [. . . ] Stress above one or more of the limiting values may cause permanent damage to the device. These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied. Exposure to limiting values for extended periods may affect device reliability. [. . . ]

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