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TDA1072A Dataheets PDF



Part Number TDA1072A
Manufacturers NXP
Logo NXP
Description AM receiver circuit
Datasheet TDA1072A DatasheetTDA1072A Datasheet (PDF)

INTEGRATED CIRCUITS DATA SHEET TDA1072A AM receiver circuit Product specification File under Integrated Circuits, IC01 May 1984 Philips Semiconductors Product specification AM receiver circuit GENERAL DESCRIPTION TDA1072A The TDA1072A integrated AM receiver circuit performs the active and part of the filtering functions of an AM radio receiver. It is intended for use in mains-fed home receivers and car radios. The circuit can be used for oscillator frequencies up to 50 MHz and can handle r..

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INTEGRATED CIRCUITS DATA SHEET TDA1072A AM receiver circuit Product specification File under Integrated Circuits, IC01 May 1984 Philips Semiconductors Product specification AM receiver circuit GENERAL DESCRIPTION TDA1072A The TDA1072A integrated AM receiver circuit performs the active and part of the filtering functions of an AM radio receiver. It is intended for use in mains-fed home receivers and car radios. The circuit can be used for oscillator frequencies up to 50 MHz and can handle r.f. signals up to 500 mV. R.F. radiation and sensitivity to interference are minimized by an almost symmetrical design. The voltage-controlled oscillator provides signals with extremely low distortion and high spectral purity over the whole frequency range even when tuning with variable capacitance diodes. If required, band switching diodes can easily be applied. Selectivity is obtained using a block filter before the i.f. amplifier. Features • Inputs protected against damage by static discharge • Gain-controlled r.f. stage • Double balanced mixer • Separately buffered, voltage-controlled and temperature-compensated oscillator, designed for simple coils • Gain-controlled i.f. stage with wide a.g.c. range • Full-wave, balanced envelope detector • Internal generation of a.g.c. voltage with possibility of second-order filtering • Buffered field strength indicator driver with short-circuit protection • A.F. preamplifier with possibilities for simple a.f. filtering • Electronic standby switch. QUICK REFERENCE DATA Supply voltage range Supply current range R.F. input voltage for S + N/N = 6 dB at m = 30% R.F. input voltage for 3% total harmonic distortion (THD) at m = 80% A.F. output voltage with Vi = 2 mV; fi = 1 MHz; m = 30% and fm = 400 Hz A.G.C. range: change of Vi for 1 dB change of Vo(af) Field strength indicator voltage at Vi = 500 mV; RL(9) = 2,7 kΩ PACKAGE OUTLINE 16-lead DIL; plastic (SOT38); SOT38-1; 1996 August 09. VIND typ. 2,8 V Vo(af) typ. typ. 310 mV 86 dB Vi typ. 500 mV VP IP Vi typ. 7,5 to 18 V 15 to 30 mA 1,5 µV May 1984 2 Philips Semiconductors Product specification AM receiver circuit TDA1072A (1) Coil data: TOKO sample no. 7XNS-A7523DY; L1 : N1/N2 = 12/32; Qo = 65; QB = 57. Filter data: ZF = 700 Ω at R3-4 = 3 kΩ; ZI = 4,8 kΩ. Fig.1 Block diagram and test circuit (connections shown in broken lines are not part of the test circuit). May 1984 3 Philips Semiconductors Product specification AM receiver circuit FUNCTIONAL DESCRIPTION Gain-controlled r.f. stage and mixer TDA1072A The differential amplifier in the r.f. stage employs an a.g.c. negative feedback network to provide a wide dynamic range. Very good cross-modulation behaviour is achieved by a.g.c. delays at the various signal stages. Large signals are handled with low distortion and the S/N ratio of small signals is improved. Low noise working is achieved in the differential amplifier by using transistors with low base resistance. A double balanced mixer provides the i.f. output signal to pin 1. Oscillator The differential amplifier oscillator is temperature compensated and is suitable for simple coil connection. The oscillator is voltage-controlled and has little distortion or spurious radiation. It is specially suitable for electronic tuning using variable capacitance diodes. Band switching diodes can easily be applied using the stabilized voltage V11-16. An extra buffered oscillator output (pin 10) is available for driving a synthesizer. If this is not needed, resistor RL(10) can be omitted. Gain-controlled i.f. amplifier This amplifier comprises two cascaded, variable-gain differential amplifier stages coupled by a band-pass filter. Both stages are gain-controlled by the a.g.c. negative feedback network. Detector The full-wave, balanced envelope detector has very low distortion over a wide dynamic range. Residual i.f. carrier is blocked from the signal path by an internal low-pass filter. A.F. preamplifier This stage preamplifies the audio frequency output signal. The amplifier output has an emitter follower with a series resistor which, together with an external capacitor, yields the required low-pass for a.f. filtering. A.G.C. amplifier The a.g.c. amplifier provides a control voltage which is proportional to the carrier amplitude. Second-order filtering of the a.g.c. voltage achieves signals with very little distortion, even at low audio frequencies. This method of filtering also gives fast a.g.c. settling time which is advantageous for electronic search tuning. The a.g.c. settling time can be further reduced by using capacitors of smaller value in the external filter (C16 and C17). The a.g.c. voltage is fed to the r.f. and i.f. stages via suitable a.g.c. delays. The capacitor at pin 7 can be omitted for low-cost applications. Field strength indicator output A buffered voltage source provides a high-level field strength output signal which has good linearity for logarithmic input signals over the whole dynamic range. If the field str.


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