Philips TDA1596-V3 Datasheet

DATA SH EET
Product specification File under Integrated Circuits, IC01
April 1991
INTEGRATED CIRCUITS
TDA1596
IF amplifier/demodulator for FM radio receivers
Philips Semiconductors Product specification
IF amplifier/demodulator for FM radio receivers
TDA1596
GENERAL DESCRIPTION
The TDA1596 provides IF amplification, symmetrical quadrature demodulation and level detection for quality home and car FM radio receivers and is suitable for both mono and stereo reception. It may also be applied to common front-ends, stereo decoders and AM receiver circuits.
Features
Simulates behaviour of a ratio detector (internal field strength and detuning-dependent voltage for dynamic AF signal muting)
Mono/stereo blend and field strength indication control voltage
Three-state mode switch for FM, mute-on / FM, mute-off / FM-off
Internal compensation of AF signal total harmonic distortion (THD)
Two open collector stop pulse outputs for microcomputer tuning control (can be one stop pulse output by
wired-ANDing)
Internal reference voltage source
Built-in hum and ripple rejection circuits
QUICK REFERENCE DATA
SEE ALSO DATA SHEET FOR TDA1596T
PACKAGE OUTLINE
18-lead DIL; plastic (SOT102); SOT102-1; 1996 August 06.
PARAMETER CONDITIONS SYMBOL MIN. TYP. MAX. UNIT
Supply voltage (pin 1) V
P
7.5 8.5 12.0 V
Supply current (pin 1) V
P
= 8.5 V;
I
2
= I7 = 0 mA I
P
20 26 mA
AF output voltage
(RMS value) V
18(rms)
= 10 mV V
4(rms)
180 200 220 mV
Signal-to-noise ratio V
18(rms)
= 10 mV;
f
m
= 400 Hz;
f = 75 kHz S/N 82 dB
Total harmonic distortion V
18(rms)
= 10 mV;
f
m
= 1 kHz; I7 = 0 mA; f = 75 kHz; FM mute on; without de-emphasis; without detuning THD 0.1 0.3 %
Operating ambient
temperature range T
amb
40 −+85 °C
April 1991 3
Philips Semiconductors Product specification
IF amplifier/demodulator for FM radio receivers
TDA1596
Fig.1 Block diagram and application circuit.
(1) Connecting pin 11 to ground is only allowed for measuring the current at pin 14. It is not for use in application.
(2) In the FM, mute-on condition the unweighted level detector output is available from pin 3. In the FM, mute-off condition the variable resistor at
pin 3 can be adjusted for minimum 2nd harmonic distortion at pin 4.
Philips Semiconductors Product specification
IF amplifier/demodulator for FM radio receivers
TDA1596
PINNING
Fig.2 Pinning diagram.
1VPsupply voltage 2 LVA level voltage adjustment 3 ULV unweighted level output/K2 adjustment 4 AFO AF output 5V
ref
reference voltage output 6 WLV weighted level voltage output 7 MSW mode switch 8 DDV detune detector voltage 9 DMI1 demodulator input 1
10 DMI2 demodulator input 2 11 TSW tau switch 12 ST1 stop pulse output 1 13 ST0 stop pulse output 0 14 MTV mute voltage 15 GND ground 16 LFD1 IF limiter feedback 1 17 LFD2 IF limiter feedback 2 18 IFI IF input
Philips Semiconductors Product specification
IF amplifier/demodulator for FM radio receivers
TDA1596
FUNCTIONAL DESCRIPTION Limiter-amplifier
This has five stages of IF amplification using balanced differential limiter-amplifiers with emitter-follower coupling. Decoupling of the stages from the voltage supply lines and an internal high-ohmic DC feed-back loop give a very stable IF performance. The amplifier gain is virtually independent from temperature changes.
FM demodulator
The demodulator is fully balanced and comprises two cross-coupled differential amplifiers. Quadrature detection of the FM signal is performed by feeding one differential amplifier directly from the limiter-amplifier output, and the other via an external 90° phase-shifting network. The demodulator has good stability and its zero cross-over shift is small. The bandwidth of the demodulator output is restricted to approximately 1 MHz by an internal low-pass filter.
THD compensation
This circuit compensates non-linearities introduced by demodulation. For this to operate correctly the demodulator circuit between pins 9 and 10 must have a loaded Q-factor of 19. Consequently there is no need for the demodulator tuned circuit to be adjusted for minimum THD, instead the adjustment criterium is for a symmetrical stop pulse.
Mute attenuator and AF output
The control voltage for the mute attenuator at pin 14 is generated from the values of the level detector and the detuning detector outputs. The mute attenuator has a fast attack and a slow decay which is determined by the capacitor at pin 14. The AF signal is passed via the mute attenuator to the output at pin 4.
A weighted control voltage, available from pin 6, is obtained from the mute attenuator control voltage via a buffer-amplifier which introduces an additional voltage shift and gain.
Level detector
The level detector generates a voltage output which is proportional to the field strength of the input signal. The unweighted level detector output is available when the mode switch is operating in the FM, mute-on condition.
Tuning-stop outputs
The open collector outputs STOP-0 and STOP-1 (from pins 13 and 12 respectively) are voltages derived from the detuning level and the field strength of the input signal. If only one tuning-stop output is required, pins 12 and 13 may be tied together.
Philips Semiconductors Product specification
IF amplifier/demodulator for FM radio receivers
TDA1596
RATINGS
Limiting values in accordance with the Absolute Maximum System (IEC 134)
*
Equivalent to discharging a 100 pF capacitor through a 1.5 k series resistor.
PARAMETER SYMBOL MIN. MAX. UNIT
Supply voltage (pin 1) V
P
= V
1-15
0.3 + 16 V
Reference voltage range (pin 5) V
5-15
0.3 + 10 V
Level adjustment range (pin 2) V
2-15
0.3 + 10 V
Mode switch voltage range (pin 7) V
7-15
0.3 + 16 V
Control input voltage range (pin 11) V
11-15
0.3 + 6V
THD compensation/unweighted field
strength voltage range (pin 3) V
3-15
0.3 + 16 V
Tuning-stop output voltage range
STOP-0 (pin 13) V
13-15
0.3 + 16 V
STOP-1 (pin 12) V
12-15
0.3 + 16 V
Tuning-stop output current
STOP-0 (pin 13) I
13
2mA
STOP-1 (pin 12) I
12
2mA
Storage temperature range T
stg
55 + 150 °C
Operating ambient temperature range T
amb
40 + 85 °C
Electrostatic handling
*
all pins except pins 5 and 6 V
es
2000 +2000 V
pin 5 V
es
2000 +900 V
pin 6 V
es
2000 +1600 V
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