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| U4253BM AM/FM Antenna Impedance Matching IC Description The U4253BM is an integrated AM/FM antenna impedance matching circuit in BICMOS technology. The device is designed in particular for car application and is suitable for windscreen and roof antennas. Features D D D D High dynamic range for AM and FM Integrated AGC for FM High intercept point 3rd order for FM FM amplifier adjustable to various cable impedance D High intercept point 2nd order for AM D Low noise output voltage D Low power consumption Block Diagram FMIN GND1 FMGAIN AGC VS 1 2 3 4 14 5 IAGC FM 15 FMOUT AGC 13 AGCADJ VREF2 VREF 12 VREF1 AMIN 8 AM 7 GND2 10 AMOUT 12389 Figure 1. Block diagram TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 1 (12) U4253BM Ordering and Package Information Extended Type Number U4253BM-AFP U4253BM-AFPG3 Package SO16 SO16 Remarks Taping corresponding, ICE-286-3 Pin Description Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Symbol FMIN GND1 FMGAIN AGC VREF2 NC GND2 AMIN NC AMOUT NC VREF1 AGCADJ VS FMOUT NC Function FM input Ground for FM part FM gain adjustment AGC output Reference voltage 2 output Not connected Ground for AM part AM input Not connected AM output Not connected Reference voltage 1 output Adjustment FM wide-band AGC threshold Supply voltage FM output Not connected FMIN 1 GND1 2 FMGAIN 3 AGC VREF2 NC GND2 16 NC 15 FMOUT 14 VS 13 AGCADJ 12 VREF1 11 NC 10 AMOUT 9 12046 4 5 6 7 AMIN 8 NC Figure 2. Pinning 2 (12) TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 U4253BM Pin Description FMIN FMIN is the input of the FM amplifier. It is the base of a bipolar transistor. A resistor or a coil is connected between FMIN and VREF2. If a coil is used, noise performance is excellent. AGC 4 ESD VS 1 FMIN ESD 12390 12392 Figure 5. Figure 3. GND1 To avoid crosstalk between AM and FM signals, the circuit has two separate ground pins. GND1 is the ground for the FM part. AGCADJ The threshold of the AGC can be adjusted by variing the DC current at pin AGCADJ. If pin AGCADJ is connected directly to GND1, the threshold is set to 96 dBV at the FM amplifier output. If a resistor is connected between AGCADJ and GND1, the threshold is shifted to higher values with increasing resistances. If AGCADJ is open, the threshold is set to 106 dBV. FMGAIN The DC current of the FM amplifier transistor is adjusted by an external resistor which is connected between FMGAIN and GND1. In order to influence the AC gain of the amplifier, a resistor is connected in series to an capacitor between FMGAIN and GND1. The capacitor has to be a short at frequencies of 100 MHz. 65 kW ESD 13 AGCADJ 12397 Figure 6. ESD FMGAIN 3 12391 FMOUT The FM amplifiers output is an open collector of a bipolar RF-transistor. It should be connected to VS via a coil. 15 FMOUT Figure 4. AGC DC current flows into the AGC pin at high FM antenna input signals. This current has to be amplified via the current gain of an external PNP transistor that feeds a PIN-diode. This diode dampens the antenna input signal and protects the amplifier input against overload. The maximum current which flows in the AGC pin is approximately 1 mA. In low end applications, the AGC function is not necessary and therefore the external components can be omitted. ESD 12398 Figure 7. TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 3 (12) U4253BM AMIN The AM input has an internal bias voltage. The DC voltage at this pin is VRef1/2. The input resistance is about 470 kW. The input capacitance is less than 10 pF. V Ref1 2 470 kW 8 VREF1 VREF1 is the stabilized voltage for the AM amplifier and the AGC block. To achieve excellent noise performance at LW frequencies, it is recommended that this pin is connected to ground via an external capacitor of about 1 mF. VS AMIN ESD 12394 12 VREF1 ESD GND1 12396 Figure 8. Figure 10. AMOUT The DC voltage at this pin is almost VRef1/2. The AC output resistance is about 200 W. The output capacitance is less than 10 pF. VREF2 For the DC biasing of the FM amplifier a second voltage reference circuit is integrated. Because of temperature independence of the collector current the output voltage has a negative temperature coefficient of about -1 mV/K. To stabilize this voltage an external capacitor to ground of a few nF is recommended. VRef1 10 AMOUT ESD ESD GND1 12395 5 VREF2 12393 Figure 11. GND2 Figure 9. GND2 is the ground for the AM amplifier. 4 (12) TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 U4253BM Functional Description The U4253BM is an integrated AM/FM antenna impedance matching circuit. It compensates cable losses between the antenna (for example windscreen, roof or bumper antennas) and the car radio which is usually placed far away from the antenna. The FM amplifier provides excellent noise performance. External components are used to adjust the gain and the input-output matching impedance. Therefore it is possible to adjust the amplifier to various cable impedances (usually 50, 75 or 150 W). To protect the amplifier against input overload an Automatic Gain Control (AGC) is included on the chip. The AGC observes the AC voltage at the FM amplifier output, rectifies this signal, and delivers DC current to dampen the input antenna signal via an external PIN diode. The threshold for the AGC is adjustable. Simple and temperature compensated biasing is possible due to the integrated voltage reference VRef2. The AM part consists of a buffer amplifier. The voltage gain of this stage is approximately one. The input resistance is 470 kW, the input capacitance less than 10 pF. The output resistance is 150 W. An excellent dynamic range is achieved due to a special push-pull circuit technique. Absolute Maximum Ratings Reference point is ground (Pins 2 and 7) Parameters Supply voltage Power dissipation, Ptot at Tamb = 85C Junction temperature Ambient temperature Storage temperature Electrostatic handling (HBM) Symbol VS Ptot Tj Tamb Tstg ESD "V Value 8.8 460 150 -40 to +85 -50 to +150 2000 Unit V mW C C C V Thermal Resistance Parameters Junction ambient Symbol RthJA Value 140 Unit K/W TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 5 (12) AA A AAAA A A A A AA AA A A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAA AAAAAAAAAAAAAAAAAAAAAA A AA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A A AAA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A AA AA A A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AA AA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAA A A A A AA AA A AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AA AA A AAAA A A A A AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAA A A A A AA AA A A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAA A A A A AA AA A A A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAA A A A A AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAA A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A A AA AA A AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAA AAAAAAAAAAAAAAAAAAAAAA AA AA A AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA A A AAA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAA AAAAAAAAAAAAAAAAAAAAAA AA AA A AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAA A AAA A AA A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A AAAAAA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AA AA A AA AA A A A AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAAAA AAAAAAAAAAAAAAAAAAAAAAAAAAA AA A A See test circuit VS = 8 V, Tamb = 25C, unless otherwise specified Electrical Characteristics U4253BM 6 (12) AGC output current AGC input voltage threshold 3rd order output intercept AGC AGC input voltage threshold FM amplifier Supply current limit Input resistance Output resistance Power gain Output noise voltage 2nd harmonic Parameters Supply voltage Supply currents Reference voltage 1 output (I12 = 0) Reference voltage 2 output (I5 = 0) Temperature dependence of VREF2 AM amplifier Input resistance Input capacitance Output resistance Voltage gain Output noise voltage (rms value) IAGC, IAGCADJ = 0 A, Pin 15 f = 100 MHz Pin 1 f = 100 MHz Pin 15 f = 100 MHz Pin 15/ Pin 1 Pin 15 f = 100 MHz, B = 120 kHz f = 100 MHz Pin 15 Pin 8 Pin 8 Pin 10 Pin 10 / Pin 8 Pin 10 S1 switched to 2; B = 6 kHz 150 kHz to 300 kHz 500 kHz to 6.5 kHz Pin 10 S2 switched to 1 fAMIN = 500 kHz, Output voltage = 110 dBV f = 100 MHz Pin 15 S2 switched to 1; AGC threshold DC current is 10 A at Pin 4 f = 100 MHz Pin 15 S2 switched to 2; AGC threshold DC current is 10 A at Pin 4 AGC active Test Conditions / Pins Pin 14 Pin 14 Pin 12 Pin 5 Pin 5 VRef2/DT I15 RFMIN RFMOUT G VN Symbol Vs Is VRef1 RAMIN CAMIN ROUT a VRef2 IAGC Vth2 Vth1 VN1 VN2 TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 Min. 7.2 -60 Typ. 8 4 5.5 200 0.85 106 132 470 2.6 96 33 50 50 5 0 -2 -6 -1 Max. 8.8 1.2 35 10 mV/K dBV dBV dBV dB dBV dBV dBV dBc Unit V mA V mA mA kW pF W W W V U4253BM Test Circuit VS FMOUT 2.2 mH 2.2 nF I14 1 S2 2 5 kW AMOUT I13 2.2 mF + 16 150 W 9 100 nF I15 2.2 nF U4253BM 1 I4 FMIN 2.2 nF 22 W 2.2 mH 51 W VS 1 nF 2.2 nF 12399 8 S1 2.2 nF 1 2 15 pF AMIN Figure 12. TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 7 (12) U4253BM FM Intermodulation Distortion dBmV Input 103 dBmV dBmV Output 108 dBmV 58 dBmV Gain = 5 dB AGC not active 90 95 100 105 MHz 90 95 100 105 MHz dBmV Input 118 dBmV dBmV Output 100 dBmV AGC active 50 dBmV 90 95 100 105 MHz 90 95 100 105 MHz 12400 Figure 13. 8 (12) TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 U4253BM Test Circuit for AM Large Signal Behavior Analyzer LPF AMIN 1 nF fcutoff = 500 kHz 50 W DUT 100 nF AMOUT 5 kW Rin = 50 W 115 dBmV 50 W f = 500 kHz V0 75 dBmV 12701 Figure 14. AM Harmonic Distortion VAMOUT (dBmV) 115 dBmV 110 90 70 58 dBmV 50 0.5 50 dBmV 1.0 Figure 15. 1.5 f (MHz) TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 9 (12) ANTENNA V = 8.2 V S U4253BM Application Circuit 10 (12) 2.2 nF R1 2.2 m H FMIN FMOUT 2.2 nF 22 W FMGND FMGAIN R2 AGC AGC I AGC VS Vs VREF2 VRef 2.2 nF VREF1 + 1m F 2.2 m H AGCADJ Output FM 39 pF AMIN 1 nF AMGND AM AMOUT 100 nF R 1 ( W) 150 270 390 470 620 51 86 160 33 22 R 2 ( W) AM FM PIN BA679 2.2 nF 2.2 nF 510 W BC558 200 nF Figure 16. V 1 mH Protection circuit 12401 R 1 and R2 depend on used FM cable impedance FM cable impedance 50 75 100 125 TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 150 U4253BM Package Information Package SO16 Dimensions in mm 94 8875 TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 11 (12) U4253BM Ozone Depleting Substances Policy Statement It is the policy of TEMIC TELEFUNKEN microelectronic GmbH to 1. Meet all present and future national and international statutory requirements. 2. Regularly and continuously improve the performance of our products, processes, distribution and operating systems with respect to their impact on the health and safety of our employees and the public, as well as their impact on the environment. It is particular concern to control or eliminate releases of those substances into the atmosphere which are known as ozone depleting substances ( ODSs). The Montreal Protocol ( 1987) and its London Amendments ( 1990) intend to severely restrict the use of ODSs and forbid their use within the next ten years. Various national and international initiatives are pressing for an earlier ban on these substances. TEMIC TELEFUNKEN microelectronic GmbH semiconductor division has been able to use its policy of continuous improvements to eliminate the use of ODSs listed in the following documents. 1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments respectively 2 . Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental Protection Agency ( EPA) in the USA 3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C ( transitional substances ) respectively. TEMIC can certify that our semiconductors are not manufactured with ozone depleting substances and do not contain such substances. We reserve the right to make changes to improve technical design and may do so without further notice. Parameters can vary in different applications. All operating parameters must be validated for each customer application by the customer. Should the buyer use TEMIC products for any unintended or unauthorized application, the buyer shall indemnify TEMIC against all claims, costs, damages, and expenses, arising out of, directly or indirectly, any claim of personal damage, injury or death associated with such unintended or unauthorized use. TEMIC TELEFUNKEN microelectronic GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany Telephone: 49 ( 0 ) 7131 67 2831, Fax number: 49 ( 0 ) 7131 67 2423 12 (12) TELEFUNKEN Semiconductors Rev. A1, 08-Jul-97 |
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