U 4270 B TELEFUNKEN Semiconductors FM IF limiter amplifier and detector Description The U 4270 B is an integrated bipolar FM-IF amplifier circuit with field strength indicator, stop signal generator, multipath detector and controllable mute function. It is designed for car radios and home receiver applications. Features D 7 stage limiter amplifier D Multipath signal detector D Stop signal generator with controllable threshold D Signal strength output D Controllable mute function D High signal/noise ratio and low signal distortion Block Diagram R3 1 14 (15) 9 (10) 10 (11) Mute depth control 3 (4) 4 (5) 8 (9) 18(20) (19) 17 (8) 7 16 (18) 5 (6) 6 (7) 11 (12) 15 (16) 13 (14) 12 (13) 2 ( ) SSO 20 94 8876 Rev. A1: 07.10.1994 Preliminary Information 1 U 4270 B TELEFUNKEN Semiconductors Pin description DIP 18 1 2 – 3 4 5 SSO 20 1 2 3 4 5 6 6 7 8 9 10 7 8 9 10 11 Symbol Function GND MUTE IN NC MUTE DE AF STOP SEN Ground Mute input N.C. Mute depth AF output Search tuning stop sensitivity STOP SIG Search stop signal output AFC AFC output RVOLT Reference voltage output DEMOD Demodulator circuit DEMOD Demodulator circuit DIP 18 11 12 SSO 20 12 13 Symbol FS MPOUT 13 14 15 14 15 16 RTC VS MPIN – 16 17 18 17 18 19 20 NC BFB BFB IF Function Field strength Multipath identification output Rectifier time constant Supply voltage Multipath identification input N.C. Bias feedback Bias feedback IF input GND 1 20 IF BFB MUTE IN 2 19 BFB 16 BFB NC 3 18 BFB 4 15 MPIN MUTE DE 4 17 NC STOP SEN 5 14 VS AF 5 16 MPIN STOP SIG 6 13 RTC STOP SEN 6 15 VS AFC 7 12 MPOUT STOP SIG 7 14 RTC RVOLT 8 11 FS AFC 8 13 MPOUT DEMOD 9 10 DEMOD RVOLT 9 12 FS DEMOD 10 11 DEMOD GND 1 18 IF MUTE IN 2 17 MUTE DE 3 AF 94 8949 94 8948 2 Preliminary Information Rev. A1: 07.10.1994 U 4270 B TELEFUNKEN Semiconductors Absolute Maximum Ratings Reference point Pin 1, unless otherwise specified Parameters Supply voltage Junction temperature Storage temperature range Ambient temperature range Pin 14 Symbol VS Tj Tstg Tamb Value 18 150 – 40 to + 150 – 25 to + 85 Unit V °C °C °C Symbol RthJA Maximum 100 Unit K/W Thermal Resistance Parameters Junction ambient Electrical Characteristics VS = 8.5 V, reference point Pin 1, fi = 10.7 MHz, adjusted at I7 = 0, Vi = 10 mV, FM-deviation Q0 = 20, Tamb = 25 _C, unless otherwise specified Parameters Supply voltage Supply current Field strength output Output voltage Audio output signal Output voltage Distortion (S+N)/N ratio AM-rejection Mute depth Maximum sink current Stop signal output Input frequency window Output voltage HIGH LOW Input voltage threshold Rev. A1: 07.10.1994 Test Conditions / Pin Pin 14 Pin 14 Pin 11 Vi = 200 mV Vi = 50 mV Vi = 1 mV Vi = 0 mV Symbol VS IS Min 7.5 19 VOUT VAF THD S+N/N Typ " 75 kHz, f mod = 1 kHz, Max 15 23 Unit V mA 4.4 4.2 2.5 0.01 4.9 4.6 2.8 0.42 V 290 0.48 77 62 6.7 34 0.9 330 0.88 81 66 9 39 1.1 mV % dB dB dB Pin 4 " deviation 75 kHz m = 30 % V2 = 0 V, R3 = V2 = 0 V, R3 = 0 R amute I4 R7-8 = 22 kW Pin 6 fwin V6 7 36 " 23 " 28 7 I6 < 0.5 mA V6 = 0.5 V, Pin 5 open V6 = 0.5 V, V5 = V8 25 0.6 Preliminary Information kHz V 0.1 Vi mA 0.2 45 1.3 mV mV 3 U 4270 B Parameters AFC output Output current Input frequency offset Reference voltage output Output voltage Maximum load current Multipath detection Detector threshold Output leakage current Charge current Discharge current Mute function Mute “off ” voltage IF-Input signal Limiting threshold TELEFUNKEN Semiconductors Test Conditions / Pin Pin 7 deviation 50 kHz IAFC = 0 Pin 8 I8 = 0.5 mA " Symbol "I "f AFC off V8 I8 Pin 12, 13, 15 V12 < 1 V, fV15 = 20 kHz V15 V12 = VS I12 Pin 15 connected to ground I13 Pin 15 open circuit I13 V13 1 V Pin 2 Vout – 2 dB Voff Pin 18 Vout – 3 dB Vi v Min Typ Max 90 2 110 140 12 kHz 4.2 5 V mA 7 3.9 3 5.4 Audio output signal Output voltage Distortion (S+N)/N ratio AM-rejection Mute depth Maximum sink current Stop signal output Input frequency window Output voltage HIGH LOW Input voltage threshold 4 Test Conditions / Pin Pin 14 Pin 14 Pin 11 Vi = 200 mV Vi = 50 mV Vi = 1 mV Vi = 0 mV mA 3 –7 3.6 – 10 mV mA mA mA 0.22 0.33 V 25 33 dBmV 1.5 VS = 8.5 V, reference point Pin 1, fi = 10.7 MHz, adjusted at I7 = 0, Vi = 10 mV, FM-deviation Q0 = 20, Tamb = – 40 to + 85 _C, unless otherwise specified Parameters Supply voltage Supply current Field strength output Output voltage Unit Symbol VS IS Min 7.5 17 VOUT VAF THD S+N/N Typ " 75 kHz, f mod = 1 kHz, Max 15 25 Unit V mA 4.0 3.6 2.25 0.01 5.0 4.7 2.95 0.42 V 250 0.48 70 60 6 34 0.9 370 0.88 81 70 10 40 1.1 mV % dB dB dB Pin 4 " deviation 75 kHz m = 30 % V2 = 0 V, R3 = V2 = 0 V, R3 = 0 R amute I4 R7-8 = 22 kW Pin 6 fwin V6 7 36 " 23 " 39 7 I6 < 0.5 mA V6 = 0.5 V, Pin 5 open V6 = 0.5 V, V5 = V8 Vi 14 0.6 Preliminary Information mA kHz V 0.1 20 0.5 54 2.0 mV mV Rev. A1: 07.10.1994 U 4270 B TELEFUNKEN Semiconductors Parameters AFC output Output current Input frequency offset Reference voltage output Output voltage Maximum load current Multipath detection Detector threshold Output leakage current Charge current Discharge current Mute function Mute “off voltage IF-Input signal Limiting threshold Test Conditions / Pin Pin 7 deviation 50 kHz IAFC = 0 Pin 8 I8 = 0.5 mA " Symbol "I "f AFC Min Typ Max Unit 60 110 8 140 15 mA kHz 3 4.2 5 V mA 7 off V8 I8 Pin 12, 13, 15 V12 < 1 V, fV15 = 20 kHz V15 V12 = VS I12 Pin 15 connected to ground I13 Pin 15 open circuit I13 V13 1 V Pin 2 Vout – 2 dB Voff Pin 8 Vout – 3 dB Vi v 3.7 5.0 2.1 –6 4.0 – 10 mV mA mA mA 0.22 0.33 V 25 33 dBmV 1.5 Test circuit: Vi Q0 Multipath input signal voltage VAF Rev. A1: 07.10.1994 Preliminary Information 5 U 4270 B TELEFUNKEN Semiconductors Ordering and package information Extended type number U 4270 B-CFS U 4270 B-CFSG3 U 4270 B-C Package SSO 20 plastic SSO 20 plastic DIP 18 Remarks Taping according to IEC-286-3 Dimensions in mm Package DIP 18 Package SSO 20 6 Preliminary Information Rev. A1: 07.10.1994 TELEFUNKEN Semiconductors U 4270 B 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 and 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. Of particular concern is the control or elimination of releases into the atmosphere of substances who are known as ozone depleting substances ( ODS’s). The Montreal Protocol ( 1987) and its London Amendments ( 1990) will severely restrict the consumption of ODS’s 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 continuos improvements to eliminate the use of any ODS’s listed in the following documents that all refer to the same substances: (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 and (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 and do not contain ozone depleting substances. We reserve the right to make changes without further notice to improve technical design. Parameters can vary in different applications. All operating parameters must be validated for each customer application by customer. Should Buyer use TEMIC products for any unintended or unauthorized application, 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 Rev. A1: 07.10.1994 Preliminary Information 7