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| VHF I / VHF II / UHF-Tuner IC Preliminary Data Features q Few external components q Frequency and amplitude-stable unbalanced oscillator for the VHF I-frequency range q Frequency and amplitude-stable balanced oscillators for the VHF II- and UHF-frequency range q Optimum decoupling of input frequency from oscillator q Double balanced mixer with wide dynamic range and highimpedance inputs for the VHF I-frequency range q Double balanced mixer with wide dynamic range and lowimpedance inputs for the VHF II- and UHF-frequency range q Low-impedance SAW-filter driver output q SAW-filter driver with high signal-handling capability q Internal band switch q Low-noise, internal reference voltage q Integrated 1st IF-bandpass filter TUA 2009X TUA 2009XS Bipolar IC P-DSO-24-1 P-SSOP-24-1 Type TUA 2009X TUA 2009X TUA 2009XS Ordering Code Q67000-A5113 Q67006-A5113 Q67006-A5202 Package P-DSO-24-1 (SMD) P-DSO-24-1 Tape & Reel P-SSOP-24-1 Tape & Reel Circuit Description This integrated circuit permits the design of TV-tuners covering the entire frequency range from 48 ... 900 MHz split into 3 frequency bands. The application is suitable for all tuners in TV- and VCR-sets. The integrated circuit includes 3 balanced mixers (double balanced mixer/ring mixer), one unbalanced oscillator for VHF I and two balanced oscillators for VHF II and UHF, a SAW-filter driver amplifier as well as a reference voltage source and a band switch. Filters between tuner input and IC separate the TV-frequency signal into three bands. The band switch ensures that only one band at a time is activated. In the activated band the signal passes a frontend stage with MOSFETamplifier, a double-tuned bandpass filter and is then fed to the balanced mixer input of the IC which is a high-impedance stage for the VHF I-range and a low-impedance stage for the VHF II- and UHFrange, respectively. The input signal is mixed there with the oscillator signal from the activated oscillator section and fed into common IF-stage for all bands. The IF-signal is further amplified in a SAW-filter driver section in order to drive the SAW-filter with a low impedance. Semiconductor Group 1 12.94 TUA 2009X TUA 2009XS Pin Configuration (top view) P-DSO-24-1; P-SSOP-24-1 Semiconductor Group 2 TUA 2009X TUA 2009XS Pin Definitions and Functions Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Symbol VHF I-osc. coupling 2 GND VHF I-osc. coupling 1 VHF II-osc. input B2 VHF II-osc. output C1 VHF II-osc. output C2 VHF II-osc. input B1 UHF-osc. input B2 UHF-osc. output C1 UHF-osc. output C2 UHF-osc. input B1 Band switch SAW-filter driv. out 2 SAW-filter driv. out 1 + VS UHF-input 2 Function VHF I-osc. coupling, base input Ground VHF I-osc. coupling, collector output VHF II-osc. amplifier, high-impedance base input, symmetrical to pin 7 VHF II-osc. amplifier, high-impedance collector output, symmetrical to pin 6 VHF II-osc. amplifier, high-impedance collector output, symmetrical to pin 5 VHF II-osc. amplifier, high-impedance base input, symmetrical to pin 4 UHF-osc. amplifier, high-impedance base input, symmetrical to pin 11 UHF-osc. amplifier, high-impedance coll. output, symmetrical to pin 10 UHF-osc. amplifier, high-impedance coll. output, symmetrical to pin 9 UHF-osc. amplifier, high-impedance base input, symmetrical to pin 8 VHF I - / VHF II - / UHF-band switch SAW-filter driver output, low-impedance, symmetrical to pin 14 SAW-filter driver output, low-impedance, symmetrical to pin 13 Supply voltage UHF-mixer input low-impedance, symmetrical to pin 17 Semiconductor Group 3 TUA 2009X TUA 2009XS Pin Definitions and Functions (cont'd) Pin No. 17 18 19 20 21 22 23 24 Symbol UHF-input 1 VHF II-input 2 VHF II-input 1 VHF I-input 2 VHF I-input 1 GND Osc. output 2 Osc. output 1 Function UHF-mixer input low-impedance, symmetrical to pin 16 VHF II-mixer input low-impedance, symmetrical to pin 19 VHF II-mixer input low-impedance, symmetrical to pin 18 VHF I-mixer input high-impedance, symmetrical to pin 21 VHF I-mixer input high-impedance, symmetrical to pin 20 Ground VHF I - / VHF II - /UHF-osc. signal output to PLL, symmetrical to pin 24 VHF I - / VHF II - / UHF-osc. signal output to PLL, symmetrical to pin 23 Semiconductor Group 4 TUA 2009X TUA 2009XS Block Diagram Semiconductor Group 5 TUA 2009X TUA 2009XS Absolute Maximum Ratings TA = 0 to 70 C Parameter Symbol Limit Values min. Supply voltage VS Current Switching voltage max. 14 60 - 0.3 Unit V15/2, 23 I15 V12 - 0.3 V mA V + VS According to application circuit 1, only the provided circuitry can be connected to pins 1, 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 14, 16, 17, 18, 19, 20, 21, 23, 24 Junction temperature Storage temperature Tj Tstg - 40 150 125 75 83 C C K/W K/W Thermal resistance P-DSO-24-1 Rth SA 1) R P-SSOP-24-1 th SA Operating Range Supply voltage Supply current VHF I-mixer input frequency range VS I15 fVHF I 10 23 30 30 30 30 30 30 0 13.2 53 500 900 900 500 900 900 70 V mA MHz MHz MHz MHz MHz MHz C VHF II-mixer input frequency range fVHF II UHF-mixer input frequency range VHF I-oscillator frequency range VHF II-oscillator frequency range UHF-oscillator frequency range Ambient temperature fUHF fOVHF I fOVHF II fOUHF TA 1) Tested with an application oriented IC substitute inside the tuner box Semiconductor Group 6 TUA 2009X TUA 2009XS Characteristics TA = 25 C; VS = 12 V Parameter Symbol Limit Values min. typ. Current consumption I15 Current consumption I15 30 27 38 34 max. 45 41 mA mA Unit Test Condition Test Circuit 1 1 V12 > 1.6 V V12 < 0.9 V VHF I-Circuit Section Switching voltage Switching current Oscillator frequency range Oscillator drift Oscillator drift Oscillator drift V12 I12 fVHF I fVHF I fVHF I fVHF I 0 1 10 216 V A MHz V12 = 0.5 V Vd = 0 ... 28 V VS = 12 V 10 % 1 1 1 80 200 400 200 kHz kHz kHz T = 25 C t = 5 s up to 15 min. after switching on 1 1 1 Oscillator level Oscillator level Oscillator level Oscillator level Oscillator output impedance Harmonic wave ratio interference level Oscillator pulling Oscillator pulling Oscillator pulling Oscillator pulling Gain Gain VK VK aPLL aPLL R23, 24 C23, 24 a23, 24 V20, 21 V20, 21 V20, 21 V20, 21 GVHF I GVHF I NFVHF I NFVHF I Vint Vint 100 100 80 80 700 700 - 20 - 20 100 2 - 10 mVrms channel E2, at hot end mVrms channel S10, at hot end dBm dBm pF dB channel E2 channel S10 parallel equivalent circuit parallel equivalent circuit 1 1 1 1 3 3 1 VHF = 1 Vrms f = 10 kHz in channel E2 f = 10 kHz in channel S10 fint = E2 + (N + 5 - 1 MHz) fint = S10 + (N + 5 - 1 MHz) channel E2 pin 20, 21 > 13, 14 channel S10 pin 20, 21 > 13, 14 channel E2 (DSB) channel S10 (DSB) 1 % cross mod; E2 2 1 % cross mod; S10 2 108 108 88 88 27 27 dB/V dB/V dB/V dB/V dB dB 1 1 1 1 1 1 Mixer noise figure Mixer noise figure Interference voltage Interference voltage Semiconductor Group 7.5 7.5 70 70 9 9 dB dB dB/V dB/V 7 2 2 1 1 TUA 2009X TUA 2009XS Characteristics (cont'd) TA = 25 C; VS = 12 V Parameter Symbol Limit Values min. typ. Mixer input impedance IF-suppression IF-suppression max. k pF dB dB parallel equivalent circuit parallel equivalent circuit channel E2 channel S10 3 3 1 1 Unit Test Condition Test Circuit R20, 21 C20, 21 aIF aIF 3 0.5 20 20 VHF II-Circuit Section Switching voltage Switching current Oscillator frequency range Oscillator drift Oscillator drift Oscillator drift V12 I12 fVHF II fVHF II fVHF II fVHF II 1.6 10 190 2.3 30 485 V A MHz 1 V12 = 2.1 V Vd = 0 ... 28 V VS = 12 V 10 % 1 1 400 500 200 kHz kHz kHz T = 25 C t = 5 s up to 15 min. after switching on E5 balanced tested S37 balanced tested parallel equivalent circuit parallel equivalent circuit 1 1 1 Oscillator level Oscillator level Oscillator output impedance Harmonic wave ratio interference level Oscillator pulling Oscillator pulling Oscillator pulling Oscillator pulling Gain Gain aPLL aPLL R23, 24 C23, 24 a23, 24 V18, 19 V18, 19 V18, 19 V18, 19 GVHF II GVHF II NFVHF II NFVHF II 100 100 80 80 - 20 - 20 100 2 - 10 dBm dBm pF dB 1 1 3 3 1 VHF = 1 Vrms f = 10 kHz in channel E5 f = 10 kHz in channel S37 fint = K5 + (N + 5 - 1 MHz) fint = S37 + (N + 5 - 1 MHz) channel E5 pin 18, 19 > 13, 14 channel S37 pin 18, 19 > 13, 14 channel E5 (DSB) channel S37 (DSB) 108 108 88 88 41 41 dB/V dB/V dB/V dB/V dB dB 1 1 1 1 1 1 Mixer noise figure Mixer noise figure 7.5 7.5 9 9 dB dB 2 2 Semiconductor Group 8 TUA 2009X TUA 2009XS Characteristics (cont'd) TA = 25 C; VS = 12 V Parameter Symbol Limit Values min. typ. Interference voltage Interference voltage Mixer input impedance IF-suppression IF-suppression max. dB/V dB/V nH dB dB 1 % cross mod.; E5 2 1 % cross mod.; S37 2 serial equivalent circuit serial equivalent circuit channel E5 channel S37 1 1 3 3 1 1 Unit Test Condition Test Circuit Vint Vint R18, 19 L18, 19 aIF aIF 97 97 100 100 25 10 20 20 UHF-Circuit Section Switching voltage Switching current Oscillator frequency range Oscillator drift Oscillator drift Oscillator drift V12 I12 fUHF fUHF fUHF fUHF 3.2 60 470 VS 300 900 V A MHz 1 V12 = VS Vd = 0 ... 28 V VS = 12 V 10 % 1 1 400 800 600 kHz kHz kHz T = 25 C t = 5 s up to 15 min. after switching on E21 balanced tested E68 balanced tested parallel equivalent circuit parallel equivalent circuit 1 1 1 Oscillator level Oscillator level Oscillator output impedance Harmonic wave ratio interference level Oscillator pulling Oscillator pulling Oscillator pulling Oscillator pulling Gain Gain V23, 24 V23, 24 R23, 24 C23, 24 a23, 24 V16, 17 V16, 17 V16, 17 V16, 17 GUHF GUHF 100 100 80 80 - 20 - 20 100 2 - 10 dBm dBm pF dB 1 1 3 3 1 VHF = 1 Vrms f = 10 kHz in channel E21 f = 10 kHz in channel E68 fint = E21 + (N + 5 - 1 MHz) fint = E68 + (N + 5 - 1 MHz) channel E21 pin 16, 17 > 13, 14 channel E68 pin 16, 17 > 13, 14 108 108 88 88 41 41 dB/V dB/V dB/V dB/V dB dB 1 1 1 1 1 1 Semiconductor Group 9 TUA 2009X TUA 2009XS Characteristics (cont'd) TA = 25 C; VS = 12 V Parameter Symbol Limit Values min. typ. Mixer noise figure Mixer noise figure Interference voltage Interference voltage Mixer input impedance IF-suppression max. 10 11 dB dB dB/V dB/V nH dB channel E21 (DSB) channel E68 (DSB) 1 % cross mod.; E21 2 1 % cross mod.; E68 2 serial equivalent circuit serial equivalent circuit channel E21 2 2 1 1 3 3 1 Unit Test Condition Test Circuit NFUHF NFUHF Vint Vint R16, 17 L16, 17 aIF 97 97 8 9 100 100 25 10 20 SAW-Filter Driver Section SAW-filter driver output impedance Output voltage linearity R13, 14 C13, 14 VAOFW 75 95 24 nH dBm serial equivalent circuit serial equivalent circuit total harmonic distortion factor THD = 5 % 4 4 Semiconductor Group 10 TUA 2009X TUA 2009XS Test Circuit 1 Semiconductor Group 11 TUA 2009X TUA 2009XS Test Circuit 2 Semiconductor Group 12 TUA 2009X TUA 2009XS Measurement of the 4-pole matrix S11, S12, S21, S22 and calculation of the -equivalent circuit, which follows from that. Test Circuit 3 Test Point Oscillator output impedance Mixer input impedance VHF 1 Mixer input impedance VHF 2 Mixer output impedance UHF Test Frequency in MHz 100 100 300 600 Pin x 23 20 18 16 Pin y 24 21 19 17 Semiconductor Group 13 TUA 2009X TUA 2009XS Measurement of the 4-pole matrix at 37 MHz S11, S12, S21, S22 and calculation of the -equivalent circuit, which follows from that. Test Circuit 4 Semiconductor Group 14 TUA 2009X TUA 2009XS Plastic Package, P-DSO-24-1 (SMD) (Plastic Dual Small Outline) Sorts of Packing Package outlines for tubes, trays etc. are contained in our Data Book "Package Information" SMD = Surface Mounted Device Semiconductor Group 15 Dimensions in mm GPS05144 TUA 2009X TUA 2009XS Plastic Package, P-SSOP-24-1 (SMD) (Plastic Shrink Small Outline Package) Sorts of Packing Package outlines for tubes, trays etc. are contained in our Data Book "Package Information" SMD = Surface Mounted Device Semiconductor Group 16 Dimensions in mm GPS05388 |
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