SIEMENS 2-GHz Mixer TDA 6130-5X4 Preliminary Data Bipolar IC Features @ A wide range of supply voltage @ Few external components @ High conversion transconductance @ Wide range of input signal. vpsoso93 P-DSO-14-1 Type Ordering Code Package TDA 6130-5X4 Q67000-A5176 P-DSO-14-1 The TDA 6130-5X4 is a symmetrical mixer like the components $ 042 P* and TBB 042 G* but for frequencies up to 2 GHz. It can be driven by an external source or by the build-in oscillator. * already cancelled Mi 6235605 0063579 76T Semiconductor Group 16 08.93SIEMENS TDA 6130-5X4 Pin Configuration (top view) P-DSO-14 N.C. 1 14 [7 GND MIXO 2 1STONC. MIXO C3 {270 MIXB Ys OO) 4 11 5 MIXE N.C. OOS 10 [D MIXB OSCI EX] 6 9D MIXE oscl C7 8{T N.C. UEPO5028 Pin Definitions and Functions Pin No. Symbol Function 1 N.C. N.C. 2 MIXO Mixer output 3 MIXO Mixer output 4 Vy Supply voltage 5 N.C. N.C, 6 OSCI Oscillator input 7 OSCI Oscillator input 8 N.C. N.C. 9 MIXE Mixer input emitter 10 MIXB Mixer input base 11 MIXE Mixer input emitter 12 MIXB Mixer input base 13 N.C. N.C. 14 GND Ground WM 82355605 0063560 4Tl Semiconductor Group 77SIEMENS TDA 6130-5X4 2.2k0 pt 2.2k0 L 14 13 12 11 10 9 8 VEBOSO29 | Block Diagram MM 4255605 0063561 338 a Semiconductor Group 78SIEMENS TDA 6130-5X4 Circuit Description The pins 1, 5, 8, 13 should be connected to pin 14 (ground) to reach optimal HF features. A galvanic connection between pins 6 and 7 and 10 and 12 through coupling windings is recommended. A resistor of at least 220 Q may be connected between pins 9 and 14 (ground) and between 11 and 14 to increase the currents and thus the conversion transconductance. Pins 9 and 11 may be connected through any impedance. In case of a direct connection between pin 9 and 11, the resistance from this pin to 14 may be at least 100 . Depending on the layout, a capacitor may be required between pins 6 and 7 to prevent oscillations in the UHF band. M@@ 4235605 0063582 274 Semiconductor Group 79SIEMENS TDA 6130-5X4 Absolute Maximum Ratings T, = 0 to 70C Parameter Symbol Limit Values Unit | Test Condition min. max. Supply voltage V, 0 8 Vv Mixer output Vos 8 Vv Open collector Oscillator input Ve.7 2.5 Vv Mixer input emitter Vo. 11 0.8 3.5 Mixer input base Vio, 12 V,-1.5 Vv Junction temperature 7, 125 C Storage temperature Tog -40 150 C Thermal resistance Rinsa 125 KAV Operating Range Supply voltage Vs 4 7 Vv Input frequency range fis 2000 MHz Ambient temperature Th 0 70 c in operation Mi 4235605 0063583 100 Semiconductor Group 80SIEMENS TDA 6130-5X4 Characteristics T, = 25C; V5>=6V + 10 % (test circuit 1) Parameter Symbol Limit Values Unit | Test min typ. max. Condition Current consumption Ig=In+1,4+1, | 1.1 1.6 2.1 mA Output-current L=l, 0.35 [054 |0.75 |mA Output-current difference L-Tl, 3 10 60 HA Supply current L, 0.2 0.4 0.6 mA Power gain Vp Fe = 100 MHz, fosc = 110,7 MHz 13 16 19 dB J, = 1 GHz, fose = 1,1 GHz 13 16 19 dB Break down voltage Vo.3 18 Vv I,,3=10mA; V,7=0 Noise figure NF 6 7 10 dB |DSB Mixer output impedance R 7.0 kQ | fuo = 100 MHz C 0.6 kQ |fuo= 1GHz 1.5 pF MM 86235605 0063564 047 Semiconductor Group 81SIEMENS TDA 6130-5X4 Y-| % = 100 MHz T f = 1.0 GHz Symmetrie Balon Transformer I. I. ar jit we |9 |, TDA 6130-5X4 1 2 3 4 5 [ [ >_ + 7 1nF in 2 Wdg Ty +-_ | Symmetrie me Balon Transformer W l fp = 10.7 wine 10 I Pewee MHz V,= 6V = 1010.7 MHz UESO5030 Test Circuit 1 M@@ 4235605 0063585 Tas Semiconductor Group 82SIEMENS TDA 6130-5X4 ya {2pF 33 pF 12 pF tyhH I. Is 12 11 10 TDA 6130-5X4 1 2 3 4 5 [ [ + _ oF inf = In 2 Wdg Ty {+ Symmetrie 68 pF Balon Transformer I Geen O Ve= 6V YESOSO31 Hy fip = 10.7 MHz 1 10 nF Application Circuit Me 8235605 0063566 JLT Semiconductor Group 83