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MC1496DG Arkusz danych(PDF) 5 Page - ON Semiconductor |
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MC1496DG Arkusz danych(HTML) 5 Page - ON Semiconductor |
5 / 14 page MC1496, MC1496B http://onsemi.com 5 Bias currents flowing into Pins 1, 4, 8 and 10 are transistor base currents and can normally be neglected if external bias dividers are designed to carry 1.0 mA or more. Transadmittance Bandwidth Carrier transadmittance bandwidth is the 3.0 dB bandwidth of the device forward transadmittance as defined by: g21C+ io (each sideband) vs (signal) ⎥ Vo + 0 Signal transadmittance bandwidth is the 3.0 dB bandwidth of the device forward transadmittance as defined by: g21S+ io (signal) vs (signal) ⎥ Vc + 0.5 Vdc, Vo + 0 Coupling and Bypass Capacitors Capacitors C1 and C2 (Figure 5) should be selected for a reactance of less than 5.0 W at the carrier frequency. Output Signal The output signal is taken from Pins 6 and 12 either balanced or single−ended. Figure 11 shows the output levels of each of the two output sidebands resulting from variations in both the carrier and modulating signal inputs with a single−ended output connection. Negative Supply VEE should be dc only. The insertion of an RF choke in series with VEE can enhance the stability of the internal current sources. Signal Port Stability Under certain values of driving source impedance, oscillation may occur. In this event, an RC suppression network should be connected directly to each input using short leads. This will reduce the Q of the source−tuned circuits that cause the oscillation. Signal Input (Pins 1 and 4) 510 10 pF An alternate method for low−frequency applications is to insert a 1.0 k W resistor in series with the input (Pins 1, 4). In this case input current drift may cause serious degradation of carrier suppression. NOTE: Shielding of input and output leads may be needed to properly perform these tests. Figure 5. Carrier Rejection and Suppression Figure 6. Input−Output Impedance Figure 7. Bias and Offset Currents Figure 8. Transconductance Bandwidth 0.01 mF 2.0 k −8.0 Vdc I6 I9 1.0 k I7 I8 6.8 k Zout +V o + +V o I9 3 RL 3.9 k VCC 12 Vdc 8 C1 0.1 mF MC1496 1.0 k 2 Re 1.0 k C2 0.1 mF 51 10 k Modulating Signal Input Carrier Input VC Carrier Null 51 51 10 k 50 k R1 VS −V o RL 3.9 k I6 I4 6 14 5 12 − 2 Re = 1.0 k 3 Zin 0.5 V 8 10 I1 4 1 −V o 10 1 6 4 14 5 12 6.8 k V− I10 I5 −8.0 Vdc VEE 1.0 k MC1496 MC1496 MC1496 6 14 5 12 I10 6.8 k −8.0 Vdc VEE VCC 12 Vdc 2 Re = 1.0 k 3 1.0 k Modulating Signal Input Carrier Input VC VS 0.1 mF 0.1 mF 1.0 k 51 1.0 k 14 5 6 12 1.0 k 23 Re VCC 12 Vdc 2.0 k +V o −V o 6.8 k 10 k Carrier Null 51 10 k 50 k V− −8.0 Vdc VEE 50 50 8 10 4 1 8 10 4 1 51 TEST CIRCUITS |
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Podobny opis - MC1496DG |
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