Use the Make Device tool, map the pins to the footprint, and save it to your user library. 5. Simulating the MC1496 in Proteus
If you cannot find a stable MC1496 library or model for simulation, Proteus includes the AD630 Balanced Modulator/Demodulator
*LM1496N 14 pins * +sig_in gain1 gain2 -sig_in bias out1 NC +carr_in NC -carr_in NC out2 NC V- .subckt LM1496N 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Q1 6 8 N001 0 CA3046 Q2 12 10 N001 0 CA3046 Q3 6 10 N002 0 CA3046 Q4 12 8 N002 0 CA3046 Q5 N001 4 3 0 CA3046 Q6 N002 1 2 0 CA3046 Q7 3 5 N003 0 CA3046 R1 N003 14 500 Q8 2 5 N004 0 CA3046 R2 N004 14 500 Q9 5 5 N005 0 CA3046 R3 N005 14 500 R101 7 9 1e12 R102 9 11 1e12 R103 11 13 1e12 R104 13 7 1e12 R105 13 0 1e12 .ends LM1496N mc1496 proteus library download
Once the library is successfully installed, you can build a standard Double-Sideband (DSB) modulator to test its functionality:
C:\ProgramData\Labcenter Electronics\Proteus 8 Professional\Data\LIBRARY (Note: "ProgramData" is a hidden folder by default in Windows. You may need to enable "Hidden items" in your File Explorer View settings). Use the Make Device tool, map the pins
The MC1496 (often by ONSEMI) features a balanced differential input and output, offering high carrier suppression. In Proteus, importing this library allows for:
This guide provides a comprehensive step-by-step walkthrough on how to download, install, and utilize the MC1496 library in Proteus. Why Do You Need a Custom MC1496 Library? You may need to enable "Hidden items" in
Thus, the only reliable way to get the MC1496 in Proteus is via third-party library downloads or manual creation.
This leads to the frequent search query: .