library IEEE; use IEEE.std_logic_1164.all; use IEEE.std_logic_arith.all; use IEEE.electrical_systems.all; entity tb_mixer is end tb_mixer; architecture TB_mixer of tb_mixer is -- Component declarations -- Signal declarations terminal mix_in : electrical_vector(1 to 8); terminal pseudo_gnd : electrical; begin -- Signal assignments -- Component instances v3 : entity work.v_sine(ideal) generic map( amplitude => 5.0, freq => 1.0e3 ) port map( pos => mix_in(7), neg => ELECTRICAL_REF ); v4 : entity work.v_sine(ideal) generic map( amplitude => 4.0, freq => 2.0e3 ) port map( pos => mix_in(8), neg => ELECTRICAL_REF ); v9 : entity work.v_sine(ideal) generic map( freq => 1.0e3, amplitude => 5.0 ) port map( pos => mix_in(5), neg => ELECTRICAL_REF ); v10 : entity work.v_sine(ideal) generic map( freq => 2.0e3, amplitude => 4.0 ) port map( pos => mix_in(6), neg => ELECTRICAL_REF ); R2 : entity work.resistor(ideal) generic map( res => 1.0e3 ) port map( p1 => pseudo_gnd, p2 => ELECTRICAL_REF ); mixer1 : entity work.mixer_wa(weighted) port map( inputs => mix_in, output => pseudo_gnd ); v14 : entity work.v_sine(ideal) generic map( amplitude => 4.0, freq => 2.0e3 ) port map( pos => mix_in(2), neg => ELECTRICAL_REF ); v15 : entity work.v_sine(ideal) generic map( amplitude => 5.0, freq => 1.0e3 ) port map( pos => mix_in(1), neg => ELECTRICAL_REF ); v16 : entity work.v_sine(ideal) generic map( freq => 2.0e3, amplitude => 4.0 ) port map( pos => mix_in(4), neg => ELECTRICAL_REF ); v17 : entity work.v_sine(ideal) generic map( freq => 1.0e3, amplitude => 5.0 ) port map( pos => mix_in(3), neg => ELECTRICAL_REF ); end TB_mixer;