TH22713A - "Inverted component video signal to illustration signal" - Google Patents

Abstract

The bias source (R7, R8, C24) connected to the multiplexer (Q1) generates a first DC bias at the input. (Emitter pin) of the amplifier And a second DC bias at the output (Collector pin) of the first terminal block amplifier (B) is connected as AC (22) to the brightness source (Y1, 18) connected to DC through the first resistor. (R4) to the input of the multiplexer and DC connected through the first amplifier (28) to the luminance load (Y3, 30) the second circuit terminal (A ) Is connected as AC (20) to the color source (C1, 18), DC is connected through the second suppressor (R3) to the input. (Emitter pin Q1) of the combining amplifier and a DC flat through the second amplifier (26) to the load of the color signal (C3, 30). The third amplifier (Q3) will produce The DC coupling of the combined amplifier output (Q1) to the composite signal load (E, 40). Such a circuit will convert the component signals into composite signals with their output. That was gobbled up by many Which may have an added effect Of different energies, which will be constant independent of the change in The impedance of the load and which is biased DC by going into the coaxial amplifier input as well as at its output. Which will make the gust signal conversion easier

Claims (1)

1.Visual converters Assemble Integrated amplification (Q1) with one input and one output bias source (R7, R8, C24) attached to it. Expand that combination to generate a first DC bias at that input. And a second DC bias at that output. The first circuit terminal (B) that is AC connected to the brightness source (Y1, 18) is DC connected to the input of the The multiplexing amplifier is said to be and DC connected to the first load of the signal quatag: