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THS7313 Datasheet(PDF) 26 Page - Texas Instruments |
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THS7313 Datasheet(HTML) 26 Page - Texas Instruments |
26 / 48 page www.ti.com OUTPUT MODES OF OPERATION – AC COUPLED WITH SAG CORRECTION Signal Internal Circuitry Video Out Out SAG 675 W 1 kW 878 W 150 W 75 W 75 W 47 F m 33 F m 1 ) (675 ) 878) 1k + 2.55 V V () 8.1 dB). (1) 1 ) (675 ø 150) ) 878 1k + 1 ) 1k 1k + 2 V V ( ) 6.0 dB) (2) THS7313 SLOS483 – NOVEMBER 2005 APPLICATION INFORMATION (continued) Although it is common to use the same capacitor values for all the video lines, the frequency bandwidth of the chroma signal in a S-Video system are not required to go as low or as high as the frequency of the luma channels. Thus, the capacitor values of the chroma line(s) can be smaller – such as 0.1 µF. Other than the line droop issue, ac coupling has another potential issue – size and cost. A 330- µF to 1000-µF capacitor is large and can be quite costly in a system. Multiply these items by the number of channels, and the size and costs can be significant. But, it is still desirable to use ac coupling to eliminate ground loop issues and insure interoperability among video devices. The SAG nomenclature represents signal amplitude gain correction in this document. SAG correction is a method which is used to ac couple the video signal while using much smaller value capacitors. SAG correction is accomplished by manipulating the feedback network of the output buffer. The THS7313 was designed to take advantage of this compensation scheme while minimizing the number of external components required. Figure 54 shows the basic configuration of the output buffer stage along with the SAG configuration driving a single video line. Figure 54. THS7313 Output Buffer Using SAG Corrected AC-Coupling SAG compensation can be analyzed by looking at low frequency operation and high frequency operation. At low frequencies, the impedance of the capacitors are high and the corresponding gain of the amplifier is: But, at high frequencies, the impedance of the capacitors are low and the resulting gain of the amplifier is: which is needed to counter-act the doubly terminated 75- Ω output divider (-6 dB) circuit. Resulting in the video out signal equaling the Input signal amplitude. When the SAG output pin is connected directly to the amplifier output, as found in the dc-coupled and the ac-coupled configurations, the gain is configured properly at 2 V/V (6 dB). The SAG pin is part of the negative feedback network. Thus, the capacitors and traces should be constructed as close as possible to the THS7313 to minimize parasitic issues. Failure to do so may result in ringing of the video signal. If these large capacitors must be placed further than 15 mm away from the THS7313, it is recommended that a 0.01- µF capacitor be placed between the output of the channel and the SAG pin. This capacitor should be placed as close as possible to the THS7313 to minimize stray capacitance and inductance issues. Since SAG correction targets the low frequency operation area, there is no drawback of adding this high frequency capacitor to the circuit. 26 |
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