clc416 National Semiconductor Corporation, clc416 Datasheet
clc416
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clc416 Summary of contents
Page 1
... With 0.1dB flatness to 30MHz and low differential gain and phase errors, the CLC416 is an ideal part for professional video processing and distribution. The 120MHz -3dB bandwidth (A +2) coupled with a 400V/ s slew rate also makes the CLC416 a perfect choice in cost-sensitive applications such as video monitors, fax machines, copiers, and CATV systems. ...
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... CLC416 Electrical Characteristics PARAMETERS CONDITIONS Ambient Temperature CLC416AJ FREQUENCY DOMAIN RESPONSE -3dB bandwidth V out V out ±0.1dB bandwidth V out gain flatness V out peaking DC to 200MHz rolloff <30MHz linear phase deviation <20MHz differential gain 4.43MHz, R differential phase 4.43MHz, R TIME DOMAIN RESPONSE rise and fall time 2V step settling time to 0 ...
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... CLC416 Typical Performance Characteristics Frequency Response 1.65k 348 f 0 -90 -180 100 -270 -360 R = 200 f -450 1 10 100 Frequency (MHz) Frequency Response vs. V out 0. 100 Frequency (MHz) Maximum Output Voltage vs ...
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... Channel Matching Channel matching and crosstalk efficiency are largely dependent on board layout. The layout of National’s is the gain g dual amplifier evaluation boards are designed to produce optimum channel matching and isolation. channel matching for the CLC416 is shown in Figure 100 ...
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... Frequency (MHz) Figure 3: Input Referred Crosstalk vs. Frequency Driving Cables and Capacitive Loads When driving cables, double termination is used to prevent reflections. For capacitive load applications, a small series resistor at the output of the CLC416 will improve stability. The R vs. Capacitive Load plot the Typical Performance section, gives the recommended series resistance value for optimum flatness at various capacitive loads ...
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... Figure 5: Differential Line Receiver Bandpass Filter Figure 6 illustrates a low-sensitivity bandpass filter and design equations. This topology utilizes the CLC416’s closely matched amplifiers to obtain low op-amp sensitivity at high frequencies. The CLC405 is used as a buffer to obtain low output impedance. The overall circuit gain is unity. For additional gain, the CLC405 can be configured as a non-inverting amplifier ...