clc5623 National Semiconductor Corporation, clc5623 Datasheet

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... N CLC5623 Triple, High Output, Video Amplifier General Description The CLC5623 has a new output stage that delivers high output drive current (130mA), but consumes minimal quiescent supply current (3.0mA/ch) from a single 5V supply. Its current feedback architecture, fabricated in an advanced complementary bipolar process, maintains consistent performance over a wide range of gains and signal levels, and has a linear-phase response up to one half of the -3dB frequency ...

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... Characteristics ( PARAMETERS CONDITIONS Ambient Temperature CLC5623IN FREQUENCY DOMAIN RESPONSE -3dB bandwidth V o -0.1dB bandwidth V o gain peaking <200MHz, V gain rolloff <30MHz, V linear phase deviation <30MHz, V differential gain NTSC, R differential phase NTSC, R TIME DOMAIN RESPONSE rise and fall time 2V step settling time to 0 ...

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... Model CLC5623IN CLC5623IM CLC5623IMX JA ° 110 C/W ° 125 C ±5V, unless specified) CC GUARANTEED MIN/MAX UNITS 0 to 70°C -40 to 85°C 105 85 MHz 52 52 MHz 9 9 MHz 0.9 1.3 dB 0.5 0.5 dB 2.0 2.0 deg – ...

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Typ. Perform + (PDIP Frequency Response 0. PDIP Package f Gain 750 Phase f ...

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Typical Performance (A Frequency Response PDIP Package 750 f Gain 750 Phase + 200 f -135 ...

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... Channel 1 1M 10M 100M Frequency (Hz) The CLC5623 is a current feedback amplifier built in an advanced complementary bipolar process. The CLC5623 operates from a single 5V supply or dual ±5V supplies. Operating from a single supply, the CLC5623 has the following features: Provides 100mA of output current while ...

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... R L low frequency cutoff Figure 4: AC Coupled Inverting Configuration Dual Supply Operation The CLC5623 operates on dual supplies as well as single supplies. The non-inverting and inverting configu- rations are shown in Figures 5 and yield ...

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... Driving Cables and Capacitive Loads is left open. Parasitic When driving cables, double termination is used to prevent reflections. For capacitive load applications, a small series resistor at the output of the CLC5623 will improve stability and settling performance. The Frequency Response vs. C Figure 9, gives the recommended series resistance value for optimum flatness at various capacitive loads ...

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... Calculate the total RMS power amp o The maximum power that the DIP and SOIC packages can dissipate at a given temperature is illustrated in Figure 11. The power derating curve for any CLC5623 package can be derived by utilizing the following equation: (175 T amb JA where T = Ambient temperature (° ...

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... Application Circuits Single Supply Cable Driver The typical application shown below shows one of the CLC5623 amplifiers driving 10m of 75 The CLC5623 is set for a gain of +2V/V to compensate for the divide-by-two voltage drop at V +5V 6 0 1/3 7 CLC5623 0 ...

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... Figure 17: Differential Line Driver wtih Load Impedance Conversion Set up the CLC5623 as a difference amplifier Make the best use of the CLC5623’s output drive capability as follows max max where R is the transformed value of the load imped- eq ...

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... National’s products are not authorized for use as critical components in life support devices or systems without the express written approval of the president of National Semiconductor Corporation. As used herein: 1. Life support devices or systems are devices or systems which, a) are intended for surgical implant into the body support or sustain life, and whose failure to perform, when properly used in accordance with instructions for use provided in the labeling, can be reasonably expected to result in a significant injury to the user ...