clc436 National Semiconductor Corporation, clc436 Datasheet
clc436
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clc436 Summary of contents
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... DACs. The CLC436’s combination of low cost and high performance in addition to its low-power voltage-feedback topology make it a versatile signal conditioning building block for a wide range of price-sensitive applications ...
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... CLC436 Electrical Characteristics PARAMETERS CONDITIONS CLC436AJ FREQUENCY DOMAIN RESPONSE -3dB bandwidth V < 0.5V out V < 0.5V out V < 10V out -3dB bandwidth < 0.5V V out gain flatness V < 0.5V out rolloff DC to 20MHz peaking DC to 10MHz linear phase deviation DC to 10MHz differential gain 4.43MHz, R differential phase 4 ...
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... CLC436 Typical Performance Characteristics Non-Inverting Frequency Response out - -180 -270 -360 -450 1 10 100 Frequency (MHz) Frequency Response vs. V out A = 2V -90 0.5V pp -180 2V pp -270 5V pp -360 -450 1 10 ...
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... Figure 2: Large Signal Pulse Response into 50 The high output drive capability of the CLC436 is suitable for driving capacitive loads. When driving a capacitive load or coaxial cable, include a series resistance R to improve stability. Refer to the R s Capacitive Load plot in the typical performance section to determine the recommended resistance for various capacitive loads ...
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... This technique is shown in the CLC522, Wideband Variable Gain Amplifier, data sheet. Transimpedance Application The low 1.1pA/ Hz input current noise and unity gain stability make the CLC436 useful as a photo diode pre- amplifier. Figure 4 illustrates a transimpedance amplifier. R sets the transimpedance gain. The photodiode current f ...
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... R 500 1 Figure 5: Instrumentation Amplifier 2nd Order Sallen-Key Band-Pass Filter The CLC436 is well suited for Sallen-Key type active filters. Figure 6 illustrates the band pass topology and design equations. For optimum high frequency performance: • Keep the resistor values between 10 and 1k • ...