clc408 ETC-unknow, clc408 Datasheet
clc408
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clc408 Summary of contents
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... The combination of low quiescent power, pp high output drive current, and high-speed performance make the CLC408 a great choice for many portable and battery- powered personal communication and computing systems. The CLC408 drives low-impedance loads, including capacitive loads, with little change in performance. Into a 100 ...
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... Notes A) J-level: spec is 100% tested at +25°C, sample tested at +85°C. LC/MC-level: spec is 100% wafer probed at +25°C. B) J-level: spec is sample tested at +25°C. C) The output current sourced or sunk by the CLC408 can exceed the maximum safe output current. http://www.national.com (A = +2, R ...
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... Output Amplitude ( 2nd Harmonic Distortion -60 10MHz -65 -70 5MHz -75 -80 2MHz -85 1MHz -90 - Output Amplitude ( +5V 25°C, CLC408AJ unless specified) CC Frequency Response vs = =1.21k = =0.95k R =100 =1k Gain f R ...
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... R dominates the circuit performance. Increasing R the following: Decreases loop gain Decreases bandwidth v Reduces gain peaking f Lowers pulse response overshoot Affects frequency response phase linearity +5V 25°C, CLC408AJ unless specified) CC Small Signal Pulse Response 0. 0. ...
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... CLC408 DESIGN INFORMATION Standard op amp circuits work with CFB op amps. There are 3 unique design considerations for CFB: The feedback resistor (R in Figures 1-3) sets f AC performance R cannot be replaced with a short or a capacitor f The output offset voltage is not reduced by balancing input resistances The following sub-sections cover: ...
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... To determine an approximate value of slew rate necessary to support a large sinusoid, use the V o following equation where V peak The slew rate of the CLC408 in inverting gains is always higher than in non-inverting gains. AC Design (linear phase/constant group delay) The recommended value of R and a R improve phase linearity when |A f ...
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... The CLC408’s output current can exceed the maximum safe output current. To limit the output current to < 96mA: Limit the output voltage swing with diode ...
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... The circuit shown in the Typical Application schematic on the front page operates as a full duplex cable driver which allows simultaneous transmission and reception of signals on one transmission line. The circuit on either side of the transmission line uses the CLC408 as a cable driver, and the CLC426 as a receiver. V version used to match the transmission line ...
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... We selected the component values as follows 3.0k , for unity gain of the CLC408 the characteristic impedance the transmission line ≥ 100 , the recommended value for the CLC426 ||R ) – These values give excellent isolation from the other input: ...
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... Connect U2’s input between Use an inverting gain configuration for U2 to change the polarity of V Pick the combination that best suits your needs CLC408 - and D need to be Schottky or PIN diodes the recommended feedback resistor value ...
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Customer Design Applications Support National Semiconductor is committed to design excellence. For sales, literature and technical support, call the National Semiconductor Customer Response Group at 1-800-272-9959 or fax 1-800-737-7018. Life Support Policy National’s products are not authorized for use as ...