Comlinear Clc453 Single Supply, Low-power, High Output, Programmable Buffer

The Comlinear CLC453 is a low cost, high speed (110MHz) Buffer that features user-programmable gains of +2, +1, and -1V/V. It has a new output stage that delivers high output drive current (100mA), but consumes minimal quiescent supply current (3.0mA) from a single 5V supply. Its current feedback architecture, fabricated in an advanced complementary bipolar process, maintains consistent performance over a programmable range of gains and wide signal levels, and has a linear-phase response up to one half of the -3dB frequency. The CLC453s internal feedback network provides an excellent gain accuracy of 0.3% The CLC453 offers superior dynamic performance with a 110MHz small-signal bandwidth, 370V/s slew rate and 4.8ns rise/fall times (2Vstep). The combination of the small SOT23-5 package, low quiescent power, high output current drive, and high-speed performance make the CLC453 well suited for many battery- powered personal Communication computing systems. The ability to drive low-impedance, highly capacitive loads, makes the CLC453 ideal for single ended cable applications. It also drives low impedance loads with minimum distortion. The CLC453 will drive a 100 load with only -72/-74dBc second/third harmonic distortion (Av = +2, Vout = 2Vpp, f = 1MHz). With a 25 load, and the same conditions, it produces only -65/-77dBc second/third harmonic distortion. It is also optimized for driving high currents into single-ended transformers and coils. By National Semiconductor Corporation
CLC453 's PackagesCLC453 's pdf datasheet
CLC453AJ




CLC453 Pinout, Pinouts
CLC453 pinout,Pin out
This is one package pinout of CLC453,If you need more pinouts please download CLC453's pdf datasheet.

CLC453 Application circuits
CLC453 circuits
This is one application circuit of CLC453,If you need more circuits,please download CLC453's pdf datasheet.


Related Electronics Part Number

Related Keywords:

CLC453 Pb-Free CLC453 Cross Reference CLC453 Schematic CLC453 Distributor
CLC453 Application Notes CLC453 RoHS CLC453 Circuits CLC453 footprint