Low-Power, Variable-Gain Amplifier Sets New Standards In Signal- And Gain-Channel Bandwidth.FORT COLLINS, Colo.--(BUSINESS WIRE)--April 4, 1997--National Semiconductor Corporation(R) today announced a new low-power, low-cost addition to its popular line of high-speed, variable-gain amplifiers. The CLC (The Computer Language Company Inc.) The publisher of this Encyclopedia. See About this product. 5523 combines a wide 250MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. bandwidth with the industry's fastest gain-control response rate, the greatest "maximum-gain" range flexibility and the lowest power consumption. "With nearly three times the signal-channel bandwidth and more than ten times faster gain-control response rate than its closest competitor, the CLC5523 represents a significant advance in high-speed VGAs," said Jeff Hooker Jeff Hooker is a retired U.S. soccer forward who currently coaches the University of Denver women's soccer team. Hooker attended Walnut High School in Walnut, California where he played on the school’s boys soccer team. , marketing manager for National Semiconductor's Comlinear Products Group. "The fact that it offers this large improvement in performance at less power and at a lower cost than most competitive parts will make the device particularly attractive in very fast signal leveling and automatic gain-control loops." The CLC5523 combines a high-performance voltage-controlled gain block with a fast current feedback output amplifier. Maximum gain, adjustable between 2 and 100, is set by two external resistors. The gain attenuation Loss of signal power in a transmission. Attenuation The reduction in level of a transmitted quantity as a function of a parameter, usually distance. It is applied mainly to acoustic or electromagnetic waves and is expressed as the ratio of power densities. range is then greater than 60dB using a gain-control input signal between 0 and 2V. Gain-control response rate is greater than 4dB/nsec. Power consumption is only 135mW. With its extremely high slew rate (1) How fast paper moves through a printer (ips). (2) The speed of changing voltage. (1800V/microsecond) and wide bandwidth (250MHz), the CLC5523 delivers high-speed rise and fall times of 2.0ns for a 0.5V step. Settling time The introduction to this article provides insufficient context for those unfamiliar with the subject matter. Please help [ improve the introduction] to meet Wikipedia's layout standards. You can discuss the issue on the talk page. to 0.2% is only 22ns for a 2V step. Other key specifications include gain flatness of less than 0.2dB DC to 75MHz and a low input voltage noise of 4nV/rtHz. With its combination of wide signal-channel and gain-control bandwidth, high slew rate, low power consumption and low price, the CLC5523 is expected to find widespread use in applications such as automatic gain control, voltage controlled filters, automatic signal leveling for ADCs, amplitude modulation amplitude modulation: see modulation; radio. Varying the voltage of a carrier or a direct current in order to transmit analog or digital data. Amplitude modulation (AM) is the oldest method of transmitting human voice electronically. and variable-gain transimpedance devices. Price and Availability The CLC5523 is available now in industrial-screened versions (-40 degrees to +85 degrees C) in 8-pin CLC5523IN plastic DIP and CLC5523IM plastic SOIC (Small Outline IC) A small-dimension, plastic, rectangular, surface mount chip package that uses gull-wing pins extending outward. See gull-wing lead, SOJ and chip package. packages. U.S. list price in either package is $3.75 in 1000s. For further information on the CLC5523, visit our World Wide Web site at http//www.national.com/pf/CL/CLC5523.html . National Semiconductor Corporation produces system-on-a-chip silicon solutions for the information highway, based on its leadership in analog and mixed signal technologies. National is headquartered in Santa Clara, California Santa Clara, California (IPA: /ˌsæntəˈklærə/) , founded in 1777 and incorporated in 1852, is a city in Santa Clara County, in the U.S. state of California. , and focuses on the communications, personal systems and consumer markets. In March, 1997 National sold its Fairchild Semiconductor businesses and now has 12,300 employees worldwide with annual sales of approximately $2.0 billion. Additional company and product information is available on the World Wide Web at www.national.com . CONTACT: National Semiconductor Corporation Gerry Ziegler, 408/721-4319 (Editorial Contact) gerry.ziegler@nsc.com http://www.national.com/pf/CL/CLC5523.html (Reader Info) |
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