News Release www.linear.com
Rail-to-Rail Op Amps Feature Precision & Power EfficiencyMILPITAS, CA - February 28, 2017 - Linear Technology introduces the LTC6258/59/60 and LTC6261/62/63, single/dual/quad op amps, extending its line of power efficient, low noise, precision operational amplifiers. These devices are part of a family of power efficient op amps ranging from 1.3MHz GBW product at 20µA supply current to 720MHz GBW product at 3.3mA supply current. The latest family members operate on 1.8V to 5.25V supply, feature rail-to-rail inputs and outputs, and include versions with shutdown mode, further reducing power consumption during periods of inactivity. Input offset voltage is just 400µV max. The devices are fully specified over the industrial (I) (-40°C to 85°C) and extended (H) (-40°C to 125°C) temperature ranges.
With supply current of only 20µA per amplifier, the LTC6258/59/60 achieve 1.3MHz gain bandwidth product and 240V/ms slew rate. They include input EMI filters which provide 45dB rejection at 1GHz. They are stable for any gain and with any capacitive load.
The LTC6261/62/63 achieve 30MHz GBW product and 7V/µs slew rate, drawing just 240µA per amplifier. Wideband voltage noise is just 13nV/√Hz. They are stable for any gain and for capacitive loads up to 1nF.
The single LTC6258 and LTC6261 are available in a space saving 2mm x 2mm DFN package, priced starting at $1.24 each in quantities of 1000 pieces. The dual LTC6259 and LTC6262 are available in the same size DFN package, as well as 8-lead SOT-23, MSOP-8, and MSOP-10 with shutdown mode. The quad LTC6260 and LTC6263 are available in the
MSOP-16 package. For more information, visit www.linear.com/product/LTC6258.
Photo Caption: Power Efficient Precision Op Amp Family Extends from 20µA, 1.3MHz to 3.3mA, 720MHz. Summary of Features: LTC6258/59/60/61/62/63Offset Voltage: 400μV Maximum
Rail-to-Rail Input & Output
Supply Voltage Range: 1.8V to 5.25V
Operating Temperature Range: -40°C to 125°C
Single in 2mm × 2mm DFN Packages
Dual in 8-Lead MS8, MS10, TS0T-23, 2mm × 2mm DFN Packages
Quad in MS16 Package
LTC6258/59/60
Gain Bandwidth Product: 1.3MHz
Low Quiescent Current: 20μA
C-LoadTM Op Amp Drives all Capacitive Loads
EMI Rejection Ratio: 45dB at 1GHz
Input Bias Current: 75nA Maximum
CMRR/PSRR: 95dB/90dB
Shutdown Current: 7μA Maximum
LTC6261/62/63
Gain Bandwidth Product: 30MHz
Low Quiescent Current: 240μA
Drives Capacitive Loads up to 1nF
Input Bias Current: 100nA Maximum
CMRR/PSRR: 100dB/95dB
Shutdown Current: 9μA Maximum
Pricing shown is for budgetary use only and may differ due to local duties, taxes, fees and exchange rates.
About Linear Technology
Linear Technology Corporation, a member of the S&P 500, has been designing, manufacturing and marketing a broad line of high performance analog integrated circuits for major companies worldwide for over three decades. The Company's products provide an essential bridge between our analog world and the digital electronics in communications, networking, industrial, automotive, computer, medical, instrumentation, consumer, and military and aerospace systems. Linear Technology produces power management, data conversion, signal conditioning, RF and interface ICs, µModule® subsystems and wireless sensor network products. For more information, visit www.linear.com
, LT, LTC, LTM, Linear Technology, the Linear logo, and µModule are registered trademarks and C-Load is a trademark of Linear Technology Corp. All other trademarks are the property of their respective owners.
Press Contacts: North America / Worldwide UK & NordicJohn Hamburger, Director Marketing Alan Timmins
Communications a.timmins@ntlworld.com
jhamburger@linear.com Tel: +44-1-252-629937
Tel: 408-432-1900 ext 2419
Doug Dickinson, Media Relations Manager ddickinson@linear.com
Tel: 408-432-1900 ext 2233
Linear Technology Corporation published this content on 28 February 2017 and is solely responsible for the information contained herein.
Distributed by Public, unedited and unaltered, on 28 February 2017 16:10:13 UTC.
Original documenthttp://www.linear.com/docs/57678
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