Радиолоцман Электроника en
расширенный поиск +

Datasheet Linear Technology LT6654AMPS6-2.048

ПроизводительLinear Technology

Precision Wide Supply High Output Drive Low Noise Reference


  • Скачать » Datasheet PDF, 1.0 Мб, Файл закачен: 12 авг 2017
    LT6654: Precision Wide Supply High Output Drive Low Noise Reference Data Sheet
    Выписка из документа ↓
    Precision Wide
    Supply High Output Drive
    Low Noise Reference
    Description Features
    Low Drift:
    nn A-Grade: 10ppm/В°C Max
    nn B-Grade: 20ppm/В°C Max
    nn High Accuracy:
    nn A-Grade: В±0.05% Max
    nn B-Grade: В±0.10% Max
    nn Low Noise: 1.6ppm
    P-P (0.1Hz to 10Hz)
    nn Wide Supply Range to 36V
    nn Low Thermal Hysteresis: LS8 15ppm (–40°C to 125°C)
    nn Long Term Drift: (LS8) 15ppm/в€љkHr
    nn Line Regulation (Up to 36V): 5ppm/V Max
    nn Low Dropout Voltage: 100mV Max
    nn Sinks and Sources В±10mA
    nn Load Regulation at 10mA: 8ppm/mA Max
    nn Fully Specified from –55°C to 125°C
    nn Available Output Voltage Options: 1.25V, 2.048V,
    2.5V, 3V, 3.3V, 4.096V, 5V ...


ЭлитанAnalog DevicesLT6654AMPS6-2.048643 руб.
ТерраэлектроникаLinear TechnologyLT6654AMPS6-2.048#TRMPBF989 руб.
КремнийLinear TechnologyLT6654AMPS6-2.048 TRPBFпо запросу
LifeElectronicsLinear TechnologyLT6654AMPS6-2.048#TRPBFпо запросу
ТаймЧипсLinear TechnologyLT6654AMPS6-2.048#TRMPBFпо запросу
Подробнее об условиях поставки »

Корпус / Упаковка / Маркировка


Demo BoardsDC2126ADC2126ADC2126A
Design ToolsLTspice ModelLTspice ModelLTspice Model
Экспортный контрольнетнетнет
Initial Accuracy, %
Line Reg, ppm/V1.21.21.2
Load Reg, ppm/mA333
Low Freq Noise, µVPP1.61.61.6
Min Vin/Vout Differential, В0.10.10.1
Рабочий диапазон температур, °Cот -55 до 125от -55 до 125от -55 до 125
Диапазон выходных токовВ±10mAВ±10mAВ±10mA
Quiescent or Min Shunt Current, мкА350350350
Ref Vout, В2.0482.0482.048
Temp Co, ppm/В°C333
Vin Max, В363636
Vin Min, В2.5482.5482.548

Экологический статус


Другие варианты исполнения

LT6654 LT6654AHLS8-2.048 LT6654AHLS8-2.5 LT6654AHLS8-4.096 LT6654AHLS8-5 LT6654AHS6-1.25 LT6654AHS6-2.048 LT6654AHS6-2.5 LT6654AHS6-3 LT6654AHS6-3.3 LT6654AHS6-4.096 LT6654AHS6-5 LT6654AIS6-1.25 LT6654AIS6-2.048 LT6654AIS6-2.5 LT6654AIS6-3 LT6654AIS6-3.3 LT6654AIS6-4.096 LT6654AIS6-5 LT6654AMPS6-1.25 LT6654AMPS6-2.5 LT6654AMPS6-3 LT6654AMPS6-3.3 LT6654AMPS6-4.096 LT6654AMPS6-5 LT6654BHLS8-2.048 LT6654BHLS8-2.5 LT6654BHLS8-4.096 LT6654BHLS8-5 LT6654BHS6-1.25 LT6654BHS6-2.048 LT6654BHS6-2.5 LT6654BHS6-3 LT6654BHS6-3.3 LT6654BHS6-4.096 LT6654BHS6-5 LT6654BIS6-1.25 LT6654BIS6-2.048 LT6654BIS6-2.5 LT6654BIS6-3 LT6654BIS6-3.3 LT6654BIS6-4.096 LT6654BIS6-5 LT6654BMPS6-1.25 LT6654BMPS6-2.048 LT6654BMPS6-2.5 LT6654BMPS6-3 LT6654BMPS6-3.3 LT6654BMPS6-4.096 LT6654BMPS6-5

Design Notes

  • Скачать » Design Notes - DN229 PDF, 98 Кб, Файл опубликован: 3 апр 2001
    Don't Be Fooled By Voltage Reference Long-Term Drift and Hysteresis
    Выписка из документа ↓
    Don’t Be Fooled by Voltage Reference Long-Term Drift
    and Hysteresis – Design Note 229
    John Wright Lies About Long-Term Drift
    Some manufacturers are now touting phenomenal
    long-term drift specifications, based on accelerated
    high temperature testing. THIS IS A DELIBERATE
    LIE! Long-term drift cannot be extrapolated from
    accelerated high temperature testing. The only way
    long-term drift can be determined is to measure it over
    the time interval of interest. The erroneous technique
    produces numbers that are wildly optimistic and uses
    the Arrhenius Equation to derive an acceleration factor
    from elevated temperature readings. The equation is:
    AF = e EA вЋ› 1 1 вЋћ
    ⎜ – ⎟
    K вЋќ T1 T2вЋ  where: E A = Activation Energy (Assume 0.7)
    K = Boltzmann’s Constant
    T2 = Test Condition in В°Kelvin
    T1 = Use Condition Temperature in В°Kelvin Equation the acceleration factor is 767 and the projected
    “bogus” long-term drift is 0.156ppm/1000hr at 30°C.
    For a 2.5V reference, this corresponds to a 0.39ОјV shift
    after 1000 hours. This is pretty hard to determine (read
    impossible) if the peak-to-peak output noise is larger ...


  • Скачать » Статьи - LT Journal PDF, 282 Кб, Файл опубликован: 1 мар 2009
    How to Choose a Voltage Reference
    Выписка из документа ↓
    L DESIGN FEATURES How to Choose a Voltage Reference
    by Brendan Whelan Why Voltage References? 5V It is an analog world. All electronic
    devices must in some way interact with
    the “real” world, whether they are in
    an automobile, microwave oven or cell
    phone. To do that, electronics must be
    able to map real world measurements
    (speed, pressure, length, temperature)
    to a measurable quantity in the electronics world (voltage). Of course, to
    measure voltage, you need a standard
    to measure against. That standard is
    a voltage reference. The question for
    any system designer is not whether he
    needs a voltage reference, but rather,
    which one?
    A voltage reference is simply that—a
    circuit or circuit element that provides
    a known potential for as long as the circuit requires it. This may be minutes,
    hours or years. If a product requires
    information about the world, such VIN 18k LTC1286
    2 LT1634-4.096 0.1ВµF 3
  • Скачать » Статьи - LT Journal PDF, 866 Кб, Файл опубликован: 1 июл 2014
    Wireless Precision Temperature Sensor Powers Itself, Forms Own Network, Enabling Easy Deployment in Industrial Environments
    Выписка из документа ↓
    Wireless Precision Temperature Sensor Powers Itself,
    Forms Own Network, Enabling Easy Deployment
    in Industrial Environments
    Kris Lokere While the Internet connects people via a worldwide computer network, the Internet of
    Things (IoT) refers to a growing trend to create relatively simple devices that interconnect
    and share data independent of computer or human intervention. The IoT has the potential
    to increase efficiency, improve safety and enable entirely new business models in just about
    any facet of life or industry. For example, to reliably and efficiently operate an industrial plant,
    it helps to have as many monitoring (or control) points as possible—more sensors means
    better monitoring. The device-to-device networking of the IoT simplifies distribution and
    networking, making it easy to expand the number and reach of sensors throughout a plant.
    Exponential increases in the number of
    sensors can be achieved by eliminating
    all cabling requirements through the use
    of robust, wireless, micropower sensors
    that run for years on a small battery.
    Better yet, eliminate the need to replace
    or recharge batteries. Instead, sensors
    harvest energy from their immediate
    environment, taking advantage of locally
    available energy sources, such as light,
    vibration or temperature gradients.
    This article shows how to easily build ...

Модельный ряд

Серия: LT6654AMPS6-2.048 (3)

Классификация производителя

  • Signal Conditioning > Voltage References > Series Voltage References
  • Space & Harsh Environment > Extended Temperature Plastic (H & MP) > Extended Temperature (H & MP) Voltage References

На английском языке: Datasheet Linear Technology LT6654AMPS6-2.048

При перепечатке материалов с сайта прямая ссылка на РадиоЛоцман обязательна.

Приглашаем авторов статей и переводов к публикации материалов на страницах сайта.

Срезы ↓
Лазерный дальномер Leica Disto D1
Дальномер Leica Disto D1
Дальность измерения: 0.2 - 40 м
Цена: от 4 999 руб.
Доставка: Россия
Датчики влажности и температуры ДВТ-03
Датчики влажности и температуры ДВТ-03
Цена: от 3 168 руб.
Доставка: Россия и страны СНГ