LTC2055HVHMS8TR

LTC2055HVHMS8TR

Analog Devices

Description:

Op Amp Dual Zero Drift Amplifier R-R O/P ±5.5V/11V 8-Pin MSOP T/R

Country of Origin:

Malaysia

Introduction date:

Apr 19, 2004

Updated:09-DEC-2024

Overview

Familiarize yourself with the fundamental general information, properties, and characteristics of the component, along with its compliance with industry standards and regulations.

LifeCyclePremium
EU RoHS No
RoHS Version2011/65/EU, 2015/863
EAR99
Automotive Yes
Supplier Cage Code24355
8542330001
Schedule B8542330000
PPAP No
AEC Qualified No
Category Path
Semiconductor > Linear > Amplifiers > Operational Amplifiers - Op Amps

Datasheet

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Datasheet Preview

(Latest Version)

Manufacturing

The manufacturing information specifies the technical requirements and specifications for producing and assembling the component. This information is crucial for manufacturers to maintain the quality and reliability of the components, and ensure they are compatible with other devices and components.

Reflow Temp. Source
Wave Temp. Source

Parametric

The parametric information displays vital features and performance metrics of the component, which helps engineers and supply chain managers to compare and choose the most appropriate electronic component for their applications and needs.

Product Line
Maximum Storage Temperature
Typical Input Resistance
Input Offset Voltage Drift
Typical Input Offset Current
Typical Input Bias Current
Typical Output Resistance
Typical High Level Output Voltage
Maximum Power Dissipation
Typical Settling Time
Shut Down Support
Power Supply Type
Supplier Temperature Grade
Typical Inverting Input Current Noise Density
Typical Noninverting Input Current Noise Density
Typical Slew Rate
Typical Input Noise Voltage Density
Minimum CMRR Range
Typical Voltage Gain
Maximum Input Voltage Range
Minimum Storage Temperature
Maximum Quiescent Current
Manufacturer Type
Type
Number of Channels per Chip
Rail to Rail
Output Type
Minimum Slew Rate
Typical Gain Bandwidth Product
Typical Low Level Output Voltage
Maximum Input Bias Current
Maximum Input Offset Voltage
Maximum Supply Current
Typical Output Current
Minimum Single Supply Voltage
Maximum Single Supply Voltage
Minimum Dual Supply Voltage
Maximum Dual Supply Voltage
Minimum CMRR
Minimum PSRR
Minimum Operating Temperature
Maximum Operating Temperature
Maximum Input Offset Current
Maximum Operating Supply Voltage
Typical Dual Supply Voltage
Typical Single Supply Voltage
Maximum Supply Voltage Range
Process Technology

Crosses

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