LT6015

RECOMMENDED FOR NEW DESIGNS

3.2MHz, 0.8V/μs Low Power, Over-The-Top Precision Op Amps

Data Sheet Product Selection Table
Part Models
6
1ku List Price
Starting From $1.85
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Part Details

  • Input Common Mode Range: V to V + 76V
  • Rail-to-Rail Input and Output
  • Low Power: 315μA/Amplifier
  • Operating Temperature Range: –55°C to 150°C
  • VOS: ±50μV (Maximum)
  • CMRR, PSRR: 126dB
  • Reverse Battery Protection to 50V
  • Gain Bandwidth Product: 3.2MHz
  • Specified on 5V and ±15V Supplies
  • High Voltage Gain: 1000V/mV
  • No Phase Reversal
  • No Supply Sequencing Problems
  • Single 5-Lead SOT-23 (ThinSOT) Package
  • Dual 8-Lead MSOP
  • Quad 22-Lead DFN (6mm × 3mm)
LT6015
3.2MHz, 0.8V/μs Low Power, Over-The-Top Precision Op Amps
Precision High Voltage High Side Load Current Monitor Output Error vs Load Current Product Package 1 Product Package 2 Product Package 3
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Documentation

Data Sheet 1

Reliability Data 1

User Guide 1

Design Note 2

Technical Articles 5

Data Sheet

This is the most up-to-date revision of the Data Sheet.

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Hardware Ecosystem

Parts Product Life Cycle Description
Precision Op Amps (Vos ≤1mV & TCVos ≤2uV/C) 2
LT6016
RECOMMENDED FOR NEW DESIGNS Dual 3.2MHz, 0.8V/μs Low Power, Over-The-Top Precision Op Amp
LT6017
RECOMMENDED FOR NEW DESIGNS Quad 3.2MHz, 0.8V/μs Low Power, Over-The-Top Precision Op Amp
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Tools & Simulations

LTspice 5

Models for the following parts are available in LTspice:

  • LT6015

Signal Chain Designer - BETA

Signal Chain Designer is a web-based tool designed to create and simulate complex precision signal chains. See your circuit’s performance before you commit to your PCB: transfer function, noise, power consumption, input range, and DC error. Quickly experiment with different parts and architectures. Signal chains can be exported to LTspice for further analysis.

Open Tool

Analog Filter Wizard

Use the Analog Filter Wizard to design low-pass, high-pass, or band-pass filters with actual op amps in minutes. As you progress through the design process, you can observe the characteristics of your filter design from ideal specifications to real world circuit behavior. Quickly evaluate the tradeoffs in op amp specifications - including gain-bandwidth, noise, and supply current – to determine the best filter design for your requirements.

Open Tool

Analog Photodiode Wizard

Use Photodiode Wizard to design a transimpedance amplifier circuit to interface with a photodiode. Select a photodiode from the library included in the tool, or enter custom photodiode specifications. Quickly observe tradeoffs between Bandwidth, Peaking (Q), and ENOB/SNR. Modify circuit parameters, and immediately see results in plots for pulse response, frequency response, and noise gain.

Open Tool
LTspice

LTspice® is a powerful, fast and free simulation software, schematic capture and waveform viewer with enhancements and models for improving the simulation of analog circuits.

Evaluation Kits

eval board
schematic 1
schematic 2
schematic 3
AD-M2KPWR-EBZ

ADALM2000 Power Booster Board

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Features and Benefits

  • ADALM2000 compatible
  • USB Type-C powered
  • Provides two outputs with increased current sourcing capabilities

Product Details

The AD-M2KPWR-EBZ is an ADALM2000 add-on board which increases the output current capability up to 700mA. This board can be also used as a standalone benchtop power supply with positive and negative outputs.

The AD-M2KPWR-EBZ is a USB Type C powered board capable to increase the output current of ADALM2000’s power supplies. 

Inputs:

  1. USB type C:  4 – 18 V (validated with RPI USB-C power supply - not provided in the kit), 20W (power supply permitting)
  2. External (screw terminal connector): 4.5–18V; 20W (power supply permitting)

 

Switching between the inputs is done with a jumper.

Outputs: (2 control modes)

  1. Two variable power supplies that track M2K user supplies:
    1. 0V to 5V (400mA in USB power mode)
    2. –5V to 0V (400mA in USB power mode)
  2. Two variable power supplies, controlled from a potentiometer
    1. 1.5V to 15V (up to 700mA if powered with 18V)
    2. –15V to –1.5V (up to 700mA if powered with 18V)

 

APPLICATIONS

  • General-purpose electronic systems
  • Educational applications
  • Automated test equipment

eval board
schematic 4
schematic 5
schematic 6
schematic 7
schematic 8
DC417B

DIP8, MS8, S8, SOT23-6 | Multi-Footprint General Purpose Board for Single Op. Amp

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Product Details

DC417B: Demo Board


 
AD-M2KPWR-EBZ
ADALM2000 Power Booster Board
AD-M2KPWR-EBZ Evaluation Board AD-M2KPWR-EBZ Evaluation Board - Top View AD-M2KPWR-EBZ Evaluation Board - Bottom View
DC417B
DIP8, MS8, S8, SOT23-6 | Multi-Footprint General Purpose Board for Single Op. Amp
DC417B Demo Board DC417B Demo Board DC417B Demo Board DC417B Demo Board DC417B - Schematic

Reference Designs

CN0508 Block Diagram
CN0508 Block Diagram
EVAL-CN0508-RPIZ Evaluation Board
EVAL-CN0508-RPIZ Evaluation Board - Top View
EVAL-CN0508-RPIZ Evaluation Board - Bottom View
CN0508 Circuits from the lab

75 Watt, Single-Output Benchtop Power Supply

View Detailed Reference Design

Features and Benefits

  • 75 Watt Power Supply
  • Constant Current (>3A) and Constant Voltage (>25V) Modes
  • True 0V and 0A operation
  • Manual or Software Controlled
Figure 1. CN0588 Simplified Block Diagram.
Figure 1. CN0588 Simplified Block Diagram.
EVAL CN0588 EBZ ANGLE web
EVAL CN0588 EBZ TOP web
EVAL CN0588 EBZ BOTTOM web
CN0588 Mechnical Enclosure front
CN0588 Circuits from the lab

DC to 10 kHz MEMS-Based IEPE Vibration Sensor

View Detailed Reference Design

Features and Benefits

  • Mechanically enclosed and machine mountable
  • IEPE interface to retrofit into existing machines
  • Power and data over a single wire, power comes from host
  • Has a frequency range from DC up to 10 kHz and response within ±3 dB
  • Resonant frequency around 12.5 kHz
CN0508
75 Watt, Single-Output Benchtop Power Supply
CN0508 Block Diagram
EVAL-CN0508-RPIZ Evaluation Board
EVAL-CN0508-RPIZ Evaluation Board - Top View
EVAL-CN0508-RPIZ Evaluation Board - Bottom View
CN0588
DC to 10 kHz MEMS-Based IEPE Vibration Sensor
Figure 1. CN0588 Simplified Block Diagram.
EVAL CN0588 EBZ ANGLE web
EVAL CN0588 EBZ TOP web
EVAL CN0588 EBZ BOTTOM web
CN0588 Mechnical Enclosure front

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