DocumentationDatasheet
Application Note
- AN101 - Minimizing Switching Regulator Residue in Linear Regulator Outputs
- AN118 - High Voltage, Low Noise, DC/DC Converters
- AN23 - Micropower Circuits for Signal Conditioning
- AN25 - Switching Regulators for Poets: A Gentle Guide for the Trepidatious
- AN28 - Thermocouple Measurement
- AN29 - Some Thoughts on DC-DC Converters
- AN30 - Switching Regulator Circuit Collection
- AN31 - Linear Circuits for Digital Systems
- AN37 - Fast Charge Circuits for NiCad Batteries
- AN43 - Bridge Circuits
- AN45 - Measurement and Control Circuit Collection
- AN47 - High Speed Amplifier Techniques
- AN52 - Linear Technology Magazine Circuit Collection, Volume 1
- AN55 - Techniques for 92% Efficient LCD Illumination
- AN64 - Using the LTC1325 Battery Management IC:
- AN67 - Linear Technology Magazine Circuit Collection, Volume III
- AN70 - A Monolithic Switching Regulator with 100µV Output Noise
- AN72 - A Seven-Nanosecond Comparator for Single Supply Operation
- AN85 - Low Noise Varactor Biasing with Switching Regulators: Vanquishing Villainous Vitiators Vis-à-Vis Vital Varactors
- AN90 - Current Sources for Fiber Optic Lasers: A Compendium of Pleasant Current Events
- AN92 - Bias Voltage and Current Sense Circuits for Avalanche Photodiodes
Design Note
- DN107 - C-Load TM Op Amps Conquer Instabilities
- DN122 - Dual Regulators Power Pentium® Processor or Upgrade CPU
- DN130 - Power Supplies for Subscriber Line Interface Circuits
- DN15 - Noise Calculations in Op Amp Circuits
- DN17 - Programming Pulse Generators for Flash Memories
- DN25 - A Single Amplifier, Precision High Voltage Instrument Amp
- DN3 - Operational Amplifier Selection Guide for Optimum Noise Performance
- DN32 - A Simple Ultra-Low Dropout Regulator
- DN40 - Designing with a New Family of Instrumentation Amplifiers
- DN42 - Chopper vs Bipolar Op Amps—An Unbiased Comparison
- DN45 - Signal Conditioning for Platinum Temperature Transducers
- DN51 - Gain Trimming In Instrumentation Amplifier Based Systems
- DN56 - 3V Operation of Linear Technology Op Amps
- DN6 - Operational Amplifier Selection Guide for Optimum Noise Performance
Reliability Data
LT Journal
- May 1998 An Optimized, Low Distortion, Lower Power ADSL Line Driver Using the LT1207
- Nov 1998 PolyPhase Switching Regulators Offer High Efficiency in Low Voltage, High Current Applications
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Features
- Single Supply Operation
Input Voltage Range Extends to Ground
Output Swings to Ground while Sinking Current - Guaranteed Offset Voltage: 50µV Max
- Guaranteed Low Drift: 1.3µV/°C Max
- Guaranteed Offset Current: 0.5nA Max
- Guaranteed High Gain
5mA Load Current: 1.5 Million Min
17mA Load Current: 0.8 Million Min - Guaranteed Low Supply Current: 520µA Max
- Supply Current can be Reduced by a Factor of 4
- Low Voltage Noise, 0.1Hz to 10Hz: 0.55µVP-P
Low Current Noise—
Better than OP-07: 0.07pA/rtHz at 10Hz - High Input Impedance: 250M Ohm Min
- Minimum Supply Voltage: 2.7V Min
Typical Application
Description
The LT1006 is the first precision single supply operational amplifier. Its design has been optimized for single supply operation with a full set of specifications at 5V. Specifications at ±15V are also provided.
The LT1006 has a low offset voltage of 20µV, drift of 0.2µV/°C, offset current of 120pA, gain of 2.5 million, common mode rejection of 114dB and power supply rejection of 126dB.
Although supply current is only 340µA, a novel output stage can source or sink in excess of 20mA while retaining high voltage gain. Common mode input range includes ground to accommodate low ground-referenced inputs from strain gauges or thermocouples, and output can swing to within a few millivolts of ground. If a higher slew rate (in excess of 1V/µs) or micropower operation (supply current down to 90µA) is required, the operating currents can be modified by connecting an external optional resistor to Pin 8.
For similar single supply precision dual and quad op amps, please see the LT1013/LT1014 datasheet. For micropower dual and quad op amps, please see the LT1078/LT1079 data sheet.
N-8,SO-8
Package Variations and Pricing
| Part Number | Package | Pins | Temp | Price (1-99) |
Price (1k)* |
|---|---|---|---|---|---|
| LT1006CN8#PBF | PDIP | 8 | C | $1.92 | $1.55 |
| LT1006S8#PBF | SO | 8 | C | $2.33 | $1.90 |
| LT1006S8#TRPBF | SO | 8 | C | $1.96 | |
| LT1006CN8 | PDIP | 8 | C | $3.84 | $3.10 |
| LT1006S8 | SO | 8 | C | $4.66 | $3.80 |
| LT1006S8#TR | SO | 8 | C | $3.92 |
Linear Technology offers many demo boards free of charge to qualified customers. Contact your local sales office or distributor to inquire about a demo board. Certain demo boards are also available for sale via credit card on this website. Demo boards are for evaluation purposes only. It remains the customer’s responsibility to verify proper and reliable operation in the actual end application.
| Part Number | Description | Price | Documentation |
|---|---|---|---|
| DC417B | DIP8, MS8, S8, SOT23-6 | Multi-Footprint General Purpose Board for Single Op. Amp | $25.00 |