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LF356 JFET Input Operational Amplifier: CAD Models, Datasheet, Features [Video&FAQ]

  • Contents

Catalog

Product Overview

LF356 Related Video Introduction

LF356 CAD Models

LF356 Pin Configuration

LF356 Simplified Schematic

LF356 Block Diagram

LF356 Features

LF356 Applications

LF356 Datasheet

LF356 Specifications

LF356 Manufacturer

Using Warning

LF356 FAQ

 

Product Overview

The LF356-MIL device are the first monolithic JFET input operational amplifiers to incorporate wellmatched, high-voltage JFETs on the same chip with standard bipolar transistors (BI-FET™ Technology). These amplifiers feature low input bias and offset currents/low offset voltage and offset voltage drift, coupled with offset adjust, which does not degrade drift or common-mode rejection. The devices are also designed for high slew rate, wide bandwidth, extremely fast settling time, low voltage and current noise and a low 1/f noise corner.

 

Video Description: In this episode of Electronic Basics I will explain the three golden rules when working with OpAmps and how to use them in order to understand and build all kind of OpAmp circuits. The main focus will be the noninverting and inverting amplifier and the comparator circuit.

 

LF356 CAD Models

LF356 PCB SymbolFigure: LF356 PCB Symbol

 

 LF356 Footprint

Figure: LF356 Footprint

 

 LF356 3D Models

Figure: LF356 3D Models

 

LF356 Pin Configuration

LF356 Pin ConfigurationFigure: LF356 Pin Configuration

 

LF356 Simplified Schematic

LF356 Simplified SchematicFigure: LF356 Simplified Schematic

 

LF356 Block Diagram

LF356 Block DiagramFigure: LF356 Block Diagram

 

LF356 Features

  • Advantages

– Replace Expensive Hybrid and Module FET Op Amps

– Rugged JFETs Allow Blow-Out Free Handling Compared With MOSFET Input Devices

– Excellent for Low Noise Applications Using Either High or Low Source Impedance—Very Low 1/f Corner

– Offset Adjust Does Not Degrade Drift or Common-Mode Rejection as in Most Monolithic Amplifiers

– New Output Stage Allows Use of Large Capacitive Loads (5,000 pF) Without Stability Problems

– Internal Compensation and Large Differential Input Voltage Capability

  • Common Features

– Low Input Bias Current: 30 pA

– Low Input Offset Current: 3 pA

– High Input Impedance: 1012 Ω – Low Input Noise Current: 0.01 pA/√Hz

– High Common-Mode Rejection Ratio: 100 dB

– Large DC Voltage Gain: 106 dB

  • Uncommon Features

– Extremely Fast Settling Time to 0.01%: 1.5 μs – Fast Slew Rate: 12 V/µs – Wide Gain Bandwidth: 5 MHz

– Low Input Noise Voltage: 12 nV/√Hz

 

LF356 Applications

  • Precision High-Speed Integrators
  • Fast D/A and A/D Converters
  • High Impedance Buffers
  • Wideband, Low Noise, Low Drift Amplifiers
  • Logarithmic Amplifiers
  • Photocell Amplifiers
  • Sample and Hold Circuits

 

LF356 Datasheet

You can download the datasheet from the link given below:

LF356 Datasheet

 

LF356 Specifications

Product Attribute Attribute Value
Manufacturer: Texas Instruments
Product Category: Operational Amplifiers - Op Amps
RoHS: Details
Mounting Style: Through Hole
Package / Case: PDIP-8
Number of Channels: 1 Channel
Supply Voltage - Max: 44 V
GBP - Gain Bandwidth Product: 5 MHz
Output Current per Channel: 25 mA
SR - Slew Rate: 12 V/us
Vos - Input Offset Voltage: 2 mV
Supply Voltage - Min: 10 V
Minimum Operating Temperature: 0℃
Maximum Operating Temperature: + 70℃
Ib - Input Bias Current: 200 pA
Operating Supply Current: 5 mA
Shutdown: No Shutdown
CMRR - Common Mode Rejection Ratio: 100 dB
en - Input Voltage Noise Density: 12 nV/sqrt Hz
Series: LF356
Packaging: Tube
Brand: Texas Instruments
Height: 3.3 mm
In - Input Noise Current Density: 0.01 pA/sqrt Hz
Input Type: Rail-to-Rail
Length: 9.27 mm
Maximum Dual Supply Voltage: +/- 18 V
Minimum Dual Supply Voltage: +/- 5 V
Operating Supply Voltage: 10 V to 36 V, +/- 5 V to +/- 18 V
Pd - Power Dissipation: 670 mW
Product: Operational Amplifiers
Product Type: Op Amps - Operational Amplifiers
PSRR - Power Supply Rejection Ratio: 80 dB
Subcategory: Amplifier ICs
Supply Type: Dual
Technology: BiFET
Vcm - Common Mode Voltage: 10 V to 36 V
Voltage Gain dB: 106.02 dB
Width: 6.35 mm
Unit Weight: 588.100 mg

 

LF356 Manufacturer

Texas Instruments Incorporated (TI) is an American technology company headquartered in Dallas, Texas, that designs and manufactures semiconductors and various integrated circuits, which it sells to electronics designers and manufacturers globally. It is one of the top 10 semiconductor companies worldwide based on sales volume.The company's focus is on developing analog chips and embedded processors, which account for more than 80% of its revenue. TI also produces TI digital light processing technology and education technology products including calculators, microcontrollers and multi-core processors. The company holds 45,000 patents worldwide as of 2016.

 

Using Warning

Note: Please check their parameters and pin configuration before replacing them in your circuit.

 

LF356 FAQ

What is input of operational amplifier?

An operational amplifier has two input pins and one output pin. Its basic role is to amplify and output the voltage difference between the two input pins.

 

Why is it called operational amplifier?

Op-Amp (operational amplifier)

Originally, op-amps were so named because they were used to model the basic mathematical operations of addition, subtraction, integration, differentiation, etc. in electronic analog computers. In this sense a true operational amplifier is an ideal circuit element.

 

What are the basic components of an operational amplifier?

Op amps are composed of standard components such as—notice—transistors, resistors, diodes, and so forth, and a capacitor right here. The input terminals of an op amp are connected to the bases of transistors.

 

Which type of operations are performed by op-amp?

These are abbreviated as Op-Amps. It is capable of performing basic mathematical operations that is addition, subtraction, multiplication, and division. The single output terminal is capable of sinking and sourcing both the current and the voltage signals.

 

Why does op-amp have high input impedance?

Op amps need high input impedance because they are voltage-gain devices. In order for voltage to drop across the input, the impedance has to be very high, as ohm's law states, V=IR. It's also important to prevent the loading effect. If the impedance were small, the current draw would be high.

 

PCB Symbol, Footprint & 3D Model

 

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