LM358 Datasheet: Multi-Vendor Specifications, Pinout, and Applications

August 01 2025

Explore LM358 datasheets from TI, ON Semiconductor, STMicroelectronics, and Diodes Inc. View pinouts, key specifications, and download official PDFs for accurate design reference.

Why Multi-Vendor LM358 Datasheet Comparison Matters

Not all LM358 op amp ICs are truly identical across manufacturers. Differences often appear in supply voltage range, input offset levels, temperature tolerance, package options (including SMD LM358 variants), and automotive-grade (AEC-Q100) qualification. A multi-vendor LM358 datasheet table enables engineers to quickly compare these variations, identify compatible alternatives such as LM358P datasheet versions, and plan second-source strategies to avoid costly supply disruptions.

The LM358 dual operational amplifier IC is available from major vendors including Texas Instruments (TI), ON Semiconductor, STMicroelectronics, and Diodes Inc. By consolidating multiple IC 358 datasheet specifications, pinout diagrams, and typical application notes on a single page, this guide helps engineers evaluate differences, choose the most reliable part for their design, and make informed sourcing decisions without manually checking separate PDF files from each vendor.

1. LM358 Datasheet: Multi-Vendor Op Amp Specification Guide

Manufacturer	Supply Voltage Range	Gain Bandwidth	Slew Rate	Operating Temperature	Output Current	Offset Voltage (Typ)	Package Options	Automotive Grade (AEC-Q100)	Datasheet
ON Semiconductor	3V – 32V	1.1 MHz	0.25 V/µs	-40°C to 105°C	20 mA	2 mV	SOIC-8, DIP-8	Yes	Download PDF
STMicroelectronics	3V – 30V	1.0 MHz	0.3 V/µs	-40°C to 125°C	20 mA	2 mV	SO-8, TSSOP-8	Yes	Download PDF
Texas Instruments	3V – 32V	1.2 MHz	0.3 V/µs	-40°C to 125°C	20 mA	2 mV	SOIC-8, SOT-23-8	Yes	Download PDF
Diodes Incorporated	3V – 32V	1.0 MHz	0.3 V/µs	-40°C to 85°C	20 mA	3 mV	SO-8	No	Download PDF

2. Typical Applications

Signal Conditioning and Amplification
Active Filters (Low-Pass, Band-Pass)
Comparator Circuits
Automotive Ignition and Fuel Injection Control
Battery-Powered Voltage Regulators

3. LM358 Pinout Diagram

LM358 pinout diagram from multi-vendor datasheet comparison

Pin 1: Output 1
Pin 2: Inverting Input 1 (IN-)
Pin 3: Non-Inverting Input 1 (IN+)
Pin 4: Ground (Vee)
Pin 5: Non-Inverting Input 2 (IN+)
Pin 6: Inverting Input 2 (IN-)
Pin 7: Output 2
Pin 8: Positive Supply (Vcc)

4. Key Electrical Specifications

Parameter	Typical Value	Condition
Input Offset Voltage	3 mV	Vcc = 5V, 25°C
Input Bias Current	45 nA	Vcc = 5V, 25°C
Open Loop Gain	100 dB	Vout = 1V to 10V
Common-Mode Range	0V to Vcc - 1.5V	Single-supply operation
Output Voltage Swing	0V to Vcc - 1.5V	RL ≥ 10kΩ

5. FAQ – Common Questions About LM358 Datasheet

What is the maximum supply voltage for LM358 op amp IC?

The LM358 datasheet specifies a maximum supply voltage of 32V for most vendors, making it versatile for low-voltage and automotive designs.

Can I use LM358 instead of LM741?

Yes, LM358 can replace LM741 in many single-supply designs. However, check datasheet parameters such as input offset and slew rate to ensure compatibility.

What is the difference between LM358 and LM358N?

The LM358N datasheet typically refers to the DIP-8 package variant, while the electrical characteristics remain mostly identical to the standard LM358 IC.

Is LM358 suitable for audio applications?

While LM358 can amplify audio signals, its crossover distortion is higher than dedicated audio op amps, making it less ideal for high-fidelity audio designs.

What is the input offset voltage of LM358 op amp?

According to most LM358 datasheets, the typical input offset voltage is around 2–3 mV, with slight variation between manufacturers.

What temperature range does the LM358 cover?

Depending on the vendor, LM358 ICs are rated from -40°C up to 85°C or 125°C for extended temperature versions (automotive grade).

Where can I download LM358 datasheets from multiple vendors?

You can download LM358 datasheet PDFs from ON Semiconductor, STMicroelectronics, Texas Instruments, and Diodes Inc. directly via the table links above.

6. Related Resources

LM358 Pinout Guide
LM741 vs LM358: Key Differences
Operational Amplifier Datasheet Guide

Anastasia

Anastasia is a dedicated writer who finds immense joy in crafting technical articles that aim to disseminate knowledge about integrated circuits (ICs). Her passion lies in unraveling intricate concepts and presenting them in a simplified manner, making them easily understandable for a diverse range of readers.