This checklist supports the successful re-design or development of battery solutions, giving users an overview of key process steps, and providing important questions to consider in order to avoid common pitfalls and ensure project efficiency.

This document explains the differences between the stop-function and tristate-function in Quartz Oscillators, helping designers choose the appropriate standby mode for optimising power consumption and signal control in electronic circuits.

This document provides essential guidelines for the safe handling of Lithium batteries, covering certification, transport, assembly, and usage practices to minimize risks and ensure compliance with safety standards

This document outlines best practices for handling Quartz Crystal Oscillators, including guidance on storage, transport, mounting, cleaning, ESD protection, and operating conditions to maintain optimal performance.

This whitepaper provides practical guidance on designing Lithium Polymer batteries, covering key aspects such as cell selection, protection circuits, mechanical integration, and certification to support safe and efficient product development.

This document provides practical handling guidelines for Quartz Crystals, covering best practices for storage, transportation, mounting, cleaning, and operating conditions to prevent damage and ensure reliable performance.

This checklist outlines essential steps and considerations for successfully re-designing Oscillator circuits using modern frequency control components. It helps avoid common pitfalls and supports effective component selection and circuit integration.

This document explains how to calculate the oscillation safety factor in Quartz Crystal circuits, offering practical methods and interpretation guidelines to ensure reliable start-up and stable frequency performance.

The new European Battery Regulation aims to regulate the entire life cycle of batteries, from the sustainable extraction of raw materials to disposal and recycling.

This document explains how to manage source impedance mismatches in HCMOS Oscillator circuits, offering practical recommendations to ensure clean clock signals and avoid signal reflections on PCB traces.

This whitepaper explains the role of safety electronics and battery management systems in Lithium battery applications, detailing key protection functions and design strategies to ensure safe, efficient, and reliable battery operation.

This document describes how to determine the drive level of Quartz Crystals, offering practical methods to measure and control crystal power for optimal performance and long-term reliability.

This whitepaper introduces Lithium Iron Phosphate (LiFePO₄) battery technology, explaining its advantages, characteristics, and suitability for various applications where safety, longevity, and thermal stability are critical.

This e-book outlines the key certifications and regulatory requirements for Lithium Batteries, helping designers and manufacturers navigate international standards for safe and compliant battery-powered products.

G7EB series expands your design possibilities with low contact resistance maintained throughout the lifetime of the relay.

The unique dual-spring structure reduces insertion/removal force, ensures high contact reliability, and achieves efficient and smooth operations at sites.

OMRON's MEMS Thermal sensor is an infrared temperature sensor that can measure target surface temperature without touching, by receiving radiant heat from the object with thermopile element(s).

DIP switch is a miniature switch that is mounted onto printed circuit boards and used to make settings on electronic devices.

The G9EK utilizes OMRON's proprietary gasless switching technology in addition to the DC high-capacity DC relay technology that has been developed to achieve a high capacity of 500 VDC, 120 A, expanding the design possibilities for our customers

G5PZ-X is a PCB relay rated 200 VDC as a single unit and 400 VDC / 450 VDC when two units are connected in series.