ROHM Semiconductor is a globally recognized company specializing in the design and manufacturing of semiconductor solutions. With a strong emphasis on quality and innovation, ROHM offers an extensive range of products including integrated circuits (ICs), discrete semiconductors, and electronic components. Their product portfolio caters to diverse industries such as automotive, consumer electronics, industrial equipment, and telecommunications. ROHM Semiconductor is committed to research and development, continuously delivering cutting-edge solutions that meet the evolving needs of customers. They prioritize sustainability and environmental responsibility, actively working towards reducing their environmental impact. With a strong global presence, ROHM Semiconductor is known for its high-quality products and excellent customer support. They collaborate closely with partners and customers to provide customized solutions and technical expertise. Through their dedication to excellence and technological advancements, ROHM Semiconductor remains a leader in the semiconductor industry, contributing to the growth and progress of various sectors worldwide.
Resistor networks or arrays are electronic devices that consist of two or more resistors packaged together either in a surface mount or through-hole format. These resistors can be isolated from each other or connected in various configurations, such as an R2R ladder (digital-to-analog converter), bussed arrangement, voltage divider, dual terminator, digital-to-analog converter, or decade resistor circuit type. The resistor networks offer the advantage of having multiple resistors integrated into a single package, which simplifies circuit design and saves valuable board space. Each resistor within the network can have its own distinct resistance value or share a common value, depending on the specific configuration and application requirements. The available resistance values in resistor networks can range from zero (jumper) to 5 GΩ, catering to a wide range of applications. Additionally, these networks come with different tolerance levels, typically ranging from 0.1% to 15%. The tolerance indicates the permissible deviation from the specified resistance value. Resistor networks find applications in various electronic systems, including telecommunications, automotive electronics, industrial control, and many others. They are commonly used for precision voltage division, impedance matching, signal conditioning, digital-to-analog conversion, and other circuit functions where multiple resistors with specific resistance values are required. In summary, resistor networks or arrays are electronic devices that combine two or more resistors into a single package. They can be configured in different ways and offer a range of resistance values and tolerances. These networks are widely used in electronic circuits for functions such as voltage division, impedance matching, and digital-to-analog conversion, providing convenience and space-saving advantages.