<p>The OZD series converter is a robust and reliable solution designed for industrial and commercial applications. It offers the essential functionality needed to integrate Profibus-Field Bus Networks effectively. This converter is crafted with precision, ensuring seamless communication in demanding environments.</p><p>Powering this unit requires a rated voltage of 7-12 VAC/VDC, complemented by a power consumption of just 4.8 watts. Its compact design—measuring 35 mm in width, 156 mm in height, and 119 mm in depth—allows for easy installation on standard DIN rails. The plastic construction ensures durability while maintaining a lightweight profile.</p><p>Engineered to operate efficiently within an operational temperature range of 0 to 60 degrees Celsius, the device can also withstand storage temperatures from -40 to 70 degrees Celsius. With a humidity tolerance between 10% and 95%, it is well-suited for various environmental conditions.</p><p>The OZD series converter meets rigorous safety standards with ATEX and IECEx approvals, providing peace of mind when used in potentially explosive atmospheres. The IP20 degree of protection indicates that it is safeguarded against solid objects larger than 12.5 mm but should be installed away from water exposure.</p><p>Connectivity options include two optical ports equipped with four BFOC 2.5 (STR) sockets and one electrical port featuring a Sub-D 9-pin female connector. It supports multiple fibre types: Multimode Fibre (50/125 &#181;m), Multimode Fibre (62.5/125 &#181;m), and Multimode Fibre HCS (200/230 &#181;m). Operating at an optical wavelength of 860 nm, it ensures efficient data transmission over short distances typical in industrial settings.</p><p>Rated at a current of 200 mA, this converter provides reliable performance without excessive power draw—a crucial factor for energy-conscious operations.</p><p>Overall, the OZD series converter stands out as an effective choice for professionals seeking dependable network integration solutions that align with technical specifications without unnecessary complexity or cost implications.</p>