EDEL EMES60‑SL Electromagnetic Speed Log

High‑Accuracy Dual‑Axis Speed Measurement for Modern Vessels The ELEKTRO DENIZ EDEL EMES60‑SL Electro‑Magnetic Dual Axis Speed Log delivers exceptional reliability, precision, and low operating costs—thanks to an innovative single‑sensor design paired with a robust gate valve system. Using advanced electromagnetic technology, the EDEL‑EMES60‑SL provides accurate, real‑time speed‑through‑water (STW) measurements to enhance navigation, safety, and vessel performance. Whether installed on commercial ships, naval vessels, or specialized marine platforms, this compact and durable speed log system offers consistent performance under the harshest maritime conditions. Key Features & Benefits Single Sensor Dual-Axis System Simplifies installation and maintenance with one electromagnetic sensor delivering dual‑axis speed detection. Accurate STW (Speed Through Water) High‑precision measurement ensures reliable navigation and manoeuvring. Seavalve Installation Durable hull‑mounted solution for secure and maintenance‑friendly configuration. 7” Colour Touchscreen Display Modern, intuitive interface with day/night themes, adjustable backlighting, and multi‑language support. Wide Speed Measurement Range Detects speeds from ‑5 to +40 knots, suitable for various vessel types and operating environments. Why Choose the EDEL EMES60‑SL? Designed for maximum operational reliability Minimal maintenance with single‑sensor architecture Advanced electromagnetic technology for precision User‑friendly interface with modern touchscreen control Fully compliant with marine communication standards Built for harsh marine environments with IP68-rated components ELEKTRO DENIZ is ISO 9001:2015 , ISO 14001 :2015, ISO IEC 27001:2022 , ISO 45001:2018 certified. All EDEL EMES60 navigational product range are IMO Wheelmarked. Product Certificates; MED-B MED-D EDEL Range EDEL‑EMES60 (Combined System) Echo Sounder + Speed Log in one fully integrated unit EDEL‑EMES60-ES (Echo Sounder Only) High‑precision depth detection using a 120 kHz transducer