A: No. An LC meter measures inductance and capacitance. The Blue Ring Tester measures Q factor and loss—a different parameter.
The ringing signal is AC-coupled via C4 and clamped by D1, D2 to protect the comparator. The LM393 compares the ringing waveform to ground. For a healthy coil, the ringing crosses zero many times. The comparator outputs a series of pulses for each zero-crossing. blue ring tester schematic diagram exclusive
Introduction: What is a Blue Ring Tester? In the world of electronics repair, few tools inspire as much curiosity—and confusion—as the Blue Ring Tester . For decades, technicians repairing switch-mode power supplies (SMPS), flyback transformers (LOPT), and deflection yokes have struggled with a common problem: How do you test a coil or transformer for shorted turns without expensive equipment? The ringing signal is AC-coupled via C4 and
Enter the Blue Ring Tester. This brilliant, low-cost device uses a pulse ringing test to identify shorted turns instantly. Today, we are providing an along with a component-level explanation of how it works. Exclusive Content Notice: The schematic presented below has been redrawn and refined from original service manuals and reverse-engineered vintage units. It includes component values that are often missing or incorrect in other online sources. Part 1: The Exclusive Blue Ring Tester Schematic Diagram Below is the complete schematic diagram of the classic Blue Ring Tester. This design uses a 555 timer, a comparator (LM393), and a handful of passive components to generate a short ringing pulse and analyze the decay. The comparator outputs a series of pulses for
A: The original commercial unit (circa 1990s) had a blue anodized aluminum enclosure and a circular (ring) probe tip. The name stuck.