The tester functions by injecting a low-voltage pulse (typically less than 600mV) into the device under test (DUT). Pulse Injection: A fast pulse creates a magnetic field in the inductor. Resonant Ringing:
Because inductors can produce high-voltage spikes (back EMF) when pulsed, the schematic includes clamping diodes. These protect the sensitive ICs from being fried by the very component they are trying to test. Component List for the Schematic blue ring tester schematic diagram exclusive
| Reference | Value | Notes | |-----------|-------|-------| | U1 | NE555 | Timer IC | | U2 | LM393 | Dual comparator (one used) | | D1, D2 | 1N4148 | Fast switching diodes | | D3 | Red LED | Fault indicator | | D4 | Green LED | Pass indicator | | C1 | 100nF | Ceramic disc | | C2 | 10nF | Polyester | | C3 | 100µF / 16V | Electrolytic | | C4 | 10pF | Ceramic (critical) | | R1 | 10kΩ | 1/4W | | R2 | 1kΩ | 1/4W | | R3 | 100Ω | 1/4W | | R4 | 1MΩ | 1/4W | | R5 | 47kΩ | 1/4W | | R6 | 10kΩ | 1/4W | | R7 | 330Ω | 1/4W | | R8 | 220Ω | 1/4W | | RV1 | 10kΩ trimpot | Calibration | | Lx | Coil under test | External connection | | Power | 9V battery (or 9-12V DC) | Regulated recommended | The tester functions by injecting a low-voltage pulse