Input Voltage: Selec
Filament Output: Low voltage DC output, typically $6 ext{ V}$ to $12 ext{ V}$ DC.
Anode Output: High voltage DC output, typically $1 ext{ kV}$ to $5 ext{ kV}$ DC (depending on the CRT requirement).
Protection: Short circuit protection and current limiting on high voltage lines.
Enclosure: Robust, insulated metal or plastic housing with grounded connections.
Dual Voltage Input: Designed with an input selector or auto-sensing circuitry to operate safely on both $110 ext{ V}$ and $220 ext{ V}$ AC power supplies, offering maximum flexibility.
Multiple Outputs: Delivers all necessary voltages simultaneously, including low voltage DC for the filament and high voltage DC for the electron acceleration (anode).
Safety Focus: Incorporates internal current limiting and protective fusing to prevent damage to the delicate CRT and ensure user safety during high voltage experiments.
Stable Performance: Provides a regulated and stable high voltage output, which is critical for maintaining a focused, consistent electron beam and obtaining clear experimental results.
Clear Controls: Equipped with clearly labeled output terminals and simple controls, including a power switch and indicator lamp, for easy and intuitive laboratory setup.
Input Voltage: Selectable or Auto-Sensing for $110 ext{ V}$ to $220 ext{ V}$ AC, $50$ to $60 ext{ Hz}$.
Filament Output: Low voltage DC output, typically $6 ext{ V}$ to $12 ext{ V}$ DC.
Anode Output: High voltage DC output, typically $1 ext{ kV}$ to $5 ext{ kV}$ DC (depending on the CRT requirement).
Protection: Short circuit protection and current limiting on high voltage lines.
Enclosure: Robust, insulated metal or plastic housing with grounded connections.
