Which statement is true about space charge and mA?

• A. As space charge builds, the maximum functional mA increases to 2,000 mA
• B. The space-charge effect reduces the maximum current to about 1,000 mA
• C. The space-charge effect increases emission rate indefinitely
• D. The space-charge effect has no impact on mA

Answer: (B)

Space-charge-limited current occurs when the cloud of electrons near the cathode repels additional electrons, reducing the effective field that pulls them toward the anode. As this space charge builds, it becomes harder to extract more electrons, so the tube current cannot rise freely at a given anode voltage. In practice, this means there’s a maximum current you can achieve under space-charge-limited conditions, governed by tube geometry and voltage. To get more current, you’d need a higher anode voltage or a design that mitigates space-charge effects; beyond that limit, you reach saturation when all emitted electrons are collected. That’s why the statement that the space-charge effect reduces the maximum current to about 1,000 mA accurately reflects how space charge caps current. The other ideas—that current can grow indefinitely or that space charge has no effect—don’t match how space charge actually influences tube current.