Silicon controlled rectifier (SCR) characteristic Does applying a gate signal reduce the forward breakover voltage of an SCR?

Introduction / Context:
The forward breakover voltage of an SCR is the voltage at which the device will turn on without a gate signal. Understanding how the gate affects this threshold is central to reliable triggering and protection against accidental turn-on.

Given Data / Assumptions:

• SCR in forward blocking mode (anode positive with respect to cathode).
• A gate signal can be applied to initiate conduction.
• Device operates within its safe temperature range.

Concept / Approach:

Applying a gate current injects carriers into the SCR’s inner junctions, reducing the required anode-to-cathode voltage to reach regenerative action. Thus, the forward breakover voltage is effectively lowered when a suitable gate signal is present, enabling controlled turn-on at a commanded phase angle in AC circuits.

Step-by-Step Solution:

Verification / Alternative check:

Datasheets show breakover curves shifting with gate current (I_G). Higher I_G corresponds to lower breakover voltage and lower required V_AK for turn-on.

Why Other Options Are Wrong:

Temperature changes influence parameters but the fundamental effect of the gate applies across normal ranges. Reverse blocking mode is unrelated to forward breakover reduction by the gate.

Common Pitfalls:

Assuming removal of the gate will turn the SCR off (it will not, once latched); confusing latching current and holding current with breakover behavior.

Final Answer:

True