b Explanation:The current gain would decreases the collector current, shifting the Q point below.
b
Explanation:The current gain would decreases the collector current, shifting the Q point
below.
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b Explanation:The current gain would decreases the collector current, shifting the Q point below.
b
Explanation:The current gain would decreases the collector current, shifting the Q point
below.
Answer: a Explanation: Unlike the thyristor devices, all the transistor family devices remain in the conducting state as long as the firing pulses are applied. This is a very important property of the transistor devices.
Answer: a
Explanation: Unlike the thyristor devices, all the transistor family devices remain in the
conducting state as long as the firing pulses are applied. This is a very important
property of the transistor devices.
Answer: a Explanation: Unlike the thyristor devices, all the transistor family devices remain in the conducting state as long as the firing pulses are applied. This is a very important property of the transistor devices.
Answer: a
Explanation: Unlike the thyristor devices, all the transistor family devices remain in the
conducting state as long as the firing pulses are applied. This is a very important
property of the transistor devices.
Answer: c Explanation: 1V/1mv = 1000.
Answer: c
Explanation: 1V/1mv = 1000.
Answer: c Explanation: 1V/1mv = 1000.
Answer: c
Explanation: 1V/1mv = 1000.
a Explanation: During the delay time only the collector current flows & base to emitter voltage is zero.
a
Explanation: During the delay time only the collector current flows & base to emitter
voltage is zero.
b Explanation: Lower the switching losses higher the frequency of operation of the device.
b
Explanation: Lower the switching losses higher the frequency of operation of the device.
a Explanation: Practically speaking Ie = Ib+Ic. Ie is the highest as it is the sum of the collector and base currents. The base current is the smallest.
a
Explanation: Practically speaking Ie = Ib+Ic. Ie is the highest as it is the sum of the
collector and base currents. The base current is the smallest.
Answer: c Explanation: For reliable operation the collector current & voltage must remain within the SOA curves
Answer: c
Explanation: For reliable operation the collector current & voltage must remain within the SOA curves
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