In the Buck - Boost DA-DA converter circuit, given below; 1) Source voltage (E) value: in the voltage range of [AB] (Volts) 2) Switching frequency (f) value: M kHz 3) Voltage between load terminals (Vload) F (Volt) 4) Capacitance value 470 (UF) 5) Load current lload) value: [KS] (Amps) current range The lowest Linductance value that can keep the DC-DC converter in continuous current condition under The lowest ripple (AIL) amount of the current passing through the coil (L) is given below in Amps. Which option do you see? A = 40 Volts B = 80 Volts M = 25kHz F = 55 Volts K = 10 Amps S = 25 Amps
In the Buck - Boost DA-DA converter circuit, given below; 1) Source voltage (E) value: in the voltage range of [AB] (Volts) 2) Switching frequency (f) value: M kHz 3) Voltage between load terminals (Vload) F (Volt) 4) Capacitance value 470 (UF) 5) Load current lload) value: [KS] (Amps) current range The lowest Linductance value that can keep the DC-DC converter in continuous current condition under The lowest ripple (AIL) amount of the current passing through the coil (L) is given below in Amps. Which option do you see? A = 40 Volts B = 80 Volts M = 25kHz F = 55 Volts K = 10 Amps S = 25 Amps
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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In the Buck - Boost DA-DA converter circuit,
given below;
1) Source voltage (E) value: in the voltage
range of [AB] (Volts)
2) Switching frequency (f) value: M kHz
3) Voltage between load terminals (Vload) F
(Volt)
4) Capacitance value 470 (UF)
5) Load current lload) value: [KS] (Amps)
current range
The lowest Linductance value that can keep
the DC-DC converter in continuous current
condition under
The lowest ripple (AIL) amount of the current
passing through the coil (L) is given below in
Amps.
Which option do you see?
A = 40 Volts
B = 80 Volts
M = 25kHz
F = 55 Volts
K = 10 Amps
S = 25 Amps
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