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2. Use source transformation to find the value of Io in the circuit
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- Consider the circuit below. The frequency of oscillation is: www OF R₂ 1,0 ΚΩ C₁ 0.015 μF R₁ 1.0 ΚΩ 11 L Q₁ 2N5458 C₂ 0.015 μF 10.6 kHz 1.94 kHz 19.4 kHz 15.9 kHz www R₁ 10 ΚΩ R3 820 02 ww R₁ 10 ΚΩ ovour D₁ IN914 C3 1.0 μεUseful constants: k=9.00×109 N.m2/C2 ε0= 8.85×10-12 C2/N.m2 µ0=4π×10-7 T.m/A mp=1.67×10-27 kg me=9.11×10-31 kg e=1.6×10-19 C g=10.0 m/s2Find T 0.5 ms 40 92 www www 892 160 92 20 mH www
- +5V VDO EN Xtal 8ה 7 +5V Freq1 HGND | GND х Mhz Sensor0 crystal Freq26 5 Vss Out 04 PRE Xtal 1k Output HA7210IP 4 CLK CLR SN74HC7491 GND 0.01 μ GND +5V 4 +5V +5V +5V OE O/P3 0. 1µF | 47µF GND SG351P |2 x MHz GND GND Consider the Quartz Crystal Microbalance Sensor shown above, with crystal resonant frequency, x = 3.3 Mhz. You are given the following values: Active crystal area = 1.6 cm², and the change in frequency = - 10 Hz Calculate the change in mass, Am in nano gram, up to 2 decimal places. Answer:Discussion For the circuit below complete the table R 5Ω 10 V 60 Hz 100 μF R Total 10+j0 Volts 10 Z0° 68.623m +j364.06m Amps 370.5m Z 79.325° 5+ j0 0- j26.5258 5 - j26.5258 Ohms 520° 26.5258 -90° 26.993 Z-79.325°b 15 N 25 N R2 12 V 18 V 15 V 30 0 R3 20 0 R4 10 0 R5 Wr d a 30 0 R6 50Ω R7 14 V Ra 15 0 R10 8 V R9
- A 10 µF, a 15µF, and a 100µF capacitor are connected in parallel across 50V source. Determine the following: Total capacitance. Write the answer in µF G M k m Vμ K n Р 10⁹ 106 10³ 10-³ 10-6 10-⁹ 10-12 1 000 000 000 1 000 000 1 000 0,001 0,000001 0,000000001 0,00000000000116. A 12.6-V automotive battery is across a 1.5-ohm headlight lamp. If the battery has 0.14-ohm internal resistance, what is the current value?Oscilloscope-XSC1 MAAA Channel B 643.751 mV 643.751 mV 0.000 V T1 T2 T2-T1 Time 379.198 ms 379.198 ms 0.000 s Timebase Scale: 500 us/Div X pos.(Div): 0 Y/T Add B/A A/B Discussion Channel A 1.086 V 1.086 V 0.000 V Channel A Scale: 1 V/Div Y pos.(Div): 0 AC 0 DC ● Channel B Scale: 1 V/Div Y pos.(Div): 0 AC 0 DC Reverse Save Trigger Ext. trigger Edge: fz B Ext Level: 0 V Single Normal Auto None ZA X Fig(6): The input and output waveforms for differentiator Operational Amplifier 1- If Op Amp is operating at 1000 Hz as input wave, what is the frequency of the output signal? 2- Why do we use Spike function? List the possible application of spike waveform.
- Determine IB RC 100 Ω RB Vcc 10 V 10 kΩ VBB 5 VFind the Cea for the circuit given below: C C C C O 20 O 2.5C O 10 O 1.5CPlot the dc bias line for this circuit. www11 R₁ 1.5 ΜΩ R₂ 1.5 ΜΩ VGS (V) +30 V RD 1.1 ΚΩ 2N5459 www11 Rs 10 ΚΩ Minimum and maximum curves are from the datasheets. ID (mA) 16 -12 -10 Qmax 14 1 L L 1 -8 -6 -4 -2 12 10 8 6 4 Qmin Hó VG Rs 1 2 = 1.5 mA 4 1 6 8 10 12 14 16 18 VG