3.5. VOLTAGE-DIVIDER BIAS Component Value +15 volts ẞ 200 and VBE = 0.7 volts 100 ΚΩ Vcc BJT RB1 47 ΚΩ RB2 1.5 ΚΩ Rc 470 Ω RE Simulation with NI Multisim Enter the circuit of Figure 3.5 on the facing page using the 2N2222A tran- sistor model. Find the Q-point (operating point) values for base current IB, collector current Ic, collector-emitter voltage VCE, and base-collector volt- age VBC. Also find VBE for comparison with the assumed value used in the analytical section. Additional Multisim tips for this problem: Figure 3.5 shows a voltage-divider bias circuit for a BJT. w w VCC RB1 IB RB2 VBC + +4 VBE >RC LIC + VCE >RE w Figure 3.5: Circuit for Problem 3.5 Analysis Find the Q-point (operating point) values for base current IB, collector cur- rent Ic, collector-emitter voltage VCE, and base-collector voltage VBC as- suming active-region operation. Use the following circuit components:

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I just need help with calculating the required values by hand (I_B, I_C, etc.) given the component values, please. No Multisim is necessary. Thank you! 

3.5. VOLTAGE-DIVIDER BIAS
Component Value
+15 volts
ẞ 200 and VBE = 0.7 volts
100 ΚΩ
Vcc
BJT
RB1
47 ΚΩ
RB2
1.5 ΚΩ
Rc
470 Ω
RE
Simulation with NI Multisim
Enter the circuit of Figure 3.5 on the facing page using the 2N2222A tran-
sistor model. Find the Q-point (operating point) values for base current IB,
collector current Ic, collector-emitter voltage VCE, and base-collector volt-
age VBC. Also find VBE for comparison with the assumed value used in the
analytical section.
Additional Multisim tips for this problem:
Transcribed Image Text:3.5. VOLTAGE-DIVIDER BIAS Component Value +15 volts ẞ 200 and VBE = 0.7 volts 100 ΚΩ Vcc BJT RB1 47 ΚΩ RB2 1.5 ΚΩ Rc 470 Ω RE Simulation with NI Multisim Enter the circuit of Figure 3.5 on the facing page using the 2N2222A tran- sistor model. Find the Q-point (operating point) values for base current IB, collector current Ic, collector-emitter voltage VCE, and base-collector volt- age VBC. Also find VBE for comparison with the assumed value used in the analytical section. Additional Multisim tips for this problem:
Figure 3.5 shows a voltage-divider bias circuit for a BJT.
w
w
VCC
RB1
IB
RB2
VBC
+
+4
VBE
>RC
LIC
+
VCE
>RE
w
Figure 3.5: Circuit for Problem 3.5
Analysis
Find the Q-point (operating point) values for base current IB, collector cur-
rent Ic, collector-emitter voltage VCE, and base-collector voltage VBC as-
suming active-region operation.
Use the following circuit components:
Transcribed Image Text:Figure 3.5 shows a voltage-divider bias circuit for a BJT. w w VCC RB1 IB RB2 VBC + +4 VBE >RC LIC + VCE >RE w Figure 3.5: Circuit for Problem 3.5 Analysis Find the Q-point (operating point) values for base current IB, collector cur- rent Ic, collector-emitter voltage VCE, and base-collector voltage VBC as- suming active-region operation. Use the following circuit components:
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