μA, and Vp = 10 V. a.4) At what anode voltage (VA) will each PUT in Figure 2-11 begin to conduct? FIGURE 2-10 LESS Hi R₁ Van +12 V 100 (2 ► FIGURE 2-11 VA (a) 470 FROM +20 V 12 k 10 k (b) Va +9 V R₂ 47 k 330 047 kO

Introductory Circuit Analysis (13th Edition)
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answer a4. solve it within 2 hours thank you. 

a.1) In a certain UJT, 'B1 = 2.5 k and r'B2 = 4 kQ. What is the intrinsic standoff ratio?
a.2) Determine the peak-point voltage for the UJT in problem a. 1 if VBB = 15 V.
a.3) Find the range of values of R₁ in Figure 2-10 that will ensure proper turn-on and turn-off of the UJT.
n = 0.68, Vv = 0.8 V, v = 15 mA, Ip = 10 μA, and Vp = 10 V.
a.4) At what anode voltage (VA) will each PUT in Figure 2-11 begin to conduct?
►FIGURE 2-10
R₁
0.1 μF
VBB
+12 V
R₂
100 (2
► FIGURE 2-11
VAC
R₁
470 Q
VB
+20 V
R₂
12 k
R3
10 k
YA
(b)
R₁
330 Q
VB
+9 V
W
R₂
47 k
R₁
47 kO
Transcribed Image Text:a.1) In a certain UJT, 'B1 = 2.5 k and r'B2 = 4 kQ. What is the intrinsic standoff ratio? a.2) Determine the peak-point voltage for the UJT in problem a. 1 if VBB = 15 V. a.3) Find the range of values of R₁ in Figure 2-10 that will ensure proper turn-on and turn-off of the UJT. n = 0.68, Vv = 0.8 V, v = 15 mA, Ip = 10 μA, and Vp = 10 V. a.4) At what anode voltage (VA) will each PUT in Figure 2-11 begin to conduct? ►FIGURE 2-10 R₁ 0.1 μF VBB +12 V R₂ 100 (2 ► FIGURE 2-11 VAC R₁ 470 Q VB +20 V R₂ 12 k R3 10 k YA (b) R₁ 330 Q VB +9 V W R₂ 47 k R₁ 47 kO
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