I b 11 12 f R1 R2 g Measure and tabulate I, I1, I2, Vde, Vfg, and Vab for the following conditions: a) R₁ = 1k, R₂ = 2 kn, b) R₁ = 2k, R₂ = 1 km, c) R₁ = 1k, R₂ = = 1 kn,
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- b) Use the ALU 74181 in the figure below and the tables (one is enough; second maybe, need to check the new kit) to implement : A + B, A – B, A. B. (MSB) (LSB) 10 (MSB) F3 F2 F1 FO S3 Cn+4 16 s2 20 U14 15 S1 14 so A3 A2 A1 AO B3 B2 B1 B0 M Cn 24 23 22 21 28 27 T26 25 (LSB) (MSB) (LSB)(MSB) (LSB) And given that under M = 1 the circuit performs the following arithmetic and logic functions according to Table 11.1. Input selection S3 Output M-H S2 SI Cn=L. F3 F2 F1 FO A 1 -A В -B A&B AxB 1 A'B 1 Ax(-B) (-A)xB (-A)x(-B) 1 1 ACTIVE HIGH DATA M-L: ARITHMETIC OPERATIONS SELECTION M-H LOGIC s3 s2 s1 so Ino carry) (with carry) F-A PLUS 1 F- LA + B) PLUS 1 F- (A + BI PLUS 1 FUNCTIONS L L F-A F-A+B F-AB F-A H FA+B F-A+T F- MINUS 1 12s COMPL) F-A PLUS AB F- IA + BI PLUS AB L L L L F-0 F-ZERO F- AB F-A PLUS AB PLUS 1 F- (A + BI PLUS AB PLUS 1 L L L H L F-AOB F- AB L L F-A MINUS B MINUS 1 F-A MINUS B F- AB MINUS 1 F- A F-A PLUS AB PLUS1 F-A PLUS B PLUS 1 F- IA + B PLUS AB PLUS 1 L H L F-A PLUS AB…a) Draw and explain the equivalent circuit and V-I characteristics of the UJT in detail. b) A UJT circuit is shown in figure 2. The parameters of the UJT are n = 0.65 and RBB = 7 km. i. Find RBI and RB2. ii. Determine the value of VB1B2 and Vp. R₂ R₂ 400 £2 B₂ 20 100 £2 Figure 2A. Determine V1 without C B. Determine V1 and VR with C C. From aB Determine V2, IL, PD D. From B determine the efficiency of the regulator (OUR SUBJECT IS INDUSTRIAL ELECTRONIC)
- mpt3D1966098&cmid%3D11648 My Courses This course c. 11= 10 A, 12 = 5 A, V=50 V O d. 11 5 A, 12 = 2.5 A, V=25 V Question 5 For this circuit Is and V2 = Not yet R1 R2 R3 answered Marked out of 6.00 P Flag question V2 Is Vs R4 12 V Select one: O a. Is = 1 A, V2= 4 V O b. Is = 2 A, V2= 2V Oc. Is = 2 A, V2= 4 V O d. Is = 1 A, V2= 2 V Question 6 Use current division to find the currenti 120 flowing through the 120 resist Not yet answered Marked out of 28 7.00 +Question T ir1= ir2 = id1= Vr1= V1 Vr2 = D1 Given the circuit above, determine the current across R1 (ir1), R2 (ir2) and D1(id1), determine the voltage across R1 (vr1) and voltage across R2 (vr2). Determine the parameters using an input voltage of 8 volts MBR0520L VR1 M R1 10k 2 Activate Windows 8:50 AMFind R equivalent, P1, P2, P3, Ptotal, V1, V2, V3, Voltage total, Current(I) total, see image attached. Thank you!
- A K- type thermocouple is used to measure the temperature in a heating process. The length of the bare material is 110mm and thickness is 1mm. Find the time constant of the bare material. Type of Thermo-coupleMaterial K ( W/m-k) Q (kg/m³)s (J/Kg- oc) Iron- Constantan 46 8535 345 K Kromel- Alumel 35 8738 380 T Copper- Constantan 160 8902 316 E Cromel - Contantan 33 8825 336 N Nicrocil- Nisil 34 8702 376 B Pt(30%)Rhodium - Pt(6%)Rhodium 19 15718 56 R Platinum(13%)Rodium - Platinum 55 16628 99 Platinum(10%)Rodium - Platinum 52.9 16745 99 Time constant of the bare material is, T=A Wheatstone bridge is used for measuriug the valuc of change of resistance of a strain gauge wnich forms one of the arms of the bridge. All tbe arms of the bridge including the strain gauge have a resistance of 100 N each. The maximum a!lowable power dissipation from the strain gauge is 250 mW. Determine the value of maximu:n permissible current through the strain gauge and maximum allowable value of bridge supply voltage. Suppose a source of 20 V is available, lind the value of series resistance to be connected between the source and the bridge to limit the input voltage of the bridge to permissible level.Given 3 parallel thermal units U1, U2 and U3 where their input-output fuel functions are as follows: Input-Output function (MBtu/h) Fuel Cost ($/MBtu) 1.0 H₁ (P₁) 250+ 3*P₁ +0.025*P₁² H₂(P₂) = 140 + 0.8*P₂ +0.006*P₂² H3(P3) = 375 +1.25*P3 + 0.01*P3² Unit 1 2 3 Select one: Ⓒa. OMW O b. None of these O c. 500MW O d. 800MW In load period 1, the available spinning reserve is: 2.5 1.2 300 500 600 1075 Min MW Max MW No start-up costs; no minimum up- or downtime constraints are considered. The unit commitment of these 3 units is to be solved using the priority list method based on the full load average fuel costs. The below table showing the load over 4 periods in time (Note: a unit's status is 1 if the unit is ON, and 0 if the unit is OFF): Period t Pload (MW) U1 U2 U3 Max MW Spinning Reserve 1 2 3 4 100 150 75 200 600 300
- 5 G V2 =10° pu 8) 3. jo.05 o P3=1,2pu j0,2n P=2pu P4= 4,6pu %3D In TS P23 correcty for ( Iinearfzed) which case grven active occurtrg betumeen the busbars frgure =? load floms at the ETL grven in b) 2 the a) - 1.45 c) 1.45 d) 0,25 e) L.35 A) -2 TS P12 given correctly for (mearized) at the b) In uhich case o curing figure ? c) 1,35 active load flows betwu cen the busbars ETL grven n the a) 0,25 b) -1,45 d) 1,45 e)-2For Fixed Bias Configuration Solve for Ib, Ic and le. Atleast 2 decimal place. Be mindful of units. Assume Ic is not equal to le. ... 4 RC 15002 RB VCC 20V 90A/A 100k2 Ib=Blank 1 HA Ic=Blank 2mA le=Blank 3 mA Blank 1 Add your answer Blank 2 Add your answer Blank 3 Add your answerGiven 3 parallel thermal units U1, U2 and U3 where their input-output fuel functions are as follows: Input-Output function (MBtu/h) Fuel Cost ($/MBtu) 1.0 H₁ (P₁)=250 + 3*P₁ + 0.025*P₁² H₂(P₂) 140 + 0.8*P₂ +0.006*P₂² H3(P3) = 375 +1.25*P3 +0.01*P3² 2.5 1.2 Period j U1U2U3P1 P2 P3 1 7 2 8 3 11 12 1 2 3 No start-up costs; no minimum up- or downtime constraints are considered. The Lagrange Relaxation Method is used to solve the unit commitment problem of these 3 units, with the starting A values given in the below table: 4 Unit The output power and status of unit 2 in load period 2 is: Select one: a. Unit 2 is ON, P2= 200 MW O b. Unit 2 is OFF, P2 = 0 MW O c. None of these O d. Unit 2 is ON, P₂ = 180 MW Min MW Max MW 100 150 75 200 600 300