Part II Design a 2-bit register to be operated according to the following function table. Show...
Problem 1(8 points): Design a 3-bit register which has the following function table. Neatly design and show the complete circuit diagram of this 3-bit register Mode Control Register S1 SO Operation No Change Parallel Load Shift Up Complement Problem 1(8 points): Design a 3-bit register which has the following function table. Neatly design and show the complete circuit diagram of this 3-bit register Mode Control Register S1 SO Operation No Change Parallel Load Shift Up Complement
Shift Register: Design a 4-bit shift register for the following function table. Inputs are D3D2D1D0 for parallel data load, S1S0 are the mode control, and the clock. Outputs are the register bits Q3Q2Q1Q0. Show the complete logic diagram.
Design a 3- bit Multipurpose Register. The register utilizes 3 "D" type flip flops with outputs Q0, Q1, Q2. The Registers has a synchronous clock input(CLK) that clocks all 3 flip flops on its positive edge The Registers has an asynchronous clear input(CLR' ) that sets all flip flops to "0" when active low. The Register has 2 select inputs, S0 and S1 that selects the functions as folows: S1 = 0, 0, 1, 1 and S0 = 0,1,0,1 and...
Draw a logical diagram of the 4-bit register with mode selection inputs S1 and S0. The register operates in accordance with the following table of functions. S1 S0 register operation 0 0 No change 0 1 parallel load 1 0 left shift 1 1 Clear register to zero
Problem 4: Design a 2 bit register whose operation is controlled by the signals C1 and C2 as follows: (Use D- Flip Flops) Y2 Y1 C 2-Bit Register Clock SD PD1 PD2 Y1 Y2+ Operation Hold C1 C2 Y2 Y1 0 10 Shift Right Y1 SD 1 0 SD Y2 Shift Left PD2 PD1 Parallel Load 1 SD: Serial Data input PD1 PD2: Parallel Data input Problem 4: Design a 2 bit register whose operation is controlled by the signals...
Problem 7. Consider the 74x194 4-bit bidirectional universal shift register shown below Determine the operation of this circuit by filling out the table. Assume that the register is cleared initially as indicated by the first row in the table, and then connected to +5V (before time t), as shown in schematic. Also assume that t 'is that time at which a positive edge occurs in the input signal 'clock'. Si and S0 inputs (given) are used to switch between modes...
please help question 2 2. Design a half-adder with the constraint that you can only use NAND and NOR gates. The circuit inputs are two bits I and y and the outputs are the sum bit s and carry bit c. Draw a circuit diagram and label each input and output. 3. The digital circuit below contains a latch and two flip-flops. Use the wave forms provided to find Qa. Qb, and Qe. Assume that all three states have initial...
2. A 4-bit parallel in/serial out shift register has SHIFT/LOAD' and CLK inputs as shown in the figure below. What is the output Q3 at the two times('A' followed by 'B') indicated by the dashed lines in the figure below if the parallel data inputs are DO-1, D1-0, D2-1, and D3-1? D3 SHIFT/L CLK SHIFT /LOAD Ο A. A-0,9:0 B. A:0, B-1 D.A-1, B-1
You need to design a circuit that implements the functions in the following table: S0 and S1 are 1-bit control inputs to select the function of the circuit. Inputs A and B are 4-bit numbers in 2s complement form. The output is also a 4-bit number in 2s complement form. You are allowed to use only one TTL 7483 4-bit adder to implement all the functions. But any number of other components (except the adder) can be used. HINT: Design...
Finite state machine (FSM) counter design: Gray codes have a useful property in that consecutive numbers differ in only a single bit position. Table 1 lists a 3-bit modulo 8 Gray code representing the numbers 0 to 7. Design a 3-bit modulo 8 Gray code counter FSM. a) First design and sketch a 3-bit modulo 8 Gray code counter FSM with no inputs and three outputs, the 3-bit signal Q2:0. (A modulo N counter counts from 0 to N −...