Q13/ For 555 astable multivibrator, if C = 0.01 µF, RA = 10 kn, RB = 50 kn, the frequency and the duty cycle will be nearly ---- --? Q13/ For 555 astable multivibrator, if C = 0.01 µF, RA = 10 k2, RB = 50 k2, the frequency and the duty cycle will be nearly -------------? +8 V kn 7 2 6 0.01 DF Oa) 1.6 kHz and 54.5% Ob) 1.3 kHz and 54.5% c) 1.6 kHz and 46.5% Od) 1.3 kHz and 46.5% RB kn 8 555 4 3 Vout

Q13/ For 555 astable multivibrator, if C = 0.01 µF, RA = 10 kn, RB = 50 kn, the frequency and the duty cycle will be nearly ---- --? Q13/ For 555 astable multivibrator, if C = 0.01 µF, RA = 10 k2, RB = 50 k2, the frequency and the duty cycle will be nearly -------------? +8 V kn 7 2 6 0.01 DF Oa) 1.6 kHz and 54.5% Ob) 1.3 kHz and 54.5% c) 1.6 kHz and 46.5% Od) 1.3 kHz and 46.5% RB kn 8 555 4 3 Vout

Systems Architecture

7th Edition

ISBN:9781305080195

Author:Stephen D. Burd

Publisher:Stephen D. Burd

Chapter4: Processor Technology And Architecture

Section: Chapter Questions

Problem 24VE: _____ predicts that transistor density will double every two years or less.

See similar textbooks

Similar questions

For the given circuit, what will be the value stored in 6T SRAM cell WL = 1 VD VD BL BL
For the given circuit, what will be the value stored in 6T SRAM cell WL = 1 VAD VDD BL BL
Determine RC and RB for a fixed-bias configuration if VCC = 12 V, B = 80, %3D and ICQ = 2.5 mA with VCEQ = 6 V. %3D Use standard values
Vdo Output Pon Port Load PIC Microcontroller Output Port circuit A PIC Microcontroller circuit B if the PIC can source 20 mA or can sink 23 mA; the voltage drop across the LED for normal brightness i be a minimum value for R(the load) in circuit 1.9 volts, what would a. 155 ohm b. 105 ohm C. 135 ohm d. 91 ohm
Calculate the reverse current of P-N diode, if a forward current of 10mA is flowing through it if supplied with 0.5V at 28°C room temperature. Assume ideality factor, n=2. O a. 3nA O b. 2.5nA O C. 657.48NA O d. 2.56nA
Question 333 Assume a 15 cm diameter wafer has a cost of 12, contains 84 dies, and has0.020 defects/cm?. Assume a 20 cm diameter wafer has a cost of 15, contains 100dies, and has 0.031 defects/cm?. Find the cost per die for both wafers. Full explain this question and text typing work only thanks
A taco generator is use as a sensor to detect the speed of a rotating motor. The o/p of the tacho is between Ov and 5v where the midrange (2.5v) is equivalent to that the motor is standstill. When motor accelerates CW toward full speed, the tacho o/p will vary from 2.5v to 5v and when the input of tacho varies from 2.5v down to Ov means the motor is accelerating towards cCW. The Scenario is to reflect the equivalent speed on two SSDS which one will read the equivalent speed of reading 5 for maximum Cw (5v) and the other will also read 5 for maximum CCW (Ov) equivalent speed in the reverse direction. Taco generator input is connected to PA4, the CW SSD on PORTB and the CCW SD on PORTC Write ATmega 16 program sketch to follow the above scenario REFS1 REFSO Voltage Reference Selection AREF, Internal Vref turned off AVCC with external capacitor at AREF pin 1 Reserved 1 Internal 2.56V Voltage Reference with external capacitor at AREF pin ADPS2 ADPS1 ADPSO Division Factor 2 1 1 1 1 16 1 32 1…
1. The noise figure of the first circuit in tandem connection is 10.5 dB while its power gain is 15. What is the over-all noise figure if the second circuit has a noise figure of 11 dB?2. Two resistors, 20 kΩ and 50 kΩ are at ambient temperature. Calculate for a bandwidth equal to 100 kHz, the thermal noise voltage for the tworesistors connected in parallel.
A MOD-8 ripple counter uses JK flip-flops. If the propagation delay of each flip-flop is 40 nano sec then the maximum clock frequency that can be used is equal to (Approximately) (A) 8.3 K Hz (B) 8.4 KHz (C) 8.3×10°HZ (D) 8.3 MHz
A:01 For the admittance locus diagram shown below: find the value of each element in the ?circuit if w=377 rad/sec jB АB-ВС A 60° 1.1 B Rc2=1.7 ohm, R=0.6 ohm, Rc1=D1.47 ohm & C1=3.12m F Rc2=1.47 ohm, R=0.5 ohm, Rc1=1.7 ohm & C1=3.12m F Rc2=2.5 ohm, R=0.4 ohm, Rc1%=0.35 ohm & C1=13m F Rc2=2.5 ohm, R=0.6 ohm, Rc1=1.5 ohm & C1=13m F inusoidal current source (iT=2+1,5sin1000t+ 1cos3000t-0.5sin4000t)
A counter circuit is shown in the figure. The counter counts as Q1 QO Vpp Clock K K O a. Q0Q1:00 --> 01 --> 10 -->11 --> 00 O b. QOQ1: 11 --> 00 --> 10 --> 01 --> 11 O c. QOQ1: none of these d. QOQ1: 11 -->01 --> 10 --> 00 --> 11
Using a D flip-flop synchronous counter, design a counter and output circuit that would simulate the operation of an ordinary traffic light. The following table shows the sequence and timing of the system: LED that is turned ON Number of Clock Pulse Rl and G2 3 R1 and Y2 1 Gl and R2 3 Yl and R2 1 The sequence will be repeated as long as the power supply is ON.