4. If the baud rate is 400 for a QPSK signal, the bit rate is bps.

Similar documents
Chap#5 (Data communication)

Solution. (Chapters ) Dr. Hasan Qunoo. The Islamic University of Gaza. Faculty of Engineering. Computer Engineering Department

Digital Modulation. David Tipper. Department of Information Science and Telecommunications University of Pittsburgh. Typical Communication System

What s The Difference Between Bit Rate And Baud Rate?

Implementing Digital Wireless Systems. And an FCC update

Vector Signal Analyzer FSQ-K70

DT3: RF On/Off Remote Control Technology. Rodney Singleton Joe Larsen Luis Garcia Rafael Ocampo Mike Moulton Eric Hatch

MODULATION Systems (part 1)

INTRODUCTION TO COMMUNICATION SYSTEMS AND TRANSMISSION MEDIA

Followings do not contain the solutions of the multiple choices from the web on the publisher site. You should visit the site to get the solutions.

HD Radio FM Transmission System Specifications Rev. F August 24, 2011

Public Switched Telephone System

How To Encode Data From A Signal To A Signal (Wired) To A Bitcode (Wired Or Coaxial)

Lezione 6 Communications Blockset

Mobile Communications Chapter 2: Wireless Transmission

Agilent Digital Modulation in Communications Systems An Introduction. Application Note 1298

Data Transmission via Modem. The Last Mile Problem. Modulation of Digital Signals. Modem Standards (CCITT)

1 Multi-channel frequency division multiplex frequency modulation (FDM-FM) emissions

Implementation of Digital Signal Processing: Some Background on GFSK Modulation

Objectives. Lecture 4. How do computers communicate? How do computers communicate? Local asynchronous communication. How do computers communicate?

AN INTRODUCTION TO DIGITAL MODULATION

Introduction to FM-Stereo-RDS Modulation

RF Measurements Using a Modular Digitizer

Intro to Practical Digital Communications

1. (Ungraded) A noiseless 2-kHz channel is sampled every 5 ms. What is the maximum data rate?

From baseband to bitstream and back again: What security researchers really want to do with SDR. Andy Davis, Research Director NCC Group

The Phase Modulator In NBFM Voice Communication Systems

Maximizing Receiver Dynamic Range for Spectrum Monitoring

Channel Bandwidth, MHz. Symbol Rate, Msym/sec

Sampling Theorem Notes. Recall: That a time sampled signal is like taking a snap shot or picture of signal periodically.

Analog signals are those which are naturally occurring. Any analog signal can be converted to a digital signal.

Communication Systems

Software Defined Radio

Lecture 1: Introduction

Chapter 9 Using Telephone and Cable Networks for Data Transmission

Appendix D Digital Modulation and GMSK

DSAM Digital Quality Index (DQI) A New Technique for Assessing Downstream Digital Services

International Journal of Advance Engineering and Research Development. QoS Analysis of VOIP Traffic over WiMAX

Electromagnetic (EM) waves. Electric and Magnetic Fields. L 30 Electricity and Magnetism [7] James Clerk Maxwell ( )

Adjacent Channel Interference. Adaptive Modulation and Coding. Advanced Mobile Phone System. Automatic Repeat Request. Additive White Gaussian Noise

University of Manchester School of Computer Science CS3282: Digital Communications '06 Section 9: Multi-level digital modulation & demodulation.

AM/FM/ϕM Measurement Demodulator FS-K7

NEW WORLD TELECOMMUNICATIONS LIMITED. 2 nd Trial Test Report on 3.5GHz Broadband Wireless Access Technology

MSB MODULATION DOUBLES CABLE TV CAPACITY Harold R. Walker and Bohdan Stryzak Pegasus Data Systems ( 5/12/06) pegasusdat@aol.com

CDMA Network Planning

Technical Specifications for KD5HIO Software

Contents. A Error probability for PAM Signals in AWGN 17. B Error probability for PSK Signals in AWGN 18

Voice Encryption over GSM:

ipimms is an industry primary impedance measurement service supplied and maintained by UK s National Physical Laboratory. [4]

Agilent Vector Signal Analysis Basics. Application Note

Physical Layer. Communication Satellites. ECE 453 Introduction to Computer Networks. Lecture 3 Physical Layer II

PHASE ESTIMATION ALGORITHM FOR FREQUENCY HOPPED BINARY PSK AND DPSK WAVEFORMS WITH SMALL NUMBER OF REFERENCE SYMBOLS

Modulation and Demodulation

Evolution from Voiceband to Broadband Internet Access

Application Aware Dynamic Modulation Selection for WiMAX System

What Does Communication (or Telecommunication) Mean?

AM Receiver. Prelab. baseband

Tutorial on Basic Link Budget Analysis

Measurement of Adjacent Channel Leakage Power on 3GPP W-CDMA Signals with the FSP

Performance of Quasi-Constant Envelope Phase Modulation through Nonlinear Radio Channels

Black Box Explains: DSL

Amplitude Modulation Fundamentals

Department of Electrical and Computer Engineering Ben-Gurion University of the Negev. LAB 1 - Introduction to USRP

Introduction to Receivers

CMAS. Compact Radio Signal Monitoring Solution

DIGITAL TRANSMISSION AND CODING TECHNIQUES

APPLICATION NOTE. RF System Architecture Considerations ATAN0014. Description

APPLICATION NOTE BUILDING A QAM MODULATOR USING A GC2011 DIGITAL FILTER CHIP

Lock-in amplifiers. A short tutorial by R. Scholten

Fundamentals of Satellite Communications Part 3

ENERGINO: Hardware and Software Solution for Energy Consumption Monitoring

Superheterodyne Radio Receivers

CDMA TECHNOLOGY. Brief Working of CDMA

Analog vs. Digital Transmission

BER Performance Analysis of SSB-QPSK over AWGN and Rayleigh Channel

LRS - Application Form PRESIDENT OF THE OFFICE OF ELECTRONIC COMMUNICATIONS

RADIO TECHNICIAN 1 GENERAL

VMR6512 Hi-Fi Audio FM Transmitter Module

Voice services over Adaptive Multi-user Orthogonal Sub channels An Insight

Overview ISDB-T for sound broadcasting Terrestrial Digital Radio in Japan. Shunji NAKAHARA. NHK (Japan Broadcasting Corporation)

Trends in Broadcast Radio

Angle Modulation, II. Lecture topics FM bandwidth and Carson s rule. Spectral analysis of FM. Narrowband FM Modulation. Wideband FM Modulation

Chapter 3: Spread Spectrum Technologies

Appendix C GSM System and Modulation Description

A Novel LTE-Advanced Carrier Aggregation with Higher Throughput

DESIGN OF RF/IF ANALOG TO DIGITAL CONVERTERS FOR SOFTWARE RADIO COMMUNICATION RECEIVERS

Wireless Local Area Networking For Device Monitoring

3GPP Wireless Standard

Lecture 3: Signaling and Clock Recovery. CSE 123: Computer Networks Stefan Savage

Experiment # (4) AM Demodulator

AM TRANSMITTERS & RECEIVERS

VHF Packet Radio With a Focus On EMCOMM

: Instructor

How To Use A Sound Card With A Subsonic Sound Card

RAPID PROTOTYPING FOR RF-TRANSMITTERS AND RECEIVERS

Next Generation of High Speed. Modems8

Transcription:

1. ASK, PSK, FSK, and QAM are examples of conversion. A) digital-to-digital B) digital-to-analog C) analog-to-analog D) analog-to-digital 2. AM and FM are examples of conversion. A) digital-to-digital B) digital-to-analog C) analog-to-analog D) analog-to-digital 3. In QAM, both of a carrier frequency are varied. A) frequency and amplitude B) phase and frequency C) amplitude and phase 4. If the baud rate is 400 for a QPSK signal, the bit rate is bps. A) 100 B) 400 C) 800 D) 1600

5. If the bit rate for an ASK signal is 1200 bps, the baud rate is. A) 300 B) 400 C) 600 D) 1200 6. If the bit rate for an FSK signal is 1200 bps, the baud rate is. A) 300 B) 400 C) 600 D) 1200 7. If the bit rate for a 16-QAM signal is 4000 bps, what is the baud rate? A) 300 B) 400 C) 1000 D) 1200 8. If the baud rate for a 64-QAM signal is 2000, what is the bit rate? A) 300 B) 400 C) 1000

D) 12000 9. Given an AM radio signal with a bandwidth of 10 KHz and the highest-frequency component at 705 KHz, what is the frequency of the carrier signal? A) 700 KHz B) 705 KHz C) 710 KHz D) Cannot be determined from given information 10. conversion is the process of changing one of the characteristics of an analog signal based on the information in the digital data. A) Digital-to-analog B) Analog-to-analog C) Analog-to-digital D) Digital-to-digital 11. Which of the following is not a digital-to-analog conversion? A) ASK B) PSK D) AM 12. In, the amplitude of the carrier signal is varied to create signal elements. Both frequency and phase remain constant. A) ASK

B) PSK D) QAM 13. In, the frequency of the carrier signal is varied to represent data. Both peak amplitude and phase remain constant. A) ASK B) PSK D) QAM 14. In, the phase of the carrier is varied to represent two or more different signal elements. Both peak amplitude and frequency remain constant. A) ASK B) PSK D) QAM 15. A constellation diagram shows us the of a signal element, particularly when we are using two carriers (one in-phase and one quadrature). A) amplitude and phase B) amplitude and frequency C) frequency and phase

16. Quadrature amplitude modulation (QAM) is a combination of. A) ASK and FSK B) ASK and PSK C) PSK and FSK 17. uses two carriers, one in-phase and the other quadrature. A) ASK B) PSK D) QAM 18. conversion is the representation of analog information by an analog signal. A) Digital-to-analog B) Analog-to-analog C) Analog-to-digital D) Digital-to-digital 19. Analog-to-analog conversion is needed if the available bandwidth is. A) low-pass B) band-pass C) either (a) or (b) D) neither (a) nor (b)

20. Which of the following is not an analog-to-analog conversion? A) AM B) PM C) FM D) QAM 21. In transmission, the carrier signal is modulated so that its amplitude varies with the changing amplitudes of the modulating signal. A) AM B) PM C) FM 22. In transmission, the frequency of the carrier signal is modulated to follow the changing voltage level (amplitude) of the modulating signal. The peak amplitude and phase of the carrier signal remain constant, but as the amplitude of the information signal changes, the frequency of the carrier changes correspondingly. A) AM B) PM C) FM 23. In transmission, the phase of the carrier signal is modulated to follow the changing voltage level (amplitude) of the modulating signal. A) AM

B) PM C) FM 24. In, the peak amplitude of one signal level is 0; the other is the same as the amplitude of the carrier frequency. A) PSK B) OOK 25. How many carrier frequencies are used in BASK? 26. How many carrier frequencies are used in BFSK? 27. How many carrier frequencies are used in BPSK?

28. How many carrier frequencies are used in QPSK? 29. The constellation diagram of BASK has dots. 30. The constellation diagram of BPSK has dots.

31. The constellation diagram of QPSK has dots. C) 4 32. The constellation diagram of 16-QAM has dots. A) 4 6 C) 8 33. The Federal Communications Commission (FCC) allows khz for each AM station. A) 5 0 C) 20 34. The Federal Communications Commission (FCC) allows khz for each FM station. 0 00 C) 200

ANSWERS: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 B C C C D D C D A A D A C B A B D B B D A C B B B A B A A A C B B B

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information