ELEKTR NIKA To learn more click on the selected topic! Manual End to End Measuring Modes of ELQ 30A ► ► ► ► ► ► Loss Measurement with MTTS Group Delay.

Slides:

Advertisements

Similar presentations

Trouble Shooting with ELQ 30 CROSSTALK BRIDGED TAPS INTERRUPTION UNBALANCE Typical Cable Problems ELEKTR NIKA To learn more click on the selected topic!

Advertisements

ELEKTR NIKA Upstream Power Back Off (UPBO) The Problem is: Upstream bit rates on long loops are dramatically reduced. Very high-speed digital subscriber.

ELEKTR NIKA VDSL 2 Vectoring The Problem: The bit rate of VDSL2 lines is limited by the crosstalk noise. Typical a cable bundle comprises several tens.

1 PIANO+ OTONES WP3 SIGNAL PROCESSING ALGORITHMS.

Application Notes for Line Testing with ET 91 To learn more click on note! Single Sided Measurements END to END Measurements LCL Balance Impedance Return.

To learn more click on the selected method! Typical Cable Faults Unbalance Recommended Fault Location Method Disturbing voltage ▼ Murray ▼ Küpmüller ▼

Fundamentals of Data & Signals (Part II) School of Business Eastern Illinois University © Abdou Illia, Spring 2015 (February18, 2015)

Automatic xDSL Test Sequences of ELQ 30A

Application Notes for Frequency Division Multiplex System Testing with ET 91 To learn more click on note! Basic, Super & Master Group Voice Frequency Noise.

Automatic Single Sided Test Sequence of ELQ 30A To learn more click on the selected topic! ELQ 30A provides single sided test sequences to estimate the.

FREQUENCY CONTROL MODES OF ET 91 To learn more click on note! END to END Loss Measurement Group Delay Distortion Measurement Frequency Tracking with Sweep.

MEG Experiments Stimulation and Recording Setup Educational Seminar Institute for Biomagnetism and Biosignalanalysis February 8th, 2005.

1 10/16/2014 HydroLynx ALERT2 Training How to upgrade your system to use the ALERT2 protocol.

Reading Assignment! We’ll discuss the chapter by Gregory in your book on Friday of next week.

Effective Bits. An ideal model of a digital waveform recorder OffsetGain Sampling Timebase oscillator Fs ADC Waveform Memory Address counter Compute Engine.

Hearing Detection Loudness Localization Scene Analysis Music Speech.

3.1 Chapter 3 Data and Signals Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Harbin Institute of Technology (Weihai) 1 Chapter 2 Channel Measurement and simulation  2.1 Introduction  Experimental and simulation techniques  The.

FREQUENCY CONTROL MODES OF ET 92 To learn more click on note! END to END Loss Measurement Group Delay Distortion Measurement Frequency Tracking with Sweep.

HIAPER Cloud Radar Transceiver Exciter Receiver Oscillators High-Powered Amplifier Calibration Exciter Receiver Oscillators High-Powered Amplifier Calibration.

Inputs to Signal Generation.vi: -Initial Distance (m) -Velocity (m/s) -Chirp Duration (s) -Sampling Info (Sampling Frequency, Window Size) -Original Signal.

1 Business Telecommunications Data and Computer Communications Chapter 3 Data Transmission.

CE 4228 Data Communications and Networking

Dept. of EE, NDHU 1 Chapter Three Baseband Demodulation/Detection.

Single Ended Measuring Modes of ELQ 30A To learn more click on the selected topic! ELEKTR NIKA Receiving Modes Impulse Noise Measurement Spectrum Analyzer.

ECE 4710: Lecture #27 1 QPSK & MPSK  QPSK and MPSK  if baseband m(t) is rectangular pulse then envelope of RF signal is  constant (excluding bit transitions)

CHAPTER 2 Amplitude Modulation 2-3 AM RECEIVERS. Introduction AM demodulation – reverse process of AM modulation. Demodulator: converts a received modulated-

Demodulation of DSB-SC AM Signals

Automatic Voice Frequency Test Sequences of ELQ 30A To learn more click on the selected topic! The Automatic Master-Slave Measuring mode is intended for.

Signals. Signals can be analog or digital. Analog signals can have an infinite number of values in a range; digital signals can have only a limited number.

Which one is the Proper Fault Location Method ?

1 3. Data Transmission. Prof. Sang-Jo Yoo 2 Contents  Concept and Terminology  Analog and Digital Data Transmission  Transmission Impairments  Asynchronous.

Outline Transmitters (Chapters 3 and 4, Source Coding and Modulation) (week 1 and 2) Receivers (Chapter 5) (week 3 and 4) Received Signal Synchronization.

Single Ended Line Test with Upgraded ECFL 30

PLC Testing with ET 91 Level Test Set To learn more click on note! Pilot Level Measurement on RF Test Point Measurements in Special Tracking Mode Pilot.

Frequency Division Multiplex System Testing with ET 92 To learn more click on note! Basic, Super & Master Group Voice Frequency Noise END to END Measurements.

Downstream Power Back Off (DPBO)

Manual Measuring Modes of ELA 10 To learn more click on the selected topic! Level, Loss Noise, Spectrum Line Parameter Optional Measurements Transmitting.

3.3 Waves and Stuff Science of Music 2007 Last Time  Dr. Koons talked about consonance and beats.  Let’s take a quick look & listen at what this means.

FREQUENCY CONTROL MODES OF ET 91 To learn more click on note! END to END Loss Measurement Group Delay Distortion Measurement Conventional Setting Modes.

1 st semester 1436 / Modulation Continuous wave (CW) modulation AM Angle modulation FM PM Pulse Modulation Analog Pulse Modulation PAMPPMPDM Digital.

Fletcher’s band-widening experiment (1940) Present a pure tone in the presence of a broadband noise. Present a pure tone in the presence of a broadband.

Measurement and Instrumentation

1587: COMMUNICATION SYSTEMS 1 Digital Signals, modulation and noise Dr. George Loukas University of Greenwich,

Single Ended Measuring Modes of ELQ 30A+

Fletcher’s band-widening experiment (1940)

To learn more click on the selected system!

Manual End to End Measuring Modes of ELQ 30A+

Trouble Shooting with EFL 10

Automatic xDSL Test Sequences of ELQ 30A+

Trouble Shooting with ELQ 35

Single Ended Line Test with Upgraded ECFL 30

Digital Control Systems Waseem Gulsher

Trouble Shooting with ELQ 30

Automatic Voice Frequency Test Sequences of ELQ 30A+

Which one is the Proper Fault Location Method ?

Which one is the Proper Fault Location Method ?

Downstream Power Back Off (DPBO)

Downstream Power Back Off (DPBO)

Single Ended Line Test with Upgraded ECFL 30

Automatic Single Sided Test Sequence of ELQ 30A+

Manual Measuring Modes of ELA 10

Manual Measuring Modes of ELA 10

Automatic Test Sequences in Master-Slave Mode

Uses of filters To remove unwanted components in a signal

Upstream Power Back Off (UPBO)

Automatic Test Sequences in Master-Slave Mode

Trouble Shooting with ELQ 30A+

Upstream Power Back Off (UPBO)

Presentation transcript:

ELEKTR NIKA To learn more click on the selected topic! Manual End to End Measuring Modes of ELQ 30A ► ► ► ► ► ► Loss Measurement with MTTS Group Delay Distortion Measurement Noise with Tone Measurement Jitter & Frequ. Error Measurement Micro Interruption Measurement Simultaneous Event Counter

ELQ 30A ELQ 30A in MTTS mode provides: ■ Transmitting 30 to 35 frequencies at the same time ■ Receiving 30 to 35 frequencies at the same time The advantages of MTTS : ■ Quick and comfortable ■ No synchronization is necessary between transmitter and far end receiver Loss Measurement with Multi Tone Test Signal (MTTS) ELEKTR NIKA Selectable ranges

Group Delay Distortion Measurement The group delay distortion measurement needs two ELQ 30A instruments connected to the ends of the tested line. One of them transmits a test tone the other one receives and evaluates it. ELQ 30A applies: The multi tone test (MTTS) method described in the recommendation ITU-T O.81 Appendix I. ELQ 30A performs Group delay distortion and level measurements simultaneously. ELEKTR NIKA ELQ 30A

Noise Measurement with Conditioning Tone ELEKTR NIKA The noise measurement of PCM systems requires an 1020 Hz conditioning tone applied to the far end of the tested line. At the near end where he noise measurement is performed the conditioning tone should be suppressed with an 1020 Hz notch filer. ELQ 30A in Noise with Tone mode provides: ■ 1020 Hz conditioning tone generation ■ Noise measurement with Psophometric filter and 1020 conditioning tone

ELQ 30A The jitter and frequency error measurement needs two ELQ 30A instruments connected to the ends of the tested line. One of them transmits a jitter free quartz accurate 1020 Hz test tone the other one receives and evaluates it. ELQ 30A performs the two measurements simultaneously according to rec. ITU-T O.91 ELEKTR NIKA Phase Jitter & Frequency Error Measurement

ELQ 30A The interruption analysis needs two ELQ 30A instruments connected to the ends of the tested line. One of them transmits 1020 Hz test tone the other one receives it and detects the micro interruptions according to rec. ITU-T O.62. An interruption is detected when the level of the received test tone drops below a designated threshold for more than 0.6 ms. Short form information The measuring time is adjustable between 5 min and 72 hours. ELEKTR NIKA Histogram List Micro Interruption Measurement

Simultaneous Event Counter Measuring times: 5, 15, 30, 60 min Maximum count: for each counter ELEKTR NIKA ELQ 30A The event test needs two ELQ 30A instruments connected to the ends of the tested pair. One of them transmits a test tone the other one receives it and simultaneously counts the number of events like: ■ Amplitude hits (described in rec. ITU-T O.95) ■ Phase hits (described in rec. ITU-T O.95) ■ Interruptions (described in rec. ITU-T O.61) ■ Noise impulses (described in rec. ITU-T O.71)

THANK YOU FOR YOUR ATTENTION!