+6621214399

South East Asia

[vc_row css=”.vc_custom_1511008359055{background-color: #f9f9f9 !important;}”][vc_column][vc_column_text]

Experiments List

[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column][vc_column_text]

Select Experiments From The List

All TIMS experiments are implemented using our unique block diagram approach which allows users to model systems both at simple and more complex levels. Full documentation is included with the system. The TIMS Labsheets provide a library of over 160 concise experiments, covering the fundamentals of many key telecommunications topics which can be used either directly by students or by professors to prepare their own material.

The five volume TIMS Student Texts, almost 3000 pages in total, provide an in-depth coverage of a broad range of both analog and digital experiment. Included are supporting theoretical information, detailed experimental instructions and challenging questions. Each chapter also contains a tutorial section, and a Professor’s ‘Tutorial Answers Manual’ is included.

After viewing the below list, tick the boxes to select the required experiments for your laboratory course, and fill the contact form provided at the bottom of the list. We will contact you with a proposal to meet your needs.[/vc_column_text][/vc_column][/vc_row][vc_row][vc_column width=”3/4″][vc_tta_accordion shape=”square” c_position=”right” active_section=”” collapsible_all=”true”][vc_tta_section title=”Tims Documented Experiments” tab_id=”1511000804384-e8b1bc80-d6da” el_class=”tab-contnt”][vc_column_text]

  Adaptive Delta Modulation
  AM – Amplitude Modulation I [ click for pic ]
  Amplifier Overload
  Armstrong’s Phase Modulator
  ASK – modulation & Demodulation
  Baseline Wander and Line Coding
  BER Instrumentation and Measurement
  BFSK – Coherent Signalling and BER
  BFSK – Non-coherent Signalling and BER
  Bit Clock Regeneration
  Block Coding – Error Correcting
  Block Coding Gain
  BPSK – Introduction
  BPSK and BER
  Broadcasting – AM and FM
  Carrier Acquisition – PLL
  CDMA – 2 Channel
  CDMA – Introduction
  CDMA – Multichannel
  CDMA – Processing Gain
  CDMA at Carrier Frequencies
  Complex Analog Messages
  Convolutional coding [ click for pic ]
  Costas Loop
  Delta Demodulation
  Delta Modulation
  Delta-sigma Modulation
  Digital noise in Baseband and Block Coded Channels
  Digital Signal Recovery with the Decision Maker [ click for pic ]
  DPSK and BER
  DPSK and Carrier Acquisition
  DSBSC – Generation and Demodulation
  DSSS – Spread Spectrum
  Envelopes and Envelope Detection
  Equalization for ISI
  Eye Patterns and BER
  Fading, Multi-path Channel
  FDM – Frequency Division Multiplex
  FHSS and Bit Error Rate Performance
  FHSS: Fast and Slow Hopping
  FHSS: Hybrid DSSS/FHSS System
  Fiber Optic – Bidirectional Transmission
  Fiber Optic – Bidirectional Transmission
  Fiber optic – WDM Transmission
  Fiber Optic – WDM Transmission
  Fiber Optic Transmission, Splitting and Combining
  FM – Demodulation by PLL
  FM – Demodulation by Zero Crossing Counting
  FM – Deviation Multiplication
  FM – Synchronous Demodulation
  FM and Bessel Zeros
  FM. Wideband – Generation by VCO
  Frequency Synthesis with the PLL
  FSK – Generation and Envelope Demodulation
  GFSK Gaussian FSK
  Introduction to DSP
  ISB – Independent Sideband
  ISI: PAM and ASK in Band-limited Channel
  Line Coding and Decoding
  Matched Filter Detection
  Modeling Equations
  Modem: Binary Data via Voiceband
  Modem: Data Rates and Voiceband Modems
  Modem: Multi-level Data via Voiceband
  MSK, OQPSK, Pi/4-QPSK, Pi/4-DQPSK
  Multi-channel Digital Fiber Link
  Multi-level QAM and PSK
  Multi-path ISI Rejection in DSSS
  Multi-path Time Invariant Fading Channel Charecteristics
  Noise Generation – Binary Sequences
  Noisy Channel
  OFDM – IDFT, Complex Exponent and Complex Quad Signals
  OFDM and Channel Equalisation with BER Measurement
  OFDM in Band limited, Multipath, Time-invariant Channel with BER Measurements
  OFDM Principles – Introduction
  OFDM, Cyclic Prefix and PAPR
  PAM and TDM
  Parseval’s Theorem: Harmonic & Non-harmonic Signals
  PCM and Bit Clock Regeneration
  PCM Encoding and Decoding
  PCM TDM
  PCM-TDM ‘T1’ Implementation
  PDM – Phase Division Multiplex
  PLL – Phase Lock Loop
  Power Measurements
  PPM – Pulse Position Modulation
  PRBS Messages and Sequence Synchronization [ click for pic ]
  Product Demodulation
  Pulse Shaping – Introduction
  Pulse Shaping for Band-limited Channels
  Pulse Width Modulation
  QAM – Generation and Demodulation
  QAM and 4-PSK
  QASK Modulation and Demodulation
  QPSK – BER of Coherent QPSK in Distortion less Channel
  QPSK Modulation and Demodulation
  Radar Signals: Coherent Train of Identical
  Radar Signals: Coherent Train of LFM Pulses
  Radar Signals: Constant Frequency Pulse
  Radar Signals: Linear Frequency Modulated Pulse
  Radar Signals: Phase Coded Pulse
  Radar Signals: Stepped Frequency Pulse
  Radar Signals: Unmodulated Pulses
  Random Variables and AWGN
  Sampling and Reconstruction
  Sampling with Sample and Hold
  Signal Analysis: Relationship between Time and Frequency Domains
  Signal Constellations 4/8/16 QAM and 4/8/16 PSK
  SNR in AM Demodulated Signals
  SNR Performance of SSB and DSBSC
  SONET – TDM and Byte Interleave Mux
  SONET Data Frame
  SONET Transmission via an Optical Link
  Speech in Telecommunications
  Spread Spectrum Principles
  Spread Spectrum: Direct Sequence, Frequency hop, Time Hop Hybrid FH-DS, FH-CDMA
  SSB Generation and Demodulation
  SSB Linear Amplifier Measurements
  Superheterodyne
  System Fault finding
  TCM – Coding Gain
  TCM – Trellis Coding
  TDM
  Timing Jitter in Band limited Channels
  UWB – Multiband Modulation
  UWB – Multiple Access Orthogonal Pulse modulation with MHP
  UWB – OOK, PPM, BPM and OPM
  UWB – Pulse Shapes and Spectra
  UWB – With BER
  Wave Analyzer – Spectrum Analysis
  Weaver’s SSB Mod and Demodulator

[/vc_column_text][/vc_tta_section][vc_tta_section title=”Signals and System Experiments Manual” tab_id=”1511000804454-d639344f-6ab6″ el_class=”tab-contnt”][vc_column_text]

  A Fourier Series Analyzer
  Analog – Digital Conversion
  
  
  
  
  
  
  
  
  
  
  
  

[/vc_column_text][/vc_tta_section][vc_tta_section title=”Student Project Capabilities” tab_id=”1511000949255-4729b588-66e5″ el_class=”tab-contnt”][vc_column_text]

  Building Electronic Circuits with the TIMS-820 Wire-wrapping Project Module
  Implementing functions in a CPLD with the TIMS-830 Programmable Digital Project Module
  Programming DSP Implementation with the TIMS-DSP-6713 Module
  Solderless Bread boarding of Electronic Circuits with the TIMS-840 Circuit Experimenter

[/vc_column_text][/vc_tta_section][/vc_tta_accordion][contact-form-7 id=”3054″][/vc_column][vc_column width=”1/4″][vc_images_carousel images=”3046,3045,3044″ img_size=”” onclick=”link_no” mode=”vertical” speed=”2000″ slides_per_view=”2″ autoplay=”yes” hide_pagination_control=”yes” hide_prev_next_buttons=”yes” partial_view=”yes” wrap=”yes” css_animation=”none” el_class=”slider-view” title=”Sample scope screens of real singnals in”][/vc_column][/vc_row]