World’s first 3D antenna measurement training system

World’s first 3D antenna measurement training system

RK Telesystem’s next generation of Antenna Communication Training & Measurement Lab Kit is based on the latest generation of radio architecture. The complete setup consists of a USB powered calibrated software-controlled RF Signal Generator and a calibrated software-controlled RF Signal Receiver, software-controlled Stepper Motor based rotating and mounting fixture, Linux based Data Visualisation and Management Software and a workstation Laptop pre-configured with all the hardware drivers, softwares, study material, experiment manuals and video tutorials.

Features
  • Only system complying to IEEE Standard 149-1979
  • USB powered calibrated Vector Signal Generator and Vector Signal Analyzer
  • Antenna Gain Measurement
  • EIRP and Total Radiated Power Measurement
  • Vector Signal Generator in CW,AM, FM, FSK, BPSK, QPSK, 8PSK, QAM, GMSK and various other modes including custom waveforms
  • Test with LTE, Wi-Fi and other advanced waveforms
  • Built-in Spectrum Analyzer with waterfall, Oscilloscope and Constellation Display
  • Rugged and durable design in Small Form Factor for bench top experimentation
  • Laptop workstation included as part of lab with all the hardware drivers, softwares, study material, manuals, videos and remote support software pre-installed for hassle-free operation
  • More than 20 different Antennas included
Area and Scope of Learning
  • Establishing a complete RF link with point-to-point connectivity
  • RF Link budgeting and calculations
  • Antenna Radiation Pattern measurement with plotting software
  • Measurement of Antenna gain parameter and other characteristics
  • Experimentation with more than 20 different types of antennas
  • Experiments covering practical impairments such as Doppler shift
  • Simultaneous visualisation in time and frequency domain of received signal for practical approach
  • Custom waveform transmission with 25 MHz of instantaneous bandwidth for advanced experimentation and research such as LTE
  • Completely configurable frequency range from 270 MHz to 4 GHz can be used for RF path loss and other practical measurements
  • VSWR and Return Loss measurement of antennas with broadband directional coupler
  • Vertical, Horizontal and Circularly polarized antennas
  • Polarisation discrimination of Linear and Circular antennas
  • Resonant and non-resonant antenna, Reciprocity of antenna
  • Current distribution of an antennas and comparative study of antennas
  • EM simulation results of all the antennas included for practical verification
  • Practical Verification of antennas working in Quad-band GSM, 20 bands of 3G, 40 bands of LTE, GPS, GNSS, WiFi, CDMA and applications such as IoT
Configuration
  • USB powered calibrated RF Signal Generator and RF Signal Analyser
  • Software controlled stepper motor rotator and fixture
  • Laptop Workstation with pre-installed hardware drivers, softwares, study material, manuals, videos and remote support software
  • 20 different antennas with VNA test reports, simulation and practical results
  • Comprehensive documentation including:
    • Pre-Lab study material
    • Experiment manual including more than 25 experiments
    • Video Lectures for pre-lab and experimentation

ATS04 Antennas

Antennas

(Typical Antenna Operation around 3.8 GHz. Other frequencies such as 2.45 GHz available on request)

Amitec Microstrip Yagi
Microstrip Yagi
Frequency2.45 GHz
Return Loss/S11-15 dB
PolarisationLinear
FeedMicrostrip Balun
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Microstrip Patch Transformer Fed
Microstrip Patch Transformer Fed
Frequency2.45 GHz
Return Loss/S11-20 dB
PolarisationLinear
FeedMicrostrip
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold

Amitec Trapezoidal Ultra Wide-band Antenna

Trapezoidal Ultra Wide-band
Frequency2.45 to 8 GHz
Return Loss/S11-10 dB
PolarisationLinear
FeedMicrostrip Balun
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Gain1 dBi
Amitec Wideband Bowtie Dipole Antenna
Wideband Bowtie Dipole
Frequency0.4 to 4.4 GHz
Return Loss/S11-10 dB
PolarisationLinear
FeedBalun
Impedance50 Ohms
ConnectorSMA
SubstrateGlass Epoxy
MaskingSelective
PlatingSelective Gold
Amitec Patch Dual Antenna Array
Microstrip Dual Rectangular Patch
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-15 dB
Gain5 dBi
PolarisationLinear
Impedance50 Ohms
ConnectorSMA
SubstrateFR4
MaskingSelective
PlatingGold
Amitec Series Fed Patch antenna array
Microstrip Series Fed Rectangular Patch
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-10 dB
Gain4 dBi
PolarisationLinear
Impedance50 Ohms
ConnectorSMA
SubstrateFR4
MaskingSelective
PlatingGold
Amitec Coplanar Waveguide Bowtie Antenna
Coplanar Waveguide Bowtie Slot
Frequency2.4 to 2.5 GHz
Return Loss/S11-10 dB
Gain2 dBi
PolarisationLinear
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Microstrip Patch antenna Inset fed
Microstrip Patch Inset Fed
Frequency2.45 GHz
Return Loss/S11-20 dB
PolarisationLinear
FeedMicrostrip
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Loop Antenna
Microstrip Loop Antenna
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-10 dB
Gain2 dBi
PolarisationLinear
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Leaky Wave antenna
Microstrip Left Circularly Polarised Patch
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-10 dB
PolarisationLHCP
FeedMicrostrip
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Patch antenna array 2*2
Microstrip Patch Array 2*2
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-15 dB
Gain8 dBi
PolarisationLinear
Impedance50 Ohms
ConnectorSMA
SubstrateFR4
MaskingSelective
PlatingGold
Amitec Endfire Dipole array
Microstrip Endfire Dipole Array
Frequency2.45 GHz
Return Loss/S11-10 dB
PolarisationLinear
BeamwidthE plane: 60 degree
H plane: 120 degree
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Broadside Dipole array
Microstrip Broadside Dipole Array
Frequency2.45 GHz
Return Loss/S11-10 dB
PolarisationLinear
BeamwidthE plane: 60 degree
H plane: 120 degree
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Slot antenna
Microstrip Slot Antenna
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-15 dB
PolarisationLinear
BeamwidthE plane: 60 degree
H plane: 180 degree
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Folded Dipole antenna
Microstrip Folded Dipole Antenna
Frequency2.45 GHz
Return Loss/S11-10 dB
PolarisationLinear
BeamwidthE plane: 70 degree
H plane: 180 degree
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Dipole antenna
Microstrip Dipole
Frequency2.45 GHz
Return Loss/S11-15 dB
PolarisationLinear
FeedMicrostrip Balun
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Cross Pol Discrimination20 dB
Amitec Right hand circularly polarised(RHCP) patch antenna
Microstrip Right Circularly Polarised Patch
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-10 dB
PolarisationRHCP
FeedMicrostrip
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Left hand circularly polarised(LHCP) patch antenna
Microstrip Left Circularly Polarised Patch
Frequency2.45 +/- 0.01 GHz
Return Loss/S11-10 dB
PolarisationLHCP
FeedMicrostrip
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Circular Patch antenna
Microstrip Circular Patch
Frequency2.45 GHz
Return Loss/S11-12 dB
PolarisationLinear
FeedMicrostrip
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec broadband spiral antenna
Microstrip Broadband Spiral Antenna
Frequency2 to 3 GHz
Return Loss/S11-10 dB
PolarisationCircular
Gain2 dBi
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec broadband spiral slot antenna
Microstrip Broadband Spiral Slot
Frequency2 to 3 GHz
Return Loss/S11-10 dB
PolarisationCircular
Gain2 dBi
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec Ultra wideband Vivaldi antenna
Microstoria Vivaldi Ultra Wide-band
Frequency3 to 10 GHz
Return Loss/S11< -6 dB
GainVaries over range, typical 3 dBi
PolarisationLinear
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Amitec broadband Directional Coupler
Broadband Directional Coupler
Insertion S211.5 +/- 0.3 dB
Coupling S3120 +/- 2 dB
Isolation S4120 +/- 2 dB
Directivity15 +/- 3 dB
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
UsageAntenna forward and reverse power, VSWR Measurement
Amitec Log Periodic Dipole array(LPDA) antenna
Reference Log Periodic Dipole Array
Frequency1 to 6 GHz
Return Loss/S11-10 dB
Gain4 dBi
PolarisationLinear
Beamwidth E plane60 degree
Beamwidth H plane180 degree
Impedance50 Ohms
ConnectorSMA
SubstrateCeramic
MaskingSelective
PlatingGold
Technical Specifications
Transceiver
Transmitter Frequency Range0.3 to 3.8 GHz
Receiver Frequency Range0.3 to 3.8 GHz
ModeFull Duplex
PowerUSB powered
Bandwidth100 kHz to 28 MHz
Frequency Resolution< 3Hz
Maximum Output Power0 dBm
Level Accuracy< 2dB
Receiver Sensitivity-120 dBm
Tx/Rx Impedance50 Ohms
Computer Workstation
Mobile WorkstationNotebook Computer
Display15.6 inch LED/LCD TFT
ProcessorLatest generation core i5 quad core
OSLinux Ubuntu
PortsUSB 3.0, HDMI, Ethernet, VGA, Audio In/Out
Onboard GraphicsIntel HD Graphics
Harddisk500 GB

***Typical operation is at -30dBm for FCC compliant license free safe operation

Antenna 3D Positioner
Azimuth Start Angle-360 to 360 degree
Azimuth Stop Angle-360 to 360 degree
Azimuth Minimum Step Size1 degree
Elevation Start Angle-360 to 360 degree
Elevation Stop Angle-360 to 360 degree
Elevation Minimum Step Size1 degree
Power12 V Adapter
ControlSoftware via USB
No of cycles of rotationany
Return to HomeYes
Loading Capacity1 Kg
Data Visualisation Software
PlotPolar and Cartesian
ScaleLog and Linear
Scale displayAbsolute and Relative
Other PlotsVi, Vr and Return Loss
Multiple Pattern OverlayYes
Other FeaturesRotate, Zoom, Colour and Location editing
Save and Read DataTo and from file
Optional Accessories
Microwave Absorber Panels

 

 

Absorber: EM Lossy PU Foam Cones
Reflection: -40dB @10GHz
Fire retardancy : As Per NRL USA-8093 Standard complying Tests No.1,2 and 3 with zero halogen means
Equivalent RCS: -30dBsm 2-40GHz

Dual Ridge Horn

Frequency Range : 1-18GHz
Gain(Typ.) : 8.5dBi
Polarization : Linear
VSWR (Typ.) : <2:13dB
Net Weight : 1.1Kgs
Connector : N type Female
Mounting Bracket : Aluminum right angled Plates

List of Experiments

Scope of Experimentation

  1. Introduction
  2. To plot the radiation pattern of an omnidirectional antenna.
  3. To plot the radiation pattern of a directional antenna
  4. To measure axial ratio and cross polarization discrimination of vertically horizontally and circularly polarized antennas.
  5. To measure the VSWR of the antenna
  6. To demonstrate that transmitting and receiving patterns of an antenna are equal and hence confirm the reciprocity theorem of antennas
  7. To plot the radiation pattern (E & H Plane Polar & Cartesian Plots on Log/Linear scale of an antenna on PC.
  8. To measure the ANTENNA PARAMETERS (directivity, gain, beam width (Half Power/10dB), front to back ratio, plane of polarization, cross polarization discrimination, side lobe level and its angular position from polar plot, VSWR/return loss) of Dipole.
  9. To measure antenna parameters of Yagi.
  10. To measure antenna parameters of Slot.
  11. To measure antenna parameters of Transformer fed Patch and inset fed Patch.
  12. To measure parameters of right circularly polarized patch and left circularly polarized patch.
  13. To measure antenna parameters of Spiral & Spiral Slot.
  14. To measure the cross polarization discrimination for circular.
  15. To measure antenna parameters of Log Periodic.
  16. To measure antenna parameters of Circular patch.
  17. To measure antenna parameters of Folded Dipole.
  18. To measure antenna parameters of Loop.
  19. To measure parameters of Endfire and Broadside array.
  20. To measure antenna parameters of Patch array 2X2, and Dual Patch.
  21. To measure antenna parameters of monopole.
  22. To measure antenna parameters at 10.3 GHz of Pyramidal Horn (E plane Horn, H plane Horn and open waveguide antenna.
  23. To measure antenna parameters at 10.3 GHz of conical.
  24. To measure parameters at 10.3 GHz of monopole.
  25. To measure antenna parameters at 10.3 GHz of Slot Narrow Wall & Broad Wall slot Antenna
  26. To measure parameters at 10.3 GHz of Parabolic dish.
  27. To measure antenna parameters at 10.3 GHz of Patch array 4X4, Patch array 2X2, Dual Patch array, Inset fed Patch, Circularly Polarized Patch antenna
  28. To measure antenna parameters of Helix RHCP & LHCP.
  29. Establishing a complete RF link with point-to-point connectivity
  30. RF Link budgeting and calculations
  31. 3D Antenna Radiation Pattern measurement with Data Visualization and Management Software
  32. Measurement of Antenna Gain parameter and other characteristics
  33. Experimentation with more than 20 different types of antennas
  34. Experiments covering practical impairments such as Doppler shift
  35. Simultaneous visualization in time and frequency domain of received signal for practical approach
  36. Custom waveform transmission with 56 MHz of instantaneous bandwidth for advanced experimentation and research such as LTE
  37. Completely configurable frequency range from 70 MHz to 6 GHz can be used for RF path loss and other practical measurements
  38. VSWR and Return Loss measurement of antennas with broadband directional coupler
  39. Vertical, Horizontal and Circularly polarized antenna
  40. Polarization discrimination of Linear and Circular antennas
  41. Resonant and non-resonant antenna
  42. Reciprocity of antenna
  43. Current distribution of an antennas and comparative study of antennas
  44. EM simulation results of all the antennas included for practical verification
  45. Practical Verification of antennas working in Quad-band GSM, 20 bands of 3G, 40 bands of LTE, GPS, GNSS, Wi-Fi, CDMA and applications such as IoT
  46. Can be upgraded and daisy-chained for MIMO antenna measurement.
  47. Radiation pattern of an Omni and directional antenna.
  48. Vertical, Horizontal and Circularly polarized antennas.
  49. Polarization discrimination linear & circular antennas
  50. Resonant and non-resonant antenna, Reciprocity of antenna
  51. Current distribution of an antenna, Comparative study of antennas
  52. Radiation pattern E & H Plane – Polar & Cartesian Plots
  53. Directive gain, beam width (Half Power/10dB), front to back ratio,plane of polarization, side lobe level & angle.
  54. Antenna parameters: Antenna resonance, VSWR and bandwidth using directional coupler of : 25 ANTENNAS.

It can perform following:

  1. Design and Implement a complete real-time RF transmitter using Amplitude Modulation-Double Sideband suppressed carrier (AM-DSBSC) modulation scheme
  2. Design and Implement a complete real-time RF receiver using Amplitude Modulation-Double Sideband suppressed carrier (AM-DSBSC) modulation scheme
  3. Design and Implement a complete real-time RF transmitter link using Amplitude Modulation-
  4. Double Sideband with carrier (AM-DSBWC) modulation scheme
  5. Design and Implement a complete real-time RF receiver using Amplitude Modulation-Double Sideband with carrier (AM-DSBWC) modulation scheme
  6. Design and Implement a complete real-time RF transmitter using Narrowband Frequency Modulation (NBFM) modulation scheme
  7. Design and Implement a complete real-time RF receiver using Narrowband Frequency Modulation (NBFM) modulation scheme
  8. Design and Implement a complete real-time RF transmitter using Wideband Frequency Modulation (WBFM) modulation scheme
  9. Design and Implement a complete real-time RF receiver using Wideband Frequency Modulation (WBFM) modulation scheme
  10. Design and Implement a complete real-time RF transmitter using Amplitude Shift Keying (ASK) modulation scheme
  11. Design and Implement a complete real-time RF receiver using Amplitude Shift Keying (ASK) modulation scheme
  12. Design and Implement a complete real-time RF transmitter using Frequency Shift Keying (FSK) modulation scheme
  13. Design and Implement a complete real-time RF receiver using Frequency Shift Keying (FSK) modulation scheme
  14. Design and Implement a complete real-time RF transmitter using Binary Phase Shift Keying (BPSK) modulation scheme
  15. Design and Implement a complete real-time RF receiver using Binary Phase Shift Keying (BPSK) modulation scheme
  16. Design and Implement a complete real-time RF transmitter using Differential Binary Phase Shift Keying (DBPSK) modulation scheme
  17. Design and Implement a complete real-time RF receiver using Differential Binary Phase Shift Keying (DBPSK) modulation scheme
  18. Design and Implement a complete real-time RF transmitter using Quadrature Phase Shift Keying (QPSK) modulation scheme
  19. Design and Implement a complete real-time RF receiver using Quadrature Phase Shift Keying (QPSK) modulation scheme
  20. Design and Implement a complete real-time RF transmitter using Differential Quadrature Phase Shift Keying (DQPSK) modulation scheme
  21. Design and Implement a complete real-time RF receiver using Differential Quadrature Phase Shift Keying (DQPSK) modulation scheme
  22. Design and Implement a complete real-time RF transmitter using 8-PSK modulation scheme
  23. Design and Implement a complete real-time RF receiver using 8-PSK modulation scheme
  24. Design and Implement a complete real-time RF transmitter using D8-PSK modulation scheme
  25. Design and Implement a complete real-time RF receiver using D8-PSK modulation scheme
  26. Design and Implement a complete real-time RF transmitter using Gaussian Minimum Shift Keying (GMSK) modulation scheme
  27. Design and Implement a complete real-time RF receiver using Gaussian Minimum Shift Keying (GMSK) modulation scheme
  28. Design and Implement a complete real-time RF transmitter using Gaussian Frequency Shift Keying (GFSK) modulation scheme
  29. Design and Implement a complete real-time RF receiver using Gaussian Frequency Shift Keying (GFSK) modulation scheme
  30. Design and Implement a complete real-time RF transmitter using Quadrature Amplitude Modulation QAM-4 modulation scheme
  31. Design and Implement a complete real-time RF receiver using Quadrature Amplitude Modulation QAM-4 modulation scheme
  32. Design and Implement a complete real-time RF transmitter using Quadrature Amplitude Modulation QAM-16 modulation scheme
  33. Design and Implement a complete real-time RF receiver using Quadrature Amplitude Modulation QAM-16 modulation scheme
  34. Design and Implement a complete real-time RF transmitter using Quadrature Amplitude Modulation QAM-64 modulation scheme
  35. Design and Implement a complete real-time RF receiver using Quadrature Amplitude Modulation QAM-64 modulation scheme
  36. Design and Implement a complete Code Division Multiple Access (CDMA) system with a RF transceiver link
  37. Design and implement an Audio transmission and reception system using g721 codec and Frequency Modulation in real-time over a RF transceiver link
  38. Design and implement a Full Duplex audio transmission and reception using GSM-FR and DBPSK in real-time over a RF transceiver link
  39. Using u-law for a complete full duplex audio link design and implementation using DQPSK modulation in real-time over a RF transceiver link
  40. Video transmission and reception using GMSK with complete encoding and decoding in realtime over a RF transceiver link
  41. Full duplex audio and video transmission and reception using DQPSK in real-time over a RF transceiver link
  42. Design and implement a complete RF system using Digital Video Broadcasting(DVB) for audio and video transmission and reception
  43. Design and implement a GSM receiver to decode real-time GSM control channels
  44. Design and implement a GSM decoder with analysis in Wireshark for real-time traffic monitoring
  45. Design and implement a system to find the location of neighbouring GSM cell towers and map on Google Maps in real-time
  46. Design and Implement a complete RF transceiver link using OFDM
  47. Design and Implement a complete RF transceiver system to understand the concept of cyclic prefix in Orthogonal Frequency Division Multiplexing(OFDM)
  48. Design and Implement a complete RF transceiver system to understand the concept of receiver synchronisation in Orthogonal Frequency Division Multiplexing(OFDM) with different header and payload modulation
  49. Design and implement a system to demodulate 802.11 WiFi signals in real-time
  50. Design and implement a system to decode 802.11 signals in real-time and analyse the packets in Wireshark
  51. Design and implement a complete system to receive 802.15.4 signal with PHY, MAC and Network layer decoding
  52. Design and implement a complete transceiver system using 802.15.4
  53. Design and implement a complete interoperable transceiver system with WSN Telosb motes using 802.15.4
  54. Design and implement a system to practically demonstrate and understand the concept of frequency offset correction modern communication system over a RF link
  55. Design and implement a system to practically demonstrate and understand the concept of matched filtering and timing synchronisation in modern communication system over a RF link
  56. Design and implement a system to practically demonstrate and understand the concept of phase offset correction modern communication system over a RF link
  57. Design and implement a complete system over RF link to transmit and receiver file using different modulation schemes
  58. Design and implement a complete system over RF link to transmit and receiver image using different modulation schemes
  59. Design and implement a complete system over RF link to transmit and receiver music using FM and understand all the building blocks of the system
  60. Design and implement a complete full duplex system over a RF link to transmit and receiver text in a chat application
  61. Design and implement a complete system to transmit and receive a Pseudo Random Sequence over a RF link
  62. Design and implement a complete full duplex system to transmit and receive different Pseudo Random Sequences over a RF link simultaneously
  63. Design and implement a complete system to practically understand the channelizers over a RF link
  64. Design and implement a complete system to transmit and receive data via TCP over a RF link using different modulation schemes
  65. Design and implement a complete system to transmit and receive data via UDP over a RF link using different modulation schemes
  66. Design and implement a complete system to practically understand and demonstrate the concept of equalisers in a communication system
  67. Design and implement a system to improve the performance using Constant Modulus Algorithm (CMA) equalisers in a real-time transmission and reception scenario
  68. Design and implement a complete system to understand and demonstrate the concept of Forward Error Correction(FEC) in a communication system
  69. Design and implement a system to improve the performance using LDPC forward error correction in a real-time transmission and reception scenarios
  70. Design and implement energy detection based spectrum sensing in a real-time RF system for a cognitive radio network
  71. Design and implement a dynamic spectrum allocation mechanism based on real-time feedback for a cognitive radio network
  72. Design and implement the functionality of primary user in a cognitive radio network testbed with complete RF transceiver link
  73. Design and implement the functionality of secondary user in a cognitive radio network testbed with complete RF transceiver link
  74. Design and implement a complete cognitive radio network using real-time RF transceiver system
  75. Design and Implement a complete real-time RF transceiver link in the presence of a Rayleigh channel
  76. Design and Implement a complete real-time RF transceiver link in the presence of a Rician channel
  77. Design and Implement a complete real-time RF transceiver link in the presence of a AWGN channel
  78. Design and implement a system for real-time transmission of sensor information over a RF transceiver link using various modulations.
  79. Design and implement a real-time system for adaptive modulation transmission and reception over a RF transceiver link.
  80. Design and implement a real-time system using Convolutional Block Coding and Decoding over a RF transceiver link
  81. Design and implement a complete real-time RF transceiver link for bit error rate measurement in a system using Convolution Block Coding and Decoding
  82. Design and implement a real-time system using Reed-Solomon Coding and Decoding over a RF transceiver link
  83. Design and implement a complete real-time RF transceiver link for bit error rate measurement in a system using Reed-Solomon Coding and Decoding
  84. Design and implement a real-time system for Bit Error Measurement(BER) Measurement over a RF transceiver link
  85. Design and implement a system for real-time Bit Error Rate(BER) measurement using a BPSK modulated RF transceiver link
  86. Design and implement a system for real-time Bit Error Rate(BER) measurement using a DBPSK modulated RF transceiver link
  87. Design and implement a system for real-time Bit Error Rate(BER) measurement using a QPSK modulated RF transceiver link
  88. Design and implement a system for real-time Bit Error Rate(BER) measurement using a DQPSK modulated RF transceiver link
  89. Design and implement a system for real-time Bit Error Rate(BER) measurement using a 8PSK modulated RF transceiver link
  90. Design and implement a system for real-time Bit Error Rate(BER) measurement using a D8PSK modulated RF transceiver link
  91. Design and implement a system for real-time Bit Error Rate(BER) measurement using a ASK modulated RF transceiver link
  92. Design and implement a system for real-time Bit Error Rate(BER) measurement using a FSK modulated RF transceiver link
  93. Design and implement a system for real-time Bit Error Rate(BER) measurement using a GMSK modulated RF transceiver link
  94. Design and implement a system for real-time Bit Error Rate(BER) measurement using a GFSK modulated RF transceiver link
  95. Design and implement a system for real-time Bit Error Rate(BER) measurement using a QAM16 modulated RF transceiver link
  96. Design and implement a system for real-time Bit Error Rate(BER) measurement using a QAM64 modulated RF transceiver link
  97. Design and implement a real-time Broadcast Transmission Station using Amplitude Modulation(AM)
  98. Design and implement a real-time Broadcast Transmission Station using Frequency Modulation(FM)
  99. Design and implement a real-time system over a RF transceiver link to understand Carrier Acquisition using Phased Locked Loop(PLL)
  100. Design and implement a real-time system over a RF transceiver link to understand carrier frequency recovery and phase error tracking using Costas Loop
  101. Design and implement a system using Code Division Multiple Access(CDMA) over a real-time RF transceiver link to understand Processing Gain
  102. Design and implement a real-time system to explore the concept of complex signals over RF transceiver link
  103. Design and implementation of a system to explore the differences and improvement in Complex signals over real signals
  104. Design and implement a real-time system for AM Demodulation over a RF transceiver link using Envelope Detection
  105. Design and implement a system to improve the performance using Least mean squares Equalisation for ISI in a real-time transmission and reception scenario
  106. Design and implement a real-time system to explore the concept of Fading over a RF transceiver link
  107. Design and implement a real-time system to explore the concept of Multi-path channel over a RF transceiver link
  108. Design and implement a real-time system using Frequency Division Multiplex (FDM) over a RF transceiver link
  109. Design and implement a real-time system using Direct Sequence Spread Spectrum (DSSS)  over a RF transceiver link
  110. Design and implement a real-time system using Frequency Hopping Spread Spectrum (FHSS) over a RF transceiver link
  111. Design and implement a real-time system for Bit Error Rate(BER) measurement using Frequency Hopping Spread Spectrum (FHSS) over a RF transceiver link
  112. Design and implement a real-time system for Bit Error Rate(BER) measurement using Direct Sequence Spread Spectrum (DSSS) over a RF transceiver link
  113. Design and implement a real-time system for FM Demodulation over a RF transceiver link using Phased Locked Loop(PLL)
  114. Design and implement a real-time system to explore the concept of FM Deviation over a RF transceiver link using Phased Locked Loop(PLL)
  115. Design and Implement a complete real-time RF transceiver link using OQPSK modulation scheme
  116. Design and Implement a complete real-time RF transceiver link using pi/4-QPSK modulation scheme
  117. Design and Implement a complete real-time RF transceiver link using pi/4-DQPSK modulation scheme
  118. Design and implement a complete real-time RF transceiver link using Line Coding and Decoding
  119. Design and implement a complete system to transmit gaussian noise over a real time RF transceiver link
  120. Design and implement a complete system to transmit various noise types over a real time RF transceiver link
  121. Design and Implement a complete RF transceiver system to understand the concept of IFFT and application of time domain in Orthogonal Frequency Division Multiplexing(OFDM)
  122. Design and Implement a complete RF transceiver system to understand the concept of Peak to average power ratio(PAPR) in Orthogonal Frequency Division Multiplexing(OFDM)
  123. Design and Implement a complete RF transceiver system to understand the concept of Orthogonal Frequency Division Multiplexing(OFDM) Synchronisation
  124. Design and Implement a complete RF transceiver system to understand the concept of Orthogonal Frequency Division Multiplexing(OFDM) Channel Equalisation
  125. Design and Implement a complete RF transceiver system for Bit Error Rate(BER) measurement in Orthogonal Frequency Division Multiplexing(OFDM)
  126. Design and implement a real-time system to explore the concept of Pulse Shaping over RF transceiver link
  127. Design and implement a real-time system to explore the concept of Spread Spectrum signals over RF transceiver link
  128. Design and implement a real-time system using Time Division Multiplex (TDM) over a RF transceiver link
  129. Design and implement a real-time system using Trellis Coded Modulation (TCM) over a RF transceiver link
  130. Design and implement a real-time system to explore the concept of Trellis Gain in Trellis Coded Modulation (TCM) over RF transceiver link
  131. Design and implement a real-time system for measurement of Signal to Noise Ratio (SNR) over a RF transceiver link
  132. Design and implement a complete Transmitter system using Pulse Amplitude Modulation(PAM) and transmit over a RF transceiver link
  133. Design and implement a complete Receiver system for Pulse Amplitude Modulation(PAM) and receive over a RF transceiver link
  134. Design and implement a complete Transmitter system using Pulse Width Modulation(PWM) and transmit over a RF transceiver link
  135. Design and implement a complete Receiver system for Pulse Width Modulation(PWM) and receive over a RF transceiver link
  136. Design and implement a complete Transmitter system using Pulse Coded Modulation(PCM) and transmit over a RF transceiver link
  137. Design and implement a complete Receiver system for Pulse Coded Modulation(PCM) and receive over a RF transceiver link
  138. Design and implement a realtime system to receive GSM uplink channel
  139. Design and implement a realtime system to receive 3G WCDMA channels and explore the frequency and time domain characteristics of the signal
  140. Design and implement a realtime system to receive 4G LTE channels and explore the frequency and time domain characteristics of the signal
  141. Design and implement a realtime system to receive WiFi channels and explore the frequency and time domain characteristics of the signal.
Shipping List
No.List of Items Supplied with Antenna Training Lab Kit
Qty.

1ATS04 + SMPS + USB Lead1
2RG 316 Teflon SMA(M)-SMA(M) Cable2
3Coaxial Slotted Line + Termination + Open Load + Short Load+1.5GHz Dipole1
4Shaft Rod with Delrin Rod + Cube1
5Az-El Tripod + Extension Rod with Cube1
6Student’s Manual + Teacher’s Manual + E- Manual Installation Video with Antenna Plotting Software CD1
7Directional coupler + SMA(M)-SMA(M) Adapter1
8Current (H field) Probe
9Voltage(E Field) Probe1
10M3X6 + Screw Driver1
11SMA(M)-SMA(F) Attenuator 20 dB1
12Allen key set1
13RG 316 Teflon SMA(M)-SMA(M) Short Length Cable2
1450 Ohms Termination for ATS04 RF IN & RF OUT2

Tray

No.List of Items Supplied with Antenna Training Lab ATS04Qty.
1Microstrip Yagi1
2Microstrip Log Spiral1
3Microstrip Patch Transformer fed1
4Microstrip Dipole1
5Microstrip Log Periodic Dipole array1
6Microstrip Slot1
7Microstrip Right Circular Polarized Patch1
8Microstrip Left Circular Polarized Patch1
9Microstrip Spiral Slot1
10Microstrip Circular Patch1
11Microstrip Folded Dipole1
12Microstrip Endfire1
13Microstrip Broadside1
14Microstrip Inset fed Rectangular Patch1
15Microstrip Monopole1
16Microstrip Loop1
17Microstrip CPW Bow Tie1
18Microstrip Rectangular Patch array 2X21
19Microstrip Patch Dual array inset fed1
20Microstrip Reference Log Periodic1
21Microstrip Series Fed Patch array1
22Microstrip Leaky wave antenna1
23Microstrip Wideband Bow Tie Dipole antenna1
24Microstrip Vivaldi ( Planar Horn: Aperture Antenna)1
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