Showing all 9 results
PFO-E160A ANALOG FIBER OPTIC TRAINER
PFO-E160A
PFO-E160A ANALOG FIBER OPTIC TRAINER
SCOPE OF LEARNING:
• Voice transmission through optical fiber cable.
• To study transmitter circuit & calculate its output power
• To study receiver circuit & calculate its input power
• To study the attenuation of signal between transmitter & receiver end.
• Measurement of numerical aperture
PFO-E160B DIGITAL FIBER OPTIC TRAINER
PFO-E160B
PFO-E160B DIGITAL FIBER OPTIC TRAINER
SCOPE OF LEARNING:
• Setting up Fiber Optic Digital Link
• Study of Intensity Modulation Technique using Digital Input Signal
• Setting up of Propagation Loss in Fiber Optic Study of Bending Loss.
• Measurement of Optical Power using Optical Power Meter
• Measurement of Propagation loss using Optical Power Meter
•
PFO-E160C ANALOG-DIGITAL FIBER OPTIC TRAINER
PFO-E160C
PFO-E160C ANALOG-DIGITAL FIBER OPTIC TRAINER
SCOPE OF LEARNING:
• Setting up Fiber Optic Analog Link Setting up Fiber Optic Digital Link
• Study of Intensity Modulation Technique using Analog Input Signal
• Study of Intensity Modulation Technique using Digital Input Signal
• Setting up of Propagation Loss in Fiber Optic Study of Bending Loss.
• Measurement
PFO-E160D FIBER OPTIC TRAINER (NUMERICAL APERTURE, ATTENUATION LOSS, BENDING LOSS AND SPEED OF LIGHT)
PFO-E160D
PFO-E160D FIBER OPTIC TRAINER (NUMERICAL APERTURE, ATTENUATION LOSS, BENDING LOSS AND SPEED OF LIGHT)
SCOPE OF LEARNING:
• Study of Optical Sources Characteristics & Transmission
• Study Of DC Power Characteristics Of LASER And Optical Sources
• Study Of Losses In Optical Transmission Attenuation Losses
• Study Of Losses In Optical Transmission Bending Loss
• Study
PFO-E312 OPTICAL FIBER CHARACTERISATION WITH OPTICAL BREADBOARD KIT
PFO-E312
PFO-E312 OPTICAL FIBER CHARACTERISATION WITH OPTICAL BREADBOARD KIT
SCOPE OF LEARNING:
i. Study of total internal reflection in solids & refractive index measurement.
ii. To determine the mode of laser Beam.
iii. Determination of Fibre attenuation by cut-back method.
iv. Bending loss determination.
v. Splice loss determination. Loss at the fiber splice could originate from either
PFO-E312B FIBER OPTIC CHARACTERIZATION KIT (OPTICAL SOURCE CHARACTERISTICS AND POWER MEASUREMENT)
PFO-E212B
PFO-E312B FIBER OPTIC CHARACTERIZATION KIT (OPTICAL SOURCE CHARACTERISTICS AND POWER MEASUREMENT)
SCOPE OF LEARNING:
• Study of Optical Sources Characteristics & Transmission
• Study Of DC Power Characteristics Of LASER And Optical Sources
PFO-E449 FREQUENCY RESOPONSE OF OPTICAL RECEIVER AT DIFFERENT BANDWIDTH SCOPE
PFO-E449
PFO-E449 FREQUENCY RESOPONSE OF OPTICAL RECEIVER AT DIFFERENT BANDWIDTH SCOPE
SCOPE OF LEARNING:
• Study of Optical Sources Characteristics & Transmission
• Study Of DC Power Characteristics Of LASER And Optical Sources
• Study Of Losses In Optical Transmission Attenuation Losses
• Study Of Losses In Optical Transmission Bending Loss
• Study Of Frequency Response at Different
PFO-E477 FIBER OPTIC TRAINER (NUMERICAL APERTURE, ATTENUATION LOSS AND BENDING LOSS)
PFO-E477
PFO-E477 FIBER OPTIC TRAINER (NUMERICAL APERTURE, ATTENUATION LOSS AND BENDING LOSS)
SCOPE OF LEARNING:
• Study of Optical Sources Characteristics & Transmission
• Study Of DC Power Characteristics Of LASER And Optical Sources
• Study Of Losses In Optical Transmission Attenuation Losses
• Study Of Losses In Optical Transmission Bending Loss
• Study Of Losses In
PFO-E477A FIBER OPTIC TRAINER (NUMERICAL APERTURE, ATTENUATION LOSS, BENDING LOSS AND SPEED OF LIGHT)
PFO-E477A
PFO-E477A FIBER OPTIC TRAINER (NUMERICAL APERTURE, ATTENUATION LOSS, BENDING LOSS AND SPEED OF LIGHT)
SCOPE OF LEARNING:
• Study of Optical Sources Characteristics & Transmission
• Study Of DC Power Characteristics Of LASER And Optical Sources
• Study Of Losses In Optical Transmission Attenuation Losses
• Study Of Losses In Optical Transmission Bending Loss
• Study