LASER FIBER OPTIC TRAINER manufacturer in india
SCOPE OF LEARNING:
1. Characterization of a Laser Diode
a. Characterization of a Laser Diode (LD)
b. Optical Power Output vs. LD Forward Current (Threshold Current)
c. Monitor Photodiode Current vs. Optical Power Output
2. Study of ACC Mode of Operation
3. Study of APC Mode of Operation
4. Design and Evaluation of an LD Analog Intensity Modulation (IM) system a. Vo vs. Vin at Specified Optical Carrier Power Levels, Po b. Determination of Vin (max) at Specified Po for Distortion free Vo c. Comparison of Automatic Current Control (ACC) and Automatic Power Control (APC) IM Systems
5. Design and Evaluation of an LD Digital Transmission System
6. Transmission of Laser through an Optical Fiber
a. Study with Step-Index Multimode Plastic Fiber Patch cord
b. Study with Graded -Index, Multimode Glass Fiber Patch cord
c. Study with a Mechanical Splice Connecting the Above Two Patch cords
7. FO Numerical Aperture Measurement a. NA of PMMA Fiber b. NA of Glass Fiber
8. Setting up Fiber Optic Digital Link.
9. Forming PC to PC Communication Link using Optical PMMA & RS-232 Interface. Lash Card
LASER FIBER OPTIC TRAINER manufacturer in india
SCOPE OF LEARNING:
1. Characterization of a Laser Diode
a. Characterization of a Laser Diode (LD)
b. Optical Power Output vs. LD Forward Current (Threshold Current)
c. Monitor Photodiode Current vs. Optical Power Output
2. Study of ACC Mode of Operation
3. Study of APC Mode of Operation
4. Design and Evaluation of an LD Analog Intensity Modulation (IM) system a. Vo vs. Vin at Specified Optical Carrier Power Levels, Po b. Determination of Vin (max) at Specified Po for Distortion free Vo c. Comparison of Automatic Current Control (ACC) and Automatic Power Control (APC) IM Systems
5. Design and Evaluation of an LD Digital Transmission System
6. Transmission of Laser through an Optical Fiber
a. Study with Step-Index Multimode Plastic Fiber Patch cord
b. Study with Graded -Index, Multimode Glass Fiber Patch cord
c. Study with a Mechanical Splice Connecting the Above Two Patch cords
7. FO Numerical Aperture Measurement a. NA of PMMA Fiber b. NA of Glass Fiber
8. Setting up Fiber Optic Digital Link.
9. Forming PC to PC Communication Link using Optical PMMA & RS-232 Interface. Lash Card
SALIENT FEATURES:
• 660nm Transmitter.
• 1Nos. Of Photo Detector.
• On-board Sine & Square wave generator:10Hz-10KHz
• On-board 4th Order Low Pass Filer. 2 Nos.
• In-Built DC Regulated Power Supply.
• Front Panel Built With High Class Insulated Printed Circuit Board Sheet With Well Printed Circuits And Symbols.
• Fuse For Short Circuit Protection
• Instruction Manual.
• Connections are brought out through 2mm Brass Sockets.
• Patch Cords 2mm.
• The trainer is housed in ABS Plastic cabinet.
• Size of the trainer set 12”x10”
PACKING LIST:
• OPTICAL POWER METER
• LASER OPTIC FIBER TRAINER
• NUMERICAL APERTURE ZIG
• FIBER CABLE 1MTR. AND 3MTR.
• MANUAL
• PATCH CORDS
• PC-PC COMMUNICATION (DRIVERS)
OPTIONAL ACCESSORIES:
• CRO
LASER FIBER OPTIC TRAINER manufacturer in india
TECHNICAL SPECIFICATIONS:
• Transmitter Fiber Optics Laser Diode having peak wavelength of emission 660nm.
• Receiver Fiber Optic photo detector
• On-board Analog & Digital Drivers.
• On-board AC Amplifiers.
• Analog Band Width 350 KHz
• Digital Band Width 2.5 KHz
• 4 order Butter worth 3.4KHz Low Pass Filter
• On-board 10Hz. To 10 KHz sine wave (amplitude adjustable), square wave Selectable.
• FO voice link using microphone & speaker
• RS-232C PC to PC Serial Link using 9 pin D-Connector.
• Fiber Optics Cable Connector type Standard SMA.
• Duly polished fiber at both end for Numerical Aperture Measurement.
• Step indexed multimode PMMA plastic cable.
• Numerical aperture Better than 0.5.
• Acceptance Angle Better than 60
• Fiber Diameter 1000 microns.
• Outer Diameter 2.2mm.
• Fiber Length 1m and 3m
• In-Built Power Supply +5V/1.5A, ±12V/250mA.
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