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Solar Technology Trainer (Model : XPO-STT)

This comprehensive solar photovoltaic (SPV) experimentation system offers three distinct models, catering to various educational needs. The basic model includes the ST1 panel mounted in a rack, ST3, EMT8, and EMT9 panels, along with a 500W lamp. The NISE/DGET compliant model expands upon this with additional components, and the advanced model further integrates the basic and compliant models, introducing the ST2 panel and a Peltier module. The system is housed in a tiltable, lockable aluminium profile modular flat demo panel rack with a 0-90° tiltable frame, accommodating various SPV modules. It employs a 1000W halogen lamp as a variable intensity sun simulator for experimentation. The setup supports NISE/DGET curriculum-based laboratory experiments, enabling students to explore renewable energy basics, energy conservation, charge controllers, and storage systems.

SALIENT FEATURES:

  • i) Basic model consisting of ST1 panel mounted in rack above (without Peltier module) + ST3 + EMT8 & EMT9 panels + 500W lamp.   ii) NISE/DGET compliant consisting of SPV stands (2 nose) with EMT8, EMT9 & Optimised rack with Rheostat + EMT68 (2 nos.) + ST3 +ST4 + EMT6 + ST5 + EMT7 + ST4A (Optional).
    iii) Advanced model consisting of (ii) above + ( i ) (with Peltier module) and ST2 panel.
  • Table top aluminium profile modular flat demo panel rack with tiltable lockable frame 0-90° in steps to mount various types of SPV modules. Employs 1000W halogen lamps as variable intensity sun simulator.
  • NISE/DGET curriculum based laboratory experiments supported. Useful for laboratory experimental learning by students in renewable energy basics, energy conservation, charge controller, storage system etc.
  • Optional single phase (Stand alone or Grid tied) inverter to demonstrate power export using bidirectional multifunction meter.
  • Closed loop temperature control using Peltier module to study temperature effect on solar cell characteristics.
  • Panels ST1 and ST2 facilitates understanding of underlying physics by measuring carrier life time & spectral response of a solar cell & calibration. Removes dependance on costly pyranometer through use of calibration. Certificate from NISE delhi for solar cell supplied.(optional)
  • Optionally table top electro-scope and hand held solar power meter are supplied.
  • Optionally PC interface provided.
  • Set of Instructor Guide & Student Workbook.

Technical Specifications

A) Solar cell experiment setup, needs three panels
Consists of table top aluminium profile rack (30×30) size:- 970(H)x 700(W) x 300(D) holding various panels

Solar cell experiment panel (ST1)- 1 No.

  • Mounted on horizontal member.
  • 50 x 50 mm x 2 nos. crystalline silicon solar cells (3V/150mA) mounted in aluminium tray with heatsink and fan.
  • Loading pots (500E and 5K).
  • Series & parallel combination arrangement.
  • Optionally cell temp controlled by Peltier module (40W), Foil type Pt100 sensor to measure temperature, 12Vdc cooling Fan to maintain heatsink temp (Range 15 C – 75 C)

Instrumentation power supply cum multichannel DPM panel (EMT8)- 1 No.

  • DC Multi Output power supply.
  • Provides 1 Ph. AC supply through 3 MCB’s, 4Aeach to power up other panels in the rack.
  • Multi channel DPM for temperature display.
  • 20 pin FRC power bus to supply power to neighbouring
  • Green shrouded socket provided to extend earth

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