Substructure for Solar Power Plants


Increase Your Land Yield by 225%

The PEG® provides a unique simplified high-density ground mount solution that produces 225% more land yield versus trackers and fixed tilt systems. The low profile 8-degree tilt design requires minimal spacing between modules creating an ocean of solar panels.
The PEG® is very mobile, light weight, simple to install with only hand tools, no DC trenching, no foundations, no concrete and requires minimal land giving you flexibility of choosing where to install. The PEG® provides a more sustainable solution for solar at a significantly reduced CAPEX.

Simplified Design

Design of PEG Solar Power Plant

Efficiency Improvement

Yield of PEG Solar Power Plant
Working Hours PEG Solar Power Plant
PEG Solar Logistic

Cost Reduction

Reduced machine costs for solar power plants
less machine costs
Reduced logistic costs for solar power plants
less logistic costs

PEG® Advantages at a Glance

  • 225% improved land yield versus leading trackers and fixed tilt
  • Low profile avoids shading and maximizes land utilization
  • Designed in Germany to be simple and minimize CAPEX
  • Aerodynamic proofed design up to 257 km/h (160 mph) winds
  • Hand tools only (no heavy machinery required)
  • Fast and easy mobilization
  • No foundations
  • No DC trenching
  • Integrated wire management
  • Reduced install times (50% versus trackers)
  • Preserving resources: up to 50% lower raw material usage (steel, power cables), resulting in a better CO2 balance
  • Highest point is 1 meter (3.3 feet) leading to improved H&S
  • Low profile means less pushback from neighbors for permitting
  • Simplified dismantling after project life

pv magazine PEG Webinar

PEG documents available upon request

Case Studies, Bankability Report and Carbon Footprint report

Info for Project Developers

Approved Modules


Brochure PEG Racking system

PEG Substructure

Overview PEG Racking system

PEG Substructure

Reference list PEG racking system

Reference List
PEG Substructure

Overview PEG SD


Gal-In PEG Module Cleaner

Solar Racking System Request

Form for statics
PV substructure

Overview French
PEG Substructure

Image Gallery

solar power plant barcaldine Barcaldine, Australia Solar plant Suhlendorf Suhlendorf, Germany Solar plant Dareton Dareton, Australia Solar power plant Lembruch Lembruch, Germany Solar power lant Mesilot Mesilot, Israel Solar plant Belvedere Maastricht, Netherlands PV Module Mounting Module Mounting Solar plant Huanguelen Huanguelen, Argentina Rod Ramming Rod Ramming Australia Australia Solar plant Dareton Dareton, Australia Installation of PV Modules Installation, Australia Baroota, Australia Hessenport, Netherlands PEG rods for Solar power plant PEG Rods Solar plant in Oman Adam, Oman Reinsdorf Solar power plant Reinsdorf, Germany


Nir Dekel

Nir Dekel

Head of Sales
+972 54 994 6666
Herbert Heidel

Herbert Heidel

Matthew Lusk

Matthew Lusk

USA, Canada
+1 209 2475658
Amit Chheda

Amit Chheda

Rooftop & cabling - India
+91 9167775740
Abhishek Deshpande

Abhishek Deshpande

Asia, Africa, Middle East
+91 22 4968 9797
Juan Ramos

Juan Ramos

Spain, Mexico, Central and South America
+49 160 90668416
+34 640 236863
Yoni Ben Mazia

Yoni Ben Mazia

+972 54 7714967
Christophe Heriau

Christophe Heriau

+33 6 13 61 01 48

Internal Sales Service & Project Management

Andrea Vidoni

Andrea Vidoni

Project Manager
+49 9369 98229-6604

* Explanation of key figures:
MWp/ha: Referring to the complete DC area, including the gaps between the DC blocks/tables
kWp/man-hour: Time for complete installation of a PEG solar power plant incl. inverter stations
MWp/container: Only the substructure
Machine costs: Referring to all machines for the installation of the DC system, compared to a conventional substructure
Labor costs: Labor for complete installation of the PEG solar power plant, incl. inverter stations, compared to a conventional substructure
Logistic costs: All, including machinery and labour, to the site and onsite, compared to a conventional substructure
All figures are indicative, may differ regionally and assuming the use of 380-400W modules

Jurchen Technology GmbH, Meralli Projects PTY Ltd, Belectric GmbH, Volta Solar BV

All data may subject to alterations and errors.