Mounting structures are the backbone of a solar power plant as they provide support to modules. These support structures raise solar panels at appropriate angles to ensure that they receive maximum solar irradiation. Without these, solar panels are not able to capture the required quantum of solar radiation for optimum solar generation.
Designed for flat RCC Roofs. Pre-casted block will be fixed with roof using any cement bonding agent.
Features:
Easy to install with pre-casted ballasts.
Modular arrangement for additional capacity.
Better clearance from ground to module.
Made of MS with hot dip galvanised.
|
Field of Application |
Flat Roof or Small Open Ground with Adjustable Tilt Angle |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Vertical |
|
Material |
Aluminium and galvanized steel (Galvanisation: 80 micron) |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Designed Wind Speed |
170kmph |
|
Span Width (Centre to centre) |
3 - 4 Metres |
Designed for flat RCC Roofs. In this block and roof fixing is not required, structure weight is enough for the wind force.
Easy to install with pre-casted ballasts.
Modular arrangement for additional capacity.
Better clearance from ground to module.
Made of MS with hot dip galvanised.
|
Field of Application |
Flat Roof or Small Open Ground |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
Aluminium and Galvanized steel |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
3 - 4 Metres |
Designed for flat RCC Roofs or Ground. In this solution we need to cast fresh foundation with J-bolts on roof and pile foundation on ground.
Easy To Install With Pre-Casted Ballasts.
Better Clearance from Roof/Ground to Module.
Made Of MS With Hot Dip Galvanised And Aluminium Sections.
Applicable For both Roof As Well As Ground.
|
Field of Application |
Flat Roof or Ground Both |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
Aluminium and Galvanized steel |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
6 - 7 Metres |
Designed for Trapezoidal metal sheet shed roof. In this we can fix our modules along the Sheet with Aluminium Structure Solution.
Easy & Fast To Install With Pop Rivet Solution.
Modular Arrangement for Additional Capacity.
Better Clearance (100mm) From Sheet to Module.
Made Of Aluminium Material. So, Very Light Weight Solution.
|
Field of Application |
Trapezoidal Metal Sheet |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
Aluminium |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
2 - 2.2 Metres |
Designed for Standing Seam Metal Sheet Shed Roof. In this we can fix our modules along the sheet with aluminium structure solution.
Easy & Fast To Install With SS Screws Solution.
Modular Arrangement for Additional Capacity.
Made Of Aluminium Material.
No Penetration Required For This Sheet.
|
Field of Application |
Standing Seam Metal Sheet |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
Aluminium |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
2 - 2.2 Metres |
Designed for Trapezoidal/ Standing Seam Metal Sheet Shed Roof with Additional Tilt on Sheet. In this we can fix our Modules with Tilt up to 15 degrees. Here, Structure will be fixed with Purlins using Self-Tapping Screws.
Easy & Fast to Install with SS Screws Solution.
Modular Arrangement for Additional Capacity.
Made of Aluminium Material.
Provide Additional Tilt, Which Results Better Generation.
|
Field of Application |
Metal Sheet |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
Aluminium |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
2.5 - 3 Metres |
Designed for Car Parking area. In this, minimum height of module from ground will be 2.5 metre. This can be used for Electric Vehicle Charging Station too.
Best and Economical Solution for Car Parking.
Designed Under Class-A Category.
Minimum Clearance 2.5 metre from Ground.
Better Clearance in Poles to accommodate Minimum Two Cars Side By Side.
|
Field of Application |
Ground Mounted |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
MS Hot Dip Galvanised/ Aluminium |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
As Per Requirement |
|
Module Tilt Angle |
10 ''15 Degree |
Designed for flat RCC roofs, where roof can be used for dual purpose. In this solution minimum height of module from roof will be 3 metre. Under module space can be used for any secondary work also.
All Load Transferred to Columns Instead of Roof Slab.
Roof Space (Under Modules) Can Be Utilised For Any Secondary Purpose.
Clearance 3 '' 4 metre from Roof Level.
|
Field of Application |
Roof Mounted |
|
PV Modules |
Suitable for all standard module types |
|
Module Orientation |
Horizontal/ Vertical |
|
Material |
MS Hot Dip Galvanised/ Aluminium |
|
Connecting Elements |
Stainless steel screws and aluminium clamps |
|
Span Width (Centre to centre) |
As Per Requirement |
|
Module Tilt Angle |
10'' 15 Degree |
The ACDB (Alternative Current Distribution Box) panel receives the AC Power from the solar inverter and directs it to AC loads through the Distribution Board. ACDB includes necessary Surge Protection Device (SPD) and MCB/MCCB to Protect the Solar Inverter from any type of damage or Heavy Voltage. Generally, Specification of ACDB may change as per load or inverter Capacity. ACDB is also called AC Solar Combiner Box.
|
Ambient Temperature |
-10 Degree to 60 Degree Celsius |
|
Type of Enclosure |
IP66 Polycarbonate Material |
|
Inputs/ Outputs |
Single Phase ACDB, 3 Phase DCDB |
|
AC Switching |
MCCB/ MCB Based AC Disconnection |
|
Surge Protection |
AC SPD Type 2 |
|
Box/ Top Cover |
Opaque/ Transparent |
DCDB (Direct Current Distribution Box) panel is used to protect the system if there is any fault during failure in DC side. It is an important part of SPV system as there should be adequate protection in DC side. The DCDB incorporates isolator/Breaker to switch off the system during fault, there is a meter which tells you exact PV array voltage and current you are getting. It also have surge protection to save your system from any surges occurred due to fault or other phenomenon.
|
Ambient Temperature |
-10 Degree to 60 Degree Celsius |
|
Type of Enclosure |
IP66 Polycarbonate Material |
|
Inputs/ Outputs |
1 in 1Out, 2 in 2Out, 3 in 3Out, 4 in 4Out |
|
DC Switching |
600/1000/1500VDC Disconnection |
|
Surge Protection |
DC SPD Type 2, Fuse with or without Indications |
|
Box/ Top Cover |
Opaque/ Transparent |
Mounting structures are the backbone of a solar power plant as they provide support to modules. These support structures raise solar panels at appropriate angles to ensure that they receive maximum solar irradiation. Without these, solar panels are not able to capture the required quantum of solar radiation for optimum solar generation.
Measurement of Solar Irradiance (GHI/TILT/INPLANE) FOR SOLAR PV PLANT
Silicon irradiance sensors (Si sensor) show a cost effective, but rugged and reliable solution for the measurement of solar irradiance, especially for the monitoring of Photovoltaic (PV) systems.
Based on the construction of the sensor element corresponding to a PV module they are ideal as reference for the monitoring of PV systems.
Especially the spectral response comparable to PV modules as well as the similar inclination error (incident angle modifier) allow an exact analysis of PV energy yields using Si sensor data.
|
Solar cell |
Monocrystalline silicon (50 mm x 33 mm) |
|
Irradiance Signal |
0...1500 W/sqm |
|
Operating temperature |
-35°C |
|
Electrical connection |
3 m shielded cable |
|
Load impedance for Si-01TC-batt |
minimal 1 M |
|
Load impedance for Si-01TC and -TC-T and Si-13TC |
min. 10 k |
|
Load impedance for Si-420TC and -TC-T |
minimal 20 and maximal 400 |
|
Case, protection mode |
Powder-coated aluminium, IP 65 |
|
Dimension, weight |
155mm x 85mm x 39mm, approx. 350 to 470 g |
|
Protocol |
MODBUS RTU (type -MB) |
|
Interface |
RS485 up to 38.4 kBaud |
|
Galvanic isolation |
1.000 V between power supply and bus |
|
Measurement Uncertainty |
with temperature compensation is 5 W/sqm ± 2.5% of reading |
|
Sensor Type |
Supply |
Temperature Compensation |
Irradiance Signal 0-1500 W/sqm |
Cell Temperature Signal -40...+90C |
|
Si-V-1.5TC-batt |
Internal Li-Battery |
yes |
0...1.5 V |
--- |
|
Si-V-1.5TC |
4...28 Vdc |
yes |
0...1.5 V |
--- |
|
Si-V-1.5TC-T |
5.5...28 Vdc |
yes |
0...1.5 V |
0...2 V |
|
Si-mV-85 |
none |
no |
0...approx. 85 mV |
--- |
|
Si-mV-85-Pt100 |
none |
no |
0...approx. 85 mV |
Pt1000 |
|
Si-I-420TC |
12...28 Vdc |
yes |
--- |
4...20 mA |
|
Si-I-420TC-T |
12...28 Vdc |
yes |
4...20 mA |
4...20 mA |
|
Si-V-10TC |
12...28 Vdc |
yes |
0...10 V |
--- |
|
Si-13TC-ISO |
12...28 Vdc isolated |
yes |
0...10 V |
--- |
|
Si-V-10TC-T |
12...28 Vdc |
yes |
0...10 V |
0...10 |
|
Si-RS485TC-T |
12...28 Vdc |
yes |
RS485 |
RS485 |
|
Si-RS485TC-2T 1 |
12...28 Vdc |
yes |
RS485 |
RS485 |
|
Si-RS485TC-T-Tm 2 |
12...28 Vdc |
yes |
RS485 |
RS485 |
|
Si-RS485TC-2T-v 3 |
12...28 Vdc |
yes |
RS485 |
RS485 |
for Si-RS485TC-2T: Fixed connected ambient temperature sensor Pt1000 with 3 m cable
WIND SPEED & WIND DIRECTION SENSOR
We offer wind-direction and wind-speed indicators available in a number of different designs. The product palette ranges from simple low-cost devices to high-quality and robust sensors with outstanding price-performance ratios, as well as highly accurate precision sensors. All of the models are available with various output signals, such as pulse signals, analog signals (mA or V), resistance signals or RS485 interfaces.
|
WIND SPEED |
|
|
Measuring Range |
Max. 50 to 75 m/s |
|
Error |
1% to 5% |
|
Output Signal |
- Impulse (Reed-Relais, Open Collector) - 1, 5 or 10 V - 0...20 mA, 4...20 mA - RS485 |
|
Versions |
- Cupstar Anemometer - Ultrasonic |
|
WIND DIRECTION |
|
|
Measuring Range |
10...350 to 0...360 |
|
Error |
2...5 |
|
Resolution |
0.5...45 |
|
Versions |
- Gray-Code 2, 3 or 4 bit (Open Collector) - 8 bit serial - Resistance - 1, 5 or 10 V - 0...20 mA, 4...20 mA - RS485 |
|
Version |
- Wind Vane - Ultrasonic |
Our PV Module temperature sensors come equipped with a adhesive housing and a robust weatherproof cable. Thanks to the use of top quality components the sensors achieve very high accuracy and are ideal for use in industrial and field (PV module temperature) environments. If required, the sensors can be ordered with an inspection certificate 3.1 as per DIN EN 10204. There is both a back of module temperature sensor and an ambient temperature sensor. Both models are now available in various signal output types to match your monitoring and data logging needs. Available sensors are: 0-10VDC, 4-20 mA, and RS485 Modbus outputs.
|
Type |
Supply |
Output Signal |
Measuring Range |
|
Tmodul |
--- |
Pt100 |
-50...+150C |
|
Tm-Pt1000 |
--- |
Pt1000 |
-40...+90C |
|
Tm-Pt1000-box1 |
--- |
Pt1000 |
-40...+90C |
|
Tm-V-4090 |
12...28 Vdc |
0...10 V |
-40...+90C |
|
Tm-I-4090 |
12...28 Vdc |
4...20 mA |
-40...+90C |
|
Tm-RS485 |
12...28 Vdc |
RS485 |
-40...+90C |
|
Tmodul10-ISO |
12...28 Vdcà isolated |
0...10 V |
-40...+90C |
for Tm-Pt1000-box: Preconfigured with Aluminium case with clamps inside for four wire connection.
|
Sensor Element |
Pt100 Class B as per EN 60751 |
|
Sensor Housing |
Silicone rubber patch, 40 mm x 13 mm x 5 mm |
|
Weight |
appr. 35 g |
|
Operating Condition |
-50 to +150C |
|
Sensor Cable Length |
2 m, PTFE |
Tamb-Si : External Temperature Sensor for Si-RS485TC-2T-v
Our ambient temperature sensors come equipped with a stable aluminium housing and a robust weatherproof cable. Thanks to the use of top quality components the sensors achieve very high accuracy and are ideal for use in industrial and field (PV module temperature) environments. If required, the sensors can be ordered with an inspection certificate 3.1 as per DIN EN 10204. There is both a back of module temperature sensor and an ambient temperature sensor. Both models are now available in various signal output types to match your monitoring and data logging needs. Available sensors are: 0-10VDC, 4-20 mA, and RS485 Modbus outputs.
|
Type |
Supply |
Output Signal |
Measuring Range |
|
Ta-Pt100 |
--- |
Pt100 |
-40...+80C |
|
Ta-Pt1000 |
--- |
Pt1000 |
-40...+80C |
|
Tm-V-4090 |
12...28 Vdc |
0...10 V |
-40...+90C |
|
Tm-I-4090 |
12...28 Vdc |
4...20 mA |
-40...+90C |
|
Ta-ext-RS485 |
12...28 Vdc |
RS485 |
-40...+90C |
|
Tamb10-ISO |
12...28 Vdcà isolated |
0...10 V |
-40...+90C |
|
Types Ta-Pt100 / Ta-Pt1000 |
Sensor Element Pt100 / Pt1000 Class A as per EN 60751 |
|
Sensor Housing |
Stainless Steel Jacket, Diameter 6 mm, Length 23 mm |
|
Case Material |
Powder Coated Aluminium |
|
Case Dimension / Protection Level |
64 mm x 58 mm x 34 mm / IP 67 |
|
Weight |
appr. 260 g |
|
Operating Condition |
-40 to +80C |
|
Sensor Cable Length |
3 m, PUR coated, shielded (LiYC11Y) |