Type
Piled (P)
Module direction
Single axis (1AT)
Module layout
East-west (EW)
Installation
Vertical (V)
Number of piles
1
DESCRIPTION
Mechanics:
Strength verification of structure parameters carried out
by a specialist laboratory.
Various tracker lengths available to suit specific number of
strings, and the selection of number and length of the trackers
is individually carried out for each project.
Design assumptions implemented according to the DFA
methodology (Designed for Assembly).
Split adaptive bearings adjust its position to variable thermal or
geometric deformations of the supporting beam.
The use of an intermediate purlin to increase the central support
surface of the load-bearing purlin connected to the PV panel.
Drive leg is in the same axis as the support columns (the length
of the support columns is selected individually, depending on
the geographical and geological conditions of the project)
Standardization of structural elements.
Optimization of screw connections.
Controls:
Device is using an advanced astronomical algorithm to control
the position of the panels in relation to the current position of
the sun
Intuitive installation and startup configuration system.
Configurable alarm and notification management.
Backward algorithm that prevents and minimizes row shading
Zigbee® wireless communication system, or wired RS-485
Remote monitoring and preventive maintenance to reduce
installation downtime (easy integration with SCADA system in
the Modbus TCP/IP standard)
Possibility of individual configuration of the tracker operation
depending on the order of rows and terrain slope
Safety system against excessive wind speed (safe positioning
of PV panels).
Possibility of using various service modes related to the position
of the panels, e.g. snow removal, cleaning.
Possibility to use a snow level detector.
Possibility of current and historical verification of installation
parameters via cloud data storage.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
1
Central drive
RBTSOLAR-1AT-TGB-CD
2
Secondary beam
RBTSOLAR-1AT-SB
3
Central IPE 160 drive column
RBTSOLAR-1AT-CD-C
4
Beam connector
RBTSOLAR-1AT-B-C
5
TCU controller
RBTSOLAR-1AT-P4Q-CTR
6
Main beam
RBTSOLAR-1AT-MB
7
Damper upper arm
RBTSOLAR-1AT-D-UA
8
Main beam bearing
RBTSOLAR-1AT-TGB-MB-B
9
Damper low joint
RBTSOLAR-1AT-D-LJ
10
Main column
RBTSOLAR-1AT-MC
11
Purlin
RBTSOLAR-1AT-JST
12
Purlin runner
RBTSOLAR-1AT-JST-R
13
Purlin joint
RBTSOLAR-1AT-JST-J
14
Damper
RBTSOLAR-1AT-TGB-D
CHARACTERISTICS
T-P-1AT-EW/V/1P
Construction base
Ground
Method of mounting
Piled (P)
Type of construction
Tracker (T), single axis (1A)
Module orientation
East-west (EW)
Module layout
Vertical (V)
PV module length (MAX)
2300
Type of tracking
Automatic, horizontal1
1
Tracking algorithm
Direct astronomical patterns; Tracking precision = 2,0°2
Rotation range
±60°
Ground cover factor
Any configuration determined by the customer (from 32% to 50%)
PV module compatibility
Standard/Bifacial
Drive system
1 independent horizontal rotation drive per 1 tracker
Modules per tracker
max 60 (individual configuration possible)
Power supply
dedicated photovoltaic modules + 230V AC 50/60 Hz3 battery
Communication
Zigbee® wireless (or wired RS-485) communication system
Monitoring
Modbus TCP/IP, possibity of integration with SCADA system
Adaptation to the slope of terrain
up to 6% in N-S direction
Wind resistance
1) Up to 80 km/h in any given position
2) Up to 140 km/h in horizontal or any position configured as neutral
2) Up to 140 km/h in horizontal or any position configured as neutral
Method of distribution
Individual order
FR-W-US-S/V/LAZ
Rodzaj dachu1
Dach płaski (FR)
Rodzaj dachu1
Dach płaski (FR)
MAX-LONG2100
MAX-LONG2300
MAX-LONG2500
Rodzaj dachu1
9,76
9,76
9,76
Rodzaj dachu1
9,76
9,76
9,76
1 Recommended alignment of the tracker axis along the north-south direction.
2 Possible individual adjustment of traction to the topography of the terrain.
3 Possibility of UPS usage.
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