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SIVACON 8PS TRUNKING SYSTEMS
LDM-P system

LDM-P_0.png

Cost-efficient and safe link between transformers and inverters in photovoltaic stations

Sustainable power distribution in solar applications

Photovoltaic stations (PV stations) are characterised by a high power volume in the smallest space. Furthermore, such stations must ensure a high availability and operational safety while at the same time keeping maintenance requirements as low as possible. And, not the least, the corre- sponding modules shall be produced in large quantities in a standardised way optimised for production. Especially for high currents, busbar trunking systems have prevailed as an efficient, safe, and standard-compliant alternative to classical cables in many areas of application.

With the LDM-P system, Siemens now also opens up the characteristic potentials of this technology for photovoltaic stations.

Equally, the use for further container solutions is possible, in which the busbar trunking system is mounted in a protected way.

Proven solution, further developed

The LDM system – originally designed for wind turbines – was developed further
for specific applications. One innovation of the LDM-P versions lies in the fact that this system, which was conceived for use in closed stations, works without housings.

It is designed for current ratings up to 7,000 A.

As the connections between the busbar and the transformer on one side or the converter on the other side are not standardised, every LDM-P application is a customer- specific solution.

Advantages for efficient use

Three advantages predestine busbar trunking systems for use in photovoltaic stations: efficient power transmission at high currents, low fire load, and the high safety standards of a design verified low-voltage switchgear and controlgear assembly in accordance with IEC 61439. In addition, material costs for aluminium are below those for copper cables. The LDM-P busbar trunking system now offers a corresponding solution especially for OEMs in the solar industry.

LDM-P_1.jpg

Connection piece, on the transformer side

LDM-P_2.jpg

Straight length between inverter and transformer

System

LDM-P13  LDM-P14. LDM-P16  LDM-P24. LDM-P36

Regulations and standards

IEC/EN 61439-1/-6

Rated operational voltage Ue

1,000 V

Rated current Inc. [A]                                 @35°

PE conductor

no

LDM-P_3.jpg
LDM-P_4.jpg
LDM-P_5.jpg

Degree of protection

Housing

Short-circuit rating

Rated short-time withstand

current 0.1 s.                                                Icw

                                                                     Ipk

Ambient temperature

Cross-section per phase [mm2]

Weight [kg/m]

Dimensions (incl. supports). [mm]                W

                                                                          D  

Drawing (schematic sketch)

                                                                      @50°

1800          2500          2900          4200          7000 

1600          2300          2700          3900          6600

IP00

Without housing (protection of persons must be

ensured by measures on site)

105 kA

50 kA

min. -5° C/max. 45° C

698          1014         1203         2028         3609

~8.5        ~11.5         ~13           ~20           ~33

244                                            301           358
191

Size 1                                        Size 2       Size 3

Technical data

Busbar coating
Epoxy
19
Insulation
Air-insulated
18
Mounting Position
Vertical, horizontal
17
Standards
IEC 61439-1/-6
16
Housing material
-
15
Conductor material
Aluminium
14
Connection technology
Single-bolt clamped connection with hook and bolt connection
13
Data transmission
-
12
Tap-off unit
-
11
Tap-off point
-
10
Fire load (per tap-off point)
-
9
Fire load
Depending on the application
8
Number of conductors
3 to 9 conductors
7
Rated short-time withstand current Icw (1s)
50 kA
6
Rated peak withstand current Ipk
105 kA
5
Rated current InA
1,800 A to 7,000 A
4
Degree of protection
IP00
3
Rated operational voltage Ue
1,000 V AC
2
Rated insulation voltage Ui
1,000 V AC
1

התועלת שלך

  • בטיחות לאנשים ולצמחים

  • באמצעות אימות תכנון עם בדיקות לפי

  • IEC 61439-2

  • בטיחות אישית ומפעל במקרה של קשתות באמצעות בדיקות לפי IEC/TR 61641

  • גמישות גבוהה הודות לעיצוב מודולרי חדשני

קבצים להורדה

הורד עכשיו

CHECKLIST

IEC 61439

Project Checklist

PARTNERSHIP

SIVACON S8

Technology Partner

SII ORG

License to mark SIVACON S8 with the "Standard Mark"

IEEE ORG

License to mark SIVACON S8 with the "Quality Mark"

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