Please read the instructions carefully!

Explanations of pole names and their locations are provided below.

GENERAL REQUIREMENTS:
The map must include a main MV (medium voltage) line running through the entire map, terminating and beginning only beyond its boundaries. From the main line's branch poles (R[]K), we run branch lines to the transformer station, from which the LV (low voltage) lines run. If we want to run a branch line from a P (through) pole, we use an RPK pole; if from a PS pole, we use an RPSK pole, etc. After placing the conductors, we need to place terminals on them, and then wires on the terminals, just like on the poles in the package (if you consider them unnecessary, additional wires with branch terminals can be removed; however, we do not remove other wires, such as additional wires on PS poles). Where the line runs straight, without bends, and the wires on either side of the pole don't hang over a paved road or buildings, we use a through pole (slupP). Where the wires on at least one side of the pole hang over the aforementioned road or buildings, we must use a through-crossing pole (slupPS). Where the line changes direction, we must use a corner pole (slupN) or corner support pole (slupON). To achieve the proper rotation of this pole, you need to determine how many degrees the line should change direction. After you have at least one pole positioned on the curve, you need to rotate the corner pole by half the designated value in the opposite direction (e.g., the line previously had a direction of 0 degrees, now it has a direction of 30 degrees, so the change is 30 degrees, and the pole on the curve will have a rotation of 15 degrees, etc.). On ON poles, you also need to rotate the guy chains by half the previously determined value in the appropriate directions. Conductors on ON poles must be selected manually by opening the group with the guy chain. You can rotate the conductor independently of the chain after rotating it in the appropriate direction. The Np pole support should be on the side where the line turns, and the No pole guy should be on the opposite side of the curve. The secondary line must have at least one pole with a disconnector (slupOr or slupONr). The distance between MV poles should be 100m (the length of the dedicated cable), except for branch lines leading to weak branch poles (R[]Ks), where an O (resistance pole)/ON (resistance-corner pole)/Or (resistance pole with a disconnector)/ONr (resistance-corner pole with a disconnector) must be located on the side of the branch line no more than 8m from the branch pole. If necessary, the distance between the transformer station and the last pole of the MV side line can be reduced. The MV line must have three bare MV conductors. The conductors on the other side of the pole are suspended in the same location as those already placed, only on the other side. To do this accurately, it is best to manually enter the rotation and scale in the conductor attributes.


A transformer station must be built in a village to run LV lines from it. It can also be used to power a biogas plant/factory/elevator by building it on the premises and removing the equipment for bare and insulated conductors from the "osprzt_nN" group, leaving the underground cable. Remember to remove unused LV line equipment from the station. For example, if you're running a line on bare conductors with street lighting only to the right and left of the station, you'll need to remove the group with equipment for insulated conductors (the group name is "przewodIzolone" as something), remove the group with equipment for running the line from the rear of the station (often marked as "T") and the "distribution" group, leaving the "distribution+OSW" group, etc. (When running a distribution line from the station with lighting on an insulated "dystrybucja+OSW" conductor, you'll need to use equipment from the distribution group in exceptional cases). Cables at transformer stations are hung in a similar location on the insulator/guide chain as on the O (resistance) poles (for LV lines, in the same location on the insulator as on the corner (N) poles).


LV lines are of two types: distribution lines – used to supply power to buildings, and distribution lines with lighting (distribution+OSW) – used to supply power to buildings and additionally illuminate roads. Distribution lines must have four bare conductors attached to insulators or one insulated conductor marked "distribution" attached to appropriate holders. Distribution lines with lighting must have five bare conductors attached to insulators or one insulated conductor marked "distribution+OSW" attached to appropriate holders, or one conductor marked "distribution" and one conductor marked "OSW" attached to appropriate holders. Where the line runs in a straight line, we use a through pole (slupP). Where the line changes direction, a corner pole (slupN) must be placed. To achieve the proper rotation, this pole must be determined by how many degrees the line should change direction in a given direction. After we have at least one pole after the pole on the curve, we must rotate the corner pole by half the determined value in the opposite direction (e.g., the line previously had a direction of 0 degrees, now it has a direction of 30 degrees, so the change is 30 degrees, and the pole on the curve will have a rotation of 15 degrees, etc.). The support of pole Np should be on the side where the line turns, and the guy wire of pole No should be on the opposite side. At the end of the line, there should be an end pole (slupK). Poles Kp (the support must be on the side of the conductors) and Ko (the guy wire must be on the side opposite the conductors) are used only to terminate side lines. The conductors on the other side of the pole are suspended in the same location as the already positioned ones, only on the other side. To achieve this precision, it is best to manually enter the rotation and scale in the conductor attributes. The distance between LV poles should be 40m (dedicated conductor length), with the exception of 80m (dedicated conductor length) for lines in the Kashubian configuration. Bare conductors can only be suspended on insulators, with a maximum of one conductor on one side of the insulator in the line. Terminal insulators can only accommodate one conductor per insulator. Insulated conductors must be suspended on the appropriate holders. When positioning terminal holders or an end holder on a round RPK/RNK pole, scale the conductor in the group with the holder and rotate the holder. Only one insulated conductor can be attached to a single end/connection bracket, while the through and corner brackets can attach one conductor on one side and one on the other. Connections are made from LV poles (connection and connection accessories can be found in the "accessories" group in the "LV_poles" tab): 1-phase for the house itself, 3-phase for the house and buildings. A connection for a 1-phase installation must have 2 bare conductors labeled "przyłacze" (connection) attached to insulators (in addition to the phase conductors, there's also a neutral, if anyone's interested.) or 1 insulated conductor labeled "1faza" (1phase) attached to the appropriate bracket. For a 3-phase installation, 4 bare conductors labeled "przyłacze" (connection) attached to insulators or 1 insulated conductor labeled "3fazy" (3phase) attached to the appropriate bracket. The connection can also be made using an earth cable, mounted on a pole (found in the "Accessories" group). Buildings can also be connected using an earth cable (found in the "Accessories" group). Simply copy the cable and paste it onto the pole (unfortunately, it must be adapted to A-type poles). If a building is too far from the line to connect directly to the pole, a branch line must be run to it using a branch pole (R[]K), e.g., using an RNK pole if the nearest pole is a corner pole (N).


POLE NAMES:
slupP - straight-through pole
	Place it in a straight line where the line does not change direction and the wires on either side do not hang over a paved 	road or buildings.

slupPS - straight-through-crossing pole
	Place it in a straight line where the line does not change direction and the wires on at least one side hang over a paved 	road or buildings.

slupRPK - branch-through-terminal pole
	Place it in a straight line where the line does not change direction and the wires on either side do not hang over a paved 	road or buildings, at the point from which you want to run a branch line (for MV - to the transformer, for LV - to the 	building(s)). If a pole has the suffix "s" (RPKs), an O (resistive)/ON (resistive-corner)/Or (resistive with 	disconnector)/ONr (resistive-corner with disconnector) pole must be placed on the side of the lateral line no more than 8 	meters from the pole. If the pole has the suffix "p," it means it is a pole with a support, which must be on the side of 	the lateral line conductors. If it has the suffix "o," it means it is a pole with a guy wire, which must be on the opposite 	side from the lateral line conductors.

slupRPSK - branch-through-crossing-terminal pole
	It is placed in a straight line, where the line does not change direction, and the conductors on at least one side hang 	over the asphalt road or buildings, at the point from which the lateral line is to be routed (for MV - to the transformer). 	If the pole has the suffix "s" (RPSKs), an O (resistance pole)/ON (resistance-corner pole)/Or (resistance pole with 	disconnector)/ONr (resistance-corner pole with disconnector) must be placed on the side of the secondary line no more than 	8 meters from the pole.

slupN - corner pole
	We place it where the line changes direction. If it is a medium-voltage pole and the conductors on one side hang over a 	paved road or buildings, we recommend using an N2 pole with additional insulators and support conductors. To achieve the 	proper rotation, you need to determine how many degrees the line should change direction in a given direction. After you 	have at least one column after the curved column, you need to rotate the corner column by half the specified value in the 	opposite direction (e.g., the line previously had a direction of 0 degrees, now it has a direction of 30 degrees, so the 	change is 30 degrees, and the curved column will have a rotation of 15 degrees, etc.). If the column has a "p" suffix, it 	means it is a column with a support, which must be on the side of the curved line. If it has an "o" suffix, it means it is 	a column with a guy wire, which must be on the opposite side of the curve.

slupRNK - Branching Corner End Pole
	Place the pole where the line changes direction and where you want to run the branch line to the building(s). To achieve 	the proper rotation, you need to determine how many degrees the line should change direction in a given direction. After 	you have at least one post after the post at the bend, you need to rotate the corner post by half the determined value in 	the opposite direction (e.g., the line previously had a direction of 0 degrees, now it has a direction of 30 degrees, so 	the change is 30 degrees, and the post at the bend will have a rotation of 15 degrees, etc.).

slupO - Retaining Post
	It is placed in a straight line where the line does not change direction, usually after long sections of the line. It can 	act as a through-and-crossing post.

slupON - Retaining and Corner Post
	It is placed where the line changes direction, usually after long sections of the line. To achieve the correct rotation, 	you need to determine how many degrees the line should change direction in a given direction. After you have at least one 	pole after the pole on the curve, you need to rotate the corner pole by half the designated value in the opposite direction 	(e.g., the line previously had a direction of 0 degrees, now it has a direction of 30 degrees, so the change is 30 degrees, 	and the pole on the curve will have a rotation of 15 degrees, etc.). You also need to rotate the guy chains by half the 	previously determined direction change in the appropriate directions. The conductors on the pole must be selected manually 	by opening the group with the guy chain. The conductor can be rotated independently of the chain. The side of the pole with 	the support and the conductor hanging under the crossarm must be on the side to which the line turns. 

slupROK - branch-resistance-terminal pole
	It is placed in a straight line where the line does not change direction, usually along long sections of the line (it can 	act as a through-crossing pole), at the point from which we want to run a secondary line (for MV - to the transformer). If 	the pole has the suffix "s" (ROKs), an O (resistance)/ON (resistance-corner)/Or (resistance with a disconnector)/ONr 	(resistance-corner with a disconnector) pole must be located on the side of the secondary line, no more than 8m from this 	pole. The pole's support must be on the side of the secondary line conductors.

slupRONK - branch-resistance-corner-terminal pole
	We place it where the line changes direction, usually after long sections of the line, at the point from which we want to 	run a branch line (for MV lines, to a transformer). To achieve the appropriate rotation of this pole, we need to determine 	how many degrees the line should change direction in a given direction. After we have at least one pole positioned after 	the pole at the bend, we need to rotate the corner pole by half the designated value in the opposite direction (e.g., the 	line previously had a 0-degree direction, now it has a 30-degree direction, so the change is 30 degrees, and the pole at 	the bend will have a 15-degree rotation, etc.). We also need to rotate the guy chains by half the previously determined 	change in direction in the appropriate directions. The conductors on the pole must be selected manually by opening the 	group with the guy chain. The conductor can be rotated independently of the chain. The side of the pole with the support 	and the conductor running under the crossarm must be on the side where the line turns.

slupOr - Retaining Pole with a Disconnector
	It is placed in a straight line where the line does not change direction, usually after long sections of line. It can act 	as a through-and-crossing pole. It must be located at least once on a side line (it does not have to be if a No. 0 pole is 	already on it).

slupONr - Retaining-Corner Pole with a Disconnector
	It is placed where the line changes direction, usually after long sections of line. To achieve the correct rotation, you 	need to determine how many degrees the line should change direction in a given direction. After you have at least one post 	after the post at the bend, you need to rotate the corner post by half the designated value in the opposite direction 	(e.g., the line previously had a direction of 0 degrees, now it has a direction of 30 degrees, so the change is 30 degrees, 	and the post at the bend will have a rotation of 15 degrees, etc.). You also need to rotate the guy chains by half the 	previously determined direction change in the appropriate directions. The side of the post with the support must be on the 	side to which the line turns. It must be located at least once on the side line (it doesn't have to be if the 0r post is 	already on it).

slupK - end post
	This post is placed at the end of the line. Kp posts (the support must be on the side of the conductors) and Ko posts (the 	guy must be on the side opposite the conductors) can only be used on side lines.

slupKK - Terminal Pole
	Place it where the line changes direction by 90 degrees (e.g., at the end of a line with a direction of 0 degrees, where 	the next pole is 90 degrees).


TIPS:
It's best to replace components such as guy chains or insulators using the replace function.
To replace a lantern, remove the arm and lamp from the lantern group on the pole and paste the arm and lamp from the lantern group into this group from the "Accessories" group.
After replacing the MV insulators with composite ones, raise the conductors and terminals by 0.036 m. Simply add Y + 0.036 in the translation, and you're done.