Nexans N-HEAT TQXP Resistance Cables Instruction Manual
- June 3, 2024
- Nexans
Table of Contents
N-HEAT® TQXP/2R, TQXP XTREME/2R , TXLP/2R og TXLP/1
Instruction Manual
N-HEAT TQXP Resistance Cables
Installation instructions, user manual and warranty form
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Installation Instructions for N-HEAT® TQXP/2R, TXLP/2R and TXLP/1
Important! Before the installation starts
Read through these installation instructions before any work starts.
This product shall only be installed by qualified personnel, who are familiar
with the construction and operation of the product and risks involved. The
installation of this heating product shall be in accordance with the
manufacturer’s instructions and the regulations of the authority having
jurisdiction.
General guidelines
The installation of this heating product shall be in accordance with the
manufacturer’s instructions and the regulations of the authority having
jurisdiction. For US, the installation shall be made in accordance with
Article 424. Part IX of the National Electric Code, ANSI/NFPA 70.
Product description TQXP/2R
Series resistivity twin conductor heating cable, with a metallic alloy as the
warm conductor and a multi stranded copper wire as the return conductor. The
heating cable has a factory fitted end seal and an integrated hidden splice
(marked SPLICE on the cable) between the cold lead and the heating element
itself.
Product description TXLP/2R
Series resistivity twin conductor heating cable, with a metallic alloy as the
warm conductor and a solid copper wire as the return conductor. The heating
cable has a factory fitted end seal and an integrated hidden splice (marked
SPLICE on the cable) between the cold lead and the heating element itself.
Product description TXLP/1
Series resistivity single conductor heating cable, with a metallic alloy as
the warm conductor. The heating cable has two integrated hidden splices
(marked SPLICE on the cable). These are at each end of the cable, providing
two cold leads connected to the heating element itself.
Technical data
Conductor insulation: | PEX |
---|---|
Outer sheath: | PVC |
Linear load: | 10 or 17 W/m |
Rated voltage: | 230V |
Highest system voltage: | 300/500 V |
Max. cont. operating temp. outer jacket: | 65°C |
Min. bending radius: | 5 x cable diamenter |
Tolerance on conductor resistance: | -5/+10% |
Mechanical class: | M2 |
Length of cold lead: | 2.3 m |
UV resistant: | Yes |
Minimum installation temperature: | 0 °C (32 °F) |
(Working with the product at lower temperatures will require extra
precautions, and is not recommended).
Application
The main area of use for TQXP/TXLP is underfloor heating, embedded in concrete
or similar. Cable output [W] and output per meter [W/m] are determined with
regards to room size and type, type of installation and floor type. The
heating cable can be used both in new and renovation projects. It can also
been used for frost protection, ice and snow melting installations.
Measure insulation resistance and heating element resistance before the cable
is taken out of the package.
The heating cable should never be installed directly in contact with
combustible materials, except where the following conditions are met:
- The heating cable has an output per meter of 10 W/m (3 W/ft) or less
- Area power 80 W/m² (7,5 W/ft²) or less
To prevent high temperatures in the floor construction the following must be followed (restrictions to area output and linear output):
-
Max. 80 W/m² (7,5 W/ft²), max 10 W/m (3 W/ft) in wooden floors*.
-
Max. 80 W/m² (7,5 W/ft²) when the top surface is parquet, laminate, or carpet.
-
Max. 160 W/m² (13,9 W/ft²) when the top covering is stone, tiles, vinyl or linoleum.
-
When installing heating cables beneath a wooden floor it is recommended to contact the vendor of the floor, to ensure the floor is suitable for the planned heating system including output in W/m² (W/ft²). Some wooden floors, allow a maximum area power as low as 60 W/m² (5,6 W/ft²) and restriction on maximum surface temperature as low as 27˚C (81˚F).
In floors with vinyl / linoleum, a maximum of 100 W / m² installed surface power is recommended to avoid the risk of discoloration
Picture 1
Measure insulation resistance and heating element resistance before the cable is taken out of the package. Write down the values in the warrenty form
Picture 2
Plan the installation first and then lay the cable in the precalculated C-C distance on the subfloor. It is recommended that the subfloor is insulated to reduce heatloss downwards. However the heating cable must not be in contact with the insulation or pressed down into it. This can be prevented, e.g. by installing the cable on chicken wire. It is often a good choice to start with placing the splice(s) in the floor near the thermostat. The splice(s) must not be placed in a tube or in a wall.
The endseal of a twin conductor cable is preferably placed in a dry zone of the floor. Apply glue, attach bands, or fix cable ties to keep the heating cable in place at the correct C-C distance. It is important that the cable will stay in place when the floor is poured. Keep the correct distance (C-C) between cables, and avoid at all times overlapping or crossing of cables, as this causes unwanted thermal effects.
If attaching the heating cable to reinforcement bars, longitudinal bars are preferred. The heating cable shall not be attached to pipes in the floor or other components preventing heat flow, minimum 3 cm distance.
Be aware that the cable will be exposed during installation to mechanical damage when placed on reinforcement bars.
Heating cables should not be installed beneath kitchen cupboards, walls or other permanent installations which do not allow air circulation.
Furniture that stands on the heated area must have feet to ensure that air can circulate and that heat emission from the floor is possible.
The heating cable is never to be cut or shortened in any way.
If a floor sensor is connected to the thermostat this should be installed inside a tube exactly between two cable strings in the floor, close to the floor surface. The end of the tube should be sealed with tape. When installing the sensor in a tube, it can be changed later if needed.
Make a drawing of the installation and/or take a photograph for future reference before pouring the floor.
If other cables (Supply conductors or cables which are not a part of the heating cable installation) are embedded in the heated floor these must be placed at least 2” (51 mm) away from any heating cable.
Picture 3
Avoid stepping or dropping items on the cable and use caution in further works with pouring the floor.
Picture 4
Measure insulation resistance and element resistance after the cable has been installed but before any concrete/screed/mortar is poured.
To build a good and efficient heated floor the slab on the sub floor containing the heating cables must have good heat conductivity to create an even temperature throughout the slab, securing efficient heat emission from the cable to the room.
Picture 5
When embedding heating cables in concrete/screed/mortar this must be mixed correctly as prescribed by the vendor. Mix the materials well, before pouring the concrete/screed/mortar onto the subfloor and the cables.
Picture 6
The heating cable must be embedded with minimum 5 mm (0,2 inches) concrete/screed/mortar above the cable when the top floor covering is tile or stone. The minimum is 10 mm when the top floor covering is vinyl, linoleum, carpet, engineered wood or other.
Picture 7
Compact well to prevent air pockets and a porous slab. The concrete/ screed/mortar must surround the cable entirely to ensure good and necessary heat conductivity from the cable to it’s surroundings. Good heat conductivity is important for the function of the floor, but also to prevent excessive temperatures. Some concrete types can be mixed with small amounts of water as specified by the vendor. In these cases pay special attention to the mixing and the compacting as these floors easily becomes porous and thereby thermally insulating. It is recommended to use concrete/screed/mortar designed for heated floors. Thermally insulating types cannot be used.
Picture 8
The heating cable is not to be used before the concrete/screed/mortar has naturally hardened and dried. This can take up to 6-8 weeks. Please consult the instructions/guide provided by the vendor of the concrete/ screed/mortar. ”
Picture 9
A thermostat is recommended to regulate the heating cables. Before this is connected measure the insulation resistance and the element resistance of the heating cable to check cable integrity. This will also reveal any damage done to the cable during installation. The documentation coming with the thermostat is to be delivered to the owner of the installation, being a part of the total documentation of the heating cable system.
The heating cable must be connected to electrical earth properly and always be protected by a ground fault protection device. This device should have a maximum trip value of 30 mA.
If installing more than one heating cable in a room both cables can be connected to the thermostat. However ensure the cables are connected in parallel (not series), and that the total power output does not exceed the limit of the thermostat.
IMPORTANT!
When installing a 3300W twin conductor heating cable, the cold leader must be installed in separated tubes to the thermostat.
IMPORTANT! CONNECTION INSTRUCTIONS
The cold lead has an information text on it, showing the cross section area of the copper conductors.
This will either be 0,5 mm², 0,75 mm² or 1,0 mm².
The following apply.
TQXP multi stranded red conductor (0,75 or 1 mm²)
If connecting one multi stranded conductor to a terminal, attach a metal crimp (use crimping tool) to the connecting end before fastening.
TXLP 1,0 mm²
Connect normally.
TXLP 0,5 mm²
If connecting one conductor (0,5 mm²) to a pillar terminal without pressure plate, attach a metal crimp (use crimping tool) to the connecting end before fastening the screw.
If connecting one conductor (0,5 mm²) to a pillar terminal with pressure plate, the conductor can be connected and fastened normally like a 1,0 mm² conductor.
If connecting two or more conductors into the same terminal (regardless of type) do the following: Attach a metal crimp (use crimping tool) over any multi stranded and 0,5 mm² conductor(s) and place the crimp(s) covering the conductor(s) into the terminal.
Then fasten normally.
Advice regarding thermostats and regulators
Electrical floor heating gives a very comfortable and economical heat. Floor heating is somewhat slower to regulate than wall mounted heating and the best results are achieved when using an electronic thermostat for temperature control.
In wet rooms it is common to use a thermostat with a floor sensor only. Comfortable bare foot temperature is usually around 26˚C (79 ˚F).
User manual**
The heating cable system should not be turned on before the floor has hardened naturally. The thermostat or control system must be used according to the manufacturer’s instructions. Avoid drilling, cutting, attaching bolts or similar in the heated floor. If this must be done contact an electrician who can help locate heating cables. Documentation of the heating system received from the installer should provide information on where the cables are located.
In rooms with an area power of 100 W/m² or more (for example in a bathroom) carpets are not to be used. Caution is to be taken when placing insulating items on the floor such as diaper packages, heaps of clothes and so on. Such items should preferably be placed in other areas. In rooms with an area power of 100 W/m² or less, pay attention when placing insulating items on the floor, for example carpets or furniture without feet. Permanent installations covering a room area should always be installed in non heated areas.
Product Warranty
All of our heating cable units and their components are thoroughly tested
during production. The final test is a high voltage test and measurement of
the conductor resistance. Only the units which have passed the tests are sent
to the market.
Texans Norway offers a 20 year warranty on defects in material and workmanship
in the sold product, under proper and normal use and service. In case of a
defect, Nexans Norway will repair or replace the product.
Please see the terms of warranty for further details. The warranty does not
extend to defects caused by a faulty installation.
For the warranty to be valid these installation instructions must be complied
with. The written form inside each box containing a product must be filled in.
This is to ensure a correct installation and that no damage has been done to
the product during the installation. If, during the in installation, a heating
cable is defect, it shall have to be replaced before the construction is
finished.
Texans Norway must be given notice of any defect within 30 days after the
defect was discovered, and the warranty form correctly filled in must
accompany the claim in order for the warranty to be valid.
Certificates and approvals
Certificates and approvals are subject to change.
Please visit our website at www.nexans.com/heating to
find updated information regarding certificates. The heating cable TQXP/TXLP
is tested in conformity with IEC 60800, EN 50265 / IEC 60332-1.
Warranty form – Heating cables
Installed by (company): ——–
Installation address: ———-
Room: ——– Area: ——– m²
Rated values
Cable type(s) and output: ———-
- Singer conductor
- Twin conductor
Linear output: ——— W/m
Rated resistance: ———- Ohm
Rated voltage: ———- V
Check measurements
Element resistance ( -5 / +10%):
Before installation: ———-
Before pouring: ————
Before connecting: ———–
Date and signature: ————
Insulation resistance ( > 100 MOhm):
Before installation: ———-
Before pouring: ————
Before connecting: ———–
Date and signature: ————
Construction details
Installation depth: ———- cm
No. of elements/mats installed: ———– pieces
Installed/heated area: ————— m²
Area output in heated area: ———— W/m²
Size circuit breaker: ———— A
Trip level RCD/GFCI (groud fault protection): ———- ≤ 30 mA
Grounding/earthing:
- Earthed cable screen
- Earthed chicken wire
- Other (specify): ————
Nexans Norway AS
Max. temperature in construction is limited to 80°C by:
- Planning according to Nexans guidelines
- Installation according to installation instructions
- Limiting/protecting equipment (specify):
Control system
Designation of type: ———
- Floor sensor
- Room sensor
- Other specify: ———-
Sketch of room
Draw a sketch of the room, showing the plan view and the heating cable layout.
Taking pictures (with for example a digital camera) of the heating cable(s)
serves the same purpose.
The location of the splice and end seal of the heating cable must be
indicated. Also mark the placement of connection boxes, sensor(s) and
thermostats if possible.
Installer statement
The heating cable product is installed according to Nexans Norway’s
installation instructions and the building owner has been informed about
precautions and limitations which apply to heated floors.
- Yes —–
- No —–
Special notes about this installation: ——-
Date: ——— Signature: ———– Stamp: ———–
Information about concrete and pouring. (OPTIONAL)
The heating cable is embedded into a heat conductive concrete or similar,
which is mixed and applied according to the manufacturer’s instructions.
The pour is fully surrounding the heating cable and compacted to avoid air
pockets within the slab. The heating cable has been take care of during the
pouring process and not been exposed to unnecessary mechanical stress.
Concrete applied: ———— Slab thickness (approx.): ————- Date: ————- Signature:
———–
Building owner / Purchaser:
Warranty form and user manual has been received, read and understood.
Date: ———- Signature: —————
Terms of warranty
Nexans Norway warrants the products manufactured by it to be free from defects in material and workmanship at date of delivery and for a period of twenty (20) years thereafter, under proper and normal use and service. Nexans Norway’s responsibility does not include defects caused by material obtained by the buyer or by constructions specified by it. Nor does Nexans Norway have any responsibility if the use of the product has been outwith the intention of the contract as presented to Nexans Norway. Nexans Norway further warrants that the products will have passed those performance tests, if any, called for in the applicable specifications. The buyer must give Nexans Norway written notice of any defect within thirty (30) days following the discovery of the defect, and in no event later than two (2) weeks after the expiry of the warranty period. The notice must include a description of the defect and how it manifests itself, and the warranty form correctly filled in. The right to claim will be lost if the buyer does not present the notice within the time limits in this sub-clause. If there is reason to believe that the defect can cause a risk for bodily injury, property damage or pollution, notice must be given immediately. Unless notice is given immediately, the buyer will lose its right to claim damages for any event and any loss which could have been avoided if such notice was given. Furthermore, the buyer should indemnify Nexans Norway for any claim from third parties related to such event or loss. If, during the applicable warranty period, the products manufactured by Nexans Norway are found to have been defective when delivered they will be repaired or replaced without charge FOB named port of shipment. In no event shall Nexans Norway be liable for the expenses of removal and re installation of the defective products or defective parts of the products.
Nexans Norway AS, Freserveien 1, 0196 Oslo, Norway
Phone: + 47 22 88 61 00, www.nexans.no
NEXANS NORWAY AS reserves the right to implement product changes without prior
notice.
References
- Nexans - Varmekabler
- Nexans - Varmekabler
- Nexans - Varmekabler og varmekabeltilbehør
- Nexans - Nexans Norway
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