Catalogue Downloads News Contact
NIVIUK https://niviuk.com/ https://niviuk.com//legal/3
A greater speed range combined with an impeccable and efficient glide will allow you to be one step ahead of the rest in all competitions.

A modern design and a new airfoil facilitated the creation of a fast, solid and performant wing during all phases of flight.
 
The new benchmark in the CCC class. Years of research and the implementation of the latest Niviuk technologies positions the new X-One as the most optimised glider ever produced by the brand. 

Watch it in 3D

Watch video
play https://niviuk.com/ https://niviuk.com//legal/3
pause https://niviuk.com/ https://niviuk.com//legal/3
mute https://niviuk.com/ https://niviuk.com//legal/3
sound https://niviuk.com/ https://niviuk.com//legal/3

Leader of the pack

The perfect balance

Innovation & Technology

Target

CCC
Stand out in all competitions with the best possible performance. A fast and versatile wing that will allow you to get the best results.

Icepeak X-One

In detail

Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
Top performance
Increased top speed.
Improved glide in all conditions.
Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
In flight
The X-One is a wing that is easy to master.
More efficient steering with the B risers: when under pressure, it allows easier and more controlled steering when reaching maximum speed. Turning is much easier in any conditions.
Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
High level of comfort
Despite its significant aspect ratio, it is a very compact wing.

Niviuk Technologies

Orikami High-Efficiency Protector Technology

Unparalleled safety!

Orikami is the revolutionary new protector technology developed by Niviuk's R&D team. It has been incorporated into to the back protector of our new Drifter 2 harness, and it is the thinnest and most efficient on the market. At only 5.5 cm thick, it is EN and LTF approved.

Its development and technological inspiration is based on the Japanese art of origami, as its structure folds in on itself to absorb and disperse energy during an impact. After the impact, the protector returns to its original shape. It is certified according to the EN and LTF standards, which means that it can withstand several impacts, without having to replace it.

In contrast to other protectors, the incorporated Orikami does not rotate if the impact is horizontal – it remains in place and protects the pilot at all times. From a technical point of view, the material returns 8 - 10% of the impact energy to the system after the first impact, which significantly reduces subsequent force transmission. 

Find out everything about Orikami.

Radial Sliced Diagonal

RSD (Radial Sliced Diagonal) technology is a reinvention of the wing's internal structure. It incorporates independent and efficiently oriented diagonal ribs, which follow the direction of the cloth. This improves the strength, reduces weight and minimises deformation.

These days, in order to improve stress distribution and reduce the number of attachment points and lines, most wings have these diagonal ribs, which are connected from the attachment points to the adjacent profiles.

In conventional diagonal ribs, loading and unloading cycles away from the highest strength axis of the cloth result in a loss of shape, which reduces the cohesion of the wing and therefore aerodynamic efficiency.

RAM Air Intake

The RAM Air Intake system is based on the inward orientation of the air inlets in the profile so that they allow an optimum internal pressure at all angles of attack.

The result? Having greater internal pressure means better buffering of turbulence, greater consistency of the profile shape across the speed range. Excellent handling at low speed is achieved by allowing the pilot to extend the braking limit, so there is a lower risk of collapse and consequently, greater control and stability.

Titanium Technology

Nitinol is a combination of 50% nickel and 50% titanium. The incorporation of Nitinol rods in the profile increases the performance of the wing, especially in three areas: 

- Compared to nylon rods, the weight of the wing is reduced by 13%.

- Nitinol has two essential characteristics: shape memory and enormous elasticity. As a result, the rods retain their optimum shape even after an ultra-compact or incorrect folding, so that the wing is not deformed. This will always be the case unless the radius at the point of curvature is less than 1 cm.

- The leading edge shape is much more rigid and uniform which results in a much more consistent and progressive inflation and therefore an easier take off. The profile is taut at all times, without creases, and fully optimised for all flight phases. 

In addition, the rods have a plastic protector at their ends to prevent any damage to the fabric of the wing. 

Nitinol is now featured in all our wings.

Structured Leading Edge

Nitinol rods in the leading edge make up the SLE. This technology provides greater solidity and stability to maintain its shape in all phases of flight. This increases performance, efficiency and stability, absorbs turbulence better and makes the wing much more durable over time.

Structured Middle Chord

Ninitol rods in the middle-rear part of the profile form the SMC. This technology gives much more solidity and stability to maintain its shape. The profile is taut at all times, without creases, and fully optimised for all flight phases. Increases performance and makes the wing much more durable over time.

Structured Trailing Edge

Nitinol rods at the trailing edge form the STE. Thanks to this technology, it maintains its shape in accelerated flight. The rigidity provided by these elements improves the load distribution, reducing creases, and consequently drag, and therefore ensuring better performance. 

3D Leading Edge

3DL technology is an adjustment of the fabric at the leading edge of the wing to control the ballooning and the creases that are generated by the curvature in this area. The leading edge is then divided into sub-panels which are sewn into each of the cells at the front of the paraglider. As a result, the leading edge of the wing is perfectly tensioned, which benefits the wing in performance and durability. 

A good comparison is a rugby ball. In order to produce its characteristic oval shape without creases, its cover is made of several panels - not of just one piece. 

The application of this innovation, in conjunction with the 3DP, is key to converting the perfect shape from 2D to 3D.

3D Pattern Cut Optimization

This technology seeks to implement the best orientation of the cloth on each panel according to its location on the leading edge.  If the cloth pattern is correctly aligned with the load axes, the cloth suffers less deformation flight after flight, so the leading edge maintains its shape better and remains stronger over time.

The design of our paraglider and paramotor wings has evolved a lot over the years, with a positive and specific focus on the leading edge.

Thanks to this technology and 3DL, a perfect modelling of the panels and an exact representation from 2D to 3D is achieved.

Double Effect System

The DES is a system that allows you to link the trimmers of the rear risers (C and D) with the speed-bar. From the start, the DES holds the wing in the trim position, and as it is released, it accelerates by lowering the A and B-risers and raising the rear risers.

This technology allows us to have all the differential available on the speed-bar, so that we do not have to take the hands off the controls to be able to go from the neutral trimmer position to maximum speed, or vice versa.

In case of high speed collapses, it is very useful to be able to return to the neutral position by releasing the speed-bar without having to close the trimmers manually.  In this way flights are more comfortable and safe.

Drag Reduction Structure

The DRS aims to reduce drag and the adverse pressure gradient by optimising the aerodynamic shape of the wing. With its application, the direction of airflow is much more progressive at the trailing edge. This increases performance without compromising safety or handling.

Ear Lock System

The ELS is a big ear locking system which provides a simple and effective solution for the tandem/dual pilot when quick descents are required.

Usually when the pilot has pulled big ears on a solo glider, they can only steer using weight-shift. Although it is also possible to do this with the help of a passenger on a tandem paraglider, in most cases this is insufficient. This is why Niviuk developed the ELS.

To use the Ear Lock System, simply pull the ear lock tab downward until the knot passes through the ELS (lock system). Then move them slightly horizontally forward, locking the knots in the V grooves. To release, pull the big ear tabs down to release the knots from the grooves. Then guide it vertically as it goes upward and back through the ELS. It is better to release the two ears asymmetrically.

Advantages of the ELS system:

- It enables the pilot to pull and release the ears as desired.
- It gives full steering control to the pilot with the ears applied.
- Lets the pilot use the ears as long as necessary with no physical effort at all.
- Allows the pilot to use the trimmers without concern or restriction.
- Prevents the ears from opening unintentionally, as they are blocked.
- The manoeuvre can still be performed the classic way, without using the ELS.
- Can be easily removed without affecting the rest of the equipment.

Interlock System

The IKS is a connection system that allows the risers to be connected to different parts of the wing, such as the lines or the harness. The IKS technology is a step towards greater lightness in wings and equipment, without sacrificing effectiveness and providing the same degree of safety and strength.

Niviuk has developed two types, the IKS 1000 and the IKS 3000, each one designed as a connection system for different parts of the wing:

✓ The IKS 1000 is designed and dimensioned as a connection system between the risers and the lines. It has a breaking load of 1055 kg, which greatly exceeds that of the classic 3 mm (550 kg) maillon, but with a much less weight. This feature makes it a key element in the entire range of lightweight P-Series wings, which are delivered with this technology as standard. 

✓ The IKS 3000 is designed to connect the risers and/or the parachute with the harness. Its breaking load of 2960 kg makes it an ultralight alternative to the 7 mm (3125 kg) maillon or an aluminium carabiner (2000 kg). The IKS 3000 design and concept make it ideal for mountaineering, hike & fly and ultralight equipment.

Reflex System Profile

The RSP is a profile morphologically designed to fit the technical characteristics of paramotor gliders. Solid in character, it provides greater pitch stability and more safety for the pilot, especially at high speeds. 

C2B System

Manoeuvrability has been improved with the new C2B system that is integrated into the risers, and which allows a three-liner wing to be flown as if it were a two-liner. Steering with the C-risers automatically includes the B-risers. As a result, the wing has a much more efficient, controlled and precise handling without degrading the shape of the profile.

The perfect finish

New profile

16 more cells than the Evox

Wing twist

New internal structure

New aspect ratio - 8

New risers

New Ergo handle

The perfect finish
A cleaner leading edge with fewer creases in order to reduce drag. It features an optimised trailing edge with more reinforcements and a new construction method of the wing surface.

Three colours. 
Trendy colours.

Configure and order your wing. You can select standard colours or, at additional cost, you can also personalise it and/or add the logos of your choice. As you like it! 
Wasp
Passion
Bouket
Configure Icepeak X-One to your style

Select the size

Technical specifications

20 22 24 25 26
CELLS NUMBER 115 115 115 115 115
ASPECT RATIO FLAT 8 8 8 8 8
PROJECTED 6,16 6,16 6,16 6,16 6,16
AREA FLAT 20 21,7 23 24,6 26,4
PROJECTED 17,07 18,52 19,63 20,99 22,53
SPAN FLAT m 12,64 13,17 13,56 14,02 14,53
CHORD MAXIMUM m 1,98 2,06 2,12 2,19 2,27
LINES TOTAL m 197 205 211 219 227
MAIN 1+1+1/3 1+1+1/3 1+1+1/3 1+1+1/3 1+1+1/3
RISERS NUMBER A+A'+A''/B A+A'+A''/B A+A'+A''/B A+A'+A''/B A+A'+A''/B
SPEED-BAR mm 140 140 140 140 140
GLIDER WEIGHT kg 5,9 6,06 6,32 6,65 6,91
TOTAL WEIGHT IN FLIGHT MIN-MAX kg 80-95 90-105 98-112 108-120 118-133
OPT. WEIGHT IN FLIGHT MIN-MAX kg 88 - 91 100 - 101 108 - 109 117 - 119 128 - 130
CERTIFICATION
CCC
CCC
CCC
CCC
CCC
The total weight of the wing may differ ±2% due to variations in the weight of the fabric supplied by the manufacturers.

Our gliders ICEPEAK

Comparative chart of the Icepeak X-One vs Icepeak Evox.
Icepeak X-One
Icepeak Evox
10

Safety

10
9

Accessibility

10
10

Stability

10
10

Durability

10
10

Landing

10
9

Take off

10
10

Lightness

10
10

Comfort

10
10

Gliding

8

Packs

Once you choose the glider size, you will see which accessories are included below, and which rucksack we recommended to be purchased separately with your wing purchase.

Downloads

pdf

Manual ICEPEAK X-ONE

pdf

Technical data ICEPEAK X-ONE

zip

Line check ICEPEAK X-ONE

pdf

Certification ICEPEAK X-ONE

pdf

Glider folding manual

pdf

Choose the best combination for your flight equipment

NEWS

ICEPEAK X-ONE: Pierre Remy and his X-One break records in the Pyrenees

WORLD RECORD

ICEPEAK X-ONE: New world records by NK pilot Justin Puthod

Related to your
Icepeak X-One

The best guarantee

In order to guarantee the authenticity of the product, Niviuk places the International Guarantee Card inside each wing.

It contains an 8-digit code that, when entered in the MyNiviuk section, can be used for product registration, to carry out procedures and request maintenance.

Find
your dealer

We are in more than 90 countries.
Find a Niviuk dealer near you.
Icepeak X-One https://niviuk.com/ https://niviuk.com//legal/3
We and third parties, as service providers, use cookies and similar technologies (hereinafter "cookies") to provide and protect our services, to understand and improve their performance, and to serve relevant advertisements. For more information, you can consult our Cookies Policy . Select "Accept cookies" to give your consent or select the cookies you want to authorize. You can change the cookie options and withdraw your consent at any time from our website.
Authorized Cookies:
More details