element gc-823 manual

element gc-823 manual

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element gc-823 manualAnd by having access to our ebooks online or by storing it on your computer, you have convenient answers with Element Mp3 Player Owners Manual. To get started finding Element Mp3 Player Owners Manual, you are right to find our website which has a comprehensive collection of manuals listed. Our library is the biggest of these that have literally hundreds of thousands of different products represented. I get my most wanted eBook Many thanks If there is a survey it only takes 5 minutes, try any survey which works for you. It is not subject to the Government of Canada Web Standards and has not been altered or updated since it was archived. Please contact us to request a format other than those available. To assist exporters, the Trade Controls Bureau publishes on its website important information, such as the Export Controls Handbook, Export Controls Online (EXCOL), Notices to Exporters, Frequently Asked Questions (FAQs), Commodity Codes, and the contact information for the divisions in the Trade Control Bureau administering export controls for specific items. For information on how to apply for an export permit and additional information on export controls, please refer to our website: Export and Import Controls. To enquire on the status of an export permit application: Recognized EXCOL users can check the status of an export permit application on-line. Non-recognized users can obtain, from our website, the contact information for the appropriate division responsible for administering the specific control and request a status by providing their export permit application identification (ref ID) number. Export Control List The Regulation establishing Canada’s Export Control List (ECL) can be found at the Department of Justice website. Regulatory amendments to the ECL that occur after the publication date of this Guide are published in the Canada Gazette, are available on our website and, upon coming into force, are available on the Department of Justice website.

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It is the individual's responsibility to conduct the due diligence required to confirm whether any intervening regulatory changes are applicable to their export or transfer. This Guide, at time of publication, encompasses the list of items enumerated on the ECL that are controlled for export in accordance with section 3 of the Export and Import Permits Act (EIPA). The EIPA can be found at the Department of Justice website. The Guide includes military, dual-use, and strategic goods and technology and all United States-origin goods and technology that are controlled pursuant to Canada’s commitments made in multilateral export control regimes, bilateral agreements, as well as certain unilateral controls. The Guide also includes forest products (logs, softwood lumber) and agricultural products (peanut butter, sugar and sugar-containing products) that are controlled for economic reasons or further to Canada’s international trade agreements. Unless otherwise specified, the export controls for military, dual-use and strategic items contained in this Guide apply to all destinations except the United States. Note 2: In some instances chemicals are listed by name and CAS number. The list applies to chemicals of the same structural formula (including hydrates) regardless of name or CAS number. CAS numbers are shown to assist in identifying a particular chemical or mixture, irrespective of nomenclature. CAS numbers cannot be used as unique identifiers because some forms of the listed chemical have different CAS numbers and mixtures containing a listed chemical may also have different CAS numbers. Note: Entry 3 of the General Software Note does not release “software” controlled by Category 5 - Part 2 (“Information Security”). Note 2: 1-1.A.2. does not apply to semi-finished items, specially designed for purely civilian applications as follows: Sporting goods; Automotive industry; Machine tool industry; Medical applications. Note 3: 1-1.A.2.b.1. does not apply to semi-finished items containing a maximum of two dimensions of interwoven filaments and specially designed for applications as follows: Metal heat-treatment furnaces for tempering metals; Silicon boule production equipment. Technical Note: 'Trace detection' is defined as the capability to detect less than 1 ppm vapour, or 1 mg solid or liquid. Note 1: 1-1.A.4.d. does not apply to equipment specially designed for laboratory use. Note 2: 1-1.A.5. does not apply to body armour designed to provide frontal protection only from both fragment and blast from non-military explosive devices. Technical Notes: 1. The word initiator or igniter is sometimes used in place of the word detonator. 2. For the purpose of 1-1.A.7.b. the detonators of concern all utilise a small electrical conductor (bridge, bridge wire, or foil) that explosively vaporises when a fast, high-current electrical pulse is passed through it. In non-slapper types, the exploding conductor starts a chemical detonation in a contacting high explosive material such as PETN (pentaerythritoltetranitrate). In slapper detonators, the explosive vaporisation of the electrical conductor drives a flyer or slapper across a gap, and the impact of the slapper on an explosive starts a chemical detonation. The slapper in some designs is driven by magnetic force. Note 2: Nothing in Note 1 releases magnetic materials to provide absorption when contained in paint. Materials for absorbing frequencies exceeding 1.5 x 10 14 Hz but less than 3.7 x 10 14 Hz and not transparent to visible light; Note: 1-1.C.1.b. does not apply to materials, specially designed or formulated for any of the following applications: “Laser” marking of polymers; or “Laser” welding of polymers. Technical Notes: 1. The metal alloys in 1-1.C.2. are those containing a higher percentage by weight of the stated metal than of any other element. 2. 'Stress-rupture life' should be measured in accordance with ASTM standard E-139 or national equivalents. 3. 'Low cycle fatigue life' should be measured in accordance with ASTM Standard E-606 'Recommended Practice for Constant-Amplitude Low-Cycle Fatigue Testing' or national equivalents. Testing should be axial with an average stress ratio equal to 1 and a stress-concentration factor (K t ) equal to 1. The average stress is defined as maximum stress minus minimum stress divided by maximum stress. Magnetostrictive alloys having any of the following: 1. A saturation magnetostriction of more than 5 x 10 -4; or 2. A magnetomechanical coupling factor (k) of more than 0.8; or Amorphous or 'nanocrystalline' alloy strips, having all of the following: 1. A composition having a minimum of 75 by weight of iron, cobalt or nickel; 2. A saturation magnetic induction (B s ) of 1.6 T or more; and 3. Any of the following: A strip thickness of 0.02 mm or less; or An electrical resistivity of 2 x 10 -4 ohm cm or more. Technical Note: The natural content of hafnium in the zirconium (typically 2 to 7) is counted with the zirconium. Guanidine nitrate (CAS 506-93-4); Nitroguanidine (NQ) (CAS 556-88-7). N.B.: See 2-8.c.5.b. for metal powders mixed with other substances to form a mixture formulated for military purposes. 1-1.C.12. Materials as follows: Technical Note: These materials are typically used for nuclear heat sources. DIPAM (3,3'-diamino-2,2',4,4',6,6'-hexanitrobiphenyl or dipicramide) (CAS 17215-44-0); 11. DNGU (DINGU or dinitroglycoluril) (CAS 55510-04-8); 12. Furazans as follows: DAAOF (diaminoazoxyfurazan); DAAzF (diaminoazofurazan) (CAS 78644-90-3); 13. HNAD (hexanitroadamantane) (CAS 143850-71-9); 15. HNS (hexanitrostilbene) (CAS 20062-22-0); 16. NTNMH (1-(2-nitrotriazolo)-2-dinitromethylene hydrazine); 18. NTO (ONTA or 3-nitro-1,2,4-triazol-5-one) (CAS 932-64-9); 19. Polynitrocubanes with more than four nitro groups; 20. PYX (2,6-Bis(picrylamino)-3,5-dinitropyridine) (CAS 38082-89-2); 21. TAGN (triaminoguanidinenitrate) (CAS 4000-16-2); 23. TATB (triaminotrinitrobenzene) (CAS 3058-38-6); 24. TEDDZ (3,3,7,7-tetrabis(difluoroamine) octahydro-1,5-dinitro-1,5-diazocine); 25. Tetrazoles as follows: NTAT (nitrotriazol aminotetrazole); NTNT (1-N-(2-nitrotriazolo)-4-nitrotetrazole); 26. Tetryl (trinitrophenylmethylnitramine) (CAS 479-45-8); 27. TNAD (1,4,5,8-tetranitro-1,4,5,8-tetraazadecalin) (CAS 135877-16-6); 28. TNAZ (1,3,3-trinitroazetidine) (CAS 97645-24-4); 29. TNGU (SORGUYL or tetranitroglycoluril) (CAS 55510-03-7); 30. Not used since 2013 35. Nitrocellulose (containing more than 12.5 nitrogen) (CAS 9004-70-0); 36. Nitroglycol (CAS 628-96-6); 37. Pentaerythritol tetranitrate (PETN) (CAS 78-11-5); 38. Picryl chloride (CAS 88-88-0); 39. 2,4,6-Trinitrotoluene (TNT) (CAS 118-96-7); 40. Nitroglycerine (NG) (CAS 55-63-0); 41. Triacetone Triperoxide (TATP) (CAS 17088-37-8); 42.Guanidine nitrate (CAS 506-93-4); 43. Nitroguanidine (NQ) (CAS 556-88-7); 44. DNAN (2,4-dinitroanisole) (CAS 119-27-7); 45. TEX (4,10-Dinitro-2,6,8,12-tetraoxa-4,10-diazaisowurtzitane); 46. GUDN (Guanylurea dinitramide) FOX-12 (CAS 217464-38-5); 47. Tetrazines as follows: BTAT (Bis(2,2,2-trinitroethyl)-3,6-diaminotetrazine); LAX-112 (3,6-diamino-1,2,4,5-tetrazine-1,4-dioxide); 48. BTNEN (Bis(2,2,2-trinitroethyl)-nitramine) (CAS 19836-28-3). Category 2: Materials Processing 1-2.A. Systems, Equipment and Components N.B.: For quiet running bearings, see 2-9. in the Munitions List. 1-2.A.1. Anti-friction bearings and bearing systems, as follows, and components therefor: Note: 1-2.A.1. does not apply to balls with tolerances specified by the manufacturer in accordance with ISO 3290 as grade 5 or worse. Ball bearings and solid roller bearings, having all tolerances specified by the manufacturer in accordance with ISO 492 Tolerance Class 4 (or national equivalents), or better, and having both rings and rolling elements (ISO 5593), made from monel or beryllium; Note: 1-2.A.1.a. does not apply to tapered roller bearings. Axes longer than 4 m require multiple tests (e.g., two tests for axes longer than 4 m and up to 8 m, three tests for axes longer than 8 m and up to 12 m), each over 2 m segments and distributed in equal intervals over the axis length. Test segments are equally spaced along the full axis length, with any excess length equally divided at the beginning, in between, and at the end of the test segments. The smallest “unidirectional positioning repeatability” -value of all test segments is to be reported. 1-2.B.1. Machine tools and any combination thereof, for removing (or cutting) metals, ceramics or “composites”, which, according to the manufacturer’s technical specification, can be equipped with electronic devices for “numerical control”, as follows: Note 1: 1-2.B.1. does not apply to special purpose machine tools limited to the manufacture of gears. For such machines, see 1-2.B.3. Note 2: 1-2.B.1. does not apply to special purpose machine tools limited to the manufacture of any of the following: Crank shafts or cam shafts; Tools or cutters; Extruder worms; Engraved or facetted jewellery parts; or Dental prostheses. Note 2: 1-2.B.1.a. does not apply to bar machines (Swissturn), limited to machining only bar feed thru, if maximum bar diameter is equal to or less than 42 mm and there is no capability of mounting chucks. Technical Note: The inside chamber dimension is that of the chamber in which both the working temperature and the working pressure are achieved and does not include fixtures. Linear and angular displacement measuring instruments, as follows: 1. 'Linear displacement' measuring instruments having any of the following: Note: Interferometer and optical-encoder displacement measuring systems containing a “laser” are only specified in 1-2.B.6.b.1.c. Technical Note: For the purpose of 1-2.B.6.b.1.,'linear displacement' means the change of distance between the measuring probe and the measured object. In the second case, the resultant coating is not listed in the paragraph under column 3 directly across from the paragraph under column 2 listing 'Cemented tungsten carbide (16), Silicon carbide (18)'. Gaseous reactants are decomposed or combined in the vicinity of a substrate resulting in the deposition of the desired elemental, alloy or compound material on the substrate. Thermal Evaporation-Physical Vapour Deposition (TE-PVD) is an overlay coating process conducted in a vacuum with a pressure less than 0.1 Pa wherein a source of thermal energy is used to vaporize the coating material. This process results in the condensation, or deposition, of the evaporated species onto appropriately positioned substrates. The addition of gases to the vacuum chamber during the coating process to synthesize compound coatings is an ordinary modification of the process. The use of ion or electron beams, or plasma, to activate or assist the coating's deposition is also a common modification in this technique. The use of monitors to provide in-process measurement of optical characteristics and thickness of coatings can be a feature of these processes. Controlled motion of arcing erodes the cathode surface creating a highly ionized plasma. The anode can be either a cone attached to the periphery of the cathode, through an insulator, or the chamber. Substrate biasing is used for non line-of-sight deposition; N.B.: This definition does not include random cathodic arc deposition with non-biased substrates. 5. Ion Plating is a special modification of a general TE-PVD process in which a plasma or an ion source is used to ionize the species to be deposited, and a negative bias is applied to the substrate in order to facilitate the extraction of the species from the plasma. The introduction of reactive species, evaporation of solids within the process chamber, and the use of monitors to provide in-process measurement of optical characteristics and thicknesses of coatings are ordinary modifications of the process. Pack Cementation is a surface modification coating or overlay coating process wherein a substrate is immersed in a powder mixture (a pack), that consists of: 1. The metallic powders that are to be deposited (usually aluminium, chromium, silicon or combinations thereof); 2. An activator (normally a halide salt); and 3. An inert powder, most frequently alumina. Plasma Spraying is an overlay coating process wherein a gun (spray torch) which produces and controls a plasma accepts powder or wire coating materials, melts them and propels them towards a substrate, whereon an integrally bonded coating is formed. Sputter Deposition is an overlay coating process based on a momentum transfer phenomenon, wherein positive ions are accelerated by an electric field towards the surface of a target (coating material). The kinetic energy of the impacting ions is sufficient to cause target surface atoms to be released and deposited on an appropriately positioned substrate. N.B. 1: The Table refers only to triode, magnetron or reactive sputter deposition which is used to increase adhesion of the coating and rate of deposition and to radio frequency (RF) augmented sputter deposition used to permit vaporisation of non-metallic coating materials. N.B. 2: Low-energy ion beams (less than 5 keV) can be used to activate the deposition. Ion Implantation is a surface modification coating process in which the element to be alloyed is ionized, accelerated through a potential gradient and implanted into the surface region of the substrate. This includes processes in which ion implantation is performed simultaneously with electron beam physical vapour deposition or sputter deposition. It is often specified in megahertz (MHz) or mega samples per second (MSPS). 7. For the purpose of measuring output rate, one output word per second is equivalent to one Hertz or one sample per second. 8. 'Multiple channel ADCs' are defined as devices which integrate more than one ADC, designed so that each ADC has a separate analogue input. 9. 'Interleaved ADCs' are defined as devices which have multiple ADC units that sample the same analogue input at different times such that when the outputs are aggregated, the analogue input has been effectively sampled and converted at a higher sampling rate. Digital to Analogue Converters (DAC) having any of the following: 1. A resolution of 10 bit or more with an 'adjusted update rate' of greater than 3,500 MSPS: or 2. A resolution of 12 bit or more with an 'adjusted update rate' of greater than 1,250 MSPS and having any of the following: A settling time less than 9 ns to 0.024 of full scale from a full scale step; or A 'Spurious Free Dynamic Range' (SFDR) greater than 68 dBc (carrier) when synthesizing a full scale analogue signal of 100 MHz or the highest full scale analogue signal frequency specified below 100 MHz. Technical Notes: 1. 'Spurious Free Dynamic Range' (SFDR) is defined as the ratio of the RMS value of the carrier frequency (maximum signal component) at the input of the DAC to the RMS value of the next largest noise or harmonic distortion component at its output. 2. SFDR is determined directly from the specification table or from the characterisation plots of SFDR versus frequency. 3. A signal is defined to be full scale when its amplitude is greater than -3 dBfs (full scale). 4. 'Adjusted update rate' for DACs: For conventional (non-interpolating) DACs, the 'adjusted update rate' is the rate at which the digital signal is converted to an analogue signal and the output analogue values are changed by the DAC. For DACs where the interpolation mode may be bypassed (interpolation factor of one), the DAC should be considered as a conventional (non-interpolating) DAC. For interpolating DACs (oversampling DACs), the 'adjusted update rate' is defined as the DAC update rate divided by the smallest interpolating factor. Note 2: The status of the MMIC whose rated operating frequency includes frequencies listed in more than one frequency range, as defined by 1-3.A.1.b.2.a. through 1?3.A.1.b.2.h., is determined by the lowest peak saturated power output threshold. Note 2: 1-3.A.1.b.3. includes bare dice, dice mounted on carriers, or dice mounted in packages. Note 2: The status of an item whose rated operating frequency includes frequencies listed in more than one frequency range, as defined by 1-3.A.1.b.4.a. through 1-3.A.1.b.4.e., is determined by the lowest peak saturated power output threshold. It is the basic building block of a battery. For the purpose of 1-3.A.1.e.1.a., a 'primary cell' is a 'cell' that is not designed to be charged by any other source. Note 2: 1-3.A.2.d. does not apply to equipment in which the output frequency is either produced by the addition or subtraction of two or more crystal oscillator frequencies, or by an addition or subtraction followed by a multiplication of the result. Technical Note: 'Physics-based' in 1-3.D.3. means using computations to determine a sequence of physical cause and effect events based on physical properties (e.g., temperature, pressure, diffusion constants and semiconductor materials properties). Designed to perform more than four 64-bit or larger floating-point operation results per cycle; or Designed to perform more than eight 16-bit fixed-point multiply-accumulate results per cycle (e.g., digital manipulation of analogue information that has been previously converted into digital form, also known as digital “signal processing”). Note 1: 1-3.E.2. does not apply to “technology” for multimedia extensions. All floating point operations must be expressed in operations per processor cycle; operations requiring multiple cycles may be expressed in fractional results per cycle. Note 2: For a pipelined processor the effective calculating rate R is the faster of the pipelined rate, once the pipeline is full, or the non-pipelined rate. Note 3: The calculating rate R of each contributing processor is to be calculated at its maximum value theoretically possible before the 'APP' of the combination is derived. Simultaneous operations are assumed to exist when the computer manufacturer claims concurrent, parallel, or simultaneous operation or execution in a manual or brochure for the computer. Note 6: 'APP' values must be calculated for processor combinations containing processors specially designed to enhance performance by aggregation, operating simultaneously and sharing memory; Technical Notes: 1. Aggregate all processors and accelerators operating simultaneously and located on the same die. 2. Processor combinations share memory when any processor is capable of accessing any memory location in the system through the hardware transmission of cache lines or memory words, without the involvement of any software mechanism, which may be achieved using “electronic assemblies” specified in 1-4.A.3.c. Note 7: A 'vector processor' is defined as a processor with built-in instructions that perform multiple calculations on floating-point vectors (one-dimensional arrays of 64-bit or larger numbers) simultaneously, having at least 2 vector functional units and at least 8 vector registers of at least 64 elements each. Counter Improvised Explosive Device (IED) equipment and related equipment, as follows: 1. Radio Frequency (RF) transmitting equipment, not specified by 1-5.A.1.f. designed or modified for prematurely activating or preventing the initiation of Improvised Explosive Devices; 2. Equipment using techniques designed to enable radio communications in the same frequency channels on which co-located equipment specified by 1-5.A.1.h.1. is transmitting. N.B.: See also the Munitions List. Technical Note: For the purpose of 1-5.B.1.b.2.c., these techniques include optical heterodyne, homodyne or intradyne techniques. Technical Note: For the purpose of 1-5.E.1.c.2.c., these techniques include optical heterodyne, homodyne or intradyne techniques. Note to the Cryptography Note: 1. To meet paragraph a. of Note 3, all of the following must apply: The item is of potential interest to a wide range of individuals and businesses; and The price and information about the main functionality of the item are available before purchase without the need to consult the vendor or supplier. A simple price enquiry is not considered to be a consultation. 2. In determining eligibility of paragraph a. of Note 3, national authorities may take into account relevant factors such as quantity, price, required technical skill, existing sales channels, typical customers, typical use or any exclusionary practices of the supplier. Cryptographic equipment specially designed and limited for banking use or 'money transactions'; Technical Note: 'Money transactions' in 1-5.A.2. Note b. includes the collection and settlement of fares or credit functions. Portable or mobile radiotelephones for civil use (e.g., for use with commercial civil cellular radio communication systems) that are not capable of transmitting encrypted data directly to another radiotelephone or equipment (other than Radio Access Network (RAN) equipment), nor of passing encrypted data through RAN equipment (e.g., Radio Network Controller (RNC) or Base Station Controller (BSC); Cordless telephone equipment not capable of end-to-end encryption where the maximum effective range of unboosted cordless operation (i.e., a single, unrelayed hop between terminal and home base station) is less than 400 metres according to the manufacturer's specifications. Designed or modified to enable, by means of “cryptographic activation”, an item to achieve or exceed the controlled performance levels for functionality specified by 1-5.A.2.a. that would not otherwise be enabled; Designed or modified to use or perform “quantum cryptography”; Technical Note: “Quantum cryptography” is also known as Quantum Key Distribution (QKD). Specially designed or modified to reduce the compromising emanations of information-bearing signals beyond what is necessary for health, safety or electromagnetic interference standards. For systems that produce soundings in two directions (3D sonars), the maximum of the 'sounding rate' in either direction should be used. Note 2: 1-6.A.1.a.1.c. does not apply to electronic sources which direct the sound vertically only, or mechanical (e.g., air gun or vapour-shock gun) or chemical (e.g., explosive) sources. Active individual sonars, specially designed or modified to detect, locate and automatically classify swimmers or divers, having all of the following, and specially designed transmitting and receiving acoustic arrays therefor: 1. Detection range exceeding 530 m; 2. Determined position error of less than 15 m rms (root mean square) when measured at a range of 530 m; and 3. Transmitted pulse signal bandwidth exceeding 3 kHz; N.B.: For diver detection systems specially designed or modified for military use, see Munitions List. Note: For 1-6.A.1.a.1.e., where multiple detection ranges are specified for various environments, the greatest detection range is used. 1-6.A.1.a.2. Passive systems, equipment and specially designed components therefor, as follows: Hydrophones having any of the following: Note: The status of hydrophones specially designed for other equipment is determined by the status of the other equipment. Technical Note: Hydrophones consist of one or more sensing elements producing a single acoustic output channel. Thus, -160 dB is better than -180 dB. Towed acoustic hydrophone arrays having any of the following: Technical Note: Hydrophone arrays consist of a number of hydrophones providing multiple acoustic output channels. 1. Hydrophone group spacing of less than 12.5 m or 'able to be modified' to have hydrophone group spacing of less than 12.5 m; 2. Designed or 'able to be modified' to operate at depths exceeding 35 m; Technical Note: 'Able to be modified' in 1-6.A.1.a.2.b. means having provisions to allow a change of the wiring or interconnections to alter hydrophone group spacing or operating depth limits. Note 1: 1-6.A.1.b. does not apply to depth sounders limited to any of the following: Measuring the depth of water; Measuring the distance of submerged or buried objects; or Fish finding. Technical Note: A response limiting mechanism integral to the detector element is designed not to be removed or modified without rendering the detector inoperable. Technical Note: For the purposes of 1-6.A.2.a.3.d., 'cross-scan direction' is defined as the axis parallel to the linear array of detector elements and the 'scan direction' is defined as the axis perpendicular to the linear array of detector elements. For the purpose of this entry, 'camera tracking data' is the information necessary to define camera line of sight orientation with respect to the earth. The camera is specially designed for installation into a civilian passenger land vehicle and having all of the following: 1. The placement and configuration of the camera within the vehicle are solely to assist the driver in the safe operation of the vehicle; 2. Is only operable when installed in any of the following: The civilian passenger land vehicle for which it was intended; and the vehicle weighs less than 4,500 kg (gross vehicle weight); or A specially designed, authorized maintenance test facility; and 3. Incorporates an active mechanism that forces the camera not to function when it is removed from the vehicle for which it was intended. Weather balloon tracking radars. These parameters result from the utilisation of specialised non-positional aiding references (e.g., altimeter, odometer, velocity log). As a consequence, the specified performance values cannot be readily converted between these parameters. Employing a decryption algorithm specially designed or modified for government use to access the ranging code for position and time; or Employing 'adaptive antenna systems'. Note: 1-7.A.5.b. does not apply to GNSS receiving equipment that only uses components designed to filter, switch, or combine signals from multiple omni-directional antennae that do not implement adaptive antenna techniques. Technical Notes: 1. 'Maintenance Level I' The failure of an inertial navigation unit is detected on the “aircraft” by indications from the Control and Display Unit (CDU) or by the status message from the corresponding sub-system. By following the manufacturer's manual, the cause of the failure may be localised at the level of the malfunctioning Line Replaceable Unit (LRU). The operator then removes the LRU and replaces it with a spare 2. 'Maintenance Level II' The defective LRU is sent to the maintenance workshop (the manufacturer's or that of the operator responsible for level II maintenance).

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Click on "access" button and then click on "create account". Fill in the form selecting from the first window if you are a boat owner, insert a username and password, email and your personal data. You receive an email, click on the url and your account i s confirmed. Than you go on Airynb site, click on Access and insert your username and password and you are part of Airynb community.

During registration, you should receive a confirmation email on the email address you used to register. To validate your email, you simply have to click on the link "Confirm my email address". To verify that you entered the correct email address, go to "My Account" and "Profile".

To go to your phone number, you should click on "My Account", "Dashboard", "My Profile", and validate both your phone number and your email address.

After clicking on the verification process, you should automatically receive a text message with a code. You need to enter this code in the space provided for it, so your phone may be verified.

If you have forgotten your password, you can click on "Access", than on "request new password".

If your account was blocked, you can contact us by Airynb contact form. Do not forget to explain the context if possible. For example, you may have entered your password wrong 5 times, or you may not know why your account was blocked.

Create an ad

We do accept yacht charter professionals if those two conditions are respected:

The pricing of rental offer have to be lower to the pricing displayed on your website or in your agency/office.

Your company or website may not be mentioned at any time: not in the description, not in your photos, and not in the exchange of messages with potential boat renters.

If you make your yacht available for charter with you or a qualified person on board, the charter will be considered to be "with skipper".

If you make your yacht available for charter without skipper, the boat renter will be responsible for steering the yacht.

You may also make your yacht available for charter "with or without skipper," letting the renter choose if he wants to have a skipper on board or not (depending on the renter's preference and navigational experience.

I remember you the simple steps to create a boat rental offer:

1. Register you account as boat owner on Airynb site.

2. Register your boats on Airynb site

3. Insert a boat rental offer for every boat with calendar and price.

Boat renter communicate with you through "send message" button in the rental offer filling in the Airynb contact form. Remenber that you deal directly with the future boat renter.

You will pay a token for every day that your rental offer will be present in Airynb site. The value of the token depends from the number of your boat's feet.

When the boat renter will accept your boat rental offer you will delete the rental offer for that period on Airynb site. From that moment you will not pay more.

Airynb will notify you well in advance when the token payment will be active. From now until then you will pay nothing to enter your boat rental offers.

Charter Request

To offer a discount or make a personalized offer to a boat renter, you can do it directly dealing with the boat renter.

You will be able to share contact information, email and phone numbers with the boat renter.
The first time will be when the boat renter will send you a message via the Airynb contact form by replying to one of your boat rental offers.
When you will receive your message you will be in contact with the boat renter and from that moment you can exchange email and phone numbers.

You have to register on Airynb site. You click on "access", click on "create account" and fill in all the information.
a. select "I am boat owner"
b. insert email and phone number
c. insert name and surname
You will receive an email to the communicated email in the registration, click on the URL and from that moment you are registered on Airynb site.
After it you join the Airynb community. Please recommend it to friends or family. Click on the links you find on the Airynb site, such as Facebook, Twitter, Instagram, Google +, Linkedin, Youtube and Pinterest.

Yes, your personal information is secured.

Our website uses the highest security standards to assure your security. All the information present on Airy&b are secured. The site is verified by a SSL certificate.

To modify your password, go to "My Account" and then "Profile". Once you are on your profile, click on "Edit my Password".