The free field frequency response is 45Hz to 21kHz. Peak SPL per pair is dB driven by a pair of 90 watt amplifiers. The largest model the A features an 8 inch bass driver and 1inch tweeter. The free field frequency response is 35Hz to 21 kHz. Peak SPL is dB and bass and treble amplification is and watts respectively. Audio electronic crossovers allow to split the audio signal into separate frequency bands that can be separately routed to individual power amplifiers which then are connected to specific transducers optimized for a particular frequency band.
Active crossovers come in both digital and analogue varieties. Genelec digital active crossovers include additional signal processing, such as driver protection, delay, and equalization. Genelec analogue active crossover filters contain electronic components that are operated at low signal levels suitable for power amplifier inputs.
This is in contrast to passive crossovers that operate at the high signal levels of the power amplifier's outputs, having to handle high currents and in some cases high voltages. In a typical 2-way system the active crossover needs two power amplifiers — one for the woofer and one for the tweeter. Using the active approach enables frequency response adjustments and optimization of the full loudspeaker system, placed in various room environments, without expensive external equalizers. The end result is a simpler, more reliable, efficient, consistent and precise active loudspeaker system.
The Genelec DCW technology developed and refined over more than 30 years greatly improves the performance of direct radiating multi-way monitors. The DCW technology shapes the emitted wavefront in a controlled way, allowing predictable tailoring of the directivity dispersion pattern. To make the directivity uniform and smooth, the goal is to limit the radiation angle so that the stray radiation is reduced.
It results in excellent flatness of the overall frequency response as well as uniform power response. This advanced DCW technology minimizes early reflections and provides a wide and controlled listening area achieving accurate sound reproduction on- and off-axis. Minimized early reflections and controlled, constant directivity have another important advantage: the frequency balance of the room reverberation field is essentially the same as the direct field from the monitors.
As a consequence, the monitoring system's performance is less dependent on room acoustic characteristics. Sound image width and depth, critical components in any listening environment, are important not only for on-axis listening, but also off-axis. This accommodates not only the engineer doing his or her job, but also others in the listening field, as is so often the case in large control rooms. If the ISS circuit does not find any audio on the input for a period of time, it sets the loudspeaker to a low-power sleep state and the loudspeaker will consume less than 0.
When an input signal is detected, the loudspeaker immediately turns itself on. Basically, the loudspeaker system will start saving power as soon as work is interrupted. In this mode, the monitor is only powered on and off using the mains power switch. Although it is advisable to use sturdy and stable floor stands together with free-standing loudspeakers, a very common solution is to place loudspeakers directly on a table or on a console meter bridge.
This causes several detrimental side effects. Aiming of the loudspeaker axis towards the listener is rarely implemented, also, unwanted mechanical vibration do propagate from the loudspeaker to the mounting surface, and first order reflection on the work surface causes comb filtering and hence ripples in the frequency response.
To solve these very common problems Genelec developed an efficient and very practical solution. It has four shallow feet and it is made from special lossy rubber-like material. The vibration isolation and damping properties reduce midrange coloration caused by unwanted vibration transmitted to supporting surfaces. This innovative solution is an integral part of Genelec loudspeaker design and provides clear benefits in usability and sound quality. A common problem with standard free-standing loudspeakers is that the front baffle discontinuities cause diffractions and the loudspeaker sharp corners act as secondary sources through reflections.
In order to improve the flatness of the frequency response and the power response of free standing loudspeaker systems, Genelec have designed a highly innovative enclosure optimized to match the properties of the monitor drivers, featuring rounded edges, and gently curved front and sides.
The program uses random samples of rental inventory taken at routine intervals. Any sampling program that gives every unit of.
If the results are within the Inspection Range, the unit passes. Check elastic travel and visually inspect the ski brake function, interface areas between boot and binding, including AFD, lug height adjustment if appropriate , and forward pressure.
Count any deficiencies as Class I Deviations. If more than the maximum number of Class I Deviations given in Chart B are found in the sample, or a single Class II Deviation is detected the sample fails and daily sampling must be conducted until the problem which led to the failed sample is found and corrected.
Record the date the sample was tested, the number of units tested the number of Class I and Class II or III Deviations, whether the sample passed or failed and any actions taken. There is no need to record the identity of units tested or actual Test Results. Random sampling is conducted throughout the entire season.
Frequency is as follows: 1. After 7 days of operation. If the sample passes the next sampling is taken after another 7 days of operation. If two consecutive samples pass, sampling frequency is increased to 14 days. If a sample fails at any time, daily sampling is instituted until two consecutive samples pass, at which point weekly sampling resumes.
Sample size is based on average daily output. Take a random sample of the rental inventory as determined by Chart B. Take half the sample from inventory as it is either rented or returned and the remainder from inventory available for rental.
Test sample units in Twist one direction only and Forward Lean. They should be cleaned, inspected and lubricated prior to each season and every skier days per season as follows: Inspect all components of each set for damage or excessive wear.
Apply Salomon grease to the lubrication points indicated for each model. Do not use silicone or penetrating oils unless the lubricant is specifically approved. Clean the exposed areas of the components with a cloth or rag. Wipe any dirt or grit from the binding housings, heel track and the region under the heel cup.
Do not use solvents or hot water or high pressure liquid cleaning systems to clean bindings. Solvents may cause permanent damage to the plastic structure by dangerously modifying the product technical characteristics. The markings can also be erased. Recommend to the skier that routine maintenance and inspections be performed by an Authorized Dealer. This will help ensure that any problem that may develop with the system can be detected and corrected by a trained technician.
Bindings should be cleaned, inspected and lubricated in the following manner: Inspect all components for damage or excessive wear. Do not attempt to adjust the release setting below the lowest setting as damage may result. Do not use solvents, hot water or high pressure liquid cleaning systems to clean bindings. Solvent may cause permanent damage to the plastic structure by dangerously modifying the product technical characteristics.
Apply Salomon grease to the lubrication points indicated for the appropriate model. This should be followed by periodic in-season inspections and when a binding looks particularly dirty or if visual inspection reveals that something may be wrong.
This helps to ensure that all components are functioning correctly. Never attempt to interchange any SR, SC or retail toe baseplates or heel tracks with other model baseplates or heel tracks. The longer bit is for use with the Salomon jigs for adult skis. The shorter bit should be used with the Salomon jigs for junior skis.
The procedures for using both bits are the same. When a screw or tap breaks in a ski, it must be removed carefully to avoid further damage. Follow this procedure: 1. Fit the extractor drill bit into the electric drill with the shoulder touching the chuck. Fasten the appropriate jig onto the ski. Position the correct jig bushing directly over the broken screw.
Drill slowly around the broken screw using an up-and-down movement to let the shavings escape. Caution: do not hit the screw. Continue until the chuck touches the bushing of the jig. The broken screw will come out inside the extractor bit. Remove the screw using a pair of pliers. Turn the ski over and tap lightly to remove all shavings.
Put a drop of glue into the hole. Insert a plug from the kit using a hammer. Insert binding screw and tighten using a hand driver. Do not over tighten. W hen a hole simply needs to be widened to accept the plastic plugs, use an 8 mm diameter bit.
Do not drill deeper than 10 mm. For this operation, use the corresponding jig and position it properly by lining it up with the hole to be repaired. You can file it down to make it level with the surface.
I nsert a screwdriver width mm at the front of the plate fig. M ove over the screwdriver to eject the plate fig. Place the new plate and hand clip it fig. Caution: for models with elastic pedal range 08 , check the presence of the elastic block under the pedal fig. Each subassembly has traceability code. General location: - On the Toe : in front between the two wings, 3 or 2 digits A9 is an example. The standard norm concerns not only the shape and dimensions as illustrated, but also the friction coefficient of the area of the sole which is in contact with the anti-friction plate on the binding.
Alpine norm ISO These boots are designed for use with a pair of classic skis with alpine bindings and not with a monoski, snowboard or skiboard.
Touring norm ISO These boots are designed for use with a pair of touring bindings, and not with alpine bindings, monoski, snowboard or skiboard. When a pair of used boots is brought in, make sure that any worn parts are still within the norm. Your ski boots must be assembled, adjusted and checked by an approved Salomon technician. H ave cutomer stand into theboot according timing procedure : - 3 minutes for Custom Shell HD.
Remove each liner form each shell. Place shells with buckles open in Custom Shell oven and set timer according timing procedure : - 2 minutes for Custom Shell HD. Using Custom Shell gloves or insulated gloves, carefully remove heated shells from the oven after the requested time of heating. A fter requested time to extand the boots, place a Custom Shell cooling packs on each boot and have the customer wait motionless for another following time : - 5 minutes for Custom Shell HD. After requested time to cool down the boots, remove Custom Shell cooling packs, undo buckles and power strap, and have customer exit the boots.
C arefully insert each liner into each shell. Help the customer step into the boots. O nce in the boots, close the buckles on a setting that provide minimum tension and gently close power strap. Ensure the boots are colsed properly and tell the customer not to ski in them for 3 hours to ensure complete hardening of the Custom Shell plastic. After 3 hours, the boots are ready to be skied. Normal standing. Here, it is the foot which changes the shell, there is no more risk of misinterpretation, the precision is perfect.
Also, this process saves time 30 min. Can the shell change forms several times? As many times as you want! The wider the foot, the more the shell will expand. Mold the soles before. The customer should then step in the warmed Custom Shell with the insoles. The work done on the shell must be done before. This will solve problems and last over time. The molding of the liner must be done after in order to put the finishing touches on the fit. How do I know when the plastic is warm enough?
It is the same process as usual when done with a manual test. When heating the boot, is there a risk of modifying the geometry of the boot? What happens if I leave the boot in the oven for longer than 2 minutes? You could still put it 10 minutes and there would be no difference. The answer comes from the materials found in the shell. They only need 2 minutes to completely absorb the heat they need to deform, but do not deform more if you leave them in the oven longer.
There is no effect because the material has the same PU base as a normal boot. The boot has exactly the same behavior on snow. On the other hand, once a boot is fit with the Custom Shell, precision is increased.
In World Cup races, one person is dedicated to each racer; everything is done by hand and each pair is adapted to each discipline. Then you could say having Custom Shell is like having your own race technician!
Straight and anatomical tongue - A thermoformable internal side that provides precision and comfort. Opened ankle area For ideal morphological adaptation regardless of the size and shape of the bones. Forefoot The space in front of the metatarsal is not thermoformable, which allows the toes to move freely.
Watertight gusset 5. Specific cuts For women and men to avoid pressure points on the lower calf. Place complete boot with buckles open in Custom Fit machine and set timer for 5 minutes fig. Carefully remove boots with heated liner from the machine after the requested time of heating. Once in the boots, close the buckles on a setting that provide minimum tension and gently close power strap. After requested time to form the liner, undo buckles and power strap, and have customer exit the boots.
Ensure the boots are colsed properly and tell the customer not to ski in them for 30 minutes to ensure complete hardening of the Custom Fit liner. After 30 minutes, the boots are ready to be skied. It is prohibited to use chemical agents, hot water, pressurized water, gasoline, alcohol, detergents, solvents or aerosols, which could permanently damage the plastic materials and erase the marks.
However, using the measurer can never replace trying on a boot. The volume fit can be measured in two dimensions. The Salomon measurer can be used for all Salomon footwear products Alpine, X-C, Hiking, In-line skates, Snowboard and takes into account the two fundamental dimensions of both feet. The width measurement is particularly useful to refine the measurement in Mondopoint because it orients the customer towards the. Women cuff opening is adjustable. Cuff is delivered with opened position which allows a large volume for calf.
It is possible to reduce the calf volume by turning the screw present on the cuff. Grinding should be done as well on the top and on the bottom of the front and rear cantable pad with the same angle in order to guarantee surfaces parallelism. Heating management is done by a button present on the lateral side of each liner. Booster flex is present on the back of the cuff on models equipped with this feature.
This function allows : - Increases the junction between cuff and shell for flex management in a forward position : entering the curve, increasing power on skis. To harden the boot, unscrew the 2 torx T20 screws, inverse booster flex position and screw it again. Charger description - 2. Red lights in the middle of the device indicate the battery status. When they start to blink whilst skiing, it means your battery level is low and you will have to charge it soon. When charging your batteries packs, light will blink until your batteries are fully charge.
When the red light is constant, it means your batteries are fully charged. Colors means different mode. The blue light indicates the first level of heating.
The red light indicates the third level of heating. If you have a new device or download de latest APP, you may have to reset your shoes. To reset your shoes, hold down the button for 5 secs until all lights turn red then release the button: your shoes have now been reset.
Press the buttons on both shoes until the lights turn blue. If you have disabled localisation on your phone or if you did not permit the Salomon Custom Heat Connect application to use your location, bluetooth devices will not be detected. Please verify the permission of the app in your phone applications settings. After your first connection, your APP will remember which shoes are yours. So next time you open the application, it will search and connect automatically to the recorded shoes.
The locker icon means that the shoes you try to connect are already secured. To release the security, hold down the button of your shoes for 5 secs, until all lights are red and the locker icon disappears. If you lose your phone, you can still use your shoes in manual mode by pressing the button once. If you want to connect a new phone, you will need to release the security of your shoes by holding down the button for 5 secs, until all the lights shine red.
The temperature will be the last saved temperature on your phone. When you turn off your phone in sleep mode for a short or long period, your smartphone may automatically disable wireless function in order to save smartphone battery. The liner continues to work normally. When you turn on your phone, Salomon Custom Heat App will automatic reconnect to the shoes. When using the APP for the first connection, you need to position your smartphone very near to the shoes 1 meter.
After the first connection, your APP will find your shoes from a range of 10 to 15 meters. When you update Salomon Custom Heat App, it will reset all data from your phone. You just need to reset your shoes to connect to your shoes again. Remove liner from the shell 2. Remove old buckle and metal shavings that resulted from drilling out the old buckle. WARNING : - Not drill at a low angle as the drill can slip and then damage the boot - Be careful when drilling out the final rivet as the buckle can get stuck on the drill bit, spin around, and cause injury to the boot-fitter - Not drill for long periods of time on the rivet.
The amount of friction will heat up the plastic and potentially damaging the plastic of the boot. Salomon guarantees the soles for their disassembling and reassembling, up to a maximum of 10 times subject to strict compliance with the following instructions:. When the foot is flexed, we notice: - the circumference of the ankle increases about 2 mm, - the axis between the talus astragalus and calcaneus becomes off-centered which increases the surface area at the base of the foot.
The boot cuff follows the profile of the leg. The ski boots can be adapted to the shape of the leg by canting the cuff. The canting adjustment by canting the cuff allows the boot to follow the morphology of the leg to keep skis flat. Salomon has parts at your disposal that will help you to easily adapt the boots to these deformations.
To adapt to this deviation of the foot, it is possible to place wedges directly on the footboard. However, this wedge should only be used if the lateral articulation under the ankle bone is mobile fig. This sole is realized in grindable PU foam. To increase the volume of the boot or to change the position of the foot. Caution, grind on the top surface only. Grinding the base will effect the interface with the Chassis.
A depth gauge is marked front and back for even grinding fig. Before undertaking this type of operation, it is important to observe certain basic rules: - A lways proceed step by step, starting with temporary measures before going on to permanent changes. They require the proper tools and should be undertaken only for big problems and by experienced specialists.
For example: - Stretching the shell. Important: Boots whose lower shell material is not made of Polyurethane PU , should not be heated risk of damaging the material. X Wave, Ellipse, Performa: Be careful not to overheat the Sensifit or instep gusset of the boot during the heating operation there is a risk of deforming it due to how thin this part is.
X Wave, Performa: Be careful not to overheat the Sensifit or the instep gusset of the boot during the heating operation there is a risk of deforming it due to how thin this part is. Falcon and X Wave: Be careful not to heat the metal parts there is a risk of damaging the plastic. Poor foothold distribution especially with children. Solutions all products fig. Grinding the base will affect the interface with the Chassis. A depth gauge is marked front and back for even grinding.
Falcon fig. Helmets are designed to reinforce safety while doing the following winter sports activities: ski, Snowboard, thus excluding all other activities, whether motorized or otherwise.
Please remember that the size given by the measurer centimeters should be used only as an indication. Using the measurer should never replace trying on the helmet. The final selection of the appropriate size should be left to the customer.
Salomon does not cover any damage to the head measurer that is a result of transportation, storage or not abiding by the instructions for use. The helmet should sit firmly against the forehead and not slip down over the eyebrows.
Adjust the chinstrap firmly beneath the chin and fasten the buckle fig. Try to move the helmet with both hands from left to right. If the helmet fits correctly, the skin on your forehead should move gently with the helmet fig. To clean the lens, use soapy water and rinse it under a stream of lukewarm water. Leave it to dry naturally and wipe with a soft cloth. Do not use alcohol, detergents or solvents.
These Salomon visors feature an anti-fog treatment. The inside face of the lens is scratch sensitive and should be treated with caution. Please avoid wiping it. Snow which has penetrated the visor should only be shaken out. Do not put varnish or any coloring products on your helmet.
Do not cut the ends of the straps. Only use the included stickers on your helmet. If you remark any sign of deformation or damage, replace your helmet. Do not hesitate to show your helmet to a Salomon dealer or contact our customer service department. This helmet was designed to absorb shocks by deformation or destruction.
If your helmet has been subjected to a forceful shock, or involved in an accident, it should be destroyed and replaced even if there is no visible damage because interior damage can occur that weakens the helmet. For any additional information on lenses, please refer to the Goggles section on www. Extended exposure to fierce sunlight may weaken various plastic materials. These conditions often occur within a car parked in the sun.
With the visor up, align the rivets in the holes and screw them on each side of the helmet. However, this system is not waterproof. Do not submerge the Earpad or cord in water or any other liquid.
Do not attempt to clean or to disinfect your helmet with the earpad sound system installed. A pocket inside the removable earpad allows you to insert an audio system of your choice. This can lead to an accident and possible injury or death. Always stay in control.
They may distract you from focusing on skiing or riding safely which may lead to less control. All Salomon lenses are tested in external certified labs, in-house labs, and in the field to assure that they meet Salomon standards for scratch resistance, adhesion, durability and longevity. Little to no lens tint.
These lenses are best in stormy weather conditions, very low light, or under artificial light ski domes or in northern countries. They primarily protect against wind, snow and dust. Lenses with low or light tint, designed to enhance terrain contrast and definition in cloudy and medium flat light conditions. Lenses with medium tint, designed for universal use. These provide the best vision in most conditions, brighten details and increase depth perception. Ideal for flat to moderately sunny conditions.
Fully tinted lenses for use in sunny conditions. They give exceptional visual acuity, color definition and glare protection for bright days and all sunny conditions. Maximally tinted lenses, typically reserved for use in extremely bright conditions, like glaciers or high altitude in snow.
This category is not recommended for driving. Press toptheand buttons 1. Align the right 1. Align the lens rightclip lenstoclip to its located area in the in frame its located area the frame.
Align and clip leftthe lens its located area in the in frame 3. Align andthe clip leftclip lenstoclip to its located area the frame. Simply press press lens together 4. Simply lens together in the in central area area the central. Taffir Unregistered guest. Thanx in advance. Any help would be appreciated.
Posted on Wednesday, September 08, - GMT i need a wiring diagram for a alpine mobile security system sec Rokoko Unregistered guest.
Cotto Unregistered guest. I had been looking for a replacement remote and was constantly told to just replace the alarm because Alpine doesn't support their security department anymore.
We coded it and works fine to turn the alarm on and off. The guy didn't think the remote would work for accessories windows, starter etc. Hope this helps someone, because tracking this answer was a real pain for me.
If someone has the directions to recal my prox sensor, please let me know. It's not working like it use to. Thanks in advance. Posted on Thursday, October 07, - GMT beckman, I have the wiring diagram for the a and I used it to hook up my and it works.
Email me if you are interested in it and I will email you a PDF from a scan.
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