Following on from the success of our version 1 sequential shifter we have upgraded the design based on feedback. The new design features a gear lever that is easier to adjust and to many more positions. The new design of shifter is quieter than our version 1 and also more robust, we have also added an adjustable plunger now so that you can chose the exact strength of gear change required. The main advancement on this version is the optional active shifting that uses a hydraulic system and software to only allow gear shifts when the gear is unloaded exactly like on a real car.
What is included:
-Cool Performance by Quaife sequential shifter plug and play
-High quality 2m USB a to b cable
-Mounting plate for table attachment
-Aluminium formula style gear knob
If purchased without the circuit board you still get all of the above but it is not plug and play, you will have trailing cables from the reed switches. These can be connected to existing circuit boards like the Bodnar BUO836A for example to keep the amount of controllers down where there is a limit.
-Shift-lock mechanism (see below for details)
The main problem with all shifters on the market at the moment is that you cannot simulate missed gears nor have any interaction with the software. For this to be accurate it also needs to simulate the different type of gearboxes for dog engagement and also synchromesh:
A synchromesh gearbox is what you would commonly find in your road car. This type of gear is engaged using cones to match the speed of the gears and then held in place with multiple ‘teeth’. With this type of gearbox there is virtually no play when in gear but there is a lot of surface area with load on holding the gear in place. Because of the load on the teeth and the fact there is not much space the gear needs to be doing almost exactly the same speeds to be able to engage and this is what the cones do but they cannot overcome the engine brake without doing damage to the gearbox and so the clutch is needed for all changes.
A dog engagement box is what you will commonly find in race cars and on most sequential gearboxes. This type of gear usually has 3 to 6 ‘dogs’ on each gear and there is a lot of free space for them to engage this means there is normally quite a lot of play when in gear and why you often see race cars juddering forward and backwards when going down the pitlane. When you are driving fast this is not an issue as you are pushing on one side of the dog for acceleration or braking rather than hovering in the middle, this is also why they are not suitable for daily use on the road. When shifting gears because of the space between the gears normally there can be up to a 900rpm difference in gear speeds and the gear will still go in, because of this you do not need the clutch. To make a gear change you need to reduce the load on the dogs so that it can released, this is normally done by just lifting the throttle on the up change. To change down a gear there is already a reduction in load that is sufficient you just need to blip the throttle so that you do not lock the rear wheels or cause unnecessary wear on the gearbox.
With our solution we are able to replicate both types of shifting accurately; more importantly for dog engagement you are able to pull the lever very hard when accelerating and you will not be able to change gears but as soon as you lift it will go in. This was very important for us to achieve because is most race situations a gear change in a sequential box would happen by preloading the lever first and it was the number one priority this was achievable. Gear changes are done this way to reduce the shift time as you only need to lift until you feel it go in and quite often gear changes will be made with 30% throttle still applied so there is no loss in engine torque.
For the synchromesh option you will not be able to shift gears unless the clutch is pushed, you will however be able to preload the lever prior to pushing the clutch the same as the dog engagement box.
Our solution allows preload because we are using a proper hydraulic system rather than just a cheap solenoid. This is critical because using something like a solenoid means if you apply preload and then activate it you would need to release the force before the solenoid would activate, a problem not encountered with hydraulics.
The rest of the shifter shares a very similar design to our original shifter and the mechanical feel will be exactly the same we have just changed to the latest components Quaife use in all the current sequential gearboxes. This shifter is just as strong as the old one and will take a lot of abuse without the fear of breaking anything. We also have a clear perspex cover so that you can see every gear change and how the whole system works.
This shifter can be directly bolted underneath using 4 M8 bolts or alternatively you can bolt our attachment plate to the shifter and bolt through the 4 holes from the top into your setup.
RT Quaife Engineering Ltd uses motorsport-inspired design and precision engineering capabilities to deliver a large range of high performance drivetrain products destined for vehicle manufacturers, motorsport competitors and the retail aftermarket.
Quaife was founded in 1965. Headquartered near Sevenoaks in the South East of England, the firm employs over 80 skilled people at two high technology manufacturing facilities, which produce a globally recognised brand of products that are sold through 70 distributors in 26 countries.
Weight: 6 kg
Configuration: With Circuit board, Without circuit board