HM Quickshifter GP (Free Delivery)
HM SEAMLESS SHIFT
USING GEAR DOG ENGAGEMENT DETECTION (HMSS)
This is because regardless of the conditions / load / RPM / gearbox characteristics, it detects when the next gear is actually engaged and then reapplies power. This is a massive step forwards in shifting technology and has made all other shifting products obsolete.
There are also safety programmable minimum and maximum kill times which over ride this algorithm in the rare case that the rider/bike is doing something very unusual and for some reason the shifter does not correctly detect this gear engagement in a timely fashion.
In short – a revolution in changing gears! Not just a gimmick – this is the culmination of thousands of hours of work by contracted in specialists in their field.
DERIVING GEAR POSITION
The problem is actually worse than it initially seems. Take for example 6th gear. If the bike is in 6th gear then it would be desirable to prevent a shift from happening if the rider inadvertently tries to select a non-existent 7th gear. This is something we know many riders do – something that we have seen in data logging time and time again. The purpose, of course, is to prevent a time- and power-killing “false” shift if the rider does this. But what happens if the bike is actually in 5th and the shifter is “one off” and thinks it is in 6th? The rider will be prevented from shifting to 6th – not acceptable by any measure, and by using current techniques this is a very real danger.
Another example is the shift from 1st to 2nd. On most gear boxes the kill time required for 1st to 2nd gear changes is significantly longer than from 2nd to 3rd for example. So again, if the bike is in 1st gear but the shifter thinks it is in second gear, then a very rough or missed shift may take place, likely causing gearbox damage!
Also consider the case of short shifting or multiple fast gear changes (with or without clutch): again current calculation techniques are relatively slow, so this is yet another area that the shifter could be fooled. As the astute reader may have surmised, this is NOT just a matter of adding 1 for each up-shift, and subtracting 1 for each down-shift! The gear actually must be verified with no assumptions made.
While is it true that there are ways of “smoothing over” or masking current techniques so that the effect is, on the whole, acceptable – these do not give the kind of confidence in a product that we have become used to, or as demanded (and expected) at the highest levels of racing.
After a lot of research by some very highly qualified people we put together a technical specification that demanded 100% accuracy with respect to gear position. Part of this specification was that even 99.99% was not good enough. Another requirement for gear position was that the shifter needed near instant results in real time – a big requirement! A team of mathematical engineering specialists worked on this problem for nearly two years. The answer lay in use of predictive mathematics, namely in the form of a specially-adapted non-linear time domain version of a Kalman Algorithm – the same type of math that predicts financial markets, tracks fast-moving military targets, and steers missiles. A sledge hammer to crack a nut? Perhaps, but it works, and it works wonderfully. When a gear change is made, the result – measured and verified without any assumptions – is accurately computed within 2-3 meters of completion of the shift. At 250 KMH, the typical delay between the completed shift and the gear being known with certainty is measurable in milliseconds! THAT is world class, and as far as we know, hasn’t been achieved anywhere else in the world. That compares to bikes with built in analog-type rotary gear position sensors!
We have pumped hundreds of thousands of logged simulation, road, and race miles through the GP shifter and have had a 0% failure rate.
FEATURES AT A GLANCE
• Fully and continuously dynamic self learning, very fast and incredibly accurate gear determination
• HMSS System beats chosen shift times to save significant accumulated time over a lap and provide seemingly seamless shifts
• Multiple types of outputs, all easily programmable
• Built in full feature Blipper controller for down-shifting in conjunction with any external blipper module (not available from HM)
• Each gear has its own kill time and its own sensitivity
• Microsecond accuracy on kill times
• Highly intelligent real time fault analysis and configurable error strategy. Policy: never allow even a smashed shifter to cause total motorcycle failure
• Easily readable, detailed and cyclic event log
• Data logging
• Firmware updateable via USB
• Highly sophisticated feedback derived kill time augmentation – unbeatable for laptime saved
• Advanced feedback derived power cutting / introduction strategies (under development)
• RPM kill time bias (under development)
• LIN Interface to allow connection to ECU’s / Dashes for delivering data, recording data, and in-the-field configuration adjustments without a computer
• CAN / ECAN Interface via optional CAN transceiver (under development)
• Simple USB interface (No Drivers! Just plug into any Windows Operating System and play!)
• Very Low power for a heavy weight 32bit RISC processor (30mA)
• Highly resilient power supply, able to operate up to 80v and can withstand transients far in excess of automotive standards
• Very small size
• Low Cost
• HM’s 24/7 professional support
• Ultra light weight
Due to the nature of this product please email us at email@example.com to confirm correct application for your motorcycle and required options prior to purchase
Note: Does not include Shift Rod - These can be purchased separately.
Click below to access the HM Fitment Guide