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Choosing a power system:

 

  Power system can be chosen based on the type of flying ex-
pected of the model and all up weight of the aircraft.  Sedate flying 
from a hand launch requires 35 watts per pound(W/Lb).  Taking off 
the ground needs approximately 50W/Lb.  Aerobatics and good 
climb performance, 75W/Lb.   Anything more than 75W/Lb will 
result in excellent performance.  Based on the weight of the model 
and the flying desired, the power require can be calculated.  Se-
lect the voltage of the battery being used.  It is best to use a loaded 
voltage of about 90% of nominal.  Now, calculate the current re-
quired.  From the chart, pick a motor at the voltage you intend to 
use and find the prop that pull the required current. 

Propeller selection:

 

  Use the chart to start with propeller selection.  It is a starting point 
and we recommend testing several props on the model to find the 
best performing prop.  

Verify current draw when testing props.

 

A 3D model will use a prop very different than a model intended to 
fly very fast.  Generally, 3D models will use a prop that has a pitch 
to diameter ratio(P/D) of 0.5 or less, like 10x5 or 12x5.  Most sport 
models will use a prop with a P/D or 0.6-0.8.  Models that are 
designed to fly at high speed or have other special requirements 
will use props in the 1.0 P/D range.  The highest static thrust will 
be available from the 0.5 P/D props, but they have limited top speed. 
Highest speeds can be attained with 1.0 P/D props, however low 
speed thrust and acceleration is limited. 

Warranty:

 

  Himax motors have a two year limited warranty to the original 
owner, excluding gearboxes.  All motors are guaranteed to be free 
from manufacturing defects within two years of date of purchase. 
Not covered under warranty is crash damage, customer abuse, 
improper use, or overheating.  Warranty claims should be handled 
directly with Maxx Products, 815 Oakwood Rd, Unit D, Lake Zurich, 
IL  60047.  Be sure to include contact information and a descrip-
tion of the problem including which ESC, battery, and prop was 
being used.  If possible visit www.maxxprod.com to obtain a ser-
vice form. 

Service:

 

  Himax motors in need of service should be sent to Maxx 
Products, 815 Oakwood Rd, Unit D, Lake Zurich, IL 60047. 
Please include a note explaining the problem.  Return shipping 
for repair estimates must be prepaid. 

Removing or Reversing the Shaft:

 

1.  First of all, never use a hammer or heavy object to pound or tap 

on the motor.  Sharp impact will damage ball bearings and other 
components. 

2. Use an allen wrench to remove the setscrews in the endbell 

and the wheel collar.  The setscrews may be tight because 
thread locker is used to secure them. 

3.  Separate the stator assembly and rotor assembly.  This may be 

tight because thread locker sometimes seeps between the shaft 
and ball bearing. 

4. In order to maintain critical balance, the shaft fits tightly in the 

rotating endbell.  Use an arbor press or drill press to exert steady 
pressure to push it out of the endbell.  Before applying pressure, 
make sure the press and shaft are aligned.  Avoid using a vise 
because it is difficult to maintain proper alignment with a vise. 

5.  There are flats on the shaft.  Align the flats with the set screws, 

and tighten. 

6.  Put the rotor and stator assemblies back together and reinstall 

the wheel collar.  If you wish to use thread locker, use only a 
removable type. 

Maintenance:

 

  Brushless motors are almost maintenance free, so minimal care 
is required for long life.  Keep the motor clean free of dust and dirt, 
especially the bearings.  Dirty bearings wear quickly.  Lubricate 
the bearings regularly with light oil.  Do not immerse the motor in 
water, or solvents.  Do not bend the wires excessively and secure 
wires to prevent breakage due to fatigue from vibration.  Always 
used balanced propellers to reduce loads on bearings, to reduce 
noise, and reduce stress on the airframe. 

Reading the Chart

 

  The graph represents the HC3510-1540 
operating range.  Current ratings are noted 
on the front of this manual.  The suggested 
props are not a recommendation for any 
specific airframe or flying style.  The graph 
does give a range of props to work with and 
an idea of the current draw.  The chart as-
sumes APC Electric series propellers.  First, 
approximate the operating voltage, 1-1.1 
volts per NiXx cell or 3.3 volts per Lithium 
cell.  As an example we are using an 8 cell 
NiMH pack.  8x1.1= 8.8V.  Follow along the 
9V line up the chart.  If using a 9x4.5 prop 
this motor will draw approximately 33A, a 
little less at 8.0-8.8V.  This would be accept-
able for full throttle continuous flight.  If a 
9x6 prop were used, current would be about 
40A.  This would allow 15 second bursts of 
full throttle with enough power off time to 
allow the motor to cool. 

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