3 Watt x 75 kg = 225 Watt
> Minus "age discount" (20% of 225 = 45 Watt)
> 225 -45 = 180 Watt (target specification in case of stress)
Stress intensity
Stress pulse: The optimal stress intensity is achieved at 65 -
75% (see diagram) of the individual cardiovascular perfor-
mance. This value will change, depending on the age.
Pulsediagramm
Pulse
Fitness and Fat Burner
220
Maximalpulse
200
(220 minus Age)
180
160
Fitnesspulse
(75% of Max.Pulse)
140
120
100
Fat combustion pulse
80
(65% of Max.Pulse)
20 25 30 35 40 45 50 55 60 65 70 75 80
Amount of stress
Duration of a training session and frequency per week:
The amount of stress can be regarded as ideal when 65 -
75% of your personal cardiovascular performance is achie-
ved over an extended period of time.
Rule of thumb:
Training frequency
Duration of training
daily
10 minutes
2–3 times a week
20–30 minutes
1–2 times a week
30–60 minutes
You should select the Watt performance in such a way as to
maintain your muscle stress over an extended period of time.
Higher performances (Watt) should be effected in connection
with a higher pedal rate. Too low a pedal rate (less than 60
rpm) leads to a static stress on the muscles and thus to prema-
ture fatigue.
Warm-Up
At the beginning of each training session you should limber
up for about 3-5 minutes, slowly increasing the exercise so as
to get your cardiovascular system and your muscles going
Cool-Down
So-called "cooling down" is equally important. After each trai-
ning session (after/without recovery), you should carry on
pedalling with a small pedal resistance for a further 2-3 minu-
tes.
The stress in your further endurance training should first of all
be increased via the amount of stress, e.g. instead of 10
minutes, do 20 minutes a day; or instead of training 2x a
week, train 3x. Along with structuring your endurance training
to suit your personal requirements, you can always fall back
on the training programmes integrated in your training com-
puter.
Glossary
Age
Input for the calculation of the maximum pulse.
B.M.I
90
Age
Body Mass Index: Value depending on weight and height.
Calculation of the BMI:
Weight (kg)
–––––––––––– = Body Mass Index
Height
2
(m
2
)
Example of Thomas:
Weight 86 kg
Height 1.86 m
86 (kg)
–––––––––– = 24,9
1,86² (m
2
)
Standard values:
Age
BMI
19-24 years
19-24
Classification
25-34 years
20-25
Underweight
35-44 years
21-26
Normal weight 20-25
45-54 years
22-27
Overweight
55-64 years
23-28
Adiposity
> 64 years 24-29
Severe adiposity >40
The result of Thomas (50 years) shows a BMI of 24.9, which
is a normal value. Deviating from the standard values can
result in damages to your health. Please consult your doctor.
Control
The electronic system regulates the performance and the pulse
on manually entered or preset values.
Dimension
Units for displaying km/h or mph, Kjoule or kcal, hours (h)
and performance (Watt).
Energy (realistic)
Bike ergometer:
The energy metabolism of the body is calculated with a
degree of efficiency of 25% necessary for the mechanic out-
put. The other 75% are converted into heat.
Cross ergometer:
Here the ratio is 16.7% and 83.3%.
Fat consumption pulse
Calculated value: 65% max. pulse
Fitness pulse
Calculated value: 75% max. pulse
Manual
Calculated value from: 40 - 90% max. pulse
Maximum pulse
Calculated value: 220 - age
Pulse monitoring
If an arrow appears, which is pointing downwards, your
pulse is 11 beats above the target pulse. If an arrow appears,
which is pointing upwards, your pulse is 11 beats below the
target pulse.
Menu
Display, in which values are shown or settings are changed
Percentage scale
Comparison between the current performance and the maxi-
mum preset appliance performance.
m
f
Performance
<20
<19
Current value of the mechanic (braking) power in Watt. This is
19-24
the power, which the appliance converts into heat.
25-30
24-30
Profiles
30-40
30-40
A bar display showing performances or pulses over a period
>40
of time or a distance.
35
GB