Confused by all the choice

Woosh

Trade Member
May 19, 2012
19,407
16,387
Southend on Sea
wooshbikes.co.uk
Woosh my no load speed when i checked is 27.5mph?
that varies a little depending the weight of the wheel but noload speed is a euphemism for derestricted speed that you can easily reach which is a little less than top speed you can see when the bike is on a stand.
 
  • Informative
Reactions: Topdog206

Topdog206

Finding my (electric) wheels
Jun 14, 2018
23
16
39
What about my brake aren't they the sensor type ones?

Im not sure about the other stuff but with your help I'm learning fast

Very informative posts woosh keep them coming!
 

Woosh

Trade Member
May 19, 2012
19,407
16,387
Southend on Sea
wooshbikes.co.uk
What about my brake aren't they the sensor type ones?
it does not matter much because the hydraulic brakes have excellent stopping power but sensors are useful when you go round sharp corners or use the throttle.
 

Topdog206

Finding my (electric) wheels
Jun 14, 2018
23
16
39
it does not matter much because the hydraulic brakes have excellent stopping power but sensors are useful when you go round sharp corners or use the throttle.
Yes I understand as mine cut the motor when you tap them so they are the sensor ones then
 

Woosh

Trade Member
May 19, 2012
19,407
16,387
Southend on Sea
wooshbikes.co.uk
Yes I understand as mine cut the motor when you tap them so they are the sensor ones then
it's easy to see if they have sensors:
you have the hydraulic hose and a sensor cable like this:

 
Last edited:

Topdog206

Finding my (electric) wheels
Jun 14, 2018
23
16
39
Just for interest, what warranty do you get with the Rio? As as opposed to the Oxygen 5 years on the frame and 2 years on all the electrics and battery?
 

Woosh

Trade Member
May 19, 2012
19,407
16,387
Southend on Sea
wooshbikes.co.uk
Just for interest, what warranty do you get with the Rio? As as opposed to the Oxygen 5 years on the frame and 2 years on all the electrics and battery?
there, the Oxygen wins 100%.
 

Chainring

Esteemed Pedelecer
Apr 24, 2013
328
158
Hi Jeremiah,
I bought my first ebike a couple of weeks ago and I absolutely love it. It's much easier to ride than I expected and I could't be more pleased with it. If you go to the web-site and read the specs. I can assure you that the bike has been updated, but not corrected in the specs.
My EDGE.BIKE Hybrid came with hydraulic disc brakes,not mechanical, a 14ah battery not 10ah, mudguards and rear rack. The rest are probably as stated. I can honestly recommend this bike and you should take a look at the web-site, also have a chat with Sam , the man. cheers
View attachment 25677
I've just had a look at the Edge bikes, and notice the front rack mounting points welded on. This is one of the things I have been looking for in my ideal ebike. I notice the central battery, so the weight is in the right place. I just have to wait for one with a front motor, so that I have more choice for the transmission, but I cannot wait too long....... Time is not on my side.
 

Chainring

Esteemed Pedelecer
Apr 24, 2013
328
158
I've just had a look at the Edge bikes, and notice the front rack mounting points welded on. This is one of the things I have been looking for in my ideal ebike. I notice the central battery, so the weight is in the right place. I just have to wait for one with a front motor, so that I have more choice for the transmission, but I cannot wait too long....... Time is not on my side.
I notice there is no address for Edge, and the spec given for the bikes is rather limited, when you compare it with the Woosh site and the response you get from Woosh on here. Hmmm...... makes you think.
 
  • Like
Reactions: Abi-Abster

Nev

Esteemed Pedelecer
May 1, 2018
1,507
2,520
North Wales
As the current rises, the battery's internal resistance increases, QUOTE]

I am no expert on batteries but are you sure about this:? My understanding is that as the current increases the battery will heat up due to increased power losses in the battery due to the internal resistance. The power loss in Watts can be found by multiplying the current squared by the internal resistance.

The internal resistance does not increase as the temperature of the battery increases due to the rising power loss, in fact I think the internal resistance actually starts to decrease as battery temperature increases.

This is why batteries don't last too long on the top of cold mountains, ie. their internal resistance is higher when they are cold.
 

Woosh

Trade Member
May 19, 2012
19,407
16,387
Southend on Sea
wooshbikes.co.uk
I am no expert on batteries but are you sure about this:? My understanding is that as the current increases the battery will heat up due to increased power losses in the battery due to the internal resistance. The power loss in Watts can be found by multiplying the current squared by the internal resistance.

The internal resistance does not increase as the temperature of the battery increases due to the rising power loss, in fact I think the internal resistance actually starts to decrease as battery temperature increases.

This is why batteries don't last too long on the top of cold mountains, ie. their internal resistance is higher when they are cold.
The plots below show the relationship between internal resistance and discharge current.

The bottom black plot shows the resistance at 0.3A discharge, the red plot just above it the same cell at 0.6A discharge and so on for 0.9A etc.
Clearly, the resistance increases with the discharge current.
The cell internal resistance is the result of friction when Lithium leaves the negative electrode and moves to the positive electrode during discharge. When the discharge current increases, accumulation of discharge products and reduction of concentration of the salts in the electrolyte in the neighbourhood of the electrodes cause congestion and increase the cell internal resistance.
This phenomenon happens not only in Lithium ion battery but is common to a lot of batteries, it is called the Peukert effect.

https://en.wikipedia.org/wiki/Peukert's_law

Typical internal resistance of common Lithium Ion cells:


graphs from:

http://www.mdpi.com/1996-1073/6/10/5538/htm
 

Woosh

Trade Member
May 19, 2012
19,407
16,387
Southend on Sea
wooshbikes.co.uk
Just had another quick look around and found this site which gives lots of info on batteries. Here is a quote from it.

As all drivers in cold countries know, a warm battery cranks the car engine better than a cold one. Cold temperature increases the internal resistance and lowers the capacity.

Here is the site:-
http://batteryuniversity.com/learn/article/discharging_at_high_and_low_temperatures
yes, your battery internal resistance is higher at 0 deg C than at 20 degrees C but that is due to the construction of Lithium ion cells.
Your cells are optimised to functioning temperature at 25 degree C. That is, the internal resistance is higher too cold or too hot, lowest between 20 - 40 deg C, then rises again.

Your battery will heat up when you are using it, but you get quickly to an equilibrium, somewhere about 5-10 degrees higher than ambient temperature. This is seen with a 10AH battery, less with greater capacity like 13AH or 17AH battery. The effect of temperature is nevertheless small to insignificant compared to the Peukert effect due to the high discharge current.
Read the datasheet of the Samsung 18650 29E, probably the most popular cell on e-bikes.

https://eu.nkon.nl/sk/k/29E.pdf

Page 4 and page 5 explain the effect of temperature on the cell.
Page 6 explains also the effect of high discharge current on the amount of energy you get, 1C, 2C and 3C: 0.2C: 100%, 1C: 97%, 2C: 95%, 3C: 92%, the reduction is dissipated as heat due to increased internal resistance.

In order to understand why cell performance decreases with discharge current, you need to go back to the Arrhenius Law.

 
Last edited:

Nev

Esteemed Pedelecer
May 1, 2018
1,507
2,520
North Wales
yes, your battery internal resistance is higher at 0 deg C than at 20 degrees C but that is due to the construction of Lithium ion cells.
Your cells are optimised to functioning temperature at 25 degree C. That is, the internal resistance is higher too cold or too hot, lowest between 20 - 40 deg C, then rises again.
Excellent explanation Woosh thanks for taking the time to answer my questions. Absolutely love this site, so many helpful and knowledgable people here willing to answer our questions.
 
  • Like
Reactions: Woosh