http://wiki.srm.de/Ergo/api.php?action=feedcontributions&user=Uwe&feedformat=atomSRM - User contributions [en]2024-03-28T10:33:35ZUser contributionsMediaWiki 1.34.0http://wiki.srm.de/Ergo/index.php?title=Ergometer_Software_Installation_and_Settings&diff=258Ergometer Software Installation and Settings2020-04-03T11:41:57Z<p>Uwe: </p>
<hr />
<div><gallery><br />
File:Installation and Landing Page of the SRM Ergometer Software.png<br />
File:Settings SRM Ergometer Software - Network.png|Settings SRM Ergometer Software - Network<br />
File:Settings SRM Ergometer Software - Chart.png|Settings SRM Ergometer Software - Chart<br />
File:Settings SRM Ergometer Software - Test.png|Settings SRM Ergometer Software - Test<br />
File:Settings SRM Ergometer Software.PNG|Settings SRM Ergometer Software - Ergometer<br />
File:Settings SRM Ergometer Software - Ergometer_Slope.jpg|Settings SRM Ergometer Software - Ergometer Slope<br />
<br />
</gallery><br />
<br />
== Installation and Landing Page of the SRM Ergometer Software ==<br />
<br />
[[File:Installation and Landing Page of the SRM Ergometer Software.png|thumb|]]<br />
<br />
Please install the SRM ergometer software first on your controlling computer. Install or deinstall the software with the option ''Installer''.<br />
It´s possible to choose one of the shown options directly. But before starting with the test procedure we recommend to check the settings first. <br />
Please start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green, if not go to log tab and check the messages and the settings again.<br />
<br />
<br />
<br />
<br />
<br /><br />
<br />
== Settings SRM Ergometer Software ==<br />
<br />
=== Network ===<br />
<br />
Choose a free and valid IP address (192.168.0.x) for your computer in the same sub network as the SRM Ethernet Torque Analysis Box (To install the Torque Analysis Box see the manual of the Torque Analysis).<br />
If you are using MS Windows: Press “Start“ button, open “Control Panel“, open “Network and Internet”, select “Network and Sharing Center“, click “View Network Connections“, click on the connection you need to change (i.e. LAN), open “Properties“, double click on “Internet Protocol Version 4 (TCP/IPV4)“ and insert the chosen IP address. <br />
Please insert a different IP address than that of the Torque Box. Just change the last or the last two numbers of the Torque Box IP (e.g. 192.168.0.89). Otherwise there will be a conflict of the IP addresses.<br><br />
Default network settings are justified at the IP-adress of the Ergometer settings.<br />
<br />
==== Network settings in windows ====<br />
<br />
<gallery><br />
File:Settings SRM Ergometer Software - Network.png|1. Settings SRM Ergometer Software - Network<br />
File:Network Settings - Network and Internet.jpg|2. Network and Internet<br />
File:Network Settings - Network and Sharing Center.jpg|3. Network and Sharing Center<br />
File:Network Settings - View Network Connections.jpg|4. View Network Connections<br />
File:Network Settings - Properties.jpg|5. Properties<br />
File:Network Settings - Internet Protocol Version 4.jpg|6. Internet Protocol Version 4(TCP/Ipv4)<br />
File:Network Settings - Use the following IP address.jpg|8. Use the following IP address<br />
File:Network Settings - IP address.jpg|9. IP address: 192.168.0.89<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
<br /><br />
<br />
==== Network settings in OSX ====<br />
<br />
If you are using Apple OSX: Launch „System Preferences“ from the Apple menu (or Spotlight), click on the „Network“ icon in the lower right, click on the „Advanced“ button, in the pulldown menu next to „Configure Ipv4“ select „Manually“ and insert the chosen IP address.<br />
<br />
<gallery><br />
File:Network Setting OSX_System Preferences.jpg|1. System Preferences<br />
File:Network Setting OSX_Network.jpg|2. Network<br />
File:Network Setting OSX_Ethernet.jpg|3. Set the IP Adress under Ethernet<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
=== Chart ===<br />
<br />
[[File:Settings SRM Ergometer Software - Chart.png|thumb|Settings SRM Ergometer Software - Chart]]<br />
In this menu you can set the scaling of the graphs and the length of the displayed segments. <br />
By selection of Show entire Test you will be shown the entire test on the monitor. By clicking on “Show only the last…minutes”, you will only be shown the time period you entered before.<br />
In the lower part of the window please specify by clicking on Visible, if you want to see the values Power, Heart rate, Cadence and/or Speed. Under From / To, you can define the range, in which the values will be shown. Distance gives you the difference of the chosen range.<br />
<br />
'''Value Smoothing Factor'''<br />
:This number defines the smoothing factor of the graphs. All data are continuously smoothed. In a file length of example 2h represents a smoothing of 1% that each point shown represents the average of the last 12 seconds. You can set the smoothing factor in seconds or percentage.<br />
<br />
'''Test Chart / 30s Chart'''<br />
:The settings of ''Test Chart'' and ''30s Chart'' are able to configure individually.<br />
<br />
'''Deviation Chart'''<br />
:Indicates the deviation of the cadence at the hyperbolic mode or the devation of the performance at the isokinetic mode. To use this skill it is necessary to drop data into the workout table.<br><br />
:(For example: Power 100W / Cadence 50rpm / Choose ''Controll by Power'')<br />
<br />
'''Percent of target value'''<br />
:With this you can change the range of the ''[[Media:Colored bars.png|colored bars]]'' in the upper right area in the testing window. At the moment at 90 to 100 % completion of the cadence guideline, the bar stays green. At 80 to 90 % completion the bar turns yellow and at 70 to 80 % it turns red. There is no display of larger deviations. <br />
<br />
=== Test ===<br />
<br />
[[File:Settings SRM Ergometer Software - Test.png|thumb|Settings SRM Ergometer Software - Test]]<br />
'''Start Test by'''<br />
:Under the button Start Test by you can decide if the test (or training session) will be started by reaching a specific cadence or by clicking the Start Button.<br><br />
:Starting by cadence: ''Start pedalling'' is displayed on the test interface.<br><br />
'''Stop Test by'''<br />
:Under Stop Test by you can decide if the test will end automatically when there is no more cadence to be measured or by manually clicking the End Button.<br />
'''Save data automatically at test end'''<br />
:You can set an automatically storage of your data file on your computer. Even when you click no, you will asked to save the data :file by ending the test.<br />
'''Control test with PowerControl keys'''<br />
:You have the possibility to start and stop the test (or the training session) with the keys of the PowerControl. Therefor the option have to activate.<br />
<br />
:'''''Keybord Shortcuts'''''<br />
:*PRO (short): Test Start<br />
:*SET (short): Test Pause<br />
:*PRO (long): Test Resume<br />
:*SET (long): Test Stop<br />
<br />
=== Ergometer ===<br />
[[File:Settings SRM Ergometer Software.PNG|thumb|Settings SRM Ergometer Software - Ergometer]]<br />
This menu gives you the opportunity to prepare the Ergometer for testing.<br />
<br />
==== Slope ====<br />
The slope in the ergometer software must be correspond to the slope of the PowerMeter and the PowerControl. We recommend to verify and control the slope of the PowerMeter before every test day. You can find the correct PowerMeter slope on small labels located at:<br />
:*The rear of the PowerMeter<br />
:*The front of the Ergometer<br />
:*The right crank arm<br />
:*The handlebar<br />
<br />
==== Zero Offset ====<br />
The PowerMeter delivers a certain frequency which is proportional to the torque of the pedal force on the crank. If there is no load on the crank, the PowerMeter is sending a bas frequency which must be communicated to the Ergometer software and to the PowerControl as a reference value. This procedure is called zero offset calibration (offset adjustment).<br />
<br />
The zero offset calibration has to be done before every new assembly of the PowerMeter and also before every measurement resp. every training on the Ergometer. A wrong zero offset calibration can result in an internal miscalculation of the power.<br />
<br />
==== Circumference ====<br />
The circumference only influence the displayed speed and is not important for the calculation of the data. We recommend to insert a value of 1000 mm.<br />
<br />
For a more detailed overview of the calibration see [[Calibration of the Ergometer|Calibration]]<br />
<br />
==== PM/Gearbox chainring and Current gear====<br />
At first the user defines the gearing with which he wants to ride the isokinetic mode. The cadence is held very consistent in this mode but it is only correct when you have chosen the right settings. At the current ergometers the settings of the gearing are adjusted at 53/15 for all gears if you adjust both the gear on the Ergometer and in the software. The two images on the right display how it looks after adjusting the gearing.<br />
<br />
If you change only the gearing of the Ergometer itself and not in the software you have to adjust the settings of the gearing for getting the right cadence. This is possible by increasing the Gearbox chainring and/or by lowering the PM chainring when choosing a lower gearing and vice versa.<br />
<br />
Older ergometers can have a different gearing and with a change of the chainrings the gearing will change as well. The new fixed gear must be entered accordingly. If the fixed gear is not known or the cadence deviates from the specified isokinetic test profile, the gearing may be readjusted or corrected based on various experiments (trial & error). For this purpose, in each case only small changes to one or both values should be performed.<br />
<br />
<gallery><br />
File:Ergo-Rohloff-01.jpg|Gearing Ergometer<br />
File:Settings SRM Ergometer Software 2.PNG|Settings SRM Ergometer Software - Ergometer<br />
</gallery><br />
<br />
==== Firmware and Software Update==== <br />
[[File:Firmware and software.png|thumb]]<br />
Please download the latest Ergometer Firmware and Software from our Website and follow the on-screen instructions to install.<br />
<br />
http://www.srm.de/products/ergometer/ <br />
<br />
After installing the Ergometer software on your system, you can install the latest firmware on the Ergometer. Please follow the instructions below:<br />
:1. Open the SRM Ergometer Software and go to the File Transfer tab.<br />
:2. You can upload the firmware via drag and drop or select the firmware file directly from your system. The firmware is now loaded and installed.<br />
:3. After you have successfully installed the firmware open the settings and select the tab "Ergometer" and press "Read Settings" to read the internal information. The number of the new firmware version installed should be displayed and you have successfully updated your SRM Ergometer firmware.<br />
<br />
<gallery><br />
File:Start screen.png|Start screen <br />
File:Firmware upload.png|Firmware upload<br />
File:Read settings.png|Read settings<br />
</gallery><br />
<br />
==== Hardware, Product Code and Serial Number ==== <br />
These informations are implemented from the SRM company to identify the ergometers specifications. The current hardware version is displayed (e.g. V 0.8). The serial number represents the serial number of the SRM Ergometer.<br />
<br />
==== Operation time ==== <br />
The operation time will be documented in hh:mm:ss.<br />
<br />
==== Read and write settings ====<br />
When everything is filled in correctly it is important at first to read the settings of the ergometer incl. the zero offset and the slope and then write the settings. With write settings it is possible to insert the slope and to save/write it for the correct calculation of the data. Please note that the inserted slope must correspond to the slope of the PowerMeter. If the Ergometer is not connected you will get an error with action failed as shown in the first screenshot. You will have to check the cabels and/or the network settings if everything is connected correctly. When everthing works fine the second screenshot will be shown.<br />
<br />
<gallery><br />
File:Read Settings failed 2.png|Action failed - Network not connected<br />
File:Read Settings.PNG|Action success - Network connected<br />
</gallery><br />
<br />
==== Adjustment of the SRM Ergometer Brake Controller ====<br />
<br />
A new brake controller has been installed with the firmware (V: 1.2.2.). To update the SRM Ergometer to the new brake controller, please follow the instructions below<br />
:1 Open the settings and select the tab "Ergometer".<br />
:2 Press "Read Settings" to read the internal information.<br />
:3 Press the key combination ALT + SHIFT + A to make the controller settings visible.<br />
:4 Press the "Get" button to read the current control parameters. Make a note of the saved values in order to revert back to the default settings if needed.<br />
:5. Change the 3 - Factor Control to PID- Control. To do so, press the 3 Factor tap and choose PID.<br />
:6. Adjust the parameters to the recommended values:<br />
<br />
:P = 50<br />
<br />
:I = 0 <br />
<br />
:D = 45 ± 5<br />
<br />
:7.The control parameters are transferred to the Ergometer controller with the "Set" button. Press “Get” again to make sure that the values have been saved. <br />
:8.Congratulations, you have successfully updated your SRM Ergometer Brake Controller<br />
<br />
<br />
<gallery><br />
File:1 Open settings.PNG|Open settings<br />
File:2 Read settings.PNG|Read settings<br />
File:3 ALT SHIFT A.PNG|Press ALT + SHIFT + A<br />
File:4 Press Get.PNG|Press Get<br />
File:Controller settings.png|Controller settings<br />
File:Updated controller settings.png|Updated controller settings<br />
</gallery><br />
<br />
==Taskbar==<br />
<br />
===File===<br />
Close the SRM Ergometer software<br />
<br />
===Settings===<br />
'''Restore factory settings''': Reset settings<br />
<br />
===?===<br />
'''About this software''': Software version, build date, Qt version</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=Ergometer_Software_Installation_and_Settings&diff=257Ergometer Software Installation and Settings2020-04-03T11:41:18Z<p>Uwe: </p>
<hr />
<div><gallery><br />
File:Installation and Landing Page of the SRM Ergometer Software.png<br />
File:Settings SRM Ergometer Software - Network.png|Settings SRM Ergometer Software - Network<br />
File:Settings SRM Ergometer Software - Chart.png|Settings SRM Ergometer Software - Chart<br />
File:Settings SRM Ergometer Software - Test.png|Settings SRM Ergometer Software - Test<br />
File:Settings SRM Ergometer Software.PNG|Settings SRM Ergometer Software - Ergometer<br />
File:Settings SRM Ergometer Software - Ergometer_Slope.jpg|Settings SRM Ergometer Software - Ergometer Slope<br />
<br />
</gallery><br />
<br />
== Installation and Landing Page of the SRM Ergometer Software ==<br />
<br />
[[File:Installation and Landing Page of the SRM Ergometer Software.png|thumb|]]<br />
<br />
Please install the SRM ergometer software first on your controlling computer. Install or deinstall the software with the option ''Installer''.<br />
It´s possible to choose one of the shown options directly. But before starting with the test procedure we recommend to check the settings first. <br />
Please start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green, if not go to log tab and check the messages and the settings again.<br />
<br />
<br />
<br />
<br />
<br /><br />
<br />
== Settings SRM Ergometer Software ==<br />
<br />
=== Network ===<br />
<br />
Choose a free and valid IP address (192.168.0.x) for your computer in the same sub network as the SRM Ethernet Torque Analysis Box (To install the Torque Analysis Box see the manual of the Torque Analysis).<br />
If you are using MS Windows: Press “Start“ button, open “Control Panel“, open “Network and Internet”, select “Network and Sharing Center“, click “View Network Connections“, click on the connection you need to change (i.e. LAN), open “Properties“, double click on “Internet Protocol Version 4 (TCP/IPV4)“ and insert the chosen IP address. <br />
Please insert a different IP address than that of the Torque Box. Just change the last or the last two numbers of the Torque Box IP (e.g. 192.168.0.89). Otherwise there will be a conflict of the IP addresses.<br><br />
Default network settings are justified at the IP-adress of the Ergometer settings.<br />
<br />
==== Network settings in windows ====<br />
<br />
<gallery><br />
File:Settings SRM Ergometer Software - Network.png|1. Settings SRM Ergometer Software - Network<br />
File:Network Settings - Network and Internet.jpg|2. Network and Internet<br />
File:Network Settings - Network and Sharing Center.jpg|3. Network and Sharing Center<br />
File:Network Settings - View Network Connections.jpg|4. View Network Connections<br />
File:Network Settings - Properties.jpg|5. Properties<br />
File:Network Settings - Internet Protocol Version 4.jpg|6. Internet Protocol Version 4(TCP/Ipv4)<br />
File:Network Settings - Use the following IP address.jpg|8. Use the following IP address<br />
File:Network Settings - IP address.jpg|9. IP address: 192.168.0.89<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
<br /><br />
<br />
==== Network settings in OSX ====<br />
<br />
If you are using Apple OSX: Launch „System Preferences“ from the Apple menu (or Spotlight), click on the „Network“ icon in the lower right, click on the „Advanced“ button, in the pulldown menu next to „Configure Ipv4“ select „Manually“ and insert the chosen IP address.<br />
<br />
<gallery><br />
File:Network Setting OSX_System Preferences.jpg|1. System Preferences<br />
File:Network Setting OSX_Network.jpg|2. Network<br />
File:Network Setting OSX_Ethernet.jpg|3. Set the IP Adress under Ethernet<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
=== Chart ===<br />
<br />
[[File:Settings SRM Ergometer Software - Chart.png|thumb|Settings SRM Ergometer Software - Chart]]<br />
In this menu you can set the scaling of the graphs and the length of the displayed segments. <br />
By selection of Show entire Test you will be shown the entire test on the monitor. By clicking on “Show only the last…minutes”, you will only be shown the time period you entered before.<br />
In the lower part of the window please specify by clicking on Visible, if you want to see the values Power, Heart rate, Cadence and/or Speed. Under From / To, you can define the range, in which the values will be shown. Distance gives you the difference of the chosen range.<br />
<br />
'''Value Smoothing Factor'''<br />
:This number defines the smoothing factor of the graphs. All data are continuously smoothed. In a file length of example 2h represents a smoothing of 1% that each point shown represents the average of the last 12 seconds. You can set the smoothing factor in seconds or percentage.<br />
<br />
'''Test Chart / 30s Chart'''<br />
:The settings of ''Test Chart'' and ''30s Chart'' are able to configure individually.<br />
<br />
'''Deviation Chart'''<br />
:Indicates the deviation of the cadence at the hyperbolic mode or the devation of the performance at the isokinetic mode. To use this skill it is necessary to drop data into the workout table.<br><br />
:(For example: Power 100W / Cadence 50rpm / Choose ''Controll by Power'')<br />
<br />
'''Percent of target value'''<br />
:With this you can change the range of the ''[[Media:Colored bars.png|colored bars]]'' in the upper right area in the testing window. At the moment at 90 to 100 % completion of the cadence guideline, the bar stays green. At 80 to 90 % completion the bar turns yellow and at 70 to 80 % it turns red. There is no display of larger deviations. <br />
<br />
=== Test ===<br />
<br />
[[File:Settings SRM Ergometer Software - Test.png|thumb|Settings SRM Ergometer Software - Test]]<br />
'''Start Test by'''<br />
:Under the button Start Test by you can decide if the test (or training session) will be started by reaching a specific cadence or by clicking the Start Button.<br><br />
:Starting by cadence: ''Start pedalling'' is displayed on the test interface.<br><br />
'''Stop Test by'''<br />
:Under Stop Test by you can decide if the test will end automatically when there is no more cadence to be measured or by manually clicking the End Button.<br />
'''Save data automatically at test end'''<br />
:You can set an automatically storage of your data file on your computer. Even when you click no, you will asked to save the data :file by ending the test.<br />
'''Control test with PowerControl keys'''<br />
:You have the possibility to start and stop the test (or the training session) with the keys of the PowerControl. Therefor the option have to activate.<br />
<br />
:'''''Keybord Shortcuts'''''<br />
:*PRO (short): Test Start<br />
:*SET (short): Test Pause<br />
:*PRO (long): Test Resume<br />
:*SET (long): Test Stop<br />
<br />
=== Ergometer ===<br />
[[File:Settings SRM Ergometer Software.PNG|thumb|Settings SRM Ergometer Software - Ergometer]]<br />
This menu gives you the opportunity to prepare the Ergometer for testing.<br />
<br />
==== Slope ====<br />
The slope in the ergometer software must be correspond to the slope of the PowerMeter and the PowerControl. We recommend to verify and control the slope of the PowerMeter before every test day. You can find the correct PowerMeter slope on small labels located at:<br />
:*The rear of the PowerMeter<br />
:*The front of the Ergometer<br />
:*The right crank arm<br />
:*The handlebar<br />
<br />
==== Zero Offset ====<br />
The PowerMeter delivers a certain frequency which is proportional to the torque of the pedal force on the crank. If there is no load on the crank, the PowerMeter is sending a bas frequency which must be communicated to the Ergometer software and to the PowerControl as a reference value. This procedure is called zero offset calibration (offset adjustment).<br />
<br />
The zero offset calibration has to be done before every new assembly of the PowerMeter and also before every measurement resp. every training on the Ergometer. A wrong zero offset calibration can result in an internal miscalculation of the power.<br />
<br />
==== Circumference ====<br />
The circumference only influence the displayed speed and is not important for the calculation of the data. We recommend to insert a value of 1000 mm.<br />
<br />
For a more detailed overview of the calibration see [[Calibration of the Ergometer|Calibration]]<br />
<br />
==== PM/Gearbox chainring and Current gear====<br />
At first the user defines the gearing with which he wants to ride the isokinetic mode. The cadence is held very consistent in this mode but it is only correct when you have chosen the right settings. At the current ergometers the settings of the gearing are adjusted at 53/15 for all gears if you adjust both the gear on the Ergometer and in the software. The two images on the right display how it looks after adjusting the gearing.<br />
<br />
If you change only the gearing of the Ergometer itself and not in the software you have to adjust the settings of the gearing for getting the right cadence. This is possible by increasing the Gearbox chainring and/or by lowering the PM chainring when choosing a lower gearing and vice versa.<br />
<br />
Older ergometers can have a different gearing and with a change of the chainrings the gearing will change as well. The new fixed gear must be entered accordingly. If the fixed gear is not known or the cadence deviates from the specified isokinetic test profile, the gearing may be readjusted or corrected based on various experiments (trial & error). For this purpose, in each case only small changes to one or both values should be performed.<br />
<br />
<gallery><br />
File:Ergo-Rohloff-01.jpg|Gearing Ergometer<br />
File:Settings SRM Ergometer Software 2.PNG|Settings SRM Ergometer Software - Ergometer<br />
</gallery><br />
<br />
==== Firmware and Software Update==== <br />
[[File:Firmware and software.png|thumb]]<br />
Please download the latest Ergometer Firmware and Software from our Website and follow the on-screen instructions to install.<br />
<br />
http://www.srm.de/products/ergometer/ <br />
<br />
After installing the Ergometer software on your system, you can install the latest firmware on the Ergometer. Please follow the instructions below:<br />
:1. Open the SRM Ergometer Software and go to the File Transfer tab.<br />
:2. You can upload the firmware via drag and drop or select the firmware file directly from your system. The firmware is now loaded and installed.<br />
:3. After you have successfully installed the firmware open the settings and select the tab "Ergometer" and press "Read Settings" to read the internal information. The number of the new firmware version installed should be displayed and you have successfully updated your SRM Ergometer firmware.<br />
<br />
<gallery><br />
File:1 Start_screen.png|Start screen <br />
File:2 Firmware_upload.png|Firmware upload<br />
File:3 Read_settings.png|Read settings<br />
</gallery><br />
<br />
==== Hardware, Product Code and Serial Number ==== <br />
These informations are implemented from the SRM company to identify the ergometers specifications. The current hardware version is displayed (e.g. V 0.8). The serial number represents the serial number of the SRM Ergometer.<br />
<br />
==== Operation time ==== <br />
The operation time will be documented in hh:mm:ss.<br />
<br />
==== Read and write settings ====<br />
When everything is filled in correctly it is important at first to read the settings of the ergometer incl. the zero offset and the slope and then write the settings. With write settings it is possible to insert the slope and to save/write it for the correct calculation of the data. Please note that the inserted slope must correspond to the slope of the PowerMeter. If the Ergometer is not connected you will get an error with action failed as shown in the first screenshot. You will have to check the cabels and/or the network settings if everything is connected correctly. When everthing works fine the second screenshot will be shown.<br />
<br />
<gallery><br />
File:Read Settings failed 2.png|Action failed - Network not connected<br />
File:Read Settings.PNG|Action success - Network connected<br />
</gallery><br />
<br />
==== Adjustment of the SRM Ergometer Brake Controller ====<br />
<br />
A new brake controller has been installed with the firmware (V: 1.2.2.). To update the SRM Ergometer to the new brake controller, please follow the instructions below<br />
:1 Open the settings and select the tab "Ergometer".<br />
:2 Press "Read Settings" to read the internal information.<br />
:3 Press the key combination ALT + SHIFT + A to make the controller settings visible.<br />
:4 Press the "Get" button to read the current control parameters. Make a note of the saved values in order to revert back to the default settings if needed.<br />
:5. Change the 3 - Factor Control to PID- Control. To do so, press the 3 Factor tap and choose PID.<br />
:6. Adjust the parameters to the recommended values:<br />
<br />
:P = 50<br />
<br />
:I = 0 <br />
<br />
:D = 45 ± 5<br />
<br />
:7.The control parameters are transferred to the Ergometer controller with the "Set" button. Press “Get” again to make sure that the values have been saved. <br />
:8.Congratulations, you have successfully updated your SRM Ergometer Brake Controller<br />
<br />
<br />
<gallery><br />
File:1 Open settings.PNG|Open settings<br />
File:2 Read settings.PNG|Read settings<br />
File:3 ALT SHIFT A.PNG|Press ALT + SHIFT + A<br />
File:4 Press Get.PNG|Press Get<br />
File:Controller settings.png|Controller settings<br />
File:Updated controller settings.png|Updated controller settings<br />
</gallery><br />
<br />
==Taskbar==<br />
<br />
===File===<br />
Close the SRM Ergometer software<br />
<br />
===Settings===<br />
'''Restore factory settings''': Reset settings<br />
<br />
===?===<br />
'''About this software''': Software version, build date, Qt version</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=Ergometer_Software_Installation_and_Settings&diff=256Ergometer Software Installation and Settings2020-04-03T11:40:06Z<p>Uwe: </p>
<hr />
<div><gallery><br />
File:Installation and Landing Page of the SRM Ergometer Software.png<br />
File:Settings SRM Ergometer Software - Network.png|Settings SRM Ergometer Software - Network<br />
File:Settings SRM Ergometer Software - Chart.png|Settings SRM Ergometer Software - Chart<br />
File:Settings SRM Ergometer Software - Test.png|Settings SRM Ergometer Software - Test<br />
File:Settings SRM Ergometer Software.PNG|Settings SRM Ergometer Software - Ergometer<br />
File:Settings SRM Ergometer Software - Ergometer_Slope.jpg|Settings SRM Ergometer Software - Ergometer Slope<br />
<br />
</gallery><br />
<br />
== Installation and Landing Page of the SRM Ergometer Software ==<br />
<br />
[[File:Installation and Landing Page of the SRM Ergometer Software.png|thumb|]]<br />
<br />
Please install the SRM ergometer software first on your controlling computer. Install or deinstall the software with the option ''Installer''.<br />
It´s possible to choose one of the shown options directly. But before starting with the test procedure we recommend to check the settings first. <br />
Please start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green, if not go to log tab and check the messages and the settings again.<br />
<br />
<br />
<br />
<br />
<br /><br />
<br />
== Settings SRM Ergometer Software ==<br />
<br />
=== Network ===<br />
<br />
Choose a free and valid IP address (192.168.0.x) for your computer in the same sub network as the SRM Ethernet Torque Analysis Box (To install the Torque Analysis Box see the manual of the Torque Analysis).<br />
If you are using MS Windows: Press “Start“ button, open “Control Panel“, open “Network and Internet”, select “Network and Sharing Center“, click “View Network Connections“, click on the connection you need to change (i.e. LAN), open “Properties“, double click on “Internet Protocol Version 4 (TCP/IPV4)“ and insert the chosen IP address. <br />
Please insert a different IP address than that of the Torque Box. Just change the last or the last two numbers of the Torque Box IP (e.g. 192.168.0.89). Otherwise there will be a conflict of the IP addresses.<br><br />
Default network settings are justified at the IP-adress of the Ergometer settings.<br />
<br />
==== Network settings in windows ====<br />
<br />
<gallery><br />
File:Settings SRM Ergometer Software - Network.png|1. Settings SRM Ergometer Software - Network<br />
File:Network Settings - Network and Internet.jpg|2. Network and Internet<br />
File:Network Settings - Network and Sharing Center.jpg|3. Network and Sharing Center<br />
File:Network Settings - View Network Connections.jpg|4. View Network Connections<br />
File:Network Settings - Properties.jpg|5. Properties<br />
File:Network Settings - Internet Protocol Version 4.jpg|6. Internet Protocol Version 4(TCP/Ipv4)<br />
File:Network Settings - Use the following IP address.jpg|8. Use the following IP address<br />
File:Network Settings - IP address.jpg|9. IP address: 192.168.0.89<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
<br /><br />
<br />
==== Network settings in OSX ====<br />
<br />
If you are using Apple OSX: Launch „System Preferences“ from the Apple menu (or Spotlight), click on the „Network“ icon in the lower right, click on the „Advanced“ button, in the pulldown menu next to „Configure Ipv4“ select „Manually“ and insert the chosen IP address.<br />
<br />
<gallery><br />
File:Network Setting OSX_System Preferences.jpg|1. System Preferences<br />
File:Network Setting OSX_Network.jpg|2. Network<br />
File:Network Setting OSX_Ethernet.jpg|3. Set the IP Adress under Ethernet<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
=== Chart ===<br />
<br />
[[File:Settings SRM Ergometer Software - Chart.png|thumb|Settings SRM Ergometer Software - Chart]]<br />
In this menu you can set the scaling of the graphs and the length of the displayed segments. <br />
By selection of Show entire Test you will be shown the entire test on the monitor. By clicking on “Show only the last…minutes”, you will only be shown the time period you entered before.<br />
In the lower part of the window please specify by clicking on Visible, if you want to see the values Power, Heart rate, Cadence and/or Speed. Under From / To, you can define the range, in which the values will be shown. Distance gives you the difference of the chosen range.<br />
<br />
'''Value Smoothing Factor'''<br />
:This number defines the smoothing factor of the graphs. All data are continuously smoothed. In a file length of example 2h represents a smoothing of 1% that each point shown represents the average of the last 12 seconds. You can set the smoothing factor in seconds or percentage.<br />
<br />
'''Test Chart / 30s Chart'''<br />
:The settings of ''Test Chart'' and ''30s Chart'' are able to configure individually.<br />
<br />
'''Deviation Chart'''<br />
:Indicates the deviation of the cadence at the hyperbolic mode or the devation of the performance at the isokinetic mode. To use this skill it is necessary to drop data into the workout table.<br><br />
:(For example: Power 100W / Cadence 50rpm / Choose ''Controll by Power'')<br />
<br />
'''Percent of target value'''<br />
:With this you can change the range of the ''[[Media:Colored bars.png|colored bars]]'' in the upper right area in the testing window. At the moment at 90 to 100 % completion of the cadence guideline, the bar stays green. At 80 to 90 % completion the bar turns yellow and at 70 to 80 % it turns red. There is no display of larger deviations. <br />
<br />
=== Test ===<br />
<br />
[[File:Settings SRM Ergometer Software - Test.png|thumb|Settings SRM Ergometer Software - Test]]<br />
'''Start Test by'''<br />
:Under the button Start Test by you can decide if the test (or training session) will be started by reaching a specific cadence or by clicking the Start Button.<br><br />
:Starting by cadence: ''Start pedalling'' is displayed on the test interface.<br><br />
'''Stop Test by'''<br />
:Under Stop Test by you can decide if the test will end automatically when there is no more cadence to be measured or by manually clicking the End Button.<br />
'''Save data automatically at test end'''<br />
:You can set an automatically storage of your data file on your computer. Even when you click no, you will asked to save the data :file by ending the test.<br />
'''Control test with PowerControl keys'''<br />
:You have the possibility to start and stop the test (or the training session) with the keys of the PowerControl. Therefor the option have to activate.<br />
<br />
:'''''Keybord Shortcuts'''''<br />
:*PRO (short): Test Start<br />
:*SET (short): Test Pause<br />
:*PRO (long): Test Resume<br />
:*SET (long): Test Stop<br />
<br />
=== Ergometer ===<br />
[[File:Settings SRM Ergometer Software.PNG|thumb|Settings SRM Ergometer Software - Ergometer]]<br />
This menu gives you the opportunity to prepare the Ergometer for testing.<br />
<br />
==== Slope ====<br />
The slope in the ergometer software must be correspond to the slope of the PowerMeter and the PowerControl. We recommend to verify and control the slope of the PowerMeter before every test day. You can find the correct PowerMeter slope on small labels located at:<br />
:*The rear of the PowerMeter<br />
:*The front of the Ergometer<br />
:*The right crank arm<br />
:*The handlebar<br />
<br />
==== Zero Offset ====<br />
The PowerMeter delivers a certain frequency which is proportional to the torque of the pedal force on the crank. If there is no load on the crank, the PowerMeter is sending a bas frequency which must be communicated to the Ergometer software and to the PowerControl as a reference value. This procedure is called zero offset calibration (offset adjustment).<br />
<br />
The zero offset calibration has to be done before every new assembly of the PowerMeter and also before every measurement resp. every training on the Ergometer. A wrong zero offset calibration can result in an internal miscalculation of the power.<br />
<br />
==== Circumference ====<br />
The circumference only influence the displayed speed and is not important for the calculation of the data. We recommend to insert a value of 1000 mm.<br />
<br />
For a more detailed overview of the calibration see [[Calibration of the Ergometer|Calibration]]<br />
<br />
==== PM/Gearbox chainring and Current gear====<br />
At first the user defines the gearing with which he wants to ride the isokinetic mode. The cadence is held very consistent in this mode but it is only correct when you have chosen the right settings. At the current ergometers the settings of the gearing are adjusted at 53/15 for all gears if you adjust both the gear on the Ergometer and in the software. The two images on the right display how it looks after adjusting the gearing.<br />
<br />
If you change only the gearing of the Ergometer itself and not in the software you have to adjust the settings of the gearing for getting the right cadence. This is possible by increasing the Gearbox chainring and/or by lowering the PM chainring when choosing a lower gearing and vice versa.<br />
<br />
Older ergometers can have a different gearing and with a change of the chainrings the gearing will change as well. The new fixed gear must be entered accordingly. If the fixed gear is not known or the cadence deviates from the specified isokinetic test profile, the gearing may be readjusted or corrected based on various experiments (trial & error). For this purpose, in each case only small changes to one or both values should be performed.<br />
<br />
<gallery><br />
File:Ergo-Rohloff-01.jpg|Gearing Ergometer<br />
File:Settings SRM Ergometer Software 2.PNG|Settings SRM Ergometer Software - Ergometer<br />
</gallery><br />
<br />
==== Firmware and Software Update==== <br />
[[File:Firmware and software.png|thumb]]<br />
Please download the latest Ergometer Firmware and Software from our Website and follow the on-screen instructions to install.<br />
<br />
http://www.srm.de/products/ergometer/ <br />
<br />
After installing the Ergometer software on your system, you can install the latest firmware on the Ergometer. Please follow the instructions below:<br />
:1. Open the SRM Ergometer Software and go to the File Transfer tab.<br />
:2. You can upload the firmware via drag and drop or select the firmware file directly from your system. The firmware is now loaded and installed.<br />
:3. After you have successfully installed the firmware open the settings and select the tab "Ergometer" and press "Read Settings" to read the internal information. The number of the new firmware version installed should be displayed and you have successfully updated your SRM Ergometer firmware.<br />
<br />
<gallery><br />
File:1 Start_screen.png|Start screen <br />
File:2 Firmware_upload.png|Firmware upload<br />
File:3 Read_settings.png|Read settings<br />
</gallery><br />
<br />
==== Hardware, Product Code and Serial Number ==== <br />
These informations are implemented from the SRM company to identify the ergometers specifications. The current hardware version is displayed (e.g. V 0.8). The serial number represents the serial number of the SRM Ergometer.<br />
<br />
==== Operation time ==== <br />
The operation time will be documented in hh:mm:ss.<br />
<br />
==== Read and write settings ====<br />
When everything is filled in correctly it is important at first to read the settings of the ergometer incl. the zero offset and the slope and then write the settings. With write settings it is possible to insert the slope and to save/write it for the correct calculation of the data. Please note that the inserted slope must correspond to the slope of the PowerMeter. If the Ergometer is not connected you will get an error with action failed as shown in the first screenshot. You will have to check the cabels and/or the network settings if everything is connected correctly. When everthing works fine the second screenshot will be shown.<br />
<br />
<gallery><br />
File:Read Settings failed 2.png|Action failed - Network not connected<br />
File:Read Settings.PNG|Action success - Network connected<br />
</gallery><br />
<br />
==== Adjustment of the SRM Ergometer Brake Controller ====<br />
<br />
A new brake controller has been installed with the firmware (V: 1.2.2.). To update the SRM Ergometer to the new brake controller, please follow the instructions below<br />
:1 Open the settings and select the tab "Ergometer".<br />
:2 Press "Read Settings" to read the internal information.<br />
:3 Press the key combination ALT + SHIFT + A to make the controller settings visible.<br />
:4 Press the "Get" button to read the current control parameters. Make a note of the saved values in order to revert back to the default settings if needed.<br />
:5. Change the 3 - Factor Control to PID- Control. To do so, press the 3 Factor tap and choose PID.<br />
:6. Adjust the parameters to the recommended values:<br />
<br />
:P = 50<br />
<br />
:I = 0 <br />
<br />
:D = 45 ± 5<br />
<br />
:7.The control parameters are transferred to the Ergometer controller with the "Set" button. Press “Get” again to make sure that the values have been saved. <br />
:8.Congratulations, you have successfully updated your SRM Ergometer Brake Controller<br />
<br />
<br />
<gallery><br />
File:1 Open settings.PNG|Open settings<br />
File:2 Read settings.PNG|Read settings<br />
File:3 ALT SHIFT A.PNG|Press ALT + SHIFT + A<br />
File:4 Press Get.PNG|Press Get<br />
File:5 Controller settings.png|Controller settings<br />
File:6 Updated controller settings.png|Updated controller settings<br />
</gallery><br />
<br />
==Taskbar==<br />
<br />
===File===<br />
Close the SRM Ergometer software<br />
<br />
===Settings===<br />
'''Restore factory settings''': Reset settings<br />
<br />
===?===<br />
'''About this software''': Software version, build date, Qt version</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=Ergometer_Software_Installation_and_Settings&diff=255Ergometer Software Installation and Settings2020-04-03T11:15:28Z<p>Uwe: </p>
<hr />
<div><gallery><br />
File:Installation and Landing Page of the SRM Ergometer Software.png<br />
File:Settings SRM Ergometer Software - Network.png|Settings SRM Ergometer Software - Network<br />
File:Settings SRM Ergometer Software - Chart.png|Settings SRM Ergometer Software - Chart<br />
File:Settings SRM Ergometer Software - Test.png|Settings SRM Ergometer Software - Test<br />
File:Settings SRM Ergometer Software.PNG|Settings SRM Ergometer Software - Ergometer<br />
File:Settings SRM Ergometer Software - Ergometer_Slope.jpg|Settings SRM Ergometer Software - Ergometer Slope<br />
<br />
</gallery><br />
<br />
== Installation and Landing Page of the SRM Ergometer Software ==<br />
<br />
[[File:Installation and Landing Page of the SRM Ergometer Software.png|thumb|]]<br />
<br />
Please install the SRM ergometer software first on your controlling computer. Install or deinstall the software with the option ''Installer''.<br />
It´s possible to choose one of the shown options directly. But before starting with the test procedure we recommend to check the settings first. <br />
Please start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green, if not go to log tab and check the messages and the settings again.<br />
<br />
<br />
<br />
<br />
<br /><br />
<br />
== Settings SRM Ergometer Software ==<br />
<br />
=== Network ===<br />
<br />
Choose a free and valid IP address (192.168.0.x) for your computer in the same sub network as the SRM Ethernet Torque Analysis Box (To install the Torque Analysis Box see the manual of the Torque Analysis).<br />
If you are using MS Windows: Press “Start“ button, open “Control Panel“, open “Network and Internet”, select “Network and Sharing Center“, click “View Network Connections“, click on the connection you need to change (i.e. LAN), open “Properties“, double click on “Internet Protocol Version 4 (TCP/IPV4)“ and insert the chosen IP address. <br />
Please insert a different IP address than that of the Torque Box. Just change the last or the last two numbers of the Torque Box IP (e.g. 192.168.0.89). Otherwise there will be a conflict of the IP addresses.<br><br />
Default network settings are justified at the IP-adress of the Ergometer settings.<br />
<br />
==== Network settings in windows ====<br />
<br />
<gallery><br />
File:Settings SRM Ergometer Software - Network.png|1. Settings SRM Ergometer Software - Network<br />
File:Network Settings - Network and Internet.jpg|2. Network and Internet<br />
File:Network Settings - Network and Sharing Center.jpg|3. Network and Sharing Center<br />
File:Network Settings - View Network Connections.jpg|4. View Network Connections<br />
File:Network Settings - Properties.jpg|5. Properties<br />
File:Network Settings - Internet Protocol Version 4.jpg|6. Internet Protocol Version 4(TCP/Ipv4)<br />
File:Network Settings - Use the following IP address.jpg|8. Use the following IP address<br />
File:Network Settings - IP address.jpg|9. IP address: 192.168.0.89<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
<br /><br />
<br />
==== Network settings in OSX ====<br />
<br />
If you are using Apple OSX: Launch „System Preferences“ from the Apple menu (or Spotlight), click on the „Network“ icon in the lower right, click on the „Advanced“ button, in the pulldown menu next to „Configure Ipv4“ select „Manually“ and insert the chosen IP address.<br />
<br />
<gallery><br />
File:Network Setting OSX_System Preferences.jpg|1. System Preferences<br />
File:Network Setting OSX_Network.jpg|2. Network<br />
File:Network Setting OSX_Ethernet.jpg|3. Set the IP Adress under Ethernet<br />
</gallery><br />
<br />
Please start the ergometer software again, start pedaling and check the connection indicator on the lower left corner of the screen: this indicator should be green. If not go to log tab and check the messages and the settings again.<br />
<br />
=== Chart ===<br />
<br />
[[File:Settings SRM Ergometer Software - Chart.png|thumb|Settings SRM Ergometer Software - Chart]]<br />
In this menu you can set the scaling of the graphs and the length of the displayed segments. <br />
By selection of Show entire Test you will be shown the entire test on the monitor. By clicking on “Show only the last…minutes”, you will only be shown the time period you entered before.<br />
In the lower part of the window please specify by clicking on Visible, if you want to see the values Power, Heart rate, Cadence and/or Speed. Under From / To, you can define the range, in which the values will be shown. Distance gives you the difference of the chosen range.<br />
<br />
'''Value Smoothing Factor'''<br />
:This number defines the smoothing factor of the graphs. All data are continuously smoothed. In a file length of example 2h represents a smoothing of 1% that each point shown represents the average of the last 12 seconds. You can set the smoothing factor in seconds or percentage.<br />
<br />
'''Test Chart / 30s Chart'''<br />
:The settings of ''Test Chart'' and ''30s Chart'' are able to configure individually.<br />
<br />
'''Deviation Chart'''<br />
:Indicates the deviation of the cadence at the hyperbolic mode or the devation of the performance at the isokinetic mode. To use this skill it is necessary to drop data into the workout table.<br><br />
:(For example: Power 100W / Cadence 50rpm / Choose ''Controll by Power'')<br />
<br />
'''Percent of target value'''<br />
:With this you can change the range of the ''[[Media:Colored bars.png|colored bars]]'' in the upper right area in the testing window. At the moment at 90 to 100 % completion of the cadence guideline, the bar stays green. At 80 to 90 % completion the bar turns yellow and at 70 to 80 % it turns red. There is no display of larger deviations. <br />
<br />
=== Test ===<br />
<br />
[[File:Settings SRM Ergometer Software - Test.png|thumb|Settings SRM Ergometer Software - Test]]<br />
'''Start Test by'''<br />
:Under the button Start Test by you can decide if the test (or training session) will be started by reaching a specific cadence or by clicking the Start Button.<br><br />
:Starting by cadence: ''Start pedalling'' is displayed on the test interface.<br><br />
'''Stop Test by'''<br />
:Under Stop Test by you can decide if the test will end automatically when there is no more cadence to be measured or by manually clicking the End Button.<br />
'''Save data automatically at test end'''<br />
:You can set an automatically storage of your data file on your computer. Even when you click no, you will asked to save the data :file by ending the test.<br />
'''Control test with PowerControl keys'''<br />
:You have the possibility to start and stop the test (or the training session) with the keys of the PowerControl. Therefor the option have to activate.<br />
<br />
:'''''Keybord Shortcuts'''''<br />
:*PRO (short): Test Start<br />
:*SET (short): Test Pause<br />
:*PRO (long): Test Resume<br />
:*SET (long): Test Stop<br />
<br />
=== Ergometer ===<br />
[[File:Settings SRM Ergometer Software.PNG|thumb|Settings SRM Ergometer Software - Ergometer]]<br />
This menu gives you the opportunity to prepare the Ergometer for testing.<br />
<br />
==== Slope ====<br />
The slope in the ergometer software must be correspond to the slope of the PowerMeter and the PowerControl. We recommend to verify and control the slope of the PowerMeter before every test day. You can find the correct PowerMeter slope on small labels located at:<br />
:*The rear of the PowerMeter<br />
:*The front of the Ergometer<br />
:*The right crank arm<br />
:*The handlebar<br />
<br />
==== Zero Offset ====<br />
The PowerMeter delivers a certain frequency which is proportional to the torque of the pedal force on the crank. If there is no load on the crank, the PowerMeter is sending a bas frequency which must be communicated to the Ergometer software and to the PowerControl as a reference value. This procedure is called zero offset calibration (offset adjustment).<br />
<br />
The zero offset calibration has to be done before every new assembly of the PowerMeter and also before every measurement resp. every training on the Ergometer. A wrong zero offset calibration can result in an internal miscalculation of the power.<br />
<br />
==== Circumference ====<br />
The circumference only influence the displayed speed and is not important for the calculation of the data. We recommend to insert a value of 1000 mm.<br />
<br />
For a more detailed overview of the calibration see [[Calibration of the Ergometer|Calibration]]<br />
<br />
==== PM/Gearbox chainring and Current gear====<br />
At first the user defines the gearing with which he wants to ride the isokinetic mode. The cadence is held very consistent in this mode but it is only correct when you have chosen the right settings. At the current ergometers the settings of the gearing are adjusted at 53/15 for all gears if you adjust both the gear on the Ergometer and in the software. The two images on the right display how it looks after adjusting the gearing.<br />
<br />
If you change only the gearing of the Ergometer itself and not in the software you have to adjust the settings of the gearing for getting the right cadence. This is possible by increasing the Gearbox chainring and/or by lowering the PM chainring when choosing a lower gearing and vice versa.<br />
<br />
Older ergometers can have a different gearing and with a change of the chainrings the gearing will change as well. The new fixed gear must be entered accordingly. If the fixed gear is not known or the cadence deviates from the specified isokinetic test profile, the gearing may be readjusted or corrected based on various experiments (trial & error). For this purpose, in each case only small changes to one or both values should be performed.<br />
<br />
<gallery><br />
File:Ergo-Rohloff-01.jpg|Gearing Ergometer<br />
File:Settings SRM Ergometer Software 2.PNG|Settings SRM Ergometer Software - Ergometer<br />
</gallery><br />
<br />
==== Firmware and Software Update==== <br />
[[File:Firmware and software.png|thumb]]<br />
Please download the latest Ergometer Firmware and Software from our Website and follow the on-screen instructions to install.<br />
<br />
http://www.srm.de/products/ergometer/ <br />
<br />
After installing the Ergometer software on your system, you can install the latest firmware on the Ergometer. Please follow the instructions below:<br />
:1. Open the SRM Ergometer Software and go to the File Transfer tab.<br />
:2. You can upload the firmware via drag and drop or select the firmware file directly from your system. The firmware is now loaded and installed.<br />
:3. After you have successfully installed the firmware open the settings and select the tab "Ergometer" and press "Read Settings" to read the internal information. The number of the new firmware version installed should be displayed and you have successfully updated your SRM Ergometer firmware.<br />
<br />
<gallery><br />
File:1 Start_screen.png|Start screen <br />
File:2 Firmware_upload.png|Firmware upload<br />
File:3 Read_settings.png|Read settings<br />
</gallery><br />
<br />
==== Hardware, Product Code and Serial Number ==== <br />
These informations are implemented from the SRM company to identify the ergometers specifications. The current hardware version is displayed (e.g. V 0.8). The serial number represents the serial number of the SRM Ergometer.<br />
<br />
==== Operation time ==== <br />
The operation time will be documented in hh:mm:ss.<br />
<br />
==== Read and write settings ====<br />
When everything is filled in correctly it is important at first to read the settings of the ergometer incl. the zero offset and the slope and then write the settings. With write settings it is possible to insert the slope and to save/write it for the correct calculation of the data. Please note that the inserted slope must correspond to the slope of the PowerMeter. If the Ergometer is not connected you will get an error with action failed as shown in the first screenshot. You will have to check the cabels and/or the network settings if everything is connected correctly. When everthing works fine the second screenshot will be shown.<br />
<br />
<gallery><br />
File:Read Settings failed 2.png|Action failed - Network not connected<br />
File:Read Settings.PNG|Action success - Network connected<br />
</gallery><br />
<br />
==== Adjustment of the SRM Ergometer Brake Controller ====<br />
<br />
A new brake controller has been installed with the firmware (V: 1.2.2.). To update the SRM Ergometer to the new brake controller, please follow the instructions below<br />
:1 Open the settings and select the tab "Ergometer".<br />
:2 Press "Read Settings" to read the internal information.<br />
:3 Press the key combination ALT + SHIFT + A to make the controller settings visible.<br />
:4 Press the "Get" button to read the current control parameters. Make a note of the saved values in order to revert back to the default settings if needed.<br />
:5. Change the 3 - Factor Control to PID- Control. To do so, press the 3 Factor tap and choose PID.<br />
:6. Adjust the parameters to the recommended values:<br />
<br />
:P = 50<br />
<br />
:I = 0 <br />
<br />
:D = 45 ± 5<br />
<br />
:7.The control parameters are transferred to the Ergometer controller with the "Set" button. Press “Get” again to make sure that the values have been saved. <br />
:8.Congratulations, you have successfully updated your SRM Ergometer Brake Controller<br />
<br />
<br />
<gallery><br />
File:1 Open settings.PNG|Open settings<br />
File:2 Read settings.PNG|Read settings<br />
File:3 ALT SHIFT A.PNG|Press ALT + SHIFT + A<br />
File:4 Press Get.PNG|Press Get<br />
File:5 Controller_settings.png|Controller settings<br />
File:6 Updated controller settings.png|Updated controller settings<br />
</gallery><br />
<br />
==Taskbar==<br />
<br />
===File===<br />
Close the SRM Ergometer software<br />
<br />
===Settings===<br />
'''Restore factory settings''': Reset settings<br />
<br />
===?===<br />
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** Mechanical_Fundamentals | Mechanical Fundamentals<br />
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* [[navigation]]<br />
** [[mainpage|mainpage-description]]<br />
** Mechanical_Fundamentals | Mechanical Fundamentals<br />
** Electronic_Fundamentals | Electronic Fundamentals<br />
** Calibration_of_the_Ergometer | Calibration<br />
** Ergometer Software Installation and Settings | Settings<br />
** Selecting_or_creating_new_Athletes | Athletes<br />
** Selecting or creating new Workouts | Workouts<br />
** Overview of Test parameters | Test<br />
** Analyse, export or delete Activities|Activities <br />
** Get a file list & Upload new firmware|File Transfer<br />
** See the Log informations|Log informations<br />
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** Torque Analysis|Torque Analysis<br />
** Performance Diagnostics practice with the Ergometer|Performance Diagnostics Practice<br />
** Maintenance and Service|Maintenance & Service<br />
** FAQs|FAQs<br />
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** Manuals|Manuals<br />
** International publications on SRM Ergometer|Publications<br />
** References|References<br />
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* navigation<br />
** mainpage|mainpage-description<br />
** Mechanical_Fundamentals | Mechanical Fundamentals<br />
** Electronic_Fundamentals | Electronic Fundamentals<br />
** Calibration_of_the_Ergometer | Calibration<br />
** Ergometer Software Installation and Settings | Settings<br />
** Selecting_or_creating_new_Athletes | Athletes<br />
** Selecting or creating new Workouts | Workouts<br />
** Overview of Test parameters | Test<br />
** Analyse, export or delete Activities|Activities <br />
** Get a file list & Upload new firmware|File Transfer<br />
** See the Log informations|Log informations<br />
<br />
** Torque Analysis|Torque Analysis<br />
** Performance Diagnostics practice with the Ergometer|Performance Diagnostics Practice<br />
** Maintenance and Service|Maintenance & Service<br />
** FAQs|FAQs<br />
<br />
** Manuals|Manuals<br />
** International publications on SRM Ergometer|Publications<br />
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<br />
==Introduction==<br />
<br />
In the following sections, you can see prepared the ergometer and programmed protocols to perform several performance tests.<br />
<br />
== General preparation for performance diagnostics ==<br />
<br />
:*Power-on spiroergometry (30min before beginning of test)<br />
:*Power-on ergometer’s power supply<br />
:*Preparation diagnostic devices (Lactate analysis, etc.) 30min beginning of test<br />
:*Room temperature (18 – 24°C) should measured<br />
:*Relative air humidity should measure (30 – 60%) in room<br />
:*Check position of ventilator<br />
<br />
== Athletes ==<br />
<br />
[[File:Practice SRM Ergoemter - Athletes.png|thumb|Athletes]]<br />
[[File:Practice SRM Ergoemter - Athletes2.png|thumb|Athletes]]<br />
:*Welcoming<br />
:*Clients prepare for test - put on the heart rate strap<br />
:*Choose the option “Add new athlete” to create a new profile or “Search” for an athlete you added before<br />
:*Documentation of personal data of client (name, height, weight, gender, date of birth, crank length)<br />
:*Completion questionnaire / exclusion of liability<br />
:*Discussion of the data and test procedure<br />
<br><br />
:*Choose an "Athlete" or a [[SRM-Online represented practically#Workouts|"Workout"]] with the ''Next-Button''. An information sign indicates if there is not chosen an Ahtlete/Workout.<br />
<br />
== Ergometer preparation for testing & training ==<br />
<br />
Before every performance diagnostic or every training you should check the positioning of the athlete. The mechanical adjustment of the SRM – Ergometer allows the rider to find his individual positioning.<br />
<br />
=== Settings the Crank length ===<br />
[[File:Practice SRM Ergoemter - Setting Crank Length.jpg|thumb|Setting Crank Length]]<br />
[[File:Practice SRM Ergoemter - Setting Crank Length2.jpg|thumb|Setting Crank Length]]<br />
First we recommend to mount the client’s pedals and set-up the crank length as on client’s bicycle.<br><br />
The prolongable crank has round markings every 2.5 mm and every 10 mm a line. If the steel element of the crank is completely retracted in the aluminium crank the minimal length of the crank arm is 150 mm. If the crank arm is completely pulled out, the maximal length is 190 mm. Before changing the crank arm length you have to open both Allen screws.<br><br />
After adjusting the right crank arm length, please tighten the Allen screws again with a maximal torque of 10 Nm so that they won’t come loose while you ride the Ergometer. Make also sure that the screws are situated with a distance of a 2.5 mm. This can be determined when the fixing spring (situated between the Allen screws) locks into the holes of the steel element of the crank. Please do never remove or adjust the fixing spring.<br><br />
From time to time it is necessary to grease the steel elements of the crank to protect them from sweat and to maintain the free movement.<br />
<br />
=== Mechanical adjustment & positioning of the athlete ===<br />
<br />
Optimizing individual positioning is quickly achieved by adjusting the saddle and handlebar vertically and/or horizontally. To do so you have to open the locking lever. Because of a ruler which is attached to the saddle post you can reproduce your perfect positioning.<br />
If adjusted correctly, it should be easy to move the vertical and horizontal stems when the quick release is open. A 5 mm Allen key situated on the saddle and handlebar mounts allows for further rigidity.<br />
<br />
=== Horizontal & Vertical Positioning of the saddle ===<br />
[[File:Practice SRM Ergoemter - Positioning of the saddle.jpg|thumb|Horizontal & Vertical Positioning of the saddle]]<br />
[[File:Practice SRM Ergoemter - Positioning of the handlebars.jpg|thumb|Horizontal & Vertical Positioning of the handlebars]] <br />
The ruler which is integrated in the seat stay gives you the distance between the center of the bottom bracket and the front of the saddle. The distance in cm can be read from the left hand side of the seat stay.<br />
<br />
=== Fly masses ===<br />
The mass moment of inertia of a cycling athlete causes an approximate constant angular velocity of the pedaling circle, although thee cyclist´s torque (power) is nearly zero when the cranks are in vertical position. If the SRM Ergometer had no fly mass, the cadence would decrease to nearly zero in the vertical crank position and high power output, resulting in a non-circular pedal cadence. This would result in a very non-circular tread then. Therefore the SRM Ergometer is currently equipped with two fly masses: SMALL (12mm thick, 4,6kg) and LARGE (24mm thick, 9,1kg).<br />
<br />
==== Notice ==== <br />
The default configuration for the most common Ergometer tests is installing the LARGE fly mass inside the gearbox on its own!<br />
Please remove the SMALL fly mass as described below! For more information on kinetic energy simulation, fly masses and gear ratio of the Rohloff hub see the manual or visit our webpage at www.srm.de<br />
<br />
==== Removal and mounting instructions ====<br />
[[File:Practice SRM Ergoemter - Flying masses.jpg|thumb|Flying masses]]<br />
Always disconnect thee power supply from the Ergometer when opening the side covers! Never operate the Ergometer without the side covers! Before removing side covers insure fly masses have stopped spinning completely and use care when handling the fly masses to prevent injuries or bruises – both are very heavy!<br />
:*To remove/mount a fly mass you need the following tools: One or two aluminum spacer, Torx screwdriver an nut wrench (Fig.1)<br />
:*Open the cap of the Ergometer by removing the seven Torx screws (marked red) with the Torx T30 wrench (Fig.2)<br />
:*Use the nut wrench to rotate the brass nut counterclockwise (Fig.3). Hold the fly mass to counter the tool pressure if needed<br />
:*Remove the nut and pull the two fly masses off thee axle (Fig.4). Pay attention not to damage the threads on the axle<br />
:*Replace the SMALL fly mass with one aluminum spacer (Fig.5) or add two spacers when replacing the LARGE fly mass. Make sure the groove :in the spacer coincides with the feather key in the axle<br />
Always insure the correct fly mass/spacer configuration: When installing both fly masses always add the SMALL fly mass first onto the axle. When removing the SMALL fly mass, add one spacer first, then add the LARGE flywheel. Same when replacing the LARGE fly mass – add the SMALL fly mass first and then add the two spacers. When testing without any fly mass remove all parts including the brass nut.<br />
:*To reinstall the fly mass on the axle (Fig.6) make sure the groove in the fly mass coincides with the feather key in the axle. This :groove will lock the fly mass an prevent thee fly mass from spinning free<br />
:*Using the nut wrench, rotate the brass nut clockwise until hand-tight (Fig.7)<br />
:*Make sure the fly mass sits firmly, has no play on the axle and can rotate freely! Remove all tools inside the gearbox! Reinstall thee :cover with the seven Torx head screws. Do not over tighten!<br><br />
<br />
See also: [[Mechanical Fundamentals#Gearbox and fly masses functions|Gearbox and fly masses functions]]<br />
<br />
=== Bike fitting ===<br />
[[File:Practice SRM Ergometer - Bike fitting_Saddle height.jpg|thumb|Saddle height]]<br />
[[File:Practice SRM Ergometer - Bike fitting_Saddle setback.jpg|thumb|Saddle setback]]<br />
Transfer settings of client’s own bike to the sitting position.<br />
==== Saddle height ====<br />
The heel with the extended leg should reach the lowest position in the pedaling cycle.<br />
==== Saddle setback ====<br />
In the horizontal position of the crank the knee (patella) should be perpendicular to the pedals axle.<br />
<br />
=== Rohloff gear check ===<br />
[[File:Practice SRM Ergometer - Rohloff gear check.jpg|thumb|Rohloff gear check]]<br />
We recommend to verify the gear of thee Rohloff hub before every test or training. Our general recommendation is to use gear 9 - corresponding to the red point at the turning handle.<br />
<br />
== Preparation of the PowerControl Ergometer ==<br />
See[[Electronic Fundamentals#The PowerControl Ergometer|The PowerControl Ergometer]]<br />
=== Zero offset calibration of the PC Ergometer ===<br />
<br />
<gallery><br />
File:PC Ergometer 1.jpg|PC Ergometer<br />
</gallery><br />
<br />
The PowerMeter delivers a certain frequency which is proportional to the torque of the pedal force on the crank. If there is no load on the crank, the PowerMeter is sending a base frequency which must be communicated to the PowerControl as a reference value. This procedure is called zero offset calibration (offset adjustment).<br />
<br />
The zero offset calibration has to be done before every new assembly of the PowerMeter and also before every measurement resp. every training on the Ergometer. A wrong zero offset calibration can result in an internal miscalculation of the power.<br />
<br />
Please perform the zero offset calibration as it is described below:<br />
<br />
:*For a manual comparison, please turn the right unloaded crank clockwise to activate the PowerMeter.<br />
:*By simultaneously pressing MODE and SET, the PowerControl turns into calibration mode.<br />
:*Wait a few seconds until the value on the right-hand side of the display stabilized itself.<br />
:*Press SET to apply the zero offset.<br />
:*The number on the right-hand side of the display is the current frequency of the PowerMeter (SET).<br />
:*The number on the left-hand side of the display is the frequency which is used for the power measurement.<br />
<br />
See also: [[Calibration of the Ergometer#Zero Offset|Zero offset calibration of the PowerMeter]]<br />
<br />
== Warm-up ==<br />
:*Recommendation of at least 3 - 4 min with a low workload (e.g. 75-100W) <br />
:**predefined warm-up<br />
:*Check the correct settings for:<br />
:**Heart rate<br />
:**Cadence<br />
:**Power<br />
:**Speed<br />
<br />
== Workouts ==<br />
[[File:Practice SRM Ergometer - Workouts.png|thumb|Workouts]]<br />
Determine the test protocol:<br />
:*Add new workout<br />
:*Import new workout<br />
:*Drop file to import workout<br />
:*Last saved workout is opened automatically. Caution: The workout allways have to save!<br />
<br />
You can import new workouts as ''.erg files'' and as ''.fit files''.<br />
<br />
== Test ==<br />
[[File:Practice SRM Ergometer - Test.png|thumb|Test]]<br />
[[File:Practice SRM Ergometer - Test2.jpg|thumb|Test]]<br />
=== Start and Stop performance diagnostics ===<br />
<br />
'''BRAKE ON:''' The brake is active and the client can pedaling with resistance<br><br />
'''BRAKE OFF:''' The brake is deactivate and the client can continue pedaling without resistance and cool down – continuous recording of the heart rate<br />
(No Brake or Brake on only works in combination with the Ergometer)<br><br />
'''START:''' Start by beginning to pedal or pushing the Start Button (Check the values displayed on the computer screen)<br><br />
'''STOP:''' Finish the test<br><br />
'''PAUSE:''' Interrupt the test<br><br />
'''NEXT STEP:''' Go to the next step of the test<br><br />
'''LAST STEP:''' Go to the last step of the test<br><br />
'''STOP ERGO:''' Stop the ergo immediately (it only works without cadence)<br><br />
<br />
=== Next steps ===<br />
:*Comment: Entry file name then press Save<br />
:*Recommended cool – down - protocol with lower workload<br />
:*Clean the ergometer (!)<br />
<br />
== Activities ==<br />
[[File:Practice SRM Ergometer - Activities.png|thumb|Activities]]<br />
[[File:gr 09-Ergo-SW-test-hyp-step (002).jpg|thumb|Activities]]<br />
:*Select activity to analyze, export or delete<br />
:*Export activity as .fit file, pdf, png, jpg<br />
:*Activity-ID is automatically generated<br />
<br />
== Hyperbolic Performance Test (incremental stress test) ==<br />
<br />
You can see two examples of an incremental hyperbolic stress test on the right hand side. The [[Media:Start-Leistungsdiagnostik.jpg|first image]] shows you the protocol which was programmed under the [[Media:Online-Mode.jpg|Mode tab]] before starting the stress test. This particular one starts at 100 W over 3 min and will be increased by 20 W every 3 min.<br />
<br />
The [[Media:016 SRM -Online Test Hyperbolic.jpg|second image]] shows you the data and guidelines during the incremental hyperbolic stress test. <br />
<br />
*The current power is shown green colored<br />
*The current heartrate is shown red colored<br />
*The current cadence is shown blue colored<br />
*The current speed is shown pink colored<br />
*The current heart rate value is represented with a red line on the lower part of the monitor image. The power is represented by a green line and the cadence by a blue one.<br />
*The graphic scaling adjusts automatically to the produced power.<br />
* Under ''Total Time'' you can see the ridden time so far<br />
* Under ''Countdown next step'' you can see the remaining time until proceeding to the next step<br />
*The colored bars in the upper right area have the following function: <br />
:At 90 to 100 % completion of the cadence guideline, the bar stays green. At 80 to 90 % completion the bar turns yellow and at 70 to 80 % it turns red. There is no display of larger deviations. <br />
<br />
The intermediate status display has the following functions:<br />
*Display of the [[Media:Online-Mode.jpg|kind]] of test you are performing:''Predefined File'', ''Open End'' oder ''Demo''.<br />
*Showing after which [[Media:Protokoll.jpg|guideline]] you train at the moment: ''Control by Power'', ''Control by Cadence'' or ''Control by Heartrate''.<br />
*The name of the file: here [[Media:Protokoll.jpg|File Name]]: Test.<br />
*''No Brake'' or ''Brake on'' works only in combination with an Ergometer.<br />
*''Start'', ''Pause'' or ''Resume'' to start, pause or resume the test. Start appears only if you have activated the start button at Start Test by in the [[Media:Online-Mode.jpg|Mode tab]] Should you have activated ''Cadence'' at ''Start Test by'', aktiviert haben, the test starts when there is cadence present. <br />
<br />
*By clicking on ''Prev. Step'' / ''Next Step'' you can, depending on what you have adjusted at the ''Predefined File'' level, go back to the previous step / marker or jump forward to the next step / marker.<br />
*If you are done with the test, click on [[Media:Testdaten_speichern.jpg|''Save Data'']] to save the test. You can give remarks to the training under ''Comment''. You can also make modifications for the Initials (''Initials''), the date (''Date'') and the time (''Time''). To complete everything successfully, please click on ''Save''. <br />
*By clicking of ''Set Marker'', you can place markers during the test.<br />
*''Stop Ergo'' works only in connection with the Ergometer and if there will be no cadence. <br />
*You can end the test and leave the online program by clicking on ''Exit'' / ''End''.<br />
<br />
*In the upper part of the monitor image you can see four colored displays. In green you can see the display for ''Power'', red shows you the ''Heartrate'', blue the ''Cadence'' and pink the ''Speed''. There is always a larger and underneath it a smaller number to be seen for each display. The larger values give you your current performance output while the smaller ones give you the targeted value for this block. The difference between the actual and the desired performance output is a result of the performance variation of the athlete. Differences up to 5 % are quite normal, but on average, the deviation will still be smaller than 1 % over the controlled period of time.<br />
:You can increase or decrease the current guideline (power, heart rate, cadence) for the test via the arrow buttons (up / down).<br />
<br />
== Isokinetic Performance Test ==<br />
<br />
* The first grey block corresponds with the first planned power output of 100 watts<br />
* The second blue block shows a targeted cadence of over 90 rpm<br />
* The third red block equals the previously set heart rate guideline of 130 bpm<br />
<br />
:If you train after cadence guideline [[Media:Protokoll.jpg|Power or Heart rate is checked off on this level]], the bars will show you the Power guideline. They help the athlete to get a better orientation and they have no influence on the regulation.<br />
<br />
== A combination of the Hyperbolic and the Isokinetic Performance Test ==<br />
<br />
<gallery><br />
File:Practice SRM Ergometer_Combination_Hyperbolic-Isokinetic.jpg|A combination of the Hyperbolic and the Isokinetic Performance Test<br />
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* navigation<br />
** mainpage|mainpage-description<br />
** Mechanical_Fundamentals | Mechanical Fundamentals<br />
** Electronic_Fundamentals | Electronic Fundamentals<br />
** Calibration_of_the_Ergometer | Calibration<br />
** Ergometer Software Installation and Settings | Settings<br />
** Selecting_or_creating_new_Athletes | Athletes<br />
** Selecting or creating new Workouts | Workouts<br />
** Overview of Test parameters | Test<br />
** Analyse, export or delete Activities|Activities <br />
** Get a file list & Upload new firmware|File Transfer<br />
** See the Log informations|Log informations<br />
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** Torque Analysis|Torque Analysis<br />
** Performance Diagnostics practice with the Ergometer|Performance Diagnostics Practice<br />
** Maintenance and Service|Maintenance & Service<br />
** FAQs|FAQs<br />
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** Manuals|Manuals<br />
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* TOOLBOX</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=References&diff=197References2020-02-06T14:31:46Z<p>Uwe: Created page with "In the following table you will find selected references from universities, high performance facilities and cycling teams who use our high performance ergometer. {| class="wi..."</p>
<hr />
<div>In the following table you will find selected references from universities, high performance facilities and cycling teams who use our high performance ergometer.<br />
<br />
{| class="wikitable sortable"<br />
|+ style="padding-bottom:1em" |<br />
|- class="hintergrundfarbe6"<br />
!style="width:30%"| Land!! style="width:30%" | Organisation!! style="width:30%" | Ort<br />
|-<br />
| Australia<br />
|style="text-align:left"| Cycling Australia <br />
|style="text-align:left"| Adelaide<br />
|-<br />
|<br />
|style="text-align:left"| University of Canberra, Sport Studies, Faculty of Health <br />
|style="text-align:left"| Canberra <br />
|-<br />
| <br />
|style="text-align:left"| Curtin University <br />
|style="text-align:left"| Perth<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| University of Western Australia, Department of Human Movement <br />
|style="text-align:left"| Perth<br />
|-<br />
| <br />
|style="text-align:left"| University Sydney <br />
|style="text-align:left"| Sydney<br />
|-<br />
|Austria<br />
|style="text-align:left"| Universität Salzburg <br />
|style="text-align:left"| Salzburg<br />
|-<br />
| <br />
|style="text-align:left"| Sportmed Tirol <br />
|style="text-align:left"| Ramsau im Zillertal<br />
|-<br />
|Belgium<br />
|style="text-align:left"| Team Discovery <br />
|style="text-align:left"| Belgium<br />
|-<br />
| <br />
|style="text-align:left"| West Consultancy <br />
|style="text-align:left"| Horebeke<br />
|- style="vertical-align:top"<br />
|Canada<br />
|style="text-align:left"| University of Calgary, Human Performance Lab, Faculty of Kinesiology<br />
|style="text-align:left"| Calgary<br />
|-<br />
| <br />
|style="text-align:left"| Canadian Cycling Association <br />
|style="text-align:left"| Ottawa<br />
|-<br />
|<br />
|style="text-align:left"| Fortius Sport & Health<br />
|style="text-align:left"| Vancouver<br />
|-<br />
| China<br />
|style="text-align:left"| University of Hong Kong<br />
|style="text-align:left"| Hong Kong<br />
|-<br />
|<br />
|style="text-align:left"| University of Peking <br />
|style="text-align:left"| Peking<br />
|-<br />
| Denmark<br />
|style="text-align:left"| University Aalborg<br />
|style="text-align:left"| Aalborg<br />
|-<br />
|<br />
|style="text-align:left"| Aarhus University <br />
|style="text-align:left"| Aarhus<br />
|-<br />
| <br />
|style="text-align:left"| Syddansk Universitet <br />
|style="text-align:left"| Copenhagen<br />
|-<br />
|<br />
|style="text-align:left"| Team Danmark <br />
|style="text-align:left"| Brondby<br />
|-<br />
| Germany<br />
|style="text-align:left"| Schüchtermann Klinik <br />
|style="text-align:left"| Bad Rothenfelde<br />
|-<br />
|<br />
|style="text-align:left"| Olympiastützpunkt Bayern Berchtesgaden <br />
|style="text-align:left"| Berchtesgaden<br />
|- style="vertical-align:top"<br />
| <br />
|style="text-align:left"| Medical Park Chiemsee, Institut für Sport- und Präventivmedizin <br />
|style="text-align:left"| Bernau<br />
|-<br />
|<br />
|style="text-align:left"| Olmpiastützpunkt Cottbus / Frankfurt (Oder) <br />
|style="text-align:left"| Cottbus / Frankfurt (Oder)<br />
|-<br />
| <br />
|style="text-align:left"| Olympiastützpunkt Thüringen<br />
|style="text-align:left"| Erfurt<br />
|-<br />
|<br />
|style="text-align:left"| Olympiastützpunkt Frankfurt am Main <br />
|style="text-align:left"| Frankfurt am Main<br />
|-<br />
| <br />
|style="text-align:left"| Radlabor<br />
|style="text-align:left"| Frankfurt<br />
|-<br />
|<br />
|style="text-align:left"| Olympiastützpunkt Freiburg<br />
|style="text-align:left"| Freiburg<br />
|-<br />
| <br />
|style="text-align:left"| Radlabor <br />
|style="text-align:left"| Freiburg<br />
|-<br />
|<br />
|style="text-align:left"| Universität Freiburg, Steinbeis Transferzentrum<br />
|style="text-align:left"| Freiburg<br />
|- style="vertical-align:top"<br />
| <br />
|style="text-align:left"| Universitätsklinikum Freiburg, Abt. Rehabilitative & Präventive Medizin<br />
|style="text-align:left"| Freiburg<br />
|-<br />
|<br />
|style="text-align:left"| Universität Jena <br />
|style="text-align:left"| Jena<br />
|-<br />
| <br />
|style="text-align:left"| Universität Karlsruhe<br />
|style="text-align:left"| Karlsruhe<br />
|-<br />
|<br />
|style="text-align:left"| Deutsche Bundesweh Koblenz <br />
|style="text-align:left"| Koblenz<br />
|- style="vertical-align:top"<br />
| <br />
|style="text-align:left"| Deutsche Sporthochschule Köln, Institut für Trainingswissenschaft & Sportinformatik <br />
|style="text-align:left"| Köln<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| Deutsche Sporthochschule Köln, Institut für Kreislaufforschung & Sportmedizin<br />
|style="text-align:left"| Köln<br />
|- style="vertical-align:top"<br />
| <br />
|style="text-align:left"| Deutsche Sporthochschule Köln, Institut für Bewegungs- & Neurowissenschaften <br />
|style="text-align:left"| Köln<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| Deutsche Sporthochschule Köln, Institut für Natursport & Ökologie<br />
|style="text-align:left"| Köln<br />
|-<br />
| <br />
|style="text-align:left"| Olympiastützpunkt Rheinland<br />
|style="text-align:left"| Köln<br />
|-<br />
|<br />
|style="text-align:left"| STAPS <br />
|style="text-align:left"| Köln<br />
|-<br />
| <br />
|style="text-align:left"| Wirtschaftsakademie Köln GmbH <br />
|style="text-align:left"| Köln<br />
|-<br />
|<br />
|style="text-align:left"| Universität Konstanz, Sportwissenschaft <br />
|style="text-align:left"| Konstanz<br />
|-<br />
| <br />
|style="text-align:left"| Philipps Universität Marburg, Zentrum für Hochschulsport<br />
|style="text-align:left"| Marburg<br />
|-<br />
|<br />
|style="text-align:left"| Europeansports<br />
|style="text-align:left"| München<br />
|-<br />
| <br />
|style="text-align:left"| Radlabor <br />
|style="text-align:left"| München<br />
|-<br />
|<br />
|style="text-align:left"| Uniklinik München<br />
|style="text-align:left"| München<br />
|-<br />
| <br />
|style="text-align:left"| University of Hong Kong<br />
|style="text-align:left"| Hong Kong<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| Technische Universität München, Zentrum für Prävention und Sportmedizin <br />
|style="text-align:left"| München<br />
|-<br />
| <br />
|style="text-align:left"| World Link Industrie<br />
|style="text-align:left"| München<br />
|-<br />
|<br />
|style="text-align:left"| ZAN Messtechnik GmbH <br />
|style="text-align:left"| Oberthulba<br />
|-<br />
| <br />
|style="text-align:left"| Dilas SpoWis<br />
|style="text-align:left"| Rheinbach<br />
|-<br />
|<br />
|style="text-align:left"| Universität Rostock<br />
|style="text-align:left"| Rostock<br />
|-<br />
| <br />
|style="text-align:left"| Universität Tübingen <br />
|style="text-align:left"| Tübingen<br />
|-<br />
|<br />
|style="text-align:left"| Sportmedizinisches Institut der Bundeswehr<br />
|style="text-align:left"| Warendorf<br />
|-<br />
| Iran<br />
|style="text-align:left"| Iran Cycling Federation<br />
|style="text-align:left"| Iran<br />
|-<br />
|Irland<br />
|style="text-align:left"| National Sport Campus, Irish Institute of Sport<br />
|style="text-align:left"| Dublin<br />
|-<br />
| <br />
|style="text-align:left"| University of Limerick<br />
|style="text-align:left"| Limerick<br />
|-<br />
|Italy<br />
|style="text-align:left"| Team Liquigas<br />
|style="text-align:left"| Italy<br />
|-<br />
| <br />
|style="text-align:left"| Mapei Sports<br />
|style="text-align:left"| Mailand<br />
|-<br />
|<br />
|style="text-align:left"| Multivariate Infometric Analysis (MIA) S.r.l.<br />
|style="text-align:left"| Perugia<br />
|-<br />
| <br />
|style="text-align:left"| Universita degli studi Urbino<br />
|style="text-align:left"| Urbino<br />
|-<br />
|Japan<br />
|style="text-align:left"| Amanda Sports<br />
|style="text-align:left"| Tokyo<br />
|-<br />
| Luxembourg<br />
|style="text-align:left"| Universität Luxembourg<br />
|style="text-align:left"| Luxembourg<br />
|-<br />
|Malaysia<br />
|style="text-align:left"| National Sports Institute<br />
|style="text-align:left"| Kuala Lumpur<br />
|-<br />
| Netherlands<br />
|style="text-align:left"| InnoSportLab<br />
|style="text-align:left"| Papendal<br />
|-<br />
|New Zealand<br />
|style="text-align:left"| Universal College of Learning<br />
|style="text-align:left"| Palmerston North<br />
|-<br />
| Northern Ireland<br />
|style="text-align:left"| University of Ulster, Jordanstown campus<br />
|style="text-align:left"| Newtownabbey<br />
|-<br />
|Norway<br />
|style="text-align:left"| Norges Toppidrettsgymnas (NTG) <br />
|style="text-align:left"| Kongsvinger<br />
|-<br />
| Qatar<br />
|style="text-align:left"| Aspetar<br />
|style="text-align:left"| Doha<br />
|-<br />
|Russia<br />
|style="text-align:left"| Chainpower Ltd<br />
|style="text-align:left"| Moscow<br />
|-<br />
| South Africa<br />
|style="text-align:left"| Activeworx Ltd.<br />
|style="text-align:left"| Gallo Manor<br />
|- style="vertical-align:top"<br />
|Spain<br />
|style="text-align:left"| University of Granada, Faculty of Physical Activity and Sport Sciences<br />
|style="text-align:left"| Granada<br />
|-<br />
| <br />
|style="text-align:left"| Centro de Estudios, Investigacion y Medicina del Deporte<br />
|style="text-align:left"| Pamplona<br />
|-<br />
|<br />
|style="text-align:left"| Team Discovery <br />
|style="text-align:left"| Belgium<br />
|-<br />
| <br />
|style="text-align:left"| Team Liberty Seguros Würth<br />
|style="text-align:left"| Spain<br />
|-<br />
|<br />
|style="text-align:left"| Clinica Tecma<br />
|style="text-align:left"| Valencia<br />
|-<br />
| <br />
|style="text-align:left"| Instituto de Medicina del Deporte <br />
|style="text-align:left"| Valencia<br />
|-<br />
|<br />
|style="text-align:left"| Fortius Sport & Health<br />
|style="text-align:left"| Vancouver<br />
|-<br />
| China<br />
|style="text-align:left"| University of Hong Kong<br />
|style="text-align:left"| Hong Kong<br />
|-<br />
|<br />
|style="text-align:left"| Valencia Catholic University, Exercise & Sports Medicine <br />
|style="text-align:left"| Valencia<br />
|-<br />
| Sweden<br />
|style="text-align:left"| Högskolan Dalarna<br />
|style="text-align:left"| Falun<br />
|-<br />
|<br />
|style="text-align:left"| University of Göteborg <br />
|style="text-align:left"| Göteburg<br />
|-<br />
| <br />
|style="text-align:left"| Nationales Wintersportcenter Östersund<br />
|style="text-align:left"| Östersund<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| GIH - The Swedish School of Sport and Health Sciences, Karolinska Institutet<br />
|style="text-align:left"| Stockholm<br />
|-<br />
| <br />
|style="text-align:left"| Swedish Sports Confederation<br />
|style="text-align:left"| Stockholm<br />
|-<br />
|Swiss<br />
|style="text-align:left"| Powercoach<br />
|style="text-align:left"| Sonvilier<br />
|-<br />
| <br />
|style="text-align:left"| Cressy Santé – UOTS Swiss Olympic Medical Center<br />
|style="text-align:left"| Confignon<br />
|-<br />
|Czech Republic<br />
|style="text-align:left"| CASRI<br />
|style="text-align:left"| Praha<br />
|-<br />
| UK<br />
|style="text-align:left"| University of Birmingham, Hi Performance Centre<br />
|style="text-align:left"| Birmingham<br />
|-<br />
|<br />
|style="text-align:left"| University of Brighton<br />
|style="text-align:left"| Brighton<br />
|- style="vertical-align:top"<br />
| <br />
|style="text-align:left"| English Institute of Sport Ltd., Bisham Abbey Performance Centre<br />
|style="text-align:left"| Buckinghamshire<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| Canterbury Christ Church University, Sport Science, Tourism and<br />
Leisure<br />
|style="text-align:left"| Canterbury<br />
|-<br />
| <br />
|style="text-align:left"| University of Canterbury, Department of Sport Science<br />
|style="text-align:left"| Canterbury<br />
|-<br />
|<br />
|style="text-align:left"| University of Coventry<br />
|style="text-align:left"| Coventry<br />
|-<br />
| <br />
|style="text-align:left"| Edinburgh Napier University<br />
|style="text-align:left"| Edinburgh<br />
|-<br />
|<br />
|style="text-align:left"| Graeme Herd, Scottish Cycling Union<br />
|style="text-align:left"| Edinburgh<br />
|-<br />
| <br />
|style="text-align:left"| University of Kent<br />
|style="text-align:left"| Kent<br />
|-<br />
|<br />
|style="text-align:left"| Edge Hill University<br />
|style="text-align:left"| Lancashire<br />
|-<br />
| <br />
|style="text-align:left"| University of Central Lancashire<br />
|style="text-align:left"| Lancashire<br />
|-<br />
|<br />
|style="text-align:left"| University of Leeds<br />
|style="text-align:left"| Leeds<br />
|-<br />
| <br />
|style="text-align:left"| University of Lincoln<br />
|style="text-align:left"| Lincoln<br />
|- style="vertical-align:top"<br />
|<br />
|style="text-align:left"| Liverpool John Moores University, Sport & Exercise Science<br />
|style="text-align:left"| Liverpool<br />
|-<br />
| <br />
|style="text-align:left"| GSK Human Performance Lab<br />
|style="text-align:left"| London<br />
|-<br />
|<br />
|style="text-align:left"| Roehampton University<br />
|style="text-align:left"| London<br />
|-<br />
| <br />
|style="text-align:left"| University of Greenwich <br />
|style="text-align:left"| London<br />
|-<br />
|<br />
|style="text-align:left"| University of East London<br />
|style="text-align:left"| London<br />
|-<br />
| <br />
|style="text-align:left"| Gatorade Sport Science Institute<br />
|style="text-align:left"| Loughborough<br />
|-<br />
|<br />
|style="text-align:left"| University Loughborough<br />
|style="text-align:left"| Loughborough<br />
|-<br />
| <br />
|style="text-align:left"| English Institute of Sports<br />
|style="text-align:left"| Manchester<br />
|-<br />
|<br />
|style="text-align:left"| University of Bath<br />
|style="text-align:left"| Manchester<br />
|-<br />
| <br />
|style="text-align:left"| British Olympic Medical Centre<br />
|style="text-align:left"| Middlesex<br />
|-<br />
|<br />
|style="text-align:left"| Oxford Brookes University<br />
|style="text-align:left"| Oxford<br />
|-<br />
| <br />
|style="text-align:left"| Staffordshire University<br />
|style="text-align:left"| Staffordshire<br />
|-<br />
|<br />
|style="text-align:left"| Newport City Council Wales<br />
|style="text-align:left"| Wales<br />
|-<br />
| <br />
|style="text-align:left"| University of Glamorgan<br />
|style="text-align:left"| Wales<br />
|-<br />
|<br />
|style="text-align:left"| University of Winchester<br />
|style="text-align:left"| Winchester<br />
|-<br />
| <br />
|style="text-align:left"| University of Wolverhampton<br />
|style="text-align:left"| Wolverhampton<br />
|-<br />
|<br />
|style="text-align:left"| University of Hull<br />
|style="text-align:left"| Yorkshire<br />
|-<br />
| USA<br />
|style="text-align:left"| USA Cycling<br />
|style="text-align:left"| Colorado Springs<br />
|-<br />
|<br />
|style="text-align:left"| Carmichael Training Systems (CTS)<br />
|style="text-align:left"| Colorado Springs<br />
|-<br />
| <br />
|style="text-align:left"| Gatorade Sport Science, IMAG Florida<br />
|style="text-align:left"| Bradenton<br />
|-<br />
|<br />
|style="text-align:left"| Gatorade Sport Science Institute, Illinois<br />
|style="text-align:left"| Barrington<br />
|-<br />
| <br />
|style="text-align:left"| University New Jersey<br />
|style="text-align:left"| New Jersey<br />
|-<br />
|<br />
|style="text-align:left"| Cleveland Clinic<br />
|style="text-align:left"| Ohio<br />
|-<br />
| <br />
|style="text-align:left"| University of California<br />
|style="text-align:left"| Sacramento<br />
<br />
|}</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:SRM_Literature_09.2016.pdf&diff=196File:SRM Literature 09.2016.pdf2020-02-06T14:31:23Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
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<div></div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:Eccentric_Chainrings_2015.pdf&diff=194File:Eccentric Chainrings 2015.pdf2020-02-06T14:31:22Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
<hr />
<div></div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:Torque_publications_2015.pdf&diff=195File:Torque publications 2015.pdf2020-02-06T14:31:22Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
<hr />
<div></div>Uwehttp://wiki.srm.de/Ergo/index.php?title=International_publications_on_SRM_Ergometer&diff=193International publications on SRM Ergometer2020-02-06T14:30:57Z<p>Uwe: Created page with "In the following table you will find different collections of publications in which the SRM-Ergometer, the Torque Analysis and the Eccentric Chainrings were used for scientifi..."</p>
<hr />
<div>In the following table you will find different collections of publications in which the SRM-Ergometer, the Torque Analysis and the Eccentric Chainrings were used for scientific investigations.<br />
<br />
{| class="wikitable sortable"<br />
|+ style="padding-bottom:1em" | Publications SRM-Ergometer <br />
|- class="hintergrundfarbe6"<br />
!style="width:60%"| Publications!! style="width:30%"| Last Update<br />
|-<br />
| [[Media:SRM_Literature_09.2016.pdf|SRM Scientific Publications]]<br />
|style="text-align:right"| September 2016 <br />
|-<br />
| [[Media:Torque_publications_2015.pdf|Torque Publications]]<br />
|style="text-align:right"| Januar 2015<br />
|-<br />
| [[Media:Eccentric_Chainrings_2015.pdf|Eccentric Chainrings Publications]]<br />
|style="text-align:right"| April 2015<br />
|}<br />
<br />
<br />
(In the following table you will find current international publications in which the SRM - ergometer and/or the SRM Trainings Systems - were used for scientific investigations.<br />
[[Media:Scientific Publications SRM 2013.pdf|Here]] you find the international literature in a pdf - single document.)<br />
<br />
{| class="wikitable sortable"<br />
|- style="vertical-align:top"<br />
|- class="hintergrundfarbe6"<br />
!style="width:30%"| Author!! style="width:30%" | Titel!! style="width:30%" | Publication<br />
|- style="vertical-align:top"<br />
| Abbiss, C.R.; Quod, M.J.; Martin, David T.; Netto, K.J.; Nosaka, K.; Lee, H. et al. (2006)<br />
|style="text-align:left"| Dynamic pacing strategies during the cycle phase of an Ironman triathlon. <br />
|style="vertical-align:top"| Med Sci Sports Exerc 38 (4), S. 726–734<br />
|- style="vertical-align:top"<br />
| Abbiss, C.R.; Quod, M.J.; Levin, G.; Martin, D.T.; Laursen, P.B. (2009)<br />
|style="text-align:left"| Accuracy of the Velotron ergometer and SRM power meter. <br />
|style="text-align:left"| Int J Sports Med 30 (2), S. 107–112.<br />
|- style="vertical-align:top"<br />
| Abel, T.; Burkett, B.; Schneider, S.; Lindschulten, R.; Strüder, H. K. (2010)<br />
|style="text-align:left"| The exercise profile of an ultra-long handcycling race: the Styrkeprøven experience. <br />
|style="text-align:left"| Spinal Cord 48 (12), S. 894–898.<br />
|- style="vertical-align:top"<br />
| Antonutto, G.; Capelli, C.; Girardis, M.; Zamparo, P.; di Prampero P.E. (1999)<br />
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| Townsend, N. E., Gore, C. J., Ebert, T. R., Martin, D. T., Hahn, A. G. & Chow, C.-M. (2016)<br />
|style="text-align:left"|Ventilatory acclimatisation is beneficial for high-intensity exercise at altitude in elite cyclists.<br />
|style="text-align:left"|European journal of sport science, 1-8<br />
|- style="vertical-align:top"<br />
| Townsend, N.E.; Gore, C.J.; Hahn, A.G.; Aughey, R.J.; Clark, S.A.; Kinsman, T.A. et al. (2005)<br />
|style="text-align:left"|Hypoxic ventilatory response is correlated with increased submaximal exercise ventilation after live high, train low.<br />
|style="text-align:left"|Eur. J. Appl. Physiol. 94 (1-2), S. 207–215<br />
|- style="vertical-align:top"<br />
| Townsend, N.E.; Gore, C.J.; Hahn, A.G.; McKenna, M.J.; Aughey, R.J.; Clark, S.A. et al. (2002)<br />
|style="text-align:left"|Living high-training low increases hypoxic ventilatory response of well-trained endurance athletes.<br />
|style="text-align:left"|J. Appl. Physiol. 93 (4), S. 1498–1505<br />
|- style="vertical-align:top"<br />
| Truijens, M.J.; Rodríguez, F.A.; Townsend, N.E.; Stray-Gundersen, J.; Gore, C.J.; Levine, B.D. (2008)<br />
|style="text-align:left"|The effect of intermittent hypobaric hypoxic exposure and sea level training on submaximal economy in well-trained swimmers and runners.<br />
|style="text-align:left"|J. Appl. Physiol. 104 (2), S. 328–337<br />
|- style="vertical-align:top"<br />
| Vaile, J.; Halson, S.; Gill, N.; Dawson, B. (2008)<br />
|style="text-align:left"|Effect of Hydrotherapy on Recovery from Fatigue.<br />
|style="text-align:left"|Int J Sports Med 29 (7), S. 539–544<br />
|- style="vertical-align:top"<br />
| van der Woude, L.H.V.; Horstman, A.; Faas, P.; Mechielsen, S.; Bafghi, H.A.; Koning, J.J. de (2008)<br />
|style="text-align:left"|Power output and metabolic cost of synchronous and asynchronous submaximal and peak level hand cycling on a motor driven treadmill in able-bodied male subjects.<br />
|style="text-align:left"|Med Eng Phys 30 (5), S. 574–580<br />
|- style="vertical-align:top"<br />
| Villerius, V.; Duc, S.; Grappe, F. (2008)<br />
|style="text-align:left"| Physiological and Neuromuscular Responses of Competitive Cyclists during a Simulated Self-Paced Interval Training Session.<br />
|style="text-align:left"| Int J Sports Med 29 (09), S. 770–777<br />
|- style="vertical-align:top"<br />
| Vogt, S.; Heinrich, L.; Schumacher, Y. O.; Blum, A.; Roecker, K.; Dickhuth, H.-H.; Schmid, A. (2006)<br />
|style="text-align:left"| Power output during stage racing in professional road cycling.<br />
|style="text-align:left"| Med Sci Sports Exerc 38 (1), S. 147–151<br />
|- style="vertical-align:top"<br />
|Vogt, S.; Roecker, K.; Schumacher, Y. O.; Pottgiesser, T.; Dickhuth, H-H; Schmid, A.; Heinrich, L. (2008)<br />
|style="text-align:left"|Cadence-power-relationship during decisive mountain ascents at the Tour de France.<br />
|style="text-align:left"|Int J Sports Med 29 (3), S. 244–250<br />
|- style="vertical-align:top"<br />
| Vogt, S.; Schumacher, Y.O.; Blum, A.; Roecker, K.; Dickhuth, H.-H.; Schmid, A.; Heinrich, L. (2007)<br />
|style="text-align:left"|Cycling power output produced during flat and mountain stages in the Giro d'Italia: a case study. <br />
|style="text-align:left"|J Sports Sci 25 (12), S. 1299–1305<br />
|- style="vertical-align:top"<br />
|Vogt, S.; Schumacher, Y. O.; Roecker, K.; Dickhuth, H-H; Schoberer, U.; Schmid, A.; Heinrich, L. (2007)<br />
|style="text-align:left"|Power Output during the Tour de France.<br />
|style="text-align:left"| Int J Sports Med 28 (9), S. 756–761<br />
|- style="vertical-align:top"<br />
|Wahl, P.; Mathes, S.; Köhler, K.; Achtzehn, S.; Bloch, W.; Mester, J. (2013)<br />
|style="text-align:left"|Acute Metabolic, Hormonal, and Psychological Responses to Different Endurance Training Protocols.<br />
|style="text-align:left"|Horm Metab Res 45 (11), S. 827–833<br />
|- style="vertical-align:top"<br />
|Wahl, P.; Schmidt, A.; deMarees, M.; Achtzehn, S.; Bloch, W.; Mester, J. (2013)<br />
|style="text-align:left"|Responses of Angiogenic Growth Factors to Exercise, to Hypoxia and to Exercise under Hypoxic Conditions.<br />
|style="text-align:left"|Int J Sports Med 34 (02), S. 95–100<br />
|- style="vertical-align:top"<br />
|Wiedemann, M. S. F.; Bosquet, L. (2010)<br />
|style="text-align:left"|Anaerobic Work Capacity Derived from Isokinetic and Isoinertial Cycling.<br />
|style="text-align:left"|Int J Sports Med 31 (02), S. 89–94<br />
|- style="vertical-align:top"<br />
|Wilson, M.G.; Lane, A.M.; Beedie, C.J.; Farooq, A. (2012)<br />
|style="text-align:left"|Influence of accurate and inaccurate 'split-time' feedback upon 10-mile time trial cycling performance.<br />
|style="text-align:left"|Eur. J. Appl. Physiol. 112 (1), S. 231–236<br />
|- style="vertical-align:top"<br />
|Wooles, A.L.; Robinson, A.J.; Keen, P.S. (2005)<br />
|style="text-align:left"|A Static Method for Obtaining a Calibration Factor for SRM Bicycle Power Cranks.<br />
|style="text-align:left"|Sports Engineering 8 (3), S. 137-144<br />
|}</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:Manual_SRM_Torque_(06.12.2012),_Mirco_Smerecnik.pdf&diff=192File:Manual SRM Torque (06.12.2012), Mirco Smerecnik.pdf2020-02-06T14:30:36Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
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<div></div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:SRM_Ergometer_Short_Manual_(1.2.0)_09.2017.pdf&diff=191File:SRM Ergometer Short Manual (1.2.0) 09.2017.pdf2020-02-06T14:30:35Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
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<div></div>Uwehttp://wiki.srm.de/Ergo/index.php?title=Manuals&diff=186Manuals2020-02-06T14:29:55Z<p>Uwe: Created page with "The following table lists the various manuals for the SRM ergometer and for the associated Torque Analysis. {| class="wikitable sortable" |+ style="padding-bottom:1em" | Manu..."</p>
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<div>The following table lists the various manuals for the SRM ergometer and for the associated Torque Analysis.<br />
<br />
{| class="wikitable sortable"<br />
|+ style="padding-bottom:1em" | Manuals SRM-Ergometer <br />
|- class="hintergrundfarbe6"<br />
!style="width:30%"| Manuals!! style="width:30%" | Language!! style="width:30%" | Last Update<br />
|-<br />
| [[Media:SRM_Ergometer_Short_Manual_(1.2.0)_09.2017.pdf|Ergometer Short Manual]] || English<br />
|style="text-align:right"| September 2017<br />
|-<br />
| [[Media:Regelanpassung_SRM_Ergometer_May_2019.pdf|Regelanpassung SRM Ergometer]] || German<br />
|style="text-align:right" class="hintergrundfarbe5"| May 2019<br />
|-<br />
| [[Media:Manual SRM Torque (06.12.2012), Mirco Smerecnik.pdf|Torque Analysis Manual]] || English<br />
|style="text-align:right" class="hintergrundfarbe5"| December 2012 <br />
|-<br />
| [[Media:SRM-Ergometer,_Alternative_Wingate_Test.pdf|SRM-Ergometer, Alternative of the Wingate Test]] || English<br />
|style="text-align:right" class="hintergrundfarbe5"| June 2014 <br />
|-<br />
| [[Media:Activation Point SRM Ethernet Torque Analysis.pdf|Torque Analysis Activation Point setup]] || English<br />
|style="text-align:right" class="hintergrundfarbe5"| October 2012 <br />
|-<br />
| [[Media:Flymass instruction manual.pdf|Flymass instruction manual]] || English<br />
|style="text-align:right" class="hintergrundfarbe5"| May 2017 <br />
|}</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:SRM-Sattelst%C3%BCtze-(Bezeichnungen).jpg&diff=185File:SRM-Sattelstütze-(Bezeichnungen).jpg2020-02-06T14:29:25Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
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<div></div>Uwehttp://wiki.srm.de/Ergo/index.php?title=FAQs&diff=184FAQs2020-02-06T14:28:59Z<p>Uwe: Created page with "= Ergometer = == Seating position == === What are the possibilities to the seat post? === Names at the seatpost The names..."</p>
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<div>= Ergometer =<br />
== Seating position ==<br />
=== What are the possibilities to the seat post? ===<br />
[[File:SRM-Sattelstütze-(Bezeichnungen).jpg|thumb|Names at the seatpost]]<br />
<br />
The names at the seat post can be found on the attached photo. If you need spare parts to the seat post, please leave us the correct names including the year of construction of the SRM ergometer.<br />
<br />
If you have purchased a new saddle brace from us, you will receive the attached rulers from us. You would have to glue them yourself, so we can use your reference mass on your ergometer, e.g. Between the bottom bracket and the tip of the saddle.<br />
<br />
=== What are the possibilities to the seat position? ===<br />
The SRM ergometer allows individual adjustment of the athlete's sitting position. They can be adjusted individually by changing the position of the steering column, seat post and crank length.<br />
<br />
The scaling of the seat post represents the distance from the center of the bottom bracket bearing to the seat tip. The following table shows the spans of the handlebar and saddle, the reference point is the center of the bottom bracket.<br />
<br />
{| class="wikitable"<br />
!style="width:30%"| Name !! style="width:30%" | Direction of movement<br />
!style="width:30%"| Range<br />
|-<br />
| Saddle || horizontal || -15cm - 10cm<br />
|-<br />
| || vertical || 60cm - 85cm<br />
|-<br />
| Handlebar || horizontal || 35cm - 60cm<br />
|-<br />
| || vertical || 45cm - 65cm<br />
|-<br />
|}<br />
=== Is possible to put on the ergo a seat post rail for carbon saddles? ===<br />
Yes, you can change the upper part, the standard aluminum 27,2 mm bicycle seat post to a version for oval carbon rails.<br />
<br />
== Crank ==<br />
=== Why do I here noise during cycling? ===<br />
*Socket wrenches are not tight enough on the lengthenable cranks.<br />
*Ergometer is not on a flat surface.<br />
<br />
= Software =<br />
=== Is the Ergometer software compatible with Windows 10? ===<br />
Yes the software should be working with Windows 10 but there were some cases in which it did not. When connecting a new device to the system, Windows tries to automatically install a corresponding driver and update its version in future using Windows Update. In most cases, this approach is optimal as it guarantees installation of actual driver versions checked by Microsoft. In some cases, however, a user deliberately uses old driver versions and does not want them to be updated automatically by the system. It is possible to prevent this be turning off the driver updates in Windows 10: [http://woshub.com/how-to-turn-off-automatic-driver-updates-in-windows-10/ Driver updates Windows]<br />
<br />
=== Why do I get an incorrect display of speed? ===<br />
The speed is not displayed or is displayed incorrectly. Solutions:<br />
*Set the Circumference to 1000 in the SRM ergometer software (Settings/Ergometer).<br />
*The light barrier in the gearbox measures the speed of the eddy current brake. If the light barrier is dirty or displaced due to the Vibarions, it must be cleaned and re-aligned.</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=Maintenance_and_Service&diff=183Maintenance and Service2020-02-06T14:28:24Z<p>Uwe: Created page with "The maintenance of the SRM - ergometer is a prerequisite to obtain exact performance data over longer periods. Therefore, we recommend to perform the calibration or to check t..."</p>
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<div>The maintenance of the SRM - ergometer is a prerequisite to obtain exact performance data over longer periods. Therefore, we recommend to perform the calibration or to check the settings before each measurement.<br />
<br />
==PowerMeter battery==<br />
After about 1800 hours of operation time the battery of the PowerMeter should be changed. For that you need to send the PowerMeter and PowerControl to us. At the same time as the replacement of the batteries, the PowerMeter and PowerControl will be checked and recalibrated.<br />
<br />
==Replace pedals, handlebar, saddle, crank, PowerMeter and chain ring==<br />
<br />
Pedals, handlebars, saddles can be replaced with a conventional tool by the user. When replacing the cranks, make sure that the 5 fixing screws of the crank axis - PowerMeter and the fixing screw crank - are tightened firmly after a successful replacement.<br />
<br />
The chainring bolts, approx. 8 - 10 Nm, tighten the crank to the bottom bracket axle with approx. 40 Nm. The slope of the PowerMeter does not change by doing this. The zero point must be reset after assembly. It should also be inspected more often at the beginning, when the screws are still set during operation and the zero point can change as a result.<br />
<br />
When using a different PowerMeter, the corresponding new slope (output signal of the PowerMeter in Hz / Nm) must be entered in the SRMWin software.<br />
<br />
If a chainring with a different number of teeth (standard 53) is used on the PowerMeter, the SRMWin software must change the gear ratio to obtain the desired tread frequency in the tests (SRM - Online - Options - Extra - Gearing Isokinetic Mode).<br />
<br />
==Chain==<br />
The parts with the greatest wear are the chain and the drive pinion. With frequent changes of the chain of the sprocket wear is correspondingly lower. The chain should be exchanged for a new one every 500 hours. Therefore it is necessary that the right cover of the ergometer is removed. It is fixed with six 5mm allen screws. After that, the chain can be opened with a riveting tool and replaced with a new one. In this case, it is also possible to reset or check the indexing of the circuit. In 4th gear both red marks shift the lever and must be towards the hub. During operation time, make sure that the chain does not run dry and is always sufficiently lubricated with oil or grease.<br />
<br />
==Care of the ergometer housing==<br />
The ergometer housing should be cleaned with a damp cloth and a mild detergent. Definitely do not use a strong solvent such as acetone or nitro-dilution. In particular, the perspiration of the athletes should always be wiped off after the end of the exercise. Likewise, the bars should always be lubricated to saddle and handlebar adjustment sufficiently with grease.<br />
<br />
==Maintenance intervals==<br />
<br />
{| class="wikitable" |- style="vertical-align:top"<br />
!style="width:30%"| Components!! style="width:30%" | Service<br />
!style="width:30%"| Recommended period<br />
|- style="vertical-align:top"<br />
| SRM - Crank and PowerControl|| <br />
* Battery replacement and calibration of the PowerMeter<br />
* PowerMeter battery replacement and checking of the PowerControl VI<br />
|| <br />
* Every 2 years<br />
* The SRM crank and the PowerControl must be sent to us for service.<br />
|- style="vertical-align:top"<br />
| Complete Ergometer|| <br />
* Battery change, calibration SRM crank and PowerControl<br />
* Service Rohloff (Oil change, etc.)<br />
* Check gear, bearings and flywheels<br />
* General test connections and cables<br />
* Check mechanical components. Clamp lever, seat post, saddle strut, steering strut, -and support<br />
* Replacement/Replacement parts (chainrings, chain, handlebar, possibly saddle, etc.)<br />
* Complete restoration of the ergometer<br />
* Optimal sandblasting and new powder coating (depending on the condition of the ergometer)<br />
* Optional upgrade for Windows Torque analysis [http://www.srm.de/de/produkte/tretkraftanalyse/ Torque Analyse]<br />
||<br />
* Every 4 years<br />
* The ergometer including all cables and power supply must be sent to us for the 4-year service<br />
* We recommend to send the ergometer to us in a sealed box<br />
* The costs depend on the extent of the necessary repairs; A cost estimate will be drawn up upon receipt and examination of the ergometer<br />
|-<br />
|}</div>Uwehttp://wiki.srm.de/Ergo/index.php?title=File:Practice_SRM_Ergometer_-_Rohloff_gear_check.jpg&diff=178File:Practice SRM Ergometer - Rohloff gear check.jpg2020-02-06T14:27:49Z<p>Uwe: Uploaded with SimpleBatchUpload</p>
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