Important:

Please consult the PF4 user manual as well as the HW4 manual for PF4 devices for further details.

Step 1

➢Discover the IP address:

Open and execute DigiDeviceDiscovery.exe. The device search starts automatically. Double click on the device: a web browser opens.

➢If the IP address or the host name device is known, please type into the address bar of the web browser: http://ipaddress (e.g. http://192.178.1.1) or http://hostname (e.g. http://SN12345678).

Step 2

Log in for further network configuration:

oDefault user: rotronic

oDefault password: wlan

Step 3

Check or change the network settings:

IMPORTANT:

Rotronic recommends using a fixed IP address for the RMS-CONVERTER-100 as well as for the digital devices. The reason being the support of the log function within the RMS-CONVERTER-100 in case of any interruption to the RMS server.

Step 4

Check or change the host name and set the check mark for "Enable AutoIP address assignment":

If a DNS is active within the network, the RMS / RMS-CONVERTER-100 can communicate based on the host name instead of the IP address.

Step 5

Disable the Discovery mode:

The device search function of HW4 and the Discovery tool uses a Device Discovery function (ADDP). At the end of the configuration, it is meaningful to disable this feature.

o"Network" > "Network Services Settings" > remove the check mark of "Enable Device Discovery (ADDP)".

IMPORTANT:

Parallel and unwished communication due to the opening of HW4 will be avoided. A side effect is, that this device will not automatically be found by HW4 or the Discovery tool anymore. To access the device via HW4, the IP address must be added manually.

Step 6

Close connection after the following number of idle seconds:

Unwished parallel communication/requests to the Ethernet address of the Rotronic device can cause an unwished blocking of the device's internal access to the Ethernet port. For that reason the following setting can be done:

o"Serial Ports" > "Advanced serial settings" > "TCP Settings" > set a check mark to "Close connection after the following number of idle seconds".

o> "Serial Ports" > "Advanced serial settings" > "TCP Settings" > "Timeout: xx seconds".

If the port is blocked then the device will renew/unblock the port by itself after the chosen timeout.

This way a permanent timeout of the device will be avoided. The loss of data will be reduced significantly. For an RMS-CONVERTER-100 interval of 60 seconds, a timeout of 10 to 30 seconds would be meaningful.

Step 1

Log in to the RMS software. Select "Tools" > "Setup" > "Devices". Select the RMS-CONVERTER-100 and click on "Add/Search" devices:

Step 2

Select the device type in the drop down menu.

It is possible to type the IP address or host name into the "IP address" field.

IMPORTANT:

If the field stays empty, RMS searches automatically. If the automatic search function is disabled, an IP address or a host name has to be typed into the field.

Step 3

The device appears: configure accordingly.

NOTE:

The interval cannot be shorter than the interval of the RMS-CONVERTER-100.

IMPORTANT:

If all check marks for measurement points are not set during initial installation and you wish to expand it later, then the same device needs to be added again with the same identification and IP address (there is no need to delete the device before adding it). The desired check marks can then be set. After completing this process, the added or updated measurement points will appear.

Step 4

The device is added.

Step 5

IMPORTANT: Overwritten settings.

By adding the device to RMS via the RMS-CONVERTER-100, the following configuration will be overwritten on the device:

oFix value humidity: disabled

oFix value temperature: disabled

oFix value differential pressure: disabled

oFix value calculation: disabled

oFix value analog input: disabled

oFix value if no probe is connected: disabled

oDefault relative humidity unit: %rh

oDefault temperature unit: °C

oDefault pressure unit: Pa

oLink alarm on every measurement parameter to relay: disabled

NOTE:

If one of the settings above is changed with HW4 further to the initial installation into RMS, then RMS will not note the change. However, such a change would cause RMS will not work correctly. The changes will however be overwritten should the RMS-CONVERTER-100 reboot (due to a short power interruption).

Step 6

Finish configuration.

Step 1

Device settings: log in to the RMS software. Select "Tools" > "Setup" > "Devices". Select the device.

oStatus: the device can be disabled/enabled. When disabled, the RMS-CONVERTER-100 will not send any requests.

oSettings: Any settings can be changed and confirmed by clicking on "Save".

oProperties: Show. The settings can be shown and configured.

IMPORTANT:

Under "Options", "the firmware update", "import firmware file", "import device definition" and "device inventory" are not supported for this device.

IMPORTANT:

The output range, the sources and the measurement ranges of the analog outputs 1 and 2, can be scaled and stored within the device clicking "Apply".

Step 2

Measurement point settings: log in to the RMS software. Select "Tools" > "Setup" > "Measuring point".

Select the measuring point:

oStatus: the measuring point can be disabled/enabled.

oSettings: Any settings can be changed and confirmed by clicking on "Save".

Step 3

Adjustment: log in to the RMS software. Select "Tools" > "Adjustment". Select the measuring point. Click on "Refresh now".

General procedure:

oType the humidity reference value and click "Acquire"

oRepeat until the desired number of adjustment points are acquired.

NOTE:

The user of this feature must take care about sufficient stable circumstances for a data acquisition. Please take the interval into account. One value after every 60 seconds does not detect short-term changes of the value.

oClick "Adjust" to finish.

oUse the "Acquire + Adjust" button for one point adjustment.

oClick "Delete user adjustment" to delete the last user adjustment.

The PF4 has different adjustment scenarios for differential pressure adjustment:

➢0-Point compensation

To compensate for long term drift, a 0-Point compensation is recommended. For that, the pressure connectors "+" and "-" need to be bridged by a short pipe to create a real 0 Pa pressure.

The 0-point procedure at the RMS:

1.Type 0 as the reference value and click "Acquire + Adjust" (or "Acquire" and then "Adjust")

NOTE:

A new 0-Point compensation overwrites the previous 0-Point compensation, but does not overwrites the current One point (≠0 Pa) adjustment (see below).

NOTE:

Do not use a low reference value (ex: 0.1 Pa). The PF4 would interpret it as a "One point adjustment" such as follows. In this case, the PF4 would display a strong measurement error for higher pressure values.

NOTE:

The real date and reference value cannot be shown due to missing compatibility of these systems.

➢One point (≠0 Pa) adjustment

The PF4 can be adjusted at an applied pressure (≠0 Pa) by the customer. Rotronic recommends to apply a pressure around the end of the measurement range.

One point (≠0 Pa) adjustment at the RMS:

1.Type xxPa as the reference value and click "Acquire + Adjust" (or "Acquire" and then "Adjust")

NOTE:

Rotronic recommends performing a 0-Point compensation first.

NOTE:

For the PF4, a customer adjustment with more than one pressure reference value is not possible. The PF4 (first generation) accepts only these two adjustment procedures.

NOTE:

For humidity, multiple points can be acquired and adjusted. For temperature, only 1 or 2 points.

Step 4

Data logging: the PF4 has no internal memory, the PF4 is not battery powered. So the PF4 cannot log during a power interruption.

In case of a communication interruption to the RMS Server, the RMS-CONVERTER-100 logs the data of the PF4. After the interruption, RMS requests the data from the RMS-CONVERTER-100.

In case of a communication interruption between the RMS-CONVERTER-100 and the PF4, the PF4 would not log the data.

Step 5

Sensor error: In case of one sensor error out of the two, RMS displays a sensor error for both measurement values.

Step 6

Measurement alarm: Alarms linked to the measurement limits and programmed within the HC2 will not be transmitted to RMS. However if the device has a display and the display is configured correctly, the alarm will show on the display.

Step 7

Fix values on the HC2: fixed measurement values programmed within the HC2 are displayed as simulators within RMS.

IMPORTANT:

In case of an active fix value of one measurement value of a HC2, RMS will show "simulator connected" for both measurement values of the probe.