Table of Contents

Output Functions

To configure output functions, in the project tree, select <Device>/<Audio>/Output Functions.

Output functions are universally applicable DSP functions for switching, level changing, talkback and summation applications. Often, these are used directly before an audio signal output. This is where the name comes from: output function.

Every output function has two audio inputs, Source 1 and Source 2. These inputs are summed. You can influence them by two corresponding level values. The special thing about this is the following: Both, the sources of the input signals as well as their levels can be changed according to logic conditions. The output signal of an output function itself is available as an audio source on the TDM bus. Using this method, the most different applications can be realised.

In the following figure, in the Edit Output Function area, you see an example of a configured output function:

Output functions, selecting audio sources.

The following signals can be used as input signals (Source 1 and Source 2) for output functions:

An output function can have the preset logic condition Default and up to 9 further logic conditions. Each of them is shown in the list in the Edit Output Function area. Each of them is shown as a row i that list. There you can assign other input signals and level values.

The logic condition Default is always in the top line and always active if none of the configured conditions below is active (logically true).

As logic conditions in the Condition column you can use all logic sources that are available in the Logic Sources window.

The priority of the logic conditions decreases from top to bottom. So a condition is only used if all conditions above it are inactive.

For the example in the figure, this means (viewed from bottom to top):

If no other logic condition is programmed, always the first line Default is active.

Output functions are mono at the inputs and at the outputs. So for stereo signals, the left and the right channels have to be programmed separately!

Note
To be able to use output functions for stereo fader channels or for a stereo Fixed Processing, an even number of output functions must be located before the output function containing the left channel. In output functions - used in stereo pairs - the right channel must follow the corresponding left channel.

To create a new output function, click Add. To delete a selected output function, click Remove. You can also right-click in the Output Function list to add or remove an output function.

Warning
You should never delete output functions when changing a configuration, because otherwise the assignment of the following pairs of output functions is disturbed if they are used as stereo inputs for fader channels or fixed processing! Instead, enter a new name in the Label box of unused output functions, for example unused1 or rem. This way, the output functions marked as unused can later be reused, if necessary.

Edit Output Functions

In the Edit Output Functions area, you can configure the output function which is selected in the Output Functions list.

To configure a created output function, follow these steps:

1. Enter a distinctive name for the output function in the Label box. This name may be up to 10 characters long. Please note that the name should be comprehensive, because up to 120 output functions can be available per device.

2. Click Add Source to insert a new condition row. Now select the new condition row. As a result, the three buttons Condition, Source 1 and Source 2 below the list become active. The button Condition can not be used if you have selected the first row in the list (Default).

3. Click Condition to open the Logic Sources window.

4. In the Logic Sources window, select the desired logic source and click Assign. Alternatively, you can double-click on the logic source or drag it to the Condition column of the list. The first row of the list always contains the condition Default and can not be changed.

5. Assign the first audio sources to the selected condition row. To do this, click Source 1 to open the Audio Sources window.

6. In the Audio Sources window, select the desired audio source and adjust the level using the potentiometer in the Audio Sources window. To change a level, click and hold the potentiometer button. If you move the cursor to the left or the right holding the mouse button, you can change the level. Alternatively, you can click on the button, hold the mouse button and change the value using the following keys:

+1 dB stepsright arrow key or up arrow key
-1 dB stepsleft arrow key or down arrow key
OffPos 1
+20 dBEnd
+5% steps (+6 dB)Page up
-5% steps (-6 dB)Page down

7. To rotate the phase position of the selected audio source by 180 degrees, select the Phase Reverse check box.

8. In the Audio Sources window, the Pot list with potentiometers is shown. Here, you can select a potentiometer, the level value of which becomes valid in addition to the level value already configured. For example, if you have set the level of the audio source to -3 dB, and the selected potentiometer is set to -15 dB, in total, the signal is attenuated to -15 dB + (-3 dB) = -18 dB. Select the desired potentiometer or select (none) if you do not want to use a potentiometer. (See also Potentiometers – Assigning Potentiometers)

9. In the Audio Sources window, click Assign.

10. To assign a second audio sources to the selected condition row, click Source 2 to open the Audio Sources window and follow steps 6 to 9 described above.

To configure the output functions, there are the following opportunities as well:

Number of Output Functions (only RM4200D devices)

Each DSP module RM420-848L and RM420-848M is able to process 40 output functions. By using 3 DSP Modules, a maximum of 120 output functions are available in one device. Because the dual MADI modules RM420-422S occupy some channels on the TDM bus system, which are normally used for output functions, the usage of these modules can influence the maximum number of output functions.

In the following table you find the total number of output functions in different combinations of DSP modules and dual MADI modules:

combinationRM420-848L - 40 mono output functions eachRM420-848M - 40 mono output functions eachRM420-848M + RM420-422S - 16 mono output functions eachnumber of available output functions
A1 40
B2 80
C 1 40
D 2 80
E 3 120
F 116
G 232
H 1156
I 348
K 1272
L 2196