Nexperia's Interactive application notes provide general guidelines for various power designs and topologies. A simulator is embedded inside the application with a predefined schematic. This simulator provides a direct view of the performance from system level down to individual component level.

Navigating to Interactive application note pages

To access the interactive application note pages, you can navigate from the ‘Applications’ tab on the Nexperia main website page. Scroll down to the last section of that page to find the ‘Interactive application notes’ section.  By clicking on one of the interactive application notes, you will gain full access to the text of the system description which include embedded simulations.

Figure 1. Navigation to the Interactive application notes

Using the embedded simulator

Take IAN50001 - Reverse battery protection in automotive applications as an example to show how to use the embedded simulator. To open the embedded simulation, simply hover over the simulation image. Left click the start icon  or the Open Design Analyzer button to see the simulation result of the designed circuit. 

Figure 2. Launching the embedded simulation

The simulation will now open inside the interactive application note page.

Figure 3. Simulation running inside the interactive application note

Block explanation

Zoom in and zoom out of waveform area

Left click and drag to the focus area you want to zoom in then release. The area in blue will be zoomed in. Right click then click View All, waveform will be zoomed out.

Waveform menu

Right click on waveform, a menu will be displayed as shown below:

Figure 10. Waveform menu

Display Mode

Multi trace and Overlaid waveform views can be displayed in the wave box:

Figure 11. Display mode

Colors

Waveform colors can be customized.

Cursor

Click add cursor, the cursor will be added into waveform and relevant electrical reading will be displayed.

Download waveforms

Click download waveforms, the waveform data will be downloaded as a CSV (comma-separated values) file, which can be opened in Excel.

Wave viewer

Press Plot in viewer, the waveform will be displayed in wave viewer.

Figure 12. Waveform viewer

Click  to open the waveform in a new window.

Math operations

Math operations are quite limited in wave box, only addition, subtraction, multiplication, and division can be used. It can be more useful when plotting waveforms in the viewer and using the waveform analyser.

Figure 13. Function summary for embedded simulation

PartQuest Nexperia Library

Once in the PartQuest  environment you may want to edit one of the many Nexperia designs to fit your own application specifications - or to create your own design using Nexperia parts. In either case, in order to find the relevant parts that you may require for your design, you will want to click on the partner button within the PartQuest library. You may see this in Fig. 15. There you will see Nexperia as one of the partners and by clicking on that other categories will appear from which, one can choose the NMOS Automotive MOSFETs seen in Fig. 16.

Figure 15. Navigating PartQuest components: Partner / Nexperia / NMOS

Moreover, a dropdown menu will show when choosing Automotive MOS with the different V_DS(max) ratings from 30 V to 100 V and for each voltage rating there are the different packages: LFPAK33, LFPAK56, LFPAK56D, LFPAK56E, LFPAK88 and D2PAK.

Figure 16. Selecting a Nexperia N-channel MOSFET by V_DS rating and package

Once in the selected voltage menu and package one may select the desired R_DSon range. An example may be seen in Fig. 17.

Figure 17. Nexperia N-channel MOSFET RDSon selection

Within the R_DSon menu one may be able to select the MOSFETs required for their design. Some examples of MOSFETs in the LFPAK56 and LFPAK88 packages may be seen in Fig. 17, in each menu a selection of MOSFETs is shown with the R_DSon below 10 m?.

As an example, from LFPAK56 and LFPAK88 MOSFET selections seen in Fig. 17 a MOSFET was chosen from each category and placed onto the design sheet. These can be seen in Fig. 18 below as the BUK7Y1R7-40H and BUK7S1R0-40H.

Figure 18. Selected Nexperia N-channel MOSFET placed in design sheet

Another method for finding the required Nexperia parts is by using the search in the PartQuest Library panel as shown in Fig. 19.

Figure 19. Fast library searching

For fast library searches one should use the Nexperia naming rule for the specific components. An example is given below for the Nexperia Automotive MOSFETs.

Download the 2022 Nexperia Selection Guide