Renesas' PowerNavigator™ software allows simple configuration and monitoring of multiple Digital-DC devices using a PC with a USB interface. PowerNavigator makes it easy to change all features and functions of your digital power supply design using a simple graphical user interface.
Added support for:
*PowerNavigator will detect an ISL8280M or ISL8282M product as a single product type referred to as ISL828xM.
Working in a production environment? You'll need to use the Production Configuration Tool.
Note that ISL8210M and ISL8212M are not supported. They have no digital control bus and thus, do not require or benefit from PowerNavigator support.
The Production Configuration Tool (PCT) is used for quick loading and verification of configuration files into Intersil digital power controller/modules.
Both standard configuration files and production HEX files can be used. PCT will load and verify either format.
Download the Production Configuration Utility v5.4.139 (ZIP)
|Software title||Software type
|ZIP 54.93 MB||Library|
|ZIP 122.42 MB||Library|
|ZIP 119.19 MB||Library|
|ZIP 59.25 MB||Library|
|ZIP 100.70 MB||Library|
|ZIP 435 KB||Library|
|ZIP 1.75 MB||Library|
|ZIP 166 KB||Library|
|ZIP 120.25 MB||Software & Tools - Other|
|EXE 272.67 MB||Software & Tools - Software|
|ZIP 96.49 MB||Software & Tools - Software|
|Document title||Document type Type||Date Date|
|PDF 1.08 MB||Application Note|
|PDF 4.68 MB||Guide|
|PDF 714 KB||Guide|
|PDF 5.52 MB||Manual - Development Tools|
|PDF 693 KB||Manual - Hardware|
Learn the basics about the monitoring and sequencing views and how to customize your display.
In this video, I'll give you a quick overview of some of the high level functions and benefits of the PowerNavigator GUI. And then, in subsequent videos, we'll deep-dive on each function and show you how to set up and configure that parameter. So let's take a look at the starting point.
So we can see on the screen here is a typical system we've put in place with three different devices, three different output voltages for, let's say, a core voltage, a memory and an I/O rail. So what you've got is the ability to view the entire system from a power architecture standpoint, what rails are set up, what's the input voltages coming through, and how the devices cascade in the system.
On the left side we've got the monitoring screen up, that way you can monitor every single rail. Now, these panels are configurable. You can go through and select what you want to see at a screen at any point in time. So let's take a look at how the monitoring screen works. So the tab on the left shows that we're viewing the monitoring, and you can see the three rails are powering up. The tab on the left shows the monitoring view, so what we can see now is the system display for the three different rails that we have in the system. Looking from the top to the bottom as we walk our way through it, you can see we've got what the output voltage is set to, how the device is configured, to either use enable pin or PMBus enable.
And then you've got the displays. So these are graphical displays using an analog meter to show you what the output voltage is, the output current, input voltage, and also, if the device has it, the input current. At the bottom you've got the ability to manage your temperature. With all these devices, there's a temp sensor internal to the device that measures the junction temperature of the silicon and also the ability to use an external temperature monitor if you want to compensate for, say, the DCR variation of the inductor. At the very bottom, it gives you the run time specifics of duty cycle and frequency.
So right now you can see everything is set to zero because we're not connected to any hardware. One of the big enhancements with this version of PowerNavigator is the ability to configure the display. So right now it's a vertical view. We can go to a dashboard view from a horizontal. We can select what information you want to see in that. The benefit of this is, if you have a large system with maybe 30 to 40 rails, you can display every single power supply on one page. It's easily identifiable in terms of color coding, whether the device is operational or a fault has occurred. Worst case condition, if a fault occurs on a single rail, you can also go in to the fault status page as shown here in the left tab.
Clicking on this pulls up a fault screen, and right away you can pinpoint the exact problem with that power supply rail, whether it's something like an overvoltage condition, overcurrent, or maybe the input voltage hasn't been applied. The last page here is the sequencing tab. When you go into sequencing, now you have a graphical representation of what the device does during power up or power down. And then you've got the ability to sequence the rails, so you can sit there and drag and drop. So with a single mouse click, I can take this rail and I can change the soft-start time. I can also change the timing. So you want a time-based sequencing? I can delay one rail with respect to another. If you know all your parameters, you can also type them in quickly to set up the different timing patterns.
In some later videos, I'll show you some of the other benefits behind the sequencing and the monitoring views, and also how you set up the projects. Please continue watching, and we'll go through detail on each one of these functions.