ISL8270M/71M Digital Power Module

Added on 3月 28, 2014

The ISL8270M and ISL8271M digital DC/DC modules use proprietary ChargeMode™ technology for single cycle transient response performance and compensation-free stability.

Video Transcript

Hello, my name is Chance Dunlap and I'm here today at APEC 2014 in Dallas-Fort Worth, showcasing our new fourth-generation digital power products, the ISL8270M and ISL8271M. Now these devices shown are a 25A and a 33A digital power device in the encapsulated module formats. This allows you to place them on the board and just use an input cap and an output cap and that completes your entire power supply design.

The advantage of these products is you have complete digital control. Through the use of a PMBus interface, you can do complex sequencing, flow control and product setup.

So on the left here, we have the ISL8270M, which is a 25A digital power module. So within this device is incorporated the fourth-generation controller, the inductor, the drivers and the MOSFETs and all of the small signal passives. So all you require is the input cap and the output cap and the IC and that completes your entire power supply.

In the middle here is the ZL8800. This is the fourth-generation digital controller that powers these modules. This is set up as a demo board with two separate outputs. Each one is capable of up to 30A.

And on the far right is the ISL8271M. This device is a 33A module, similar to the ISL8270M, pin-compatible, just a higher current rating. You'll notice all the boards are connected and we just pushed them together and they're connected to the Intersil dongle that converts a USB to PMBus signal. That allows us to control all the devices through the PowerNavigator GUI.

So let's take a look at the PowerNavigator software. So what we have running here is a new PowerNavigator GUI that's available on our website. You can download it for free and right away you can go in and configure any power architecture you want. Through a simple drag-and-drop process, you can configure your power map. So we have a 12V supply coming in and we have four separate outputs configured. Things such as sequencing then become graphical and you can just point and click, you can drag and change any of your timing patterns around as needed by the system. And because this is all stored on-board in memory, you can make changes at any point in development without the need for a soldering iron or a PCB change.

Once the device is set up, we have the products running and as you can see, you can monitor every aspect of the power supply through the GUI. So those 4 outputs, we have running 1.2V, 1V, 2.4V, and 3.3V output voltages. All the information that you'd ever want on your power supply is graphically displayed, showing output current, input voltage, temperature, switching frequencies and even duty cycle. And then of course you can go into each screen and automatically configure and set up any other changes you would require.