ISL80510/05 High Performance LDO Regulators

Added on October 05, 2015
Intersil’s single-output low drop-out voltage (LDO) regulators deliver leading edge performance against our competitors.

Related Resources

ISL80510EVAL1Z User Guide ISL80510EVAL1Z User Guide

isl80510eval1z-user-guide.pdf (571 KB)
Oct 2015

ISL80510 Datasheet ISL80510 Datasheet

isl80510.pdf (802 KB)
Oct 2015

ISL80505 Datasheet ISL80505 Datasheet

isl80505.pdf (707 KB)
Nov 2016

Related Videos

Play Video
4:27
Intersil’s single-output low drop-out voltage (LDO) regulators deliver leading edge performance against our competitors.
Play Video
6:19
This webinar will give you a brief overview of the features and performance of the ISL80510 1A and ISL80505 0.5A Single Output LDOs.
Play Video
4:27
Intersil’s single-output low drop-out voltage (LDO) regulators deliver leading edge performance against our competitors.
Play Video
6:19
This webinar will give you a brief overview of the features and performance of the ISL80510 1A and ISL80505 0.5A Single Output LDOs.
Play Video
4:27
Intersil’s single-output low drop-out voltage (LDO) regulators deliver leading edge performance against our competitors.
Play Video
6:19
This webinar will give you a brief overview of the features and performance of the ISL80510 1A and ISL80505 0.5A Single Output LDOs.

 


Video Transcript

Hi, I'm Dhananjay Singh, Product Marketing Manager at Intersil Corporation. Here we are introducing a simple and inexpensive, yet high performance single-output, low dropout voltage regulator. The ISL80510 and ISL80505 comprise a family of new LDOs with 1 amp and 0.5 amp continuous current capability in pin-to-pin compatible, three-by-three DFN packets.

The 1 amp device operates from 2.2 volt to 6 volt, while the 0.5 amp device can be used from 1.8 volt to 6 volt. The output of these devices can be adjusted from 0.8 volt to 5.5 volt for a wide range of applications including low power RF amplifiers.

The ISL80510 and ISL80505 are designed to provide lowest dropout and best transient performance for sensitive loads. Their compensation loop is designed in a way to keep flat PSRR response over a wide range of frequencies giving you your added security in noisy conditions.

To help our customers, Intersil has designed a very simple and easy-to-use evaluation board to perform basic evaluation. This is a common evaluation board for both ISL80510 and ISL80505. These are the Vin points and these are the Vout points. Probe points have been placed close to the IC to minimize middleman errors.

If you notice, we have a bunch of jumpers here to minimize bench work in the lab. This jumper is for enabling or disabling of the device and the series of jumpers are for Vout setting. Basically, by selecting one of these jumpers, the user is selecting one of the possible output voltages of this volt. Users can select a Vout setting from one of the fixed possible Vout settings between 1 volt and 5 volt.

Here we are doing a one-on-one comparison between ISL80510 and a pin-to-pin compatible competitors part. Since both devices are pin-to-pin compatible, we can use the same board for a fair comparison. This board has ISL80510 on it, while this board has competitors device. Let's take a look at the outcome when we compare the performance of these two boards after testing under similar conditions.

Soft-start ramp, as you can see on this plot, ISL80510 provides a picture-perfect soft-start and shutdown ramp voltage, while the competitors device shows disturbances in both cases. If we look at dropout, the ISL80510 has a dropout that is almost half of the competitors device operating under similar condition.

Now let's have a look at transient performance. As you can see here, the peak-to-peak in competitors device is almost nine times bigger than what Intersil's device is showing. When compared to similar products in market, Intersil's LDO family provides the best cost performance for your sensitive loads.

For more information about these LDOs or any other power products, please visit Intersil online. Thanks for watching.