Features
- Optimized for smartphone, notebook/tablet PC applications
- 40 mΩ RDSON while supporting 1.0 A
- Power supply/input voltage range: 2.5 V ≤ VD ≤ 5.5 V
- Output voltage slew-rate control by resistor
- Over-temperature protection
- Sleep mode current (IDDOFF) in low µA range
Description
The SLG59M1442V is designed for load switching applications. The part comes with one 40 mΩ 1.0 A rated MOSFET controlled by a single ON control pin. The MOSFET’s ramp rate is adjustable depending on the input current level of the ON pin. The product is packaged in an ultra-small 1.0 mm x 1.0 mm package.
| Part Number | Status | Samples | Stock | Package | Lead Count (#) | Carrier Type | Moisture Sensitivity Level (MSL) | Pb (Lead) Free |
|---|---|---|---|---|---|---|---|---|
| SLG59M1442V | Obsolete | N/A | In Stock | Package | Tape & Reel | 1 | Yes | |
| SLG59M1442VTR | Obsolete | N/A | Out of Stock | Package | 4# |
Filters
Applied Filters
- GuideGreenFET load switches are designed for efficient high‑side power control in low‑voltage applications. These devices combine low RDS(on), compact packaging, and integrated protection features to replace discrete designs, reducing PCB space and improving system reliability. This guide enables engineers to quickly compare key parameters and select the optimal device for their application.
- Application NotePDF 911 KB Feb 22, 2019AI-generated Summary: Extending the maximum operating current of GreenFET load switches can be achieved by using two lower-current devices in parallel, maintaining protection features and reducing overall RDSON. Parallel operation balances current sharing due to low RDSON variation in Renesas's MOSFET design. Examples include using pairs of SLG59H1006V and SLG59M1714V devices, with detailed operational waveforms and recommended PCB layouts provided. High-current single devices like SLG59M1568V are also covered. The document includes application diagrams, oscilloscope captures, and design guidelines for high-current load switch applications.
- Application NotePDF 364 KB Jan 16, 2019AI-generated Summary: Unidirectional GreenFET load switches can be configured in pairs to create bidirectional load switches (BLS) that conduct current in both directions while maintaining protection features such as current limiting, short circuit, thermal shutdown, and inrush current control. Two types of BLS implementations are detailed: a low-power solution using SLG59M1558V devices and a high-performance solution using SLG59M1709V devices. The document explains circuit configurations, operation waveforms, and protection mechanisms, enabling cost-effective, compact, and reliable bidirectional switching for portable device power management.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
- GuideGreenFET load switches are designed for efficient high‑side power control in low‑voltage applications. These devices combine low RDS(on), compact packaging, and integrated protection features to replace discrete designs, reducing PCB space and improving system reliability. This guide enables engineers to quickly compare key parameters and select the optimal device for their application.
Manuals & Guides (1)
- Application NotePDF 911 KB Feb 22, 2019AI-generated Summary: Extending the maximum operating current of GreenFET load switches can be achieved by using two lower-current devices in parallel, maintaining protection features and reducing overall RDSON. Parallel operation balances current sharing due to low RDSON variation in Renesas's MOSFET design. Examples include using pairs of SLG59H1006V and SLG59M1714V devices, with detailed operational waveforms and recommended PCB layouts provided. High-current single devices like SLG59M1568V are also covered. The document includes application diagrams, oscilloscope captures, and design guidelines for high-current load switch applications.
- Application NotePDF 364 KB Jan 16, 2019AI-generated Summary: Unidirectional GreenFET load switches can be configured in pairs to create bidirectional load switches (BLS) that conduct current in both directions while maintaining protection features such as current limiting, short circuit, thermal shutdown, and inrush current control. Two types of BLS implementations are detailed: a low-power solution using SLG59M1558V devices and a high-performance solution using SLG59M1709V devices. The document explains circuit configurations, operation waveforms, and protection mechanisms, enabling cost-effective, compact, and reliable bidirectional switching for portable device power management.
Application Notes & White Papers (2)
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
Schematics & Design Files (6)
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
Marketing Collateral (1)
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
Filters
Applied Filters
Software & Tools
Filter by Type
Filter by Provider
Sample Code
Filter by Application
Filter by Function
Filter by Compiler
Filter by IDE
Simulation Models
Partner Solutions
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
Software & Tools (6)
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
No Results Found.
Make sure all keywords are spelled correctly.
Try fewer, different, or more general terms to vary your search.
If you have filters applied, consider deselecting some to broaden your results.
- Search our extensive knowledgebase, designed to help customers with their FAQs.
- Get help from our expert Renesas technical staff and community on our support forums.
A detailed overview of the GreenFET product line, focusing on the advantages of Renesas’ proprietary CuFET™ architecture and its impact on performance, size, and reliability. The presentation covers key specifications such as low RDS(on), high continuous current capability, and integrated protection functions including current limiting, thermal shutdown, and reverse‑current blocking. The session also outlines how GreenFET devices streamline power sequencing and reduce external component requirements.