Parameters |
Factory Lead Time |
1 Week |
Mounting Type |
Surface Mount |
Package / Case |
10-VFDFN Exposed Pad |
Operating Temperature |
-40°C~85°C |
Packaging |
Tape & Reel (TR) |
Published |
2004 |
JESD-609 Code |
e3 |
Feature |
Fault Timeout, Latched Fault, Thermal Limit, Turn On Voltage, UVLO |
Part Status |
Active |
Moisture Sensitivity Level (MSL) |
2 (1 Year) |
Type |
Hot Swap Controller |
Terminal Finish |
Matte Tin (Sn) - annealed |
Applications |
USB |
Voltage - Supply |
2.5V~5.5V |
Peak Reflow Temperature (Cel) |
260 |
Time@Peak Reflow Temperature-Max (s) |
30 |
Base Part Number |
ISL6186 |
Pin Count |
10 |
Number of Channels |
2 |
Current - Output (Max) |
1.5A |
Current - Supply |
57μA |
Internal Switch(s) |
Yes |
Feature Pins |
EN1, /FLT, /PGD |
RoHS Status |
ROHS3 Compliant |
ISL61863AIRZ-T Overview
In the 10-VFDFN Exposed Pad package you will find it.As of now, 2 channels are available.It's packaged in a Tape & Reel (TR) shape.In total, there are 10 pins on it.This is set up in the same way as Surface Mount.In the electrical industry, this component is categoriHot Swap Controllered as Hot Swap Controller.If you want reliable performance, you should set the temperature to -40°C~85°C.USB applications can be downloaded from the device.The article appears in Fault Timeout, Latched Fault, Thermal Limit, Turn On Voltage, UVLO.With a 2.5V~5.5VV power source, it should work.The ISL6186 family includes it.Presently, there is a limited supply of 57μA.1.5AV is the device's maximum output.
ISL61863AIRZ-T Features
The terminal position of 10
Features of Fault Timeout, Latched Fault, Thermal Limit, Turn On Voltage, UVLO
ISL61863AIRZ-T Applications
There are a lot of Renesas Electronics America Inc. ISL61863AIRZ-T hot swap controllers applications.
- Continuous monitoring of device temperature
- Industrial high-side switches
- Board or blade insertion into live backplanes
- Industrial
- Overcurrent protection
- Electric vehicle
- Comprehensive analog and digital capabilities
- Circuit power protectors
- Active current limit
- Distributed power systems