Jul 07, 2021
03:24 AM
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Jul 07, 2021
03:24 AM
1 Solution
Jul 12, 2021
02:18 AM
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Jul 12, 2021
02:18 AM
Between VS(OP) and VS(UV) the undervoltage mechanism is triggered.
If the device is operative (in Active mode) and the supply voltage drops below the undervoltage threshold VS(UV), the internal logic switches OFF the output channel.
As soon as the supply voltage VS is above the operative threshold VS(OP), the channel is switched ON again with a hysteresis of VS(HYS).
If the device is operative (in Active mode) and the supply voltage drops below the undervoltage threshold VS(UV), the internal logic switches OFF the output channel.
As soon as the supply voltage VS is above the operative threshold VS(OP), the channel is switched ON again with a hysteresis of VS(HYS).
1 Reply
Jul 12, 2021
02:18 AM
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Jul 12, 2021
02:18 AM
Between VS(OP) and VS(UV) the undervoltage mechanism is triggered.
If the device is operative (in Active mode) and the supply voltage drops below the undervoltage threshold VS(UV), the internal logic switches OFF the output channel.
As soon as the supply voltage VS is above the operative threshold VS(OP), the channel is switched ON again with a hysteresis of VS(HYS).
If the device is operative (in Active mode) and the supply voltage drops below the undervoltage threshold VS(UV), the internal logic switches OFF the output channel.
As soon as the supply voltage VS is above the operative threshold VS(OP), the channel is switched ON again with a hysteresis of VS(HYS).