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SR1-PARU Datasheet(PDF) 3 Page - STMicroelectronics |
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SR1-PARU Datasheet(HTML) 3 Page - STMicroelectronics |
3 / 21 page DocID026048 Rev 2 3/21 SR1 Description 21 1 Description The Smart ResetTM devices provide a useful feature which ensures that inadvertent short reset push-button closures do not cause system resets. This is done by implementing an extended Smart Reset input delay time (tSRC), which ensures a safe reset and eliminates the need for a specific dedicated reset button. This reset configuration provides versatility and allows the application to distinguish between a software generated interrupt and a hard system reset. When the input push- button is connected to the microcontroller interrupt input, and is closed for a short time, the processor can only be interrupted. If the system still does not respond properly, continuing to keep the push-button closed for the extended setup time tSRC causes a hard reset of the processor through the reset output. The SR1 has one Smart Reset input (SR) with preset delayed Smart Reset setup time (tSRC). The reset output (RST) is asserted after the Smart Reset input is held active for the selected tSRC delay time. The RST output remains asserted either until the SR input goes to inactive logic level (i.e. neither fixed nor minimum reset pulse width is set) or the output reset pulse duration is fixed for tREC (i.e. factory-programmed). The device fully operates over a broad VCC range from 2.0 V to 5.5 V. 1.1 Test mode After pulling SR up to VTEST (VCC + 1.4 V) or above, the counter starts to count the initial shortened tSRC-INI (42 ms, typ.). After tSRC-INI expires, the RST output either goes down for tREC (if tREC option is used) or stays low as long as overvoltage on SR is detected (if tREC option is not used). This is feedback, and the user only knows that the device is locked in test mode. Each time the SR input is connected to ground in test mode, a shortened tSRC-SHORT (tSRC/128) is used instead of regular tSRC (0.5 s - 10 s). In this way the device can be quickly tested without repeating test mode triggering. Return to normal mode is possible by performing a new startup of the device (i.e. VCC goes to 0 V and back to its original state). The advantages of this solution are its high glitch immunity, user feedback regarding entry into test mode, and testability within the full VCC range. |
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