MAX16033 Datasheet, PDF(12/21 Page) Maxim Integrated Products – Low-Power Battery Backup Circuits in Small μDFN Packages

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MAX16033 Datasheet, PDF (12/21 Pages) Maxim Integrated Products – Low-Power Battery Backup Circuits in Small μDFN Packages

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Low-Power Battery Backup

Circuits in Small ÂµDFN Packages

RESET

A ÂµPâs reset input puts the ÂµP in a known state. The

MAX16033âMAX16040 ÂµP supervisory circuits assert a

reset to prevent code-execution errors during power-

up, power-down, and brownout conditions. RESET

asserts when VCC is below the reset threshold voltage

and for at least 140ms (tRP) after VCC rises above the

reset threshold. RESET also asserts when MR is low

(MAX16033/MAX16037) or when RESETIN is below

1.235V (MAX16036/MAX16040). The MAX16034/

MAX16038 watchdog function causes RESET to assert in

pulses following a watchdog timeout (Figure 2). The

MAX160_ _L devices provide push-pull RESET outputs.

The MAX160_ _P devices provide open-drain RESET

outputs.

Applications Information

Operation Without a Backup Power Source

The MAX16033âMAX16040 provide a battery backup

function. If a backup power source is not used, connect

BATT to GND and OUT to VCC.

Using a Super Cap as a

Backup Power Source

Super caps are capacitors with extremely high capaci-

tance, such as 0.47F. Figure 5 shows two methods to

use a super cap as a backup power source. Connect

the super cap through a diode to the 3V input (Figure

5a) or connect the super cap through a diode to 5V

(Figure 5b) if a 5V supply is available. The 5V supply

charges the super cap to a voltage close to 5V, allow-

ing a longer backup period. Since VBATT can be higher

than VCC while VCC is above the reset threshold volt-

age, there are no special precautions required when

using these ÂµP supervisors with a super cap.

3V OR 3.3V

1N4148

VCC

MAX16033â

MAX16040

BATT

0.47F