MAX16041 Datasheet, PDF(9/15 Page) Maxim Integrated Products – Dual-/Triple-/Quad-Voltage, Capacitor-Adjustable, Sequencing/Supervisory Circuits

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MAX16041 Datasheet, PDF (9/15 Pages) Maxim Integrated Products – Dual-/Triple-/Quad-Voltage, Capacitor-Adjustable, Sequencing/Supervisory Circuits

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Dual-/Triple-/Quad-Voltage, Capacitor-

Adjustable, Sequencing/Supervisory Circuits

VCC

VUVLO

IN_

EN_

VTH

t < tON

OUT_

RESET

tON

tRP

tDELAY-

tDELAY+

tOFF

tRST_DELAY

tRP

tON

tRP

Figure 2. Timing Diagram (CDLY_ Open)

Applications Information

Tolerance

The MAX16041/MAX16042/MAX16043 feature a pin-

selectable threshold tolerance. Connect TOL to GND to

select the thresholds 5% below the nominal value.

Connect TOL to VCC to select the threshold tolerance

10% below the nominal voltage. Do not leave TOL uncon-

nected.

Adjustable Input

These devices offer several monitoring options with both

fixed and/or adjustable reset thresholds (see Table 2).

For the adjustable threshold inputs, the threshold voltage

(VTH) at each adjustable IN_ input is typically 0.5V (TOL

= GND) or 0.472V (TOL = VCC). To monitor a voltage

VINTH, connect a resistive divider network to the circuit as

shown in Figure 3 and use the following equation to cal-

culate the threshold voltage:

VINTH

VTH

âââ1+

R1â

R2 â â

Choosing the proper external resistors is a balance

between accuracy and power use. The input to the volt-

age monitor is a high-impedance input with a small

100nA leakage current. This leakage current contributes

to the overall error of the threshold voltage where the out-

put is asserted. This induced error is proportional to the

value of the resistors used to set the threshold. With lower

value resistors, this error is reduced, but the amount of

power consumed in the resistors increases.

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