MAX815TCSA-T Maxim Integrated, MAX815TCSA-T Datasheet - Page 11

MAX815TCSA-T

Manufacturer Part Number

MAX815TCSA-T

Description

Supervisory Circuits

Manufacturer

Maxim Integrated

Series

MAX814, MAX815, MAX816r

Datasheet

1.MAX815TCSA-T.pdf (16 pages)

Specifications of MAX815TCSA-T

Number Of Voltages Monitored

Monitored Voltage

1 V to 5.5 V

Undervoltage Threshold

3 V

Overvoltage Threshold

3.06 V

Output Type

Active Low, Push-Pull

Manual Reset

Resettable

Watchdog

Battery Backup Switching

No Backup

Power-up Reset Delay (typ)

250 ms

Supply Voltage - Max

5.5 V

Maximum Operating Temperature

+ 70 C

Mounting Style

SMD/SMT

Package / Case

SOIC-8 Narrow

Chip Enable Signals

Maximum Power Dissipation

471 mW

Minimum Operating Temperature

0 C

Power Fail Detection

Yes

Supply Current (typ)

75 uA

Supply Voltage - Min

1 V

Available stocks

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Manufacturer

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Price

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Part Number:

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Quantity:

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ing voltages (V

of a 5V ±5% power supply, and guarantees system

operation over worst-case conditions, maximizing the

Power-Supply Guard-Band Range.

T-suffix parts have a minimum reset threshold set to

3.00V, worst case. They are intended for 3.3V systems

(3.33V ±0.26V) with a 7.8% or better power-supply tol-

erance. Typically, the reset threshold (V

than or equal to the minimum IC operating voltages

The MAX816 has an adjustable reset threshold, set with

an external resistive divider (Figure 3). The voltage on

the RESET IN pin is monitored, not the voltage on V

The RESET IN threshold is 1.700V, and has very high

impedance and 35nA maximum leakage. Calculate the

trip point, V

where V

RESET IN threshold (1.700V), R1 is the resistor con-

nected between V

resistor connected between RESET IN and GND.

Resistors R1 and R2 can have very high values. The

usual procedure is to set R2 to some conveniently high

value (100kΩ, for example) and calculate R1 based on

the desired reset threshold, using the following formula:

The MAX816 can achieve ±1.2% accuracy with 0.1%

resistors.

The watchdog circuit monitors the µP’s activity. If the µP

does not toggle the watchdog input (WDI) within the

watchdog timeout period (t

8). WDO also goes low during reset conditions.

Whenever V

low; however, unlike RESET, WDO does not have a mini-

mum pulse width. As soon as V

threshold, WDO goes high with no delay (Figure 9).

Typically, WDO is connected to the non-maskable inter-

rupt (NMI) of a µP. When V

threshold, WDO goes low whether or not the watchdog

timer has timed out (Figure 9). This would normally trig-

ger an NMI interrupt, but RESET goes low simultane-

ously and thus overrides the NMI interrupt.

Connecting WDO to MR enables the watchdog timeout

to generate a reset in the MAX815.

ICMIN

) is greater than or equal to the minimum IC operat-

= the desired reset threshold, V

, as follows:

ICMIN

is below the reset threshold, WDO stays

______________________________________________________________________________________

±1% Accuracy, Low-Power, +3V and +5V

RIT

[

). The 1% “L” series allows the use

(

Watchdog Timer (MAX815)

and RESET IN, and R2 is the

(

RIT

), WDO goes low (Figure

)

−

drops below the reset

]

rises above the reset

) is greater

RIT

is the

µP Supervisory Circuits

Critical systems often require early warning to indicate

when power is failing. This warning provides time for

the µP to store vital data and take care of any additional

“housekeeping” before the power supply gets too far

out of tolerance for the µP to operate reliably.

The power-fail comparator is intended as an undervolt-

age detector to signal a failing power supply. However,

the comparator does not need to be dedicated to this

function, because it is completely separate from the

rest of the circuitry. To build an early-warning circuit for

power failure, connect the PFI pin to a voltage divider

(see Figures 1, 2, and 3). Choose the voltage divider

ratio, so the voltage at PFI falls below V

the monitored voltage drops out. Use PFO to interrupt

the µP, so it can prepare for an orderly power-down.

The power-fail input (PFI) is compared to an internal

reference. If the voltage on PFI is less than the power-

fail reference, PFO sinks at least 1.2mA to GND; other-

wise it sources at least 300µA from V

is 2.50V in the MAX814/MAX815 with K, L, N suffixes, or

1.70V with the T suffix. It is also 1.70V in the MAX816.

The low-line detector is a separate comparator that

monitors V

above the normal reset threshold, with 2mV of hystere-

sis (Figure 9). If V

100pF capacitor from LOW LINE to GND to ensure

proper start-up. For normal operation (V

reset threshold), LOW LINE is pulled to V

LINE to provide an NMI to the µP when power begins to

fall. In most battery-operated portable systems, reserve

energy in the battery provides ample time to complete

the shutdown routine once the low-line warning is

encountered, and before reset asserts. If the system

must also contend with a more rapid V

such as when the main battery is disconnected or a

high-side switch is opened during operation—use

capacitance on the V

the shutdown routine. First, calculate the worst-case

time required for the system to perform its shutdown

routine. Then use the worst-case shutdown time

low-line to reset threshold (V

of capacitance required to allow the shutdown routine

to complete before reset is asserted.

SHDN

), worst-case load current (I

HOLD

with a typical threshold voltage of 60mV

LOAD

rises faster than 10µs/V, insert a

Early Power-Fail Warning

line to provide time to execute

LOW LINE Output (MAX814)

SHDN

) to calculate the amount

Power-Fail Comparator

LOAD

), and minimum

. The reference

PFI

. Use LOW

just before

fall time—

above the

MAX815TCSA-T Maxim Integrated, MAX815TCSA-T Datasheet - Page 11

MAX815TCSA-T

Specifications of MAX815TCSA-T

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