LTC2912ITS8-2#PBF Linear Technology, LTC2912ITS8-2#PBF Datasheet - Page 8

LTC2912ITS8-2#PBF

Manufacturer Part Number

LTC2912ITS8-2#PBF

Description

Manufacturer

Linear Technology

Datasheet

1.LTC2912ITS8-2PBF.pdf (12 pages)

Specifications of LTC2912ITS8-2#PBF

Voltage Supervisor Type

Voltage Monitor

Number Of Voltage Supervisors

Monitored Supervisor Voltage

3.3

Reset Threshold Voltage (min)

AdjV

Reset Threshold Voltage (max)

AdjV

Operating Supply Voltage (min)

2.3V

Operating Supply Voltage (max)

Package Type

TSOT-23

Operating Temperature Classification

Industrial

Operating Temp Range

-40C to 85C

Pin Count

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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APPLICATIONS INFORMATION

LTC2912

Power-Up/Power-Down

As soon as V

asserts low and the OV output weakly pulls to V

The LTC2912 is guaranteed to assert UV low, OV high

(LTC2912-1, LTC2912-2) and OV low (LTC2912-3) under

conditions of low V

(2.1V maximum), the VH and VL inputs take control.

Once the VH input and V

is started. After an adjustable delay time, UV weakly pulls

high.

Threshold Accuracy

Reset threshold accuracy is important in a supply-sensitive

system. Ideally, such a system resets only if supply voltages

fall outside the exact thresholds for a speciﬁ ed margin.

Both LTC2912 inputs have a relative threshold accuracy

of ±1.5% over the full operating temperature range.

For example, when the LTC2912 is programmed to moni-

tor a 5V input with a 10% tolerance, the desired UV trip

point is 4.5V. Because of the ±1.5% relative accuracy of

the LTC2912, the UV trip point can be anywhere between

4.433V and 4.567V which is 4.5V ±1.5%.

Likewise, the accuracy of the resistances chosen for R

Using the example just given, if the resistances used to

set the UV trip point have 1% accuracy, the UV trip range

is between 4.354V and 4.650V. This is illustrated in the

following calculations.

The UV trip point is given as:

and R

= 0.5V 1+

can affect the UV and OV trip points as well.

reaches 1V during power up, the UV output

, down to V

+ R

become valid an internal timer

= 1V. Above V

= 2V

The two extreme conditions, with a relative accuracy of

1.5% and resistance accuracy of 1%, result in:

Therefore,

Glitch Immunity

In any supervisory application, noise riding on the moni-

tored DC voltage causes spurious resets. To solve this

problem without adding hysteresis, which causes a new

error term in the trip voltage, the LTC2912 lowpass ﬁ lters

the output of the ﬁ rst stage comparator at each input. This

ﬁ lter integrates the output of the comparator before as-

serting the UV or OV logic. A transient at the input of the

comparator of sufﬁ cient magnitude and duration triggers

the output logic. The Typical Performance Characteristics

show a graph of the Transient Duration vs Comparator

Overdrive.

UV/OV Timing

The LTC2912 has an adjustable timeout period (t

holds OV, OV or UV asserted after each fault has cleared.

This delay assures a minimum reset pulse width allowing

settling time for the monitored voltage after it has entered

the “valid” region of operation.

For a desired trip point of 4.5V,

and

UV(MIN)

UV(MAX)

UV(MIN)

UV(MAX)

= 0.5V • 0.985 • 1+

= 0.5V • 0.985 • 1+ 8 0.99

= 0.5V • 1.015 • 1+

= 0.5V • 1.015 • 1+ 8 1.01

(

1.01

0.99

+ R

• 0.99

• 1.01

= 4.354V

= 4.650V

)

= 8

)

• 1.01

• 0.99

UOTO

) that

2912fa

LTC2912ITS8-2#PBF Linear Technology, LTC2912ITS8-2#PBF Datasheet - Page 8

LTC2912ITS8-2#PBF

Specifications of LTC2912ITS8-2#PBF

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