LTC2908CTS8-A1#PBF Linear Technology, LTC2908CTS8-A1#PBF Datasheet - Page 11

LTC2908CTS8-A1#PBF

Manufacturer Part Number

LTC2908CTS8-A1#PBF

Description

Manufacturer

Linear Technology

Datasheet

1.LTC2908CTS8-A1PBF.pdf (16 pages)

Specifications of LTC2908CTS8-A1#PBF

Voltage Supervisor Type

Voltage Monitor

Number Of Voltage Supervisors

Operating Supply Voltage (min)

0.5V

Operating Supply Voltage (max)

Package Type

TSOT-23

Operating Temperature Classification

Commercial

Operating Temp Range

0C to 70C

Pin Count

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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APPLICATIONS INFORMATION

Adjustable Input

The noninverting input on the V

0.5V. And the high impedance inverting input directly ties

to the V

In a typical application, this pin connects to a tap point

on an external resistive divider between the positive

voltage being monitored and ground (see Figure 3). The

following formula derives the value of the R1 resistor in

the divider from a particular value of R2 and the desired

trip voltage:

R2 = 100k is recommended. Table 1 shows suggested

1% resistor values for various adjustable applications and

their corresponding trip thresholds.

Table 1. Suggested 1% Resistor Values for the V

R1=

SUPPLY

7.5

3.3

2.5

1.8

1.5

1.2

1.0

0.9

0.8

0.7

0.6

ADJ

(V)

0.5V

ADJ

Figure 3. Setting the Adjustable Trip Point

TRIP

pin.

TRIP

– 1 R2

TRIP

LTC2908-A1/LTC2908-B1/LTC2908-C1

11.25

4.725

3.055

2.325

1.685

1.410

1.120

0.933

0.840

0.750

0.655

0.561

2.82

9.4

7.5

5.6

–

(V)

0.5V

–

ADJ

R1 (kΩ)

2150

1780

1400

1300

1020

86.6

68.1

49.9

30.9

12.1

845

511

464

365

237

182

124

comparator is set to

2908 F03

ADJ

Inputs

R2 (kΩ)

100

In an application with less than six supply voltages, the

unused supervisor inputs should be tied to the closest

higher supply voltage available.

Threshold Accuracy

Specifying system voltage margin for worst-case operation

requires the consideration of three factors: power supply

tolerance, IC supply voltage tolerance and supervisor reset

threshold accuracy. Highly accurate supervisors ease the

design challenge by decreasing the overall voltage margin

required for reliable system operation. Consider a 5V

system with a ±5% power supply tolerance band.

System ICs powered by this supply must operate reliably

within this band (and a little more, as explained below).

The bottom of the supply tolerance band, at 4.75V (5%

below 5V), is the exact voltage at which a perfectly ac-

curate supervisor generates a reset (see Figure 4). Such

a perfectly accurate supervisor does not exist—the

actual reset threshold may vary over a speciﬁ ed band

(±1.5% for the LTC2908 supervisors). Figure 5 shows

the typical relative threshold accuracy for all six inputs

over temperature.

THRESHOLD

Figure 5. Typical Threshold Accuracy vs Temperature

±1.5%

BAND

5.000V

4.750V

4.675V

4.600V

4.500V

–0.5

–1.0

–1.5

Figure 4. Threshold Band Diagram

1.5

1.0

0.5

–50

MINIMUM

RELIABLE

REGION OF POTENTIAL MALFUNCTION

VOLTAGE

SYSTEM

–25

WITH 2.5% MONITOR

TEMPERATURE (°C)

TOLERANCE

SUPPLY

SUPERVISOR

THRESHOLD

IDEAL

2908 F04

2908 F05

LTC2908

–5.0%

–6.5%

–8.0%

–10%

NOMINAL

VOLTAGE

SUPPLY

100

±2.5%

THRESHOLD

BAND

2908fc

LTC2908CTS8-A1#PBF Linear Technology, LTC2908CTS8-A1#PBF Datasheet - Page 11

LTC2908CTS8-A1#PBF

Specifications of LTC2908CTS8-A1#PBF

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