PTCSL20T091DBE Vishay, PTCSL20T091DBE Datasheet - Page 4

PTCSL20T091DBE

Manufacturer Part Number

PTCSL20T091DBE

Description

THERMISTR 90DEG C TRANS TEMP PTC

Manufacturer

Vishay

Series

2322r

Type

PTCr

Datasheets

1.PTCSL20T091DBE.pdf (9 pages)

2.PTCSL20T091DBE.pdf (5 pages)

3.PTCSL20T101DBX.pdf (5 pages)

Specifications of PTCSL20T091DBE

Resistance In Ohms @ 25°c

120

Resistance Tolerance

±20%

Operating Temperature

70°C ~ 170°C

Mounting Type

PCB, Through Hole

Package / Case

Radial

Mounting Style

Through Hole

Pin Count

Resistance @ 25c

100Ohm

Product Length (mm)

3.5mm

Product Height (mm)

7mm

Product Depth (mm)

3mm

Resistance

100 Ohms

Termination Style

Radial

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Power - Max

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

2322 671 91104
232267191104
BC1378
PTCSL20T091DBX

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

H&T Electronics

Part Number:

PTCSL20T091DBE

Quantity:

16 000

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APPLICATION SPECIFIC DATA

Negative Temperature Coefficient (NTC) thermistors are well known for temperature sensing. What is not well known, however,

is that Positive Temperature Coefficient (PTC) thermistors can be used for thermal protection. Although their operating principles

are similar, the applications are very different; whereas NTC thermistors sense and measure temperature over a defined range,

PTC thermistors switch at one particular temperature.

Just like thermostats they protect such equipment and components as motors, transformers, power transistors and thyristors

against overtemperature. A PTC thermistor is less expensive than a thermostat, and its switch temperature can be more

accurately specified. It is also smaller and easier to design-in to electronic circuitry.

So how does it work? The PTC thermistor is mounted in thermal contact with the equipment to be protected, and connected into

the bridge arm of a comparator circuit, such as shown in Fig. 1. At normal temperature, the PTC thermistor resistance (R

lower than R

thermistor will quickly heat up to its trigger or nominal reference temperature T

much higher than R

APPLICATION EXAMPLES

Document Number: 29012

Revision: 08-Jun-09

(see Fig. 2), so the comparator's output voltage V

+ θ

Fig. 1 Typical comparator circuit

, causing V

PTC

thermistor

to switch to a high level sufficient to activate an alarm, relay or power shutdown circuit.

As soon as one or more of the windings becomes too hot, the

motor is switched off.

PTC Thermistors, Mini Radial Leaded

for Over-Temperature Protection

For technical questions, contact:

Fig. 3 Temperature protection of electric motors

+ θ

will be low. If an equipment overtemperature occurs, the PTC

nlr@vishay.com

2381 671 911../PTCSL..T....BE

, whereupon its resistance will increase to a value

(R1 = R2)

< R

Fig. 2 Typical switch characteristic

temperature

Trigger

Vishay BCcomponents

(R1 = R2)

> R

T (°C)

www.vishay.com

) is

PTCSL20T091DBE Vishay, PTCSL20T091DBE Datasheet - Page 4

PTCSL20T091DBE

Specifications of PTCSL20T091DBE

Available stocks

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