PTCCL05H390HBE Datasheet PTCCL05H190HBE, PTCCL05H630HTE, PTCCL21H701HBE | P1-P3

PTCCL - 265 V Series

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Vishay BCcomponents

Revision: 21-Sep-15

Document Number: 29087

For technical questions, contact: nlr@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000

265 V PTC Thermistors for Overload Protection

QUALITY

UL approved PTCs are guaranteed to withstand severe test

programs and have factory audited follow-up programs.

Major UL qualification tests are long-life (6000 cycles)

electrical cycle tests at trip-current, long-life stability

storage tests (3000 h at 250 °C), damp heat and water

immersion tests and over-voltage tests up to 200 % of rated

voltage.

UL approved PTCs are guaranteed to withstand severe test

programs

• Long-life cycle tests (over 5000 trip cycles)

• Long-life storage tests (3000 h at 250 °C)

• Electrical cycle tests at low ambient temperatures

(-40 °C or 0 °C)

• Damp-heat and water immersion tests

• Overvoltage tests at up to 200 % of rated voltage

FEATURES

• Wide range of trip and non-trip currents:

From 11 mA up to 800 mA

• Small ratio between trip and non-trip currents

= 1.5 at 25 °C)

• High maximum inrush current (up to 5.5 A)

• Leaded parts withstand mechanical stresses

and vibration

• UL file E148885 according to XGPU standard UL1434

• Material categorization: for definitions of compliance

please see www.vishay.com/doc?99912

APPLICATIONS

Overload (current, voltage, temperature) protection in:

• Industrial electronics

• Consumer electronics

• Electronic data processing

DESCRIPTION

These directly heated ceramic-based thermistors have a

positive temperature coefficient and are primarily intended

for overload protection. They consist of a ceramic pellet

soldered between two tinned CCS wires and coated with a

UL 94 V-0 high temperature hard silicone lacquer.

MOUNTING

PTC thermistors can be mounted by wave, reflow, or

hand-soldering. Current levels have been determined

according IEC 60738 conditions. Different ways of

mounting or connecting the thermistors can influence their

thermal and electrical behavior. Standard operation is in still

air, any potting or encapsulation of PTC thermistors is not

recommended and will change its operating characteristics.

Typical Soldering

235 °C; duration: 5 s (Lead (Pb)-bearing)

245 °C, duration: 5 s (Lead (Pb)-free)

Resistance to Soldering Heat

260 °C, duration: 10 s max.

MARKING

Only the gray lacquered thermistors with a diameter of

8.5 mm to 20.5 mm are marked with BC, R

value (example

1R9) on one side and I

, V

max.

on the other side.

QUICK REFERENCE DATA

PARAMETER VALUE UNIT

Maximum voltage (RMS or DC) 265 V

Maximum holding current (I

) 0.011 to 0.8 A

Resistance at 25 °C (R

) 2.1 to 3000 Ω

Tolerance on R

value 20 %

Maximum overload current I

0.8 to 5.5 A

Switching temperature 135 to 145 °C

Operating temperature range

at max. voltage

0 to 70 °C

Storage temperature -40 to +175 °C

PTCCL - 265 V Series

www.vishay.com

Vishay BCcomponents

Revision: 21-Sep-15

Document Number: 29087

For technical questions, contact: nlr@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000

Notes

(1)

The indicated current levels are guaranteed according IEC 60738 mounting conditions. For different mounting conditions the indicated

current levels can change and should be evaluated in the application.

(2)

ol max.

is the maximum overload current that may flow through the PTC when it passes from the low ohmic to the high ohmic state.

UL approval: I

ol max.

x 0.85

(3)

Not UL approved

CURRENT DEVIATION AS A FUNCTION OF THE AMBIENT TEMPERATURE

ELECTRICAL DATA AND ORDERING INFORMATION

MAX.

at 25 °C

(mA)

(1)

MIN.

at 25 °C

(mA)

(1)

± 20 %

(Ω)

MAX.

at 25 °C

(mA)

(2)

res

MAX. at

max.

and

25 °C (mA)

(1)

DISSIP.

FACTOR

(mW/K)

(1)

Ø D

MAX.

(mm)

ORDERING PART NUMBERS

BULK TAPE ON REEL

11 17 3000 80 6.5 7.3 5 PTCCL05H110HBE PTCCL05H110HTE

15 23 1900 110 6.5 7.3 5 PTCCL05H150HBE PTCCL05H150HTE

19 29 1200 140 6.5 7.3 5 PTCCL05H190HBE PTCCL05H190HTE

28 42 500 200 6.8 7.3 5 PTCCL05H280HBE PTCCL05H280HTE

39 59 260 300 6.8 7.3 5 PTCCL05H390HBE PTCCL05H390HTE

63 95 120 450 7 7.3 5 PTCCL05H630HBE PTCCL05H630HTE

76 115 85 550 7 7.3 5 PTCCL05H760HBE PTCCL05H760HTE

95 143 56 600 7 7.3 5 PTCCL05H950HBE PTCCL05H950HTE

110 165 48 650 7.5 8.3 7 PTCCL07H111HBE PTCCL07H111HTE

140 210 29 800 8 8.3 7 PTCCL07H141HBE PTCCL07H141HTE

170 255 22 900 9 9 8.5 PTCCL09H171HBE PTCCL09H171HTE

190 285 18 1000 9.5 9 8.5 PTCCL09H191HBE PTCCL09H191HTE

210 315 17 1300 10 10.5 10.5 PTCCL11H211HBE PTCCL11H211HTE

250 375 12 1500 11 10.5 10.5 PTCCL11H251HBE PTCCL11H251HTE

280 420 11 1800 12 11.7 12.5 PTCCL13H281HBE PTCCL13H281HTE

320 480 8.4 2200 13 11.7 12.5 PTCCL13H321HBE PTCCL13H321HTE

400 600 6.6 3000 15 15.5 16.5 PTCCL17H401HBE -

490 735 4.4 3500 16 15.5 16.5 PTCCL17H491HBE -

590 855 4 4500 19.5 19.8 20.5 PTCCL21H591HBE -

700 1050 2.8 5500 21 19.8 20.5 PTCCL21H701HBE -

800 1200 2.1 5500 22.5 19.8 20.5 PTCCL21H801HBE

(3)

250

200

150

100

-50 -25 0 25 50 75 100

amb

(°C)

ol max.

PTCCL - 265 V Series

www.vishay.com

Vishay BCcomponents

Revision: 21-Sep-15

Document Number: 29087

For technical questions, contact: nlr@vishay.com

THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT

ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000

VOLTAGE DERATING AS A FUNCTION OF AMBIENT TEMPERATURE

MAXIMUM OVERLOAD CURRENT I

ol max.

DERATING AS A FUNCTION OF VOLTAGE

ol max.

as stated in the electrical data and ordering information tables, is the maximum overload current that may flow through

the PTC when passing from the low ohmic to high ohmic state at rated voltage.

When other voltages are present after tripping, the I

ol max.

value can be derived from the above I

max.

as a function of voltage

graph. Voltages below V

rated

will allow higher overload currents to pass the PTC.

TYPICAL TRIP-TIME AS A FUNCTION OF TRIP CURRENT RATIO

Trip-Time or Switching Time (t

)

To check the trip-time for a specific PTC, refer to the Electrical Data and Ordering Information tables for the value I

. Divide the

overload or trip current by this I

and you realize the factor I

. This rule is valid for any ambient temperature between 0 °C

and 70 °C. Adapt the correct non-trip current with the appropriate curve in the Current Deviation as a Function of the Ambient

Temperature graph. The relationship between the It/Int factor and the switching time is a function of the PTC diameter; see the

above graphs.

Example

What will be the trip-time at I

= 0.8 A and T

amb

= 50 °C of a thermistor type PTCCL09H171HBE; 22 Ω; Ø D

max.

= 8.5 mm:

from the table: 170 mA at 25 °C

: 170 x 0.87 = 148 mA (at 50 °C)

Overload current = 0.8 A; factor I

: 0.8/0.148 = 5.40. In the Typical trip-time as a function of trip current ratio graph, at the

8.5 mm line and I

= 5.40, the typical trip-time is 3.0 s.

120

100

-25-50 0 25 50 75 200

amb

(°C)

100 125 150 175

max.

(%)

100 120 150

200

100

150

ol max.

(%)

7050400

rated

(%)

Curve 1: Ø D

max.

= 20.5 mm

Curve 2: Ø D

max.

= 16.5 mm

Curve 3: Ø D

max.

= 12.5 mm

Curve 4: Ø D

max.

= 10.5 mm

Curve 5: Ø D

max.

= 8.5 mm

Curve 6: Ø D

max.

= 7.0 mm

Curve 7: Ø D

max.

= 5.0 mm

Measured in accordance with

“IEC 60 738”.

-1

12 4 6 8 10 12 14 16

(7)

(5)

(6)

(3)

(4)

(1)

(2)

P1-P3 P4-P6

PTCCL05H390HBE

Mfr. #:

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Thermistors - PTC 260 OHM 25%

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PTCCL05H390HBE

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