CL-10 GE Sensing, CL-10 Datasheet

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CL-10

Manufacturer Part Number
CL-10
Description
Thermistors - NTC
Manufacturer
GE Sensing
Type
NTCr
Datasheet
1.CL-30B.pdf (4 pages)

Specifications of CL-10

Termination Style
Radial
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Sensing
Features
• Low cost, solid state device for inrush current
• Excellent mechanical strength
• Wide operating temperature range: -58°F to 347°F
• Suitable for PCB mounting
• Available as a standard with kinked or straight leads
NTC Inrush
Current Limiter
Thermometrics
Thermistors
NTC Inrush Current Limiter is a
Thermometrics product.
Thermometrics has joined other
GE high-technology sensing
businesses under a new name—
GE Industrial, Sensing.
g
suppression
(-50°C to 175°C)
and on tape and reel to EIS RS-468A for automatic
insertion
Applications
Control of the inrush current in switching power supplies,
flourescent lamp, inverters, motors, etc.
• Low steady resistance and accompanying power loss
• Small size
• Low cost solid state sensor

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CL-10 Summary of contents

Page 1

Sensing Features • Low cost, solid state device for inrush current suppression • Excellent mechanical strength • Wide operating temperature range: -58°F to 347°F (-50°C to 175°C) • Suitable for PCB mounting • Available as a standard with kinked or ...

Page 2

... CL- 0.77 0.22 0.328 (19.55) (5.58) (8.33) CL-90 120 2 0.93 0.22 0.328 (23.62) (5.58) (8.33) CL-101 0.5 16 0.93 0.22 0.328 (23.62) (5.58) (8.33) CL-110 10 3.2 0.40 0.17 0.250 (10.16) (4.31) (6.35) CL-120 10 1.7 0.40 0.17 0.250 (10 ...

Page 3

GE Sensing Inrush CurrentLimiters In Switching Power Supplies The problem of current surges in switch-mode power supplies is caused by the large filter capacitors used to smooth the ripple in the rectified 60 Hz current prior to being chopped at ...

Page 4

GE Sensing Power Thermistor Specification For the Reduction of Inrush Current A power thermistor is a type of NTC thermistor used for the reduction of large inrush currents. These large inrush currents are typically caused by charging of filter capacitors ...

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