Ametherm SL18 16004

Product Features

Inrush current limiting thermistor
Resistance of 16Ω (at 20°C)
Maximum steady state current of 4A
Maximum recommended energy of 75J
Voltage ratings of 120VAC and 240VAC
Body temperature of +180°C at maximum current

Applications

The SL18 16004 inrush current limiting thermistor from Ametherm offers a maximum steady state current of 4A (up to +65°C), resistance of 16Ω ±20% (at 25°C) and a maximum recommended energy rating of 75J. The Ametherm SL series suppresses surge currents that occur when electrical circuits are switched on, preventing serious damage to sensitive electronic components if their rated current values are exceeded. Connected in series with the load, at “switch-on” they limit the current due to its relatively high cold resistance. As a result of current flow, the thermistor self-heats and in turn reducing its resistance value so that once the initial surge current has been safely held off, the resistance in the thermistor is maintained at a low value to maximise efficiency

Inrush current limiting thermistor
Resistance of 16Ω (at 20°C)
Maximum steady state current of 4A (up to +65°C)
Maximum recommended energy of 75J
Voltage ratings of 120VAC and 240VAC
Actual energy failure at 150J
0.27Ω at 100% maximum current and 0.65Ω at 50% maximum current
Body temperature of +180°C at maximum current
Dissipation constant of 25mW/°C
Tolerance ±20%
Thermal time constant of 100s
Material Type H (for Beta and Curve)

Typical applications for the SL series include:

Limit current inrush to PSUs and battery chargers
Lighting circuits and thermostat protection
Electric motor soft start

The below table gives the full specifications of the Ametherm SL18 16004

Ametherm SL18 16004

Add to Compare

Calculators and Convertors

Work out what you need for your project. Go to calculators and convertors

Specifications

Weight	0.00000 kg
Dimensions	26.50 x 6.00 x 19.00mm
Actual Energy Failure	150J
Dissipation Constant	25mW/°C
Material Type	H (for beta and curve)
Maximum Recommended Energy	75J
Maximum Steady State Current	4A
Package / Size	Through-hole
Resistance at +25°C	16Ω
Series / Model	SL, SL18
Thermal Time Constant	100s
Tolerance	±20%
Voltage Rating	120VAC, 240VAC

RoHS Compliant Product with Exemption – Ametherm

This product meets the requirements in compliance with RoHS Directive 2011/65/EU including Directive (EU) 2015/863 amending Annex II, on the restriction of the use of Certain Hazardous Substances in Electrical and Electronic Equipment.

The above product is, however, is not Pb free, using exemption 7(a) “Lead in high melting temperature type solders (i.e. lead-based alloys containing 85% by weight or more lead)“

Ametherm SL18 16004 Technical Library

We are pleased to provide you with a range of additional content including videos, product datasheets, case studies, white papers and application notes for your reference. Please see below for the latest content available:

DOCUMENTATION
	Ametherm SL18 16004 inrush current limiting thermistor datasheet

Ametherm AS, MS and SL Videos

We are pleased to provide you with a range of videos, please see below for the latest content available:

VIDEOS
	Limiting Inrush Current with NTC and PTC Themistors video Learn how to limit inrush current using NTC and PTC thermistors in this presentation by Ametherm. Many applications today, including industrial machinery, power tools and other high current equipment, use limiting inrush current as a major design consideration to combat the problematic effects of inrush current. Inrush current occurs when a system powers on and experiences a spike in current. This current can be substantially higher than standard operating current. If not properly managed, it can reduce the effective operating life and impose damage to equipment. For example, inrush current could disable a cooling fan, eventually leading to total system failure. Applications that are switched on and off quickly, such as welding equipment, present a particular concern for limiting inrush current. The limiting inrush current circuit must reset instantaneously during each power on to protect the system. This further complicates the management of inrush current.
	Limiting Inrush Current for a 40VA Transformer Inrush current often causes problems for transformers. This video will show you how to calculate the right inrush current limiter for your transformer in 7 simple steps.
	DC Motor Inrush Current and What You Need to Know What does inrush current have to do with DC motors? This video answers that question by discussing the cause of DC motor inrush current and how to prevent the inrush of current at startup from possibly damaging the DC motor with the use of Ametherm's Inrush Current Limiters. They start by explaining how a DC motor functions, its applications and key components, how inrush current factors in, how to solve the problem of inrush current, and how to select the right inrush current limiter for your application with three easy steps.

VIDEOS

Limiting Inrush Current with NTC and PTC Themistors video

Learn how to limit inrush current using NTC and PTC thermistors in this presentation by Ametherm.

Many applications today, including industrial machinery, power tools and other high current equipment, use limiting inrush current as a major design consideration to combat the problematic effects of inrush current.

Inrush current occurs when a system powers on and experiences a spike in current. This current can be substantially higher than standard operating current. If not properly managed, it can reduce the effective operating life and impose damage to equipment. For example, inrush current could disable a cooling fan, eventually leading to total system failure.

Applications that are switched on and off quickly, such as welding equipment, present a particular concern for limiting inrush current. The limiting inrush current circuit must reset instantaneously during each power on to protect the system. This further complicates the management of inrush current.

Limiting Inrush Current for a 40VA Transformer

Inrush current often causes problems for transformers. This video will show you how to calculate the right inrush current limiter for your transformer in 7 simple steps.

DC Motor Inrush Current and What You Need to Know

What does inrush current have to do with DC motors? This video answers that question by discussing the cause of DC motor inrush current and how to prevent the inrush of current at startup from possibly damaging the DC motor with the use of Ametherm's Inrush Current Limiters. They start by explaining how a DC motor functions, its applications and key components, how inrush current factors in, how to solve the problem of inrush current, and how to select the right inrush current limiter for your application with three easy steps.

VIDEOS

Limiting Inrush Current with NTC and PTC Themistors video Learn how to limit inrush current using NTC and PTC thermistors in this presentation by Ametherm. Many applications today, including industrial machinery, power tools and other high current equipment, use limiting inrush current as a major design consideration to combat the problematic effects of inrush current. Inrush current occurs when a system powers on and experiences a spike in current. This current can be substantially higher than standard operating current. If not properly managed, it can reduce the effective operating life and impose damage to equipment. For example, inrush current could disable a cooling fan, eventually leading to total system failure. Applications that are switched on and off quickly, such as welding equipment, present a particular concern for limiting inrush current. The limiting inrush current circuit must reset instantaneously during each power on to protect the system. This further complicates the management of inrush current.

Limiting Inrush Current for a 40VA Transformer Inrush current often causes problems for transformers. This video will show you how to calculate the right inrush current limiter for your transformer in 7 simple steps.

DC Motor Inrush Current and What You Need to Know What does inrush current have to do with DC motors? This video answers that question by discussing the cause of DC motor inrush current and how to prevent the inrush of current at startup from possibly damaging the DC motor with the use of Ametherm's Inrush Current Limiters. They start by explaining how a DC motor functions, its applications and key components, how inrush current factors in, how to solve the problem of inrush current, and how to select the right inrush current limiter for your application with three easy steps.

Custom resistance value (Ω) *
Custom AT Range (AT) *
Custom Capacity (lbs) *
Custom Pressure (Bar/PSI) *
Custom Resistance Value Element 1 (Ω) *
Custom Resistance Value Element 2 (Ω) *
Custom lead length (mm) *
Custom lead length (inches) *

Custom resistance value (Ω) *
Custom AT Range (AT) *
Custom Capacity (lbs) *
Custom Pressure (Bar/PSI) *
Custom Resistance Value Element 1 (Ω) *
Custom Resistance Value Element 2 (Ω) *
Custom lead length (mm) *
Custom lead length (inches) *

Get in touch

Ametherm SL18 16004

Product Features

Applications

Ametherm SL18 16004

Calculators and Convertors

Specifications

RoHS Compliant Product with Exemption – Ametherm

Ametherm SL18 16004 Technical Library

Ametherm AS, MS and SL Videos

Related Products

Contact Us

Help & Services

Privacy & Legal

Follow Us