Small Diameter Miniature Pencil Heaters
1/8" Small Diameter, Miniature Cartridge/Pencil Heaters
Small Diameter 1/8" OD Miniature Pencil/Cartridge Heaters:
Available 1/8" OD Cartridge Heaters Terminations:
Type N - External Pins with Leads
Standard Termination
24 ga ultralead leads, 482°F (250°C)
10" Leads are standard
Leads externally crimped to nickel pins
Minimum 1/4" cold section at lead end is required
24 ga ultralead leads, 482°F (250°C)
10" Leads are standard
Leads externally crimped to nickel pins
Minimum 1/4" cold section at lead end is required
Type M - Teflon End Plug Seal
Moisture resistant swaged Teflon seal
24 gauge Teflon® insulated leads, 392°F (200°C)
10" Leads are standard
Minimum 1/2" cold section at lead end is required
24 gauge Teflon® insulated leads, 392°F (200°C)
10" Leads are standard
Minimum 1/2" cold section at lead end is required
Type F - Internally Connected Flexible Leads
Provides flexibility
High temperature fiberglass leads 842°F (450°C)
10" leads are standard
Minimum 1/2" cold section at lead end is required
High temperature fiberglass leads 842°F (450°C)
10" leads are standard
Minimum 1/2" cold section at lead end is required
Type R4 - Bent Cartridge
Heater Sheath is bent up to 90°
Bend is through a required cold section
Standard sheath extension past the bend is 1"
10" plain leads are standard
Bend is through a required cold section
Standard sheath extension past the bend is 1"
10" plain leads are standard
Type MFR - Mounting Flange
1" diameter flange, 2 x 9/64" Mounting holes is standard
Other sizes available
10" plain leads are standard
Other sizes available
10" plain leads are standard
Type W - Stainless Steel Braid Mechanically Fastened
Offers sharp bending and abrasion protection
10" braid over 12" Leads are standard
Minimum 1/4" cold section is required
10" braid over 12" Leads are standard
Minimum 1/4" cold section is required
Type C1B - Stainless Steel Cable Mechanically Fastened
Provides maximum protection for abrasive environment
10" cable over 12" leads are standard
Minimum 1/4" cold section is required
10" cable over 12" leads are standard
Minimum 1/4" cold section is required
Small Diameter Miniature Cartridge Heaters
Small Diameter Pencil/Cartridge Heaters-Description
Split-Sheath Design
Uniform Heating
Lengths From ½ Inch to 6 Inches
1/8" and 4mm Diameters
Unique Hot Tip
Uniform Heating
Lengths From ½ Inch to 6 Inches
1/8" and 4mm Diameters
Unique Hot Tip
Patented high-temperature design provides these advantages:
- When energized, the patented split-sheath expands into contact with surrounding bore for maximum heat transfer, fast response.
- When de-energized, the split-sheath contracts for easy, slide-out removal. Sunrods are guaranteed never to sieze in the bore.
- Uninterruped hot zone and fully heated tip provides unmatched heat distribution without cold spots. (See upper photo).
- Slender continuous leads simplify wire management. High flexibility allows free motion when heating "floating" components.
- The result is a miniature cartridge heater offering longer life, uniform temperatures, and easy installation in the smallest devices.
NPH's 1/8" Cartridge Heater with Swaged-In Leads-Simplifies Wiring
Extending Miniature Heater Life:
Designing cartridge heaters with reduced watt-density multiplies service life.
The industry-standard warrantee for electric cartridge heaters is 2000
hours, or one year on single shift. This is a reasonable life expectancy for
many applications. But some applications demand much more. Life expectancies
of five, seven or even ten years are not unreasonable for some
mission-critical applications:
- Blood warmers used in medical theaters must never fail
- Battery conditioners for EVA spacesuits on the International Space Station must last ten years before replacement, due to payload costs
- Here on earth, high throughput semiconductor chip testers must operate without significant downtime for the 5 year life of the equipment. For these applications, a service life of 50,000 to 90,000 hours is a requirement that is both reasonable and attainable.
How can it be done?
For every heater power loading (See "Calculating Watt-Density", at
bottom) there is a maximum operating temperature that will guarantee
2000 hours life. This is the "Critical Temperature" for that power
loading. (See chart below).
Power Chart - System Temperature versus Maximum Watt-Density
| Critical Temperature (F): 200 300 400 500 600 700 800 900 1000 |
| Maximum Watt-Density : 365 345 310 275 245 225 170 150 130 |
Go above the Critical Temperature by 100 degrees and life will be cut to a
third, to 666 hours. But go below it by 100 degrees and heater life will be
tripled, to 6000 hours! We can use this relationship to determine the
watt-density at a given system temperature that will yield thousands of
hours of extra life.
For Example...
How Do You Reduce Watt-Density?
Your heater watt density may not have to be reduced. Many miniature heating applications
inherently require relatively little wattage, due to their small mass. This often results in
a minimal power loading on a 1/8" miniature heater. In these cases, miniature cartridge
heaters are often under-loaded by 200 to 400 degrees, relative to the Critical Temperature.
Their 2000 hour life expectancy* may be multiplied up to 81 times!
Increasing Surface Area to Reduce Watt-Density
1. Maximize your heater length. Increasing the length of a 1" heater to 1 ¼" (just a ¼") can
increase the active area* by 33%, reducing power loading by 25%.
2. Consider using more heaters. Two heaters dividing the load will reduce watt-density by 50%.
3. Take advantage of any available space to install a supplemental heater. Adding a ½" long heater to an existing 1" heater can reduce power loading by 25%.
2. Consider using more heaters. Two heaters dividing the load will reduce watt-density by 50%.
3. Take advantage of any available space to install a supplemental heater. Adding a ½" long heater to an existing 1" heater can reduce power loading by 25%.
Calculating Watt-Density
Watt-density is the power loading of the heater, expressed in watts-per-square-inch of
active heater surface.
The formula for active heater surface is: (Heater Length €“ Cold End Length) x Diameter x Pi. For a 1/8" diameter by 1" long heater it is: (1.00 - 0.25) x .38, or .285 square inches.
The formula for watt-density is: Wattage / Active Heater Surface For 1/8" diameter by 1" heater at 80 watts, this is: 80 watts / .285 in sq or 270 watts/sq inch.
The formula for active heater surface is: (Heater Length €“ Cold End Length) x Diameter x Pi. For a 1/8" diameter by 1" long heater it is: (1.00 - 0.25) x .38, or .285 square inches.
The formula for watt-density is: Wattage / Active Heater Surface For 1/8" diameter by 1" heater at 80 watts, this is: 80 watts / .285 in sq or 270 watts/sq inch.
The key questions which need to be answered before selecting a cartridge heater for your
application are:
- How much wattage is required?
- What voltage will be used?
- What is the heated length? What is the overall length?
- How long are the heater leads or what is the lead length required?
- What is the dimentions of the cartridge heater?
- What is the ambient temperature the cartridge heater will see?
- What is the maximum temperature required from the heater?
- How quickly do you want to reach your operating temperature or set point in hour/minutes?
- What is the type and weight (in lbs.) of the material you want to heat?
- Special Modifications
How To Order Cartridge Heaters
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