TEMPERATURE SENSOR EXPERTS - Quality Thermistor Inc.

temperature
sensor
experts
THERMISTOR PROBES
NTC THERMISTORS
PTC THERMISTORS
INSTRUMENTATION
www.thermistor.com

.
Surface
They have been used for many years to measure
probes
hat is an RTD?
sistance Temperature Detectors (RTDs) are
mperature sensors that contain a resistor that
anges resistance value as its temperature changes.
ey have been used for many years to measure
mperature in laboratory and industrial processes,
d have developed a reputation for accuracy,
peatability, and stability.
custom solutions:
ture Detectors (RTDs) are
s that contain With a resistor QTI Probes that you have the flexiblilty of applying a
value as its temperature changes.
variety of sensor options with the housing of your choice.
d for many years to measure
ratory and industrial processes,
a reputation for accuracy,
ability.
.
What is an RTD?
Resistance Temperature Detectors (RTDs) are
temperature sensors that contain a resistor that
changes resistance value as its temperature changes.
temperature in laboratory and industrial processes,
and have developed a reputation for accuracy,
repeatability, and stability.
100%
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SEALED
THERMISTOR USB HERMETICALLY SEALED SENSOR
Flag ring lug probes
n Available in a variety of sizes with or without insulation
n Standard lug sizes #4 to #12 with additional styles available
n Recommended wire sizes #24-28 AWG
n Material: Tinned Copper or ni plated steel
ring lug probes
n Available in a variety of sizes with or without insulation
n Standard lug sizes #4 to #12 with additional styles available
n Recommended wire sizes #24-28 AWG
n Material: Tinned Copper or ni plated steel
Flat disc probes
n Versatile, multi-purpose surface sensor
n Standard sizes are 0.33” and 0.21”
n Recommended wire sizes #24-28 AWG
n Can be overmolded
n Material: Stainless Steel, Copper, Aluminum
molded ring lug probes
n Ideal for high humidity environments
n Operating Temp range: -40ºC - to 80ºC
n Recommended wire sizes #22 AWG
n Material: Molded Plastic
pipe mount probes
100% n GUARANTEED Ideal for high humidity environments
HERMETICALLY
SEALED
n Operating Temp range: -40ºC - to 80ºC
n Recommended wire sizes #22 AWG
n Material: Molded Plastic
2 www.thermistor.com | PROBES
100%
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HERMETICALLY
SEALED

ip68 rated product
QTI’s Hydroguard IP68 Series of parts combines a highly stable precision thermistor
encapsulated with an extremely durable waterproof housing. The temperature sensor
offers excellent performance during harsh freeze thaw cycles. The over molded probes
are a great solution where waterproof and moisture resistance is critical.
Features
n Precision NTC Thermistor
n Long term stability
n Double insulated thermoplastic rubber
n Ruggedized housing and corrosion resistant cable
n Waterproof rating to IP68
n Based on the most common curves in the industry
applications
n Refrigeration and freezer applications
n Air-conditioning
n Under floor heating
n Climate control systems
n High humidity environments
n Maximizing refrigerator equipment life
temperature range -55ºC to 105ºC (-67ºF to 221ºF) continuous
also avialable up to 150º c (302ºF)
Cable 2’, 5’, 10’, 25’ (custom lengths available)
#24 aWg stranded copper, VDe approved
insulation resistance 100mohm at 1000 Vdc
Color coded wire available
resistanCe Values @ 25ºC 2.25k, 5k, 10k, 20k, 100k, Other values available.
DieleCtriC strength 3750 VaC
aCCuraCy point matched: +/- 1%, 2%, 5% and 10%
interchangeable 0º-70ºc (32-158ºF): +/- 0.2ºc
mOisture resistanCe meets or exceeds ip68
PROBES | www.thermistor.com
Waterproof
Temperature
sensor
3

Liquid
probes
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pipe & sae threaded Fitting with tube
n General purpose, rugged high pressure design
n Recommended wire sizes #22-28 AWG
n Material: Stainless Steel, Brass, Titanium
n Straight thread option with or without O-rings.
closed end tube
n 100%
GUARANTEED Versatile, multi-purpose sensor
HERMETICALLY
SEALED
n Standard sizes are 0.040” to .250” in diameter
n Recommended wire sizes #22-32 AWG
n Material: Stainless Steel, Brass, Titanium, Inconel, Hastelloy
composite probes
n 100% Ideal for reducing thermal time response
GUARANTEED
HERMETICALLY
SEALED
n Materials: Brass or Stainless Steel with high temp plastic
n Available with or without O-rings.
n Wide selection of connectors and strain relief.
n NPT or straight threads
hex nut probes
n 100% Available in a variety of sizes .060” to 0.50”
GUARANTEED
HERMETICALLY
SEALED n General purpose, rugged high pressure design
n Recommended wire sizes #26-28 AWG
n Material: Stainless Steel, Brass, Titanium, Aluminum
n Available with or without O-rings.
n Available in Metric and reverse threads.
inspection probes
n 100% Ideal for spot inspection
GUARANTEED
HERMETICALLY
SEALED
n Recommended wire/cable sizes #22-28 AWG
n Material: Stainless Steel with plastic or metal handle
n Available with straight or T handle
Fast response-stepped housings
n Available in a variety of sizes from .040” to 0.080”
100%
GUARANTEED
HERMETICALLY n SEALEDRecommended
wire sizes #32-38 AWG
n Material: Stainless Steel
n Available with stepped housings
n Food Grade Stainless Steel
100%
100%
GUARANTEED
GUARANTEED
HERMETICALLY
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SEALED
4 SEALED
www.thermistor.com | PROBES

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PROBES | www.thermistor.com
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riVet style probes
n Available in a variety of sizes
n Designed for harsh environments
n Ideal for over molding
n Material: Stainless Steel, Anodized Aluminum
t0220 style probes
n Ideal for heat sink surface temperature
n Standard T0220 package size
n Material: Thermoset Plastic
Flanged, open tip
n Available in a variety of sizes with or without brazed flange
n Flange can be screwed or riveted in place
n Recommended wire sizes #22-28 AWG
n Material: Stainless Steel
polyimide tube
n Versatile, multi-purpose sensor with high dielectric strength
n Standard sizes are 0.040” and 0.136” in diameter
n Recommended wire sizes #22-28 AWG
n Material: Polyimide tube
molded tube probes
n Ideal for high humidity environments
n Operating Temp range: -40ºC - to 80ºC
n Recommended wire sizes #22 AWG
n Material: Molded Plastic
100%
GUARANTEED
HERMETICALLY
SEALED
Air-Gas
probes
5

HOW DO I
USE A
THERMISTOR?
Closed end tube with flange,
ideal for rivet mounting.
WHAT IS
THERMAL
DISSIPATION?
WHAT IS
SELF-HEATING?
what is meant by “interchangeability”
or “curVe tracking”?
A thermistor can be defined as having an interchangeability
tolerance of ±0.1°C over the range from 0° to
70°C. This means that all points between 0° and 70°C,
are within 0.1°C of the nominal resistance values for
that particular thermistor curve. This feature results
in temperature measurements accurate to ±0.1°C no
matter how many different thermistors are substituted
in the application.
what is meant by ‘”point matched”?
A standard thermistor is calibrated and tested at 25°C
to a tolerance of ± 1%, 2%, 5% or 10%. Since these
thermistors only have one controlled point of reference
or ‘point matched’ temperature, the resistance
at other temperatures are given by the "Resistance vs.
Temperature Conversion Tables" for the appropriate
material curve. The resistance value at any temperature
is the ratio factor times the resistance at 25°C.
In addition to the industry standard of point matching
thermistors at 25°C, Quality Thermistor can point match
to a specific temperature range. Examples of this would
be the freezing point of water (0°C) or human body
temperature (37°C).
thermal dissipation
the thermal dissipation of a thermistor is the power
required to raise the thermistor’s body temperature
by 1°C. the dissipation is expressed in units of
mW/°C (milliwatts per degree Celcius).
Dissipation can be affected by:
4 mass of the thermistor probe
4 how the probe and sensor are mounted
4 thermal dynamics of the environment
the dissipation is an important factor in applications
that are based on the self-heating effect of thermis-
selF-heating eFFects
When current flows through a thermistor, it generates
heat, which raises the temperature of the thermistor
above that of its environment. if this effect is not
compensated, it will cause an error in measurement.
typically, the smaller the thermistor, the lower the
amount of current needed to self-heat.
the electrical power input to the thermistor is just
pe = iV
where i is current and V is the voltage drop across
the thermistor. this power is converted to heat, and
this heat energy is transferred to the surrounding
environment. the rate of transfer is well described by
newton’s law of cooling: pt = K(t(r) - t0)
where t(r) is the temperature of the thermistor as a
function of its resistance r, t0 is the temperature of
the surroundings, and K is the dissipation constant,
usually expressed in units of milliwatts per °C. at
equilibrium, the two rates must be equal.
pe = pt
aVailable interchangeable tolerances
-20Cº to +50ºC
a2 = +/- 1ºC
b2 = +/- 0.5ºC
C2 = +/- 0.2ºC
0Cº to 100ºC
a4 = +/- 1°C
b4 = +/- 0.5°C
C4 = +/- 0.2°C
+20Cº to +50ºC
a6 = +/- 1ºC
b6 = +/- 0.5ºC
C6 = +/- 0.2ºC
D6 = +/- 0.1ºC
0Cº to +70ºC
a3 = +/- 1ºC
b3 = +/- 0.5ºC
C3 = +/- 0.2ºC
D3 = +/- 0.1ºC
+20Cº to +90ºC
a5 = +/- 1ºC
b5 = +/- 0.5ºC
C5 = +/- 0.2ºC
tors. specifically, the change in resistance of the
thermistor due to change in dissipation can be used
to monitor levels or flow rates of liquids or gasses.
as an example, as the flow rate increases, the dissipation
of the thermistor in a fluid path will increase
and the resistance will change and can be correlated
to the flow rate.
stated another way, the dissipation is a measure of
the thermal connection of the thermistor to its surroundings.
it is generally given for the thermistor in
still air, but sometimes in well-stirred oil.
the current and voltage across the thermistor will
depend on the particular circuit configuration. as a
simple example, if the voltage across the thermistor
is held fixed, then by Ohm’s law we have i = V / r
and the equilibrium equation can be solved for the
ambient temperature as a function of the measured
resistance of the thermistor:
V
t0 = t(r) -
the dissipation constant is a measure of the thermal
connection of the thermistor to its surroundings. it is
generally given for the thermistor in still air, and in
well-stirred oil. typical values for a small glass bead
thermistor are 1.5 mw/°C in still air and 6.0 mw/°C
in stirred oil. if the temperature of the environment
is known beforehand, then a thermistor may be used
to measure the value of the dissipation constant. For
example, the thermistor may be used as a flow rate
sensor, since the dissipation constant increases with
the rate of flow of a fluid past the thermistor.
2
KR
6 www.thermistor.com | THERMISTORS

Customizable USB Probe
DirecTempº Software
(HID configuration only)
THERMISTORS | www.thermistor.com
Available
Tolerances
precision temperature 0.1º C: 0 ºC to 100 acquisition ºC or +/- 0.5°C (0-70°) system
1.5º C: -55 ºC to 150 ºC
n Accuracy +/- 0.1°C (0-100°C) or +/- 0.5°C (0-70°)
n Custom probe and cable configuration
n NIST Traceable - Certification available
n Data logging and alert notification software included
n Able to run multiple sensors
AVAILABLE
TOLERANCES
RESOLUTION
RoHS COMPLIANT
CURRENT DRAW
+/- 0.5°C (0-70°C)
+/- 0.1°C (0-100°C)
+/- 0.05°C (0-70°C)
0.01 ºC
Yes
< 100mA
available interface options
HID Configuration
(Plug & Play, DirecTempº Software Included)
n Automatic driver installation in MS Windows
n DirecTemp data logging software included for Windows
n Stream data to a plot and record to file for future analysis
n Compatible with Windows 2000 and newer 32 bit systems
Precision USB
thermometer
USB-Serial Configuration
(Virtual Com Port, For OEM & Proprietary Software Applications)
n Virtual serial device
n Designed for integration with custom third party software applications
n Free demo software & LabVIEW VI included
n Communication protocol information available upon request
n Compatible with Linux, Windows, and MacOS systems
n Additional programming language examples available.
*Windows 32 bit versions work with included DirecTempº software
**User specified single point temperatures and tolerances available
warning: do not use in human life support applications.
This device is not designed nor intended to operate in situations where human injury will result in the event of a failure.
7

NTC
thermistor
Elements
WHY QTI
BRAND?
www.thermistor.com
WHY USE A
THERMISTOR?
resolution - Large change in resistance for a small
change in temperature
Another advantage of the thermistor is its relatively high
resistance. Thermistors are available with base resistances
(at 25° C) ranging from tens to millions of ohms.
This high resistance reduces the effect of resistance in
the lead wires, which can cause significant errors with
low resistance devices such as RTD’s. An example of this
is the traditional RTD, which typically requires 3-wire
or 4-wire connections to reduce errors, caused by lead
wire resistance; 2-wire connections to thermistors are
usually adequate.
The QTI brand temperature sensing probes found
in this catalog use NTC thermistor technology. NTC
thermistors are the most reliable, sensitive, and cost
effective technology for temperature measurement
& control.
experts in thermistor manuFacturing:
Quality Thermistor manufactures the ceramic based NTC
thermistor elements used in our temperature probes.
We assure our customers are receiving the most stable,
accurate, and reliable sensors available.
100% Final testing:
All of the temperature probes manufactured by Quality
Thermistor are 100% inspected for accuracy in temperature
controlled baths to ensure proper electrical
and curve-fit tolerances. “Set-point” tolerances can be
specified at any temperature between -55C & +200C.
Calibration data is available as an option on all of the
probes we manufacture.
The thermistor has been used primarily for high-resolution
measurements over limited temperature ranges
(-55° to 150°C). The classic example of this would be a
medical application where the user is only concerned
with body temperature. However, widespread improvements
in thermistor stability, accuracy, and interchangeability
have prompted increased usage of thermistors in
all types of industries.
cost
Thermistors are by far the most economical choice
when it comes to temperature sensors. Not only are
they less expensive to purchase, but also there are no
calibration costs during installation or during the service
life of the sensor. In addition, if there is a failure in the
field, interchangeable thermistors can be swapped out
without calibration.
speed
Due to their small size, thermistors can respond very
quickly to slight changes in temperature. Caution must
be taken when designing probes because materials and
mass play an important role in the reaction time of the
sensor. See section on “Thermal Time Constant” and
“How do I design a probe?” for further details.
attention to detail:
The proprietary manufacturing processes and materials
used in manufacturing our temperature probes ensure
proper sensor placement to optimize thermal time
response. Closed-end Stainless Steel probe housings
feature “rolled” ends which maintain the specified wall
thickness throughout the entire enclosure. This optimizes
thermal time response and minimizes the thermal
load on the sensing element.
design assistance:
qti is as9100 and iso 9001 registered.
While we trust that the information provided within
this design guide will assist you in the selection of the
appropriate materials, there is no substitute for candid
one-to-one dialog. We encourage you to contact the
Quality Thermistor factory or field sales representative
in your area to discuss specific design, sales or customer
support needs. “Live” design assistance is also available
Monday through Friday (8 am - 5 pm MST) at www.
thermistor.com
no calibration required
Properly manufactured thermistors are aged to reduce
drift before leaving the factory. Therefore, thermistors
can provide a stable resistance output over long periods
of time.
8 www.thermistor.com | THERMISTORS

THERMISTORS | www.thermistor.com
epoxy coated ntc thermistors (qtmc, qtlc)
n Available in a variety of wire types and lengths
n Recommended wire sizes #26-30 AWG
n Leads: Kynar, PVC, Teflon, Tin Plated Copper
n Resistance values from 100 ohms to 9.8 M ohms
n Typical dissipation Constant = 2mW/°C in still air
n Typical time constant in still air = 10 seconds
n Temp Range: -55°C to 155°C
n RoHS compliant parts available
glass bead - qtgb
n High Stability
n Ideal for high temperature environments
n Available as interchangeable or point matched
n Hermetic, glass encapsulated bead
n Operating temp range -55°C to 300°C
n Dissipation Constant: .75mW/°C in still air
n #36 AWG Platinum clad, Ni-Fe wires
n Standard 10k and 30K ohms at 150°C
n RoHS compliant parts available
high temperature glass bead - qtgbht
n High Stability
n Ideal for high temperature environments
n Available as interchangeable or point matched
n Hermetic, glass encapsulated bead
n Operating temp range -55°C to 300°C
n Dissipation Constant: .75mW/°C in still air
n #36 AWG Platinum clad, Ni-Fe wires
n Standard 2252, 5000 and 10k ohms at 25°C
n RoHS compliant parts available
miniature thermistors (qtut, qtmb)
n Available in 0.020” and 0.040” diameter
n Operating Temp range: -55°C –to 125°C
n Recommended wire sizes #34-38 AWG
n Leads: Poly Nylon, Bi-Filar
n Material: Epoxy coated or Polyimide tube
n Typical dissipation Constant = 1mW/°C in still air
n Typical time constant in still air = 1 second
n RoHS compliant parts available
NTC
thermistor
Elements
9

NTC SMD
thermistor
Elements
ntc thermistor die (qtc11)
n Part Size: 0.040” x 0.040” x 0.020”
n Resistance values from: 100 ohms to 20 Mohms
n Available with Gold or Silver terminations
n Hybrid attachment (wire bond/epoxy)
n RoHS compliant
n Typical dissipation Constant = .0625W, derate to 0 at 125C
n Typical time constant in still air = 10 seconds
n Tolerances: 1%, 2%, 5%, 10%
qt0805 ntc series thermistors
n Standard EIA 0805 package size
n Resistance values from: 50 ohms to 10 Mohms
n Available with Gold, pure tin or Tin/lead terminations
n Typical dissipation Constant = 2 mW/°C in still air
n Typical time constant in still air = 8 seconds max
n Tolerances: 1%, 2%, 5%, 10%
n Operating range: -65°C to 150°C
n Power rating: 0.125 watts max
n Available waffle packed or tape and reel
n Available in K, X, T, Y, Z,P, S & V curves
how much resistance do i need?
With an NTC thermistor, resistance decreases as the temperature rises. One main factor in determining = a + how b 1n much (R) resistance + c 1n you need at 25°C is to calculate
how much resistance you will have at your critical temperature range. If the total wire resistance is a substantial percentage of the resistance change at your
critical temperature range, you should consider increasing your base resistance at 25°C. Determine if the resistance change at your critical temperature is
large enough to compensate for any other errors in your systems design. If not, you should increase your base resistance at 25°C.
example:
1,000 ohm curve Z thermistor at 25°C Between –29°C and –28° C, there is a resistance change of 990 ohms.
Between 118° and 119° C, there is only a resistance change of 1.1 ohms.
3 (R)
C+B � (1n R) + C � (1n R) 3
1
T
T
1
ºc = – 273.15
what’s a curVe and which curVe do i choose?
A thermistor is an electrical resistor whose resistance varies sharply in a very predictable
manner with temperature. We can use the Stein-Hart Hart equation to predict how the
thermistor reacts to temperature.
If we plot these points on a graph, it forms a repeatable curve. Thermistor manufacturers can alter the chemistry of a thermistor, thereby changing the slope
of a curve. Your curve selection should be based on how steep the curve is for your critical temperature range, size constraints and the target resistance value.
Since a thermistor is based on bulk resistivity, the size of the sensor may not be feasible for your application. Unlike the RTD and thermocouples, thermistors do
not have industry standards for their curves. However, most thermistor manufacturers have curves that are similar. An example of this is Quality Thermistor’s
‘Z’ curve. It’s by far the most common curve in the industry and most major thermistor manufacturers have very similar curve offerings.
Resistance vs. Temperature tables and calculators are available online at www.thermistor.com
10 www.thermistor.com | THERMISTORS

THERMISTORS | www.thermistor.com
NTC Military and Space Level
thermistor Elements
rth44 mil-prF-23648/20
n Resistance values from 300 ohms to 500k ohms
n Operating temp range -55°C to 125°C
n Meets or exceeds MIL-PRF 23648
n Typical dissipation Constant = 2mW/°C in still air
n Tolerance: 1, 2, 5, 10%
n Power rating: 0.2 watts @25°C max
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
rth06 mil-prF-23648/1
n Resistance values from 68 ohms to 75k ohms
n Typical dissipation Constant = 5mW/°C in still air
n Thermal time constant in still air or = 80 seconds max
n Temp Range: -55°C to 125°C
n Meets or exceeds MIL-PRF 23648
n Power rating: 0.5 watts @25°C max
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
m32192/3 ntc thermistor die
n Resistance values from 15 ohms to 20 Mohms
n Typical dissipation Constant = .625mW/°C in still air
n Thermal time constant in still air = 10 seconds max
n Power rating: 0.0625W, derate to 0 at 125
n Available with a variety of termination finishes
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
m32192/4 ntc eia 0805 package
n Typical dissipation Constant = 2mW/°C in still air
n Thermal time constant in still air = 8 seconds max
n Power rating: 0.125 watts @25°C max
n Available with a variety of termination finishes
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
m32192/5 ntc eia 1206 package
n M32192/5 NTC EIA 1206 PACKAGE
n Thermal Time Constant: 8 seconds max in still air
n *Dissipation Constant: 2 mW/°C min in still air
n *Power Rating: 0.25 W at 25°C, derate to 0 W at 125°C
n Resistance @25°C: 470 ohm to 10 Mohm
n Operating temperature range: -55°C to 125°C
n Storage temperature range: -65°C to 150°C
n *Thermal Time Constant and Dissipation Constant may vary
depending on mounting
space leVel nasa gsFc s-311-p-827/01, 02, 03 & 04
n Available in 50k and 100k ohms
n Interchangeable tolerances to +/- 0.5°C (0-70°C)
n Acceptable for use in NASA space programs specifying
quality level (Grade) 1 parts
n Available with Sn/Pb or Gold termination
n Meets Level 1 classification per EEE-INST-002
n Single lot traceability
11

PTC Military
thermistor
Elements
rth22 mil-prF-23648/9
n Positive Temperature Coefficient: 0.7%/°C
n Resistance values from 10 ohms to 10k ohms
n Operating temp range -55°C to 125°C
n Meets or exceeds MIL-PRF 23648
n Tolerance: 5, 10%
n Power rating: 0.5 watts @25°C
n Thermal time constant in still air = 60 seconds max
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
rth42 mil-prF-23648/19
n Positive Temperature Coefficient: 0.7%/°C
n Resistance values from 10 ohms to 10k ohms
n Operating temp range -55°C to 125°C
n Meets or exceeds MIL-PRF 23648
n Tolerance: 5, 10%
n Power rating: 0.250 watts @25°C
n Thermal time constant in still air = 60 seconds max
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
m32192/1 ptc thermistor die
n Positive Temperature Coefficient: 0.7%/°C
n Resistance values from 10 ohms to 10k ohms
n Typical dissipation Constant = 1.25mW/°C in still air
n Thermal time constant in still air = 30 seconds max
n Power rating: 0.125W, derate to 0 at 125
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
m32192/2 ptc eia 0805 package
n Positive Temperature Coefficient: 0.7%/°C
n Typical dissipation Constant = 2.5mW/°C in still air
n Thermal time constant in still air = 30 seconds max
n Power rating: 0.250 watts @25°C max
n Available with a variety of termination finishes
n Complete specifications can be obtained by contacting DSCC
(Defense Supply Center, Columbus)
12 www.thermistor.com | THERMISTORS

The Defense Supply Center Columbus (DSCC)
introduced a new surface mount thermistor specification
in November of 2006. MIL-PRF-32192 now gives
the design Engineer fully qualified DSCC options for
two PTC and three NTC surface mount package styles.
MIL-PRF-32192/1
Bare PTC thermistor die available in resistance values
from 10 ohms to 10,000 ohms. This specification
should be considered in new designs and for
legacy designs which used either MIL-PRF-23648/9
or MIL-PRF-23648/19.
MIL-PRF-32192/2
Basic EIA 0805 PTC surface mount package avaialble
in resistance values from 22 ohms to 5,600 ohms.
This specification should be considered for nw designs
as well as an alternative to MIL-PRF-23648/9
and MIL-PRF-23648/19.
MIL-PRF-32192/3
Bare NTC thermistor die avaialble in resitance values
from 15 ohms to 20 Mohms. This is ideal for new
board designs which contain other bare die, wire
bondable components could easily integrate this
part style. This specification should be considered
for legacy replacements which usd either MIL-
PRF-23648/1 or MIL-PRF-23648/20.
THERMISTORS | www.thermistor.com
space leVel nasa gsFc s-311-p-827/31, 32
n Resistance values from 150 ohms to 2k ohms
n Acceptable for use in NASA space programs specifying
quality level (Grade) 1 parts
n Available with Sn/Pb or Gold termination
n Meets Level 1 classification per EEE-INST-002
n Single lot traceability
space leVel nasa gsFc s-311-p-827/33,34
n Resistance values from 75 ohms to1.5k ohms
n Acceptable for use in NASA space programs specifying
quality level (Grade) 1 parts
n Meets Level 1 classification per EEE-INST-002
n Single lot traceability
MIL-PRF-32192/4
Basic EIA 0805 NTC surface mount package. Any
new high reliablilty application PCB design can
take advantage of this part style. This specification
should be considered for new designs as well as
an alternative to MIL-PRF-23648/1 and MIL-
PRF-23648/20.
MIL-PRF-32192/5
Basic EIA 1206 NTC surface mount package. Any
new high reliability application PCB design can
take advantage of this part style. This specification
should be considered for new designs as well as
an alternative to MIL-PRF-23648/1 and MIL-
PRF-23648/20.
GSFC approved thermistor specification
S-311-P-827 gives the Aerospace engineers a costeffective
option and more.
As the Aerospace market continues to thrive and
grow, the push for smaller, lighter, more accurate and
reliable parts intensifies. While the new DSCC MIL-
PRF-32192 Specification is sufficient for Defense/Military
requirements, the Aerospace community requires
additional screening to qualify parts for flight.
Many customers have chosen to create their own
SCD’s that incorporate all or part of the M32192
specification but also added additional 100% screening
PTC Space Level
thermistor
Elements
DeSIGn enGIneeRS for high-reliablity military and aerospace markets are faced with challenges when given the assignment of redesigning legacy
applications which have a high count of radial and axial leaded passive components, or generating a new design which needs to incorporate a high percentage of
surface mount passive components. Quality Thermistor’s high reliablity surface mount thermistors are manufactured to meet or exceed the MIL-PRF-32192 military
specification, as well as the newly introduced NASA-GSFC S-311-P-827 specifications.
requirements. This escalates customer costs internally
and increases the unit cost due to a lack of standardization.
To meet the demands of our Aerospace customers
and help “standardize” the aerospace test regimen,
Quality Thermistor engineers worked jointly with
engineers at NASA/GSFC to create a GSFC approved
SMD thermistor specification. This new specification,
S-311-P-827, incorporates PTC thermistors (both EIA
0805 and hybrid 0303 die) and NTC thermistors (EIA
0805). All devices procured to this specification will
meet the requirements for Level I classification per
EEE-INST-002.
There are two NTC thermistors currently listed in
the specification. These parts are availble in “interchangeable”
tolerances of either ± 0.5C or ± 1.0C
over the range of 0C to 70C. The PTC thermistors are
all available in 1% or 2% tolerances at the reference
temperature of 25ºC.
For more information, contact the engineering
staff at Quality Thermistor, or see the link below for
the complete specification on the NASA NEPP website:
nepp.nasa.gov.
13

PTC
thermistor
Elements
ptc thermistor die (qtc11)
n Part Size: 0.032” x 0.032” square
n Part thickness: 0.028”, 0.050” or 0.072”
n Resistance values from: 10 ohms to 10k ohms
n Gold terminations
n Board attachment by either wire bonding or conductive epoxy.
n RoHS compliant
n Typical dissipation Constant = 2mW/°C in still air
n Typical time constant in still air = 8 seconds
n Tolerances: 1%, 2%, 5%, 10%
n Operating range: -55°C to 125°C
n Positive Temperature Coefficient: 0.7%/°C
qt0805 ptc series thermistors
n Standard EIA 0805 package size
n Resistance values from: 22 ohms to 36k ohms
n Available with Gold or Silver terminations
n Typical dissipation Constant = 2.5mW/°C in still air
n Typical time constant in still air = 30 seconds max
n Tolerances: 1%, 2%, 5%, 10%
n Operating range: -55°C to 100°C
n Power rating: 0.250 watts @ 25C derated to 100C (table 1)
n Available waffle packed or tape and reel
n Positive Temperature Coefficient: 0.7%/°C
glass axial ptc thermistors (qtg12, qtg10)
n Standard DO35 package size
n Resistance values from: 10 ohms to 10k ohms
n Typical time constant in still air = 55 seconds max
n Tolerances: 1%, 2%, 5%, 10%
n Operating range: -65°C to 125°C
n Power rating: 0.125 watts @ 100C (table 1)
n Available loose or tape and reel
n RoHS compliant available
n Commercial version of RTH42 (MIL-PRF 23648)
n Positive Temperature Coefficient: 0.7%/°C
table 1 pOWer Derating CurVe
14 www.thermistor.com | FREQUENTLY ASKED QUESTIONS
% Rated Power
100
80
60
40
20
0
0 25 50 75 85 100 125 150
Temperature (°C)

HOW DO I DESIGN A PROBE?
another problem with selecting material based
on thermal conductivity alone is that the mass of
the highly conductive probe housing can actually
act like a heat sink and pull additional heat out of
the system. this can obviously create measuring
inaccuracies.
to offset this, you can combine different materials
while designing your probe. a low thermally
conductive housing with a small highly conductive
probe tip is a good solution.
in some cases, your application may require a slow
thermal time response. an example of this would
be an outdoor sign that displays the temperature.
a large over molded probe will insulate the thermistor
and even out quick fluctuations in temperature
changes.
hOW DOes aging aFFeCt thermistOr stability?
“thermometric drift” is a specific type of instability in which the deviation in
measured temperature is the same at all temperatures to which the thermistor
is exposed. For example, a thermistor that exhibits a -0.02°C shift at 0°,
40° and 70°C (even though this is a different percentage change in resistance
in each case) would be exhibiting thermometric drift. thermometric drift:
(1) occurs over time at varying rates, based on thermistor type and exposure
temperature, and (2) as a general rule, increases as the exposure temperature
increases. most drift is thermometric.
What happens iF my appliCatiOn exCeeDs the
temperature rating?
intermittent temperature incursions above and below the operating range will
not affect long-term survivability. encapsulate epoxy typically begins to break
down at 150°C and the solder attaching leads to the thermistor body typically
reflows at about 180°C. either condition could result in failure of the thermistor.
are thermistOrs esD sensitiVe?
per mil-Dtl-39032e, table 1, thermistors by definition are not esD sensitive.
PROBES | www.thermistor.com
COnFineD spaCe
Due to a thermistor’s miniature size, it can be
potted into almost any size housing. Currently,
the smallest available thermistor is 0.020” max
diameter. hollow-tube rivets, set screws, hypodermic
needles and direct epoxy attach are some
common methods for confined space thermistor
applications.
liQuiD
For liquid applications, it’s best to use a threaded
probe. possibly, with some type of elastomeric seal
like an o-ring. Qti also offers a complete line of
npt probe housings. some applications require
over molding the thermistor into the plastic housing
of the product. another option is to use a
glass encapsulated bead. it provides a hermetic
seal that is as close to ‘waterproof’ as mother
nature will allow. remember the titanic?
FREQUENTLY ASKED QUESTIONS
gas/air
gas and air applications have a variety of choices.
probes can be surface mounted in the flow stream
or they can be projected into the air stream by
means of a closed or open-end tube. When measuring
gas or air under pressure, we recommend
using some type of thread/o-ring combination.
surFaCe
by far the most common method for surface measurement
is the ring lug. Due to the small size of
the thermistor element, it can be potted into most
ring lug barrels. be careful that the wire gauge
does not exceed the inside dimension of the barrel.
another option for surface measurement is
direct attachment of a thermistor using a stainless
steel disc.
What is the resOlutiOn OF a thermistOr?
there is no limit to the resolution of a thermistor. the limitations are in the
electronics needed to measure to a specified resolution. limitations also exist
in determining the accuracy of the measurement at a specified resolution.
are Qti thermistOrs rohs COmpliant?
(What if i don’t want a lead free part?)
Quality thermistor maintains two separate manufacturing lines to meet the
specific environmental needs of our customers. One line is dedicated to rohs
compliance and the other is maintained for traditional tin/lead parts for military,
aerospace and medical applications.
DOes the length OF Wire impaCt the aCCuraCy
OF a thermistOr?
With a thermistor, you have the benefit of choosing a higher base resistance
if the wire resistance is a substantial percentage of the total resistance. an
example of this would be a 100-ohm thermistor vs a 50,000 ohm thermistor
with 10’ of 24 aWg wire.
total wire resistance = 10’ x 2 wires x 0.02567 ohms per foot = 0.5134 ohms
15

quality thermistor, inc.
2108 CenTuRy Way
BoISe, ID 83709
www.thermistor.com
800-554-4784 u.s.
208-377-3373 worldwide
208-376-4754 FaX
qTI@TheRMISToR.CoM