1
Product Range Guide
SENSING AND CONTROL
Thermal Sensors
2 www.honeywell.com/sensing
For innovation that’s
well apart, there’s only
Honeywell Sensing and
Control.
With more than 50,000 products ranging from snap-action,
limit, toggle, and pressure switches to position, speed,
pressure, and airflow sensors, Honeywell Sensing and Control
(S&C) has one of the broadest sensing and switching portfolios
available.
Honeywell sensor, switch, and control components are
tailored to exact specifications for stronger performance,
longer productivity, and increased safety. Enhanced accuracy
and durability are built into every part, improving output and
endurance. For our customers, this can reduce expenditures
and operational costs. Our global footprint and channels
help to competitively price such components for your chosen
application and provide immediate technical support.
Our expertise in aerospace and defense, transportation,
medical, and industrial industries means we offer products and
solutions for a wide range of applications. But, an impressive
product line is only one part. We possess unique engineering
expertise and value-added capabilities.
While Honeywell’s switch and sensor solutions are suitable for
a wide array of basic and complex applications, our custom-
engineered solutions offer enhanced precision, repeatability,
and ruggedness. We offer domain knowledge and technology
resources, along with a close working relationship, to develop and
deliver cost-effective, individually tailored solutions. Whether clean-
slate development or simple modifications to an existing design are
needed, our expertly engineered solutions help to meet the most
stringent requirements with worldclass product designs, technology
integration, and customer-specific manufacturing.
With a 75-year legacy in the switch and sensor business, Honeywell
S&C has earned a reputation for reliability and excellence. Our
strong product designs, Six Sigma Plus manufacturing environment,
and robust testing facilities help provide quality out of the box, as
well as enhanced, sustainable performance down the line.
Global service, sourcing, and manufacturing. Industry-leading
engineers. Value-added assemblies and solutions. Construction
to required specifications. A one-stop, full-service, globally
competitive supplier... Honeywell Sensing and Control.
Table of Contents
Discrete RTD Sensors ..................................... 3
Discrete and Packaged RTD Sensors .........................4
Packaged Temperature Probes .............................. 5
Discrete Thermistors .....................................6-7
Precision Thermostats ....................................8-9
Commercial Thermostats ................................10-11
Flexible Heaters .......................................12-13
Humidity Sensors .....................................14-15
Honeywell S&C Core Industry Segments ...................16-17
Honeywell S&C Product Portfolio .........................18-19
3
Temperature Sensors
Discrete RTD Sensors
Series HEL-705/707/711/712/716/717 HEL-775
Sensor type 100 Ohm, 1000 Ohm platinum RTD 100 Ohm, 1000 Ohm platinum RTD
Temperature
coefficient
0.00385 Ohm/Ohm/°C;
0.00375 Ohm/Ohm/°C
0.00385 Ohm/Ohm/°C;
0.00375 Ohm/Ohm/°C
Temperature
sensing range
TFE teflon: -70 °C to 260 °C [-94 °F to 500 °F]
fiberglass: -75 °C to 500 °C [-100 °F to 932 °F] -55 °C to 150 °C [-67 °F to 302 °F]
Packaging type alumina tube ceramic case
Termination 28 ga. or 24 ga. lead wire SIP
Base resistance &
interchangeability
100 Ohm: ±0.1 % @ 0 °C;
100 Ohm: ±0.2 % @ 0 °C;
1000 Ohm: ±0.1 % @ 0 °C;
1000 Ohm: ±0.2 % @ 0 °C
100 Ohm: ±0.1 % @ 0 °C;
100 Ohm: ±0.2 % @ 0 °C;
1000 Ohm: ±0.1 % @ 0 °C;
1000 Ohm: ±0.2 % @ 0 °C
Self-heating < 15 mW/°C for 0.85 O.D. typ. < 6.8 mW/°C typ.; 9.7 mW/°C typ.
Termination
material
24 ga. nickel-coated, stranded copper;
28 ga. nickel-coated, stranded copper phosphor bronze with tin silver plating
Features teflon or fiberglass lead wires; wide temperature
range; ceramic case material; multiple sizes
enhanced stability; thin film platinum; ceramic SIP;
solderable leads
Silicon-based thin film RTDs laser trimmed for accuracy and interchangeability. Offer
stable, fast linear outputs. Accurate and interchangeable without recalibration. Potential
applications include HVAC, electronic assemblies, and process control.
Series HEL-777/776 700
Sensor type 100 Ohm, 1000 Ohm platinum RTD 100 Ohm, 1000 Ohm platinum RTD
Temperature
coefficient
0.00385 Ohm/Ohm/°C;
0.00375 Ohm/Ohm/°C
0.00385 Ohm/Ohm/°C;
0.00375 Ohm/Ohm/°C
Temperature
sensing range -55 °C to 150 °C [-67 °F to 302 °F] -70 °C to 500 °C [-94 °F to 932 °F]
leaded: -50 °C to 130 °C [-58 °F to 266 °F]
Packaging type molded plastic radial chip or surface mount axial flip chip
Termination SIP lead wires or solderpads
Base resistance &
interchangeability
100 Ohm: ±0.1 % @ 0 °C;
100 Ohm: ±0.2 % @ 0 °C;
1000 Ohm: ±0.1 % @ 0 °C;
1000 Ohm: ±0.2 % @ 0 °C
100 Ohm: Class A; 100 Ohm: Class B
1000 Ohm: Class A; 1000 Ohm: Class B
1000 Ohm: Class 2B
Self-heating < 15 mW/°C typ. 0,4 K/mW, 0,6 K/mW, or 0,8 K/mW at 0 °C [32 °F]
Termination
material copper alloy 194 solder dipped with Sn/Ag Pt-Clad Ni wire and end termination galvanic tin-
plated with Ni barrier layer
Features enhanced stability; thin film platinum; molded
plastic SIP package; solderable leads
interchangeability; SMD and chip package ver-
sions; enhanced stability and time response
4 www.honeywell.com/sensing
Temperature Sensors
Discrete and Packaged RTD Sensors
Series HRTS TD
Sensor type 100 Ohm, 1000 Ohm platinum RTD 2000 Ohm silicon resistive element
Temperature coefficient 0.00385 Ohm/Ohm/°C;
0.00375 Ohm/Ohm/°C –
Temperature
sensing range -70 °C to 260 °C [-94 °F to 500 °F] -40 °C to 150 °C [-40 °F to 302 °F]
Packaging type ceramic case plastic or threaded aluminum case
Termination lead wires SIP or lead wires
Base resistance &
interchangeability
100 Ohm: ±0.1 % @ 0 °C;
100 Ohm: ±0.2 % @ 0 °C;
1000 Ohm: ±0.1 % @ 0 °C;
1000 Ohm: ±0.2 % @ 0 °C
R2000 Ohm ±5 Ohm at 20 °C
Self-heating < 0.3 mW/°C typ. –
Termination material 28 ga. nickel-coated, stranded copper,
teflon insulated
TD4A: solderable leads available
TD5A: insulated
Features resistance interchangeable; accurate; fast;
laser-trimmed; wide temperature range
interchangeable without recalibration; thin
film; laser trimmed; air or liquid temperature
sensing
Silicon-based thin film RTDs laser trimmed for accuracy and interchangeability. Offer
stable, fast linear outputs. Accurate and interchangeable. Potential applications include
HVAC, electronics assemblies, semiconductors, and process control.
5
Series R300 500
Temp. sensing type immersion air/gas, immersion, surface, and liquid level
Thermistor type RTD NTC
Nominal resistance
at 25 °C [77 °F] 100 Ohm 200 Ohm to 1,000,000 Ohm (inclusive)
Operating
temperature range
-40 °C to 275 °C [-40 °F to 572 °F]
continuous, excursion to 300 °C [572 °F] for
10 minutes max.
-40 °C to 300 °C [-40 °F to 572 °F] (inclusive)
Housing material stainless steel
plastic, aluminum, stainless steel, epoxy filled,
tin- or nickel-plated copper, ceramic or kynar-filled
tubing
Electrical and
mechanical
interface
overmolded connector with M14 x 1.50 thread wide variety of connectors, lead types,
materials, and insulation
Features enhanced response, reliability, and accuracy;
stainless steel construction
wide selection of housing, resistance, and termina-
tion options
Compact, lightweight. Operate with enhanced sensitivity, reliability, and stability under
diverse conditions of shock, vibration, humidity, and corrosion. Variety of custom packages
available for air, liquid, and solid temperature sensing applications.
Temperature Sensors
Packaged Temperature Probes
Series ES110 ES120 6655
Temp. sensing type air/gas immersion air/surface
Thermistor type NTC NTC or KTY NTC
Nominal resistance
at 25 °C [77 °F] 2000 Ohm 2000 Ohm 10,000 Ohm, 12,000 Ohm
Operating
temperature range
-40 °C to 150 °C
[-40 °F to 302 °F]
-40 °C to 150 °C
[-40 °F to 302 °F]
-20 °C to 110 °C
[-4 °F to 230 °F]
Housing material brass brass phenolic
Electrical and
mechanical
interface
overmolded connector with
M10 x 1.25 or M12 x 1.50
thread
overmolded connector with
M10 x 1.25, M10 x 1.0, M12
x 1.5, M14 x 1.50 thread, or
1/8 PTF
quick connect terminal:
(90°, 0.25 in), (0°, 0.25 in),
(45°, 0.25 in), (90°, 0.1875 in)
Features exposed thermistor; rugged
design; brass encapsulation
enclosed thermistor; rugged
design; brass encapsulation
low, compact profile; tight inter-
changeability; enhanced accuracy
and response time
6 www.honeywell.com/sensing
Series 111 112 115 120 121 126 128 129 135
Description small, hermetically sealed
glass bead
large, hermetically sealed
glass bead
E-I tested and matched beads on
header assembly mini glass probe standard glass probe matched large glass bead matched mini glass probe matched large glass probe glass encapsulated chip, DO-35 type
Operating
temperature range
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
Dissipation constant
in still air 0.1 mW/°C 0.4 mW/°C varies with assembly type 0.7 mW/°C, 1.0 mW/°C 1.0 mW/°C 0.8 mW/°C 2.1 mW/°C 3.0 mW/°C 2.5 mW/°C
Time constant in air 0.5 s 4.0 s 0.5 s 10.0 s 22.0 s 4.0 s 10.0 s 22.0 s 4.0 s
Nominal resistance
at 25 °C [77 °F]
1,000 Ohm, 2,000 Ohm,
8,000 Ohm, 10,000 Ohm,
100,000 Ohm
200 Ohm, 500 Ohm, 1,000 Ohm,
2,000 Ohm, 5,000 Ohm,
10,000 Ohm, 50,000 Ohm,
100,000 Ohm, 500,000 Ohm,
2,000,000 Ohm
2,000 Ohm, 8,000 Ohm 1,000 Ohm, 2,000 Ohm,
10,000 Ohm
2,000 Ohm, 5,000 Ohm,
10,000 Ohm, 50,000 Ohm,
100,000 Ohm,
1,000,000 Ohm
2,000 Ohm, 100,000 Ohm 2,000 Ohm, 15,000 Ohm 2,000 Ohm, 4,000 Ohm
1,000 Ohm, 2,000 Ohm, 5,000 Ohm,
10,000 Ohm, 20,000 Ohm, 25,000 Ohm,
30,000 Ohm, 47,000 Ohm, 50,000 Ohm,
100,000 Ohm, 200,000 Ohm,
230,000 Ohm, 500,000 Ohm,
1,000,000 Ohm, 5,000,000 Ohm
Maximum diameter 0,36 mm [0.014 in] 1,14 mm [0.045 in] 0,36 mm [0.014 in] 1,5 mm [0.060 in] 2,54 mm [0.10 in] 2,54 mm [0.10 in] 3,05 mm [0.120 in] 5,08 mm [0.20 in] 2,0 mm [0.080 in]
Termination material platinum iridium platinum iridium glass to metal header dumet dumet platinum iridium dumet dumet tinned copper-clad steel
Lead length 9,6 mm [0.375 in] 9,6 mm [0.375 in] 31,75 mm [1.25 in] 31,8 mm [1.25 in] 50,8 mm [2.00 in] 9,6 mm [0.375 in] 31,8 mm [1.25 in] 50,8 mm [2.00 in] 28,6 mm [1.125 in]
Features
enhanced response time and
long-term stability; hermetically
sealed in glass; micro size; welded
platinum iridium leads
enhanced response time; hermeti-
cally sealed in glass; small size;
meets MIL-T-23648; enhanced
long-term stability
E-I matched in air or helium; in-
terchangeable pairs; extended life;
compression-type glass hermetic
seal; high pressure solder seal
hermetically sealed in glass;
enhanced reliability and
stability; weldable/solder-
able dumet leads
hermetically sealed in glass;
enhanced reliability and
stability; weldable/solder-
able dumet leads
hermetically sealed in
glass; interchangeability;
enhanced sensitivity and
reliability; small size
hermetically sealed in
glass; interchangeability;
enhanced sensitivity and
reliability; miniature size
interchangeability;
enhanced sensitivity,
reliability, and stability;
miniature size
enhanced temperature capability;
uniform dimensions; tape and reel
Change resistance with change in temperature. Available in wide range of resistance values.
Variety of packages and sizes from leaded devices to surface mount versions. Potential
applications include military, aerospace, appliances, medical, and instrumentation
test equipment.
Temperature Sensors
Discrete Thermistors
Series 140/142 143 173 175 192 194 197 ICL
Description disc disc EIA 0805 surface mount,
end-banded
EIA 1206 surface mount, end-
banded
uni-curve with bare leads and
epoxy uni-curve with insulated leads and epoxy chip with bare leads and epoxy in-rush current limiter
Operating
temperature range
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 125 °C
[-76 °F to 257 °F]
-60 °C to 125 °C
[-76 °F to 257 °F]
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 125 °C
[-76 °F to 257 °F]
-40 °C to 185 °C
[-40 °F to 365 °F]
Dissipation constant
in still air 3.0 mW/°C, 4.0 mW/°C 5 mW/°C to 7 mW/°C 3.5 mW/°C 3.5 mW/°C 0.75 mW/°C 0.75 mW/°C 0.75 mW/°C 12.7 mW/°C to 23 mW/°C
Time constant in air 10.0 s 16.0 s to 20.0 s 10.0 s 10.0 s 15.0 s 15.0 s 15.0 s 32 s to 93 s
Nominal resistance at
25 °C [77 °F]
500 Ohm, 1,000 Ohm,
3,000 Ohm, 5,000 Ohm,
8,000 Ohm, 10,000 Ohm,
25,000 Ohm, 100,000 Ohm
100 Ohm, 200 Ohm, 1,000 Ohm,
3,000 Ohm, 5,000 Ohm,
30,000 Ohm
500 Ohm, 5,000 Ohm,
10,000 Ohm, 22,000 Ohm,
33,000 Ohm, 47,000 Ohm,
50,000 Ohm, 100,000 Ohm
5,000 Ohm, 10,000 Ohm,
50,000 Ohm, 100,000 Ohm,
440,000 Ohm
500 Ohm, 1,000 Ohm,
2,252 Ohm, 3,000 Ohm, 5,000
Ohm, 10,000 Ohm, 30,000 Ohm,
50,000 Ohm, 100,000 Ohm
2,252 Ohm, 3,000 Ohm,
5,000 Ohm, 10,000 Ohm,
30,000 Ohm, 100,000 Ohm,
50,000 Ohm
300 Ohm, 1,000 Ohm,
3,000 Ohm, 5,000 Ohm,
10,000 Ohm, 50,000 Ohm,
100,000 Ohm
0.5 Ohm to 220 Ohm ±20 %
Maximum diameter 3,81 mm [0.15 in] 6,35 mm [0.25 in] EIA 0805 SMD EIA 1206 SMD 2,413 mm [0.095 in] 2,413 mm [0.095 in] 2,413 mm [0.095 in] 9.5 mm [0.374 in] to
32 mm [1.26 in]
Termination material tinned copper tinned copper solder plated NI barrier solder plated NI barrier tinned copper, alloy 180 solid nickel, Teflon® insulated tinned copper, alloy 180 tinned copper
Lead length 38,1 mm [1.50 in] 38,1 mm [1.50 in] – – 38,1 mm [1.50 in] 38,1 mm [1.50 in] 38,1 mm [1.50 in] [25,4 mm] 1 in min.
Features pc-board mountable; rugged
design; versatile; solderable leads
rugged design; pc-board mount-
able; solderable leads
surface mount; tape and reel;
glass-coated ceramic; 0805 EIA
package
surface mount; tape and reel;
glass-coated ceramic; 1206 EIA
package
resistance temperature curve inter-
changeability; enhanced stability
and life; epoxy coated
resistance temperature curve inter-
changeability; enhanced stability and
life; epoxy coated; teflon-coated leads
rapid response times; epoxy coated
enhanced reliability; special high-
temp protective coating; rugged
design; pc-board mountable
7
Series 111 112 115 120 121 126 128 129 135
Description small, hermetically sealed
glass bead
large, hermetically sealed
glass bead
E-I tested and matched beads on
header assembly mini glass probe standard glass probe matched large glass bead matched mini glass probe matched large glass probe glass encapsulated chip, DO-35 type
Operating
temperature range
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
-60 °C to 300 °C
[-76 °F to 572 °F]
Dissipation constant
in still air 0.1 mW/°C 0.4 mW/°C varies with assembly type 0.7 mW/°C, 1.0 mW/°C 1.0 mW/°C 0.8 mW/°C 2.1 mW/°C 3.0 mW/°C 2.5 mW/°C
Time constant in air 0.5 s 4.0 s 0.5 s 10.0 s 22.0 s 4.0 s 10.0 s 22.0 s 4.0 s
Nominal resistance
at 25 °C [77 °F]
1,000 Ohm, 2,000 Ohm,
8,000 Ohm, 10,000 Ohm,
100,000 Ohm
200 Ohm, 500 Ohm, 1,000 Ohm,
2,000 Ohm, 5,000 Ohm,
10,000 Ohm, 50,000 Ohm,
100,000 Ohm, 500,000 Ohm,
2,000,000 Ohm
2,000 Ohm, 8,000 Ohm 1,000 Ohm, 2,000 Ohm,
10,000 Ohm
2,000 Ohm, 5,000 Ohm,
10,000 Ohm, 50,000 Ohm,
100,000 Ohm,
1,000,000 Ohm
2,000 Ohm, 100,000 Ohm 2,000 Ohm, 15,000 Ohm 2,000 Ohm, 4,000 Ohm
1,000 Ohm, 2,000 Ohm, 5,000 Ohm,
10,000 Ohm, 20,000 Ohm, 25,000 Ohm,
30,000 Ohm, 47,000 Ohm, 50,000 Ohm,
100,000 Ohm, 200,000 Ohm,
230,000 Ohm, 500,000 Ohm,
1,000,000 Ohm, 5,000,000 Ohm
Maximum diameter 0,36 mm [0.014 in] 1,14 mm [0.045 in] 0,36 mm [0.014 in] 1,5 mm [0.060 in] 2,54 mm [0.10 in] 2,54 mm [0.10 in] 3,05 mm [0.120 in] 5,08 mm [0.20 in] 2,0 mm [0.080 in]
Termination material platinum iridium platinum iridium glass to metal header dumet dumet platinum iridium dumet dumet tinned copper-clad steel
Lead length 9,6 mm [0.375 in] 9,6 mm [0.375 in] 31,75 mm [1.25 in] 31,8 mm [1.25 in] 50,8 mm [2.00 in] 9,6 mm [0.375 in] 31,8 mm [1.25 in] 50,8 mm [2.00 in] 28,6 mm [1.125 in]
Features
enhanced response time and
long-term stability; hermetically
sealed in glass; micro size; welded
platinum iridium leads
enhanced response time; hermeti-
cally sealed in glass; small size;
meets MIL-T-23648; enhanced
long-term stability
E-I matched in air or helium; in-
terchangeable pairs; extended life;
compression-type glass hermetic
seal; high pressure solder seal
hermetically sealed in glass;
enhanced reliability and
stability; weldable/solder-
able dumet leads
hermetically sealed in glass;
enhanced reliability and
stability; weldable/solder-
able dumet leads
hermetically sealed in
glass; interchangeability;
enhanced sensitivity and
reliability; small size
hermetically sealed in
glass; interchangeability;
enhanced sensitivity and
reliability; miniature size
interchangeability;
enhanced sensitivity,
reliability, and stability;
miniature size
enhanced temperature capability;
uniform dimensions; tape and reel
Series 140/142 143 173 175 192 194 197 ICL
Description disc disc EIA 0805 surface mount,
end-banded
EIA 1206 surface mount, end-
banded
uni-curve with bare leads and
epoxy uni-curve with insulated leads and epoxy chip with bare leads and epoxy in-rush current limiter
Operating
temperature range
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 125 °C
[-76 °F to 257 °F]
-60 °C to 125 °C
[-76 °F to 257 °F]
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 150 °C
[-76 °F to 302 °F]
-60 °C to 125 °C
[-76 °F to 257 °F]
-40 °C to 185 °C
[-40 °F to 365 °F]
Dissipation constant
in still air 3.0 mW/°C, 4.0 mW/°C 5 mW/°C to 7 mW/°C 3.5 mW/°C 3.5 mW/°C 0.75 mW/°C 0.75 mW/°C 0.75 mW/°C 12.7 mW/°C to 23 mW/°C
Time constant in air 10.0 s 16.0 s to 20.0 s 10.0 s 10.0 s 15.0 s 15.0 s 15.0 s 32 s to 93 s
Nominal resistance at
25 °C [77 °F]
500 Ohm, 1,000 Ohm,
3,000 Ohm, 5,000 Ohm,
8,000 Ohm, 10,000 Ohm,
25,000 Ohm, 100,000 Ohm
100 Ohm, 200 Ohm, 1,000 Ohm,
3,000 Ohm, 5,000 Ohm,
30,000 Ohm
500 Ohm, 5,000 Ohm,
10,000 Ohm, 22,000 Ohm,
33,000 Ohm, 47,000 Ohm,
50,000 Ohm, 100,000 Ohm
5,000 Ohm, 10,000 Ohm,
50,000 Ohm, 100,000 Ohm,
440,000 Ohm
500 Ohm, 1,000 Ohm,
2,252 Ohm, 3,000 Ohm, 5,000
Ohm, 10,000 Ohm, 30,000 Ohm,
50,000 Ohm, 100,000 Ohm
2,252 Ohm, 3,000 Ohm,
5,000 Ohm, 10,000 Ohm,
30,000 Ohm, 100,000 Ohm,
50,000 Ohm
300 Ohm, 1,000 Ohm,
3,000 Ohm, 5,000 Ohm,
10,000 Ohm, 50,000 Ohm,
100,000 Ohm
0.5 Ohm to 220 Ohm ±20 %
Maximum diameter 3,81 mm [0.15 in] 6,35 mm [0.25 in] EIA 0805 SMD EIA 1206 SMD 2,413 mm [0.095 in] 2,413 mm [0.095 in] 2,413 mm [0.095 in] 9.5 mm [0.374 in] to
32 mm [1.26 in]
Termination material tinned copper tinned copper solder plated NI barrier solder plated NI barrier tinned copper, alloy 180 solid nickel, Teflon® insulated tinned copper, alloy 180 tinned copper
Lead length 38,1 mm [1.50 in] 38,1 mm [1.50 in] – – 38,1 mm [1.50 in] 38,1 mm [1.50 in] 38,1 mm [1.50 in] [25,4 mm] 1 in min.
Features pc-board mountable; rugged
design; versatile; solderable leads
rugged design; pc-board mount-
able; solderable leads
surface mount; tape and reel;
glass-coated ceramic; 0805 EIA
package
surface mount; tape and reel;
glass-coated ceramic; 1206 EIA
package
resistance temperature curve inter-
changeability; enhanced stability
and life; epoxy coated
resistance temperature curve inter-
changeability; enhanced stability and
life; epoxy coated; teflon-coated leads
rapid response times; epoxy coated
enhanced reliability; special high-
temp protective coating; rugged
design; pc-board mountable
8 www.honeywell.com/sensing
Series 3000 Custom
Packaged
3100 Hermetic 3100U UL-
approved Hermetic
3106 Low-level
Hermetic
3150 Low
Silhouette Hermetic
3153 Low
Silhouette Hermetic
3156 Low-level
Silhouette Hermetic
3200 Aerospace
Description custom packaged hermetic UL-approved hermetic low-level hermetic low silhouette hermetic low silhouette hermetic low level, silhouette hermetic aerospace
Amperage dependent on the internal device 2.0 A/1.0 A/5.0 A 3.0 A resistive max. 100 mA/500 mA 2.0 A/1.0 A 2.0 A resistive 100 mA/500 mA 5.0 A resistive
Housing material stainless steel or brass
steel housing hermetically sealed
with glass-to-metal seal at
terminal junction
steel housing hermetically sealed
with glass-to-metal seal at
terminal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
Operating
temperature range
-29 °C to 260 °C
[-20 °F to 500 °F]
-29 °C to 260 °C
[-20 °F to 500 °F]
-29 °C to 260 °C
[-20 °F to 500 °F]
-29 °C to 204 °C
[-20 °F to 400 °F]
-29 °C to 177 °C
[-20 °F to 350 °F]
-29 °C to 177 °C
[-20 °F to 350 °F]
-29 °C to 204 °C
[-20 °F to 400 °F]
-51 °C to 163 °C
[-60 °F to 325 °F]
Environmental
exposure range
-62 °C to 288 °C
[-80 °F to 550 °F]
-62 °C to 288 °C
[-80 °F to 550 °F]
-62 °C to 288 °C
[-80 °F to 550 °F]
-62 °C to 260 °C
[-80 °F to 500 °F]
-54 °C to 260 °C
[-65 °F to 500 °F]
-65 °C to 260 °C
[-85 °F to 500 °F]
-62 °C to 260 °C
[-80 °F to 500 °F]
-65 °C to 177 °C
[-85 °F to 350 °F]
Dielectric strength MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
750 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac
Insulation resistance MIL-STD-202, Method 302;
50 MOhm min. terminal to case
MIL-STD-202, Method 302;
Cond. B - 50 MOhm -
500 Vdc applied
MIL-STD-202, Method 302;
Cond. B - 50 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
Cond. B - 50 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
Cond. B - 50 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
500 MOhm
MIL-STD-202, Method 302;
Cond. B - 500 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
500 MOhm
Contact resistance MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.050 Ohm max.
MIL-STD-202, Method 307;
0.025 Ohm
MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.050 Ohm max.
MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.025 Ohm max.
Hermetic seal MIL-STD-202, Method 112;
Cond. A, 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. C
MIL-STD-202, Method 112;
Cond. 1 x 10-5
MIL-STD-202, Method 112;
Cond. C
Moisture resistance MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106
Shock – – – – – MIL-STD-202, Method 213; 100 G – MIL-STD-202, Method 213; 750 G
Vibration – – – – – MIL-STD-202, Method 204; 20 G – MIL-STD-202, Method 204; 30 G;
MIL-STD-202, Method 214; 50 G
Thermal shock – – – – – MIL-STD-202, Method 107;
Cond. B –MIL-STD-202, Method 107;
Cond. B
Salt spray – – – – – MIL-STD-202, Method 101;
Cond. B –MIL-STD-202, Method 101;
Cond. B
Acceleration – – – – – – – MIL-STD-202, Method 212; 20 G
Approvals – – UL/CSA – – MIL-S-24236 – MIL-S-24236/NASA S-311-
641/01
Features
custom packaging; hermetically
sealed; tight tolerances and dif-
ferentials; hermetic connector or
potted construction
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
gold-alloy contacts; hermeti-
cally sealed; tight tolerances and
differentials; pre-set and tamper
proof; SPST contacts
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
gold-alloy contacts; hermeti-
cally sealed; tight tolerances and
differentials; pre-set and tamper
proof; SPST contacts
NASA certified; space qualified;
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
Hermetic/non-hermetic devices available. Enhanced reliability versions meet stringent
requirements of military and aerospace industries for dielectric strength, moisture,
resistance, vibration, and shock. Potential applications include computers, medical
electronics, power supplies, industrial controls, test equipment, and aerospace.
Thermostats
Precision Thermostats
9
Series 3000 Custom
Packaged
3100 Hermetic 3100U UL-
approved Hermetic
3106 Low-level
Hermetic
3150 Low
Silhouette Hermetic
3153 Low
Silhouette Hermetic
3156 Low-level
Silhouette Hermetic
3200 Aerospace
Description custom packaged hermetic UL-approved hermetic low-level hermetic low silhouette hermetic low silhouette hermetic low level, silhouette hermetic aerospace
Amperage dependent on the internal device 2.0 A/1.0 A/5.0 A 3.0 A resistive max. 100 mA/500 mA 2.0 A/1.0 A 2.0 A resistive 100 mA/500 mA 5.0 A resistive
Housing material stainless steel or brass
steel housing hermetically sealed
with glass-to-metal seal at
terminal junction
steel housing hermetically sealed
with glass-to-metal seal at
terminal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
steel housing hermetically sealed
with glass-to-metal seal at termi-
nal junction
Operating
temperature range
-29 °C to 260 °C
[-20 °F to 500 °F]
-29 °C to 260 °C
[-20 °F to 500 °F]
-29 °C to 260 °C
[-20 °F to 500 °F]
-29 °C to 204 °C
[-20 °F to 400 °F]
-29 °C to 177 °C
[-20 °F to 350 °F]
-29 °C to 177 °C
[-20 °F to 350 °F]
-29 °C to 204 °C
[-20 °F to 400 °F]
-51 °C to 163 °C
[-60 °F to 325 °F]
Environmental
exposure range
-62 °C to 288 °C
[-80 °F to 550 °F]
-62 °C to 288 °C
[-80 °F to 550 °F]
-62 °C to 288 °C
[-80 °F to 550 °F]
-62 °C to 260 °C
[-80 °F to 500 °F]
-54 °C to 260 °C
[-65 °F to 500 °F]
-65 °C to 260 °C
[-85 °F to 500 °F]
-62 °C to 260 °C
[-80 °F to 500 °F]
-65 °C to 177 °C
[-85 °F to 350 °F]
Dielectric strength MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
750 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac 60 Hz - terminal to case
MIL-STD-202, Method 301;
1250 Vac
Insulation resistance MIL-STD-202, Method 302;
50 MOhm min. terminal to case
MIL-STD-202, Method 302;
Cond. B - 50 MOhm -
500 Vdc applied
MIL-STD-202, Method 302;
Cond. B - 50 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
Cond. B - 50 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
Cond. B - 50 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
500 MOhm
MIL-STD-202, Method 302;
Cond. B - 500 MOhm - 500 Vdc
applied
MIL-STD-202, Method 302;
500 MOhm
Contact resistance MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.050 Ohm max.
MIL-STD-202, Method 307;
0.025 Ohm
MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.050 Ohm max.
MIL-STD-202, Method 307;
0.050 Ohm
MIL-STD-202, Method 307;
0.025 Ohm max.
Hermetic seal MIL-STD-202, Method 112;
Cond. A, 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. 1 x 10-5 atm cc/s
MIL-STD-202, Method 112;
Cond. C
MIL-STD-202, Method 112;
Cond. 1 x 10-5
MIL-STD-202, Method 112;
Cond. C
Moisture resistance MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106 MIL-STD-202, Method 106
Shock – – – – – MIL-STD-202, Method 213; 100 G – MIL-STD-202, Method 213; 750 G
Vibration – – – – – MIL-STD-202, Method 204; 20 G – MIL-STD-202, Method 204; 30 G;
MIL-STD-202, Method 214; 50 G
Thermal shock – – – – – MIL-STD-202, Method 107;
Cond. B –MIL-STD-202, Method 107;
Cond. B
Salt spray – – – – – MIL-STD-202, Method 101;
Cond. B –MIL-STD-202, Method 101;
Cond. B
Acceleration – – – – – – – MIL-STD-202, Method 212; 20 G
Approvals – – UL/CSA – – MIL-S-24236 – MIL-S-24236/NASA S-311-
641/01
Features
custom packaging; hermetically
sealed; tight tolerances and dif-
ferentials; hermetic connector or
potted construction
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
gold-alloy contacts; hermeti-
cally sealed; tight tolerances and
differentials; pre-set and tamper
proof; SPST contacts
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
gold-alloy contacts; hermeti-
cally sealed; tight tolerances and
differentials; pre-set and tamper
proof; SPST contacts
NASA certified; space qualified;
hermetically sealed; tight toler-
ances and differentials; pre-set
and tamper proof; SPST contacts
10 www.honeywell.com/sensing
Series 2450A 2450CM 2450CMG 2450HR 2450HRG 2450R 2450RC 2450RCG
Use heat detection high current low voltage high current low current high current high current low voltage
Reset type automatic manual manual automatic automatic automatic automatic automatic
Housing material phenolic, epoxy seal cap and
terminals ceramic ceramic phenolic phenolic phenolic ceramic ceramic
Functional property open or close on rise open on rise open on rise open or close on rise open on rise open or close on rise open or close on rise open or close on rise
Amperage 3 A 15 A/10 A 0.5 A 15 A/10 A 0.5 A 15 A/10 A 15 A/10 A 0.5 A
Operating
temperature range
47 °C to 107 °C
[117 °F to 225 °F]
52 °C to 232 °C
[125 °F to 450 °F]
52 °C to 232 °C
[125 °F to 450 °F]
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 260 °C
[32 °F to 500 °F]
0 °C to 260 °C
[32 °F to 500 °F]
Environmental
exposure range
0 °C to 150 °C
[32 °F to 302 °F]
10 °C to 260 °C
[50 °F to 500 °F]
10 °C to 260 °C
[50 °F to 500 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
-20 °C to 287 °C
[0 °F to 550 °F]
-20 °C to 287 °C
[0 °F to 550 °F]
Contacts WE-1 gold alloy cross point silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy silver/nickel alloy WE-1 gold alloy cross point
Approvals UL UL, CSA, VDE UL, CSA, VDE UL, CSA UL, CSA UL, CSA UL, CSA, VDE UL, CSA, VDE
Features gold-alloy contacts; epoxy-sealed
cap and terminals rivet sleeve construction gold-alloy contacts; rivet sleeve
construction
rivet sleeve construction; factory
calibrated
gold-alloy contacts; rivet sleeve
construction; factory calibrated
rivet sleeve construction; low
profile
rivet sleeve construction; low
profile
gold-alloy contacts; rivet sleeve
construction; low profile
Automatic or manual reset options. Phenolic or ceramic housings. Wide variety of
mounting brackets and terminals. Potential applications include HVAC, computers,
aerospace, medical equipment, appliances, automotive, office automation, fireplaces,
and water heaters.
Thermostats
Commercial Thermostats
Series 2450RG 2455R 2455RA 2455RVB 2455RC 2455RG 2455RM
Use low voltage high current heat detection high current high current low voltage high current
Reset type automatic automatic automatic automatic automatic automatic manual
Housing material phenolic phenolic phenolic, epoxy seal cap and
terminals ceramic, epoxy overmold ceramic phenolic phenolic
Functional property open or close on rise open or close on rise close on rise open or close on rise open on rise open or close on rise open on rise
Amperage 0.5 A 15 A/10 A 3 A 15 A/10 A 15 A/10 A 0.5 A 15 A/10 A
Operating
temperature range
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 150 °C
[32 °F to 302 °F]
47 °C to 107 °C
[117 °F to 225 °F] -12 °C to 105 °C [10 °F to 250 °F] 0 °C to 260 °C [32 °F to 500 °F] 0 °C to 150 °C [32 °F to 302 °F] 0 °C to 150 °C [32 °F to 302 °F] (inclusive)
Environmental
exposure range
-18 °C to 177 °C
[0 °F to 350 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
0 °C to 150 °C
[32 °F to 302 °F] -18 °C to 121 °C [0 °F to 250 °F] -20 °C to 287 °C [0 °F to 550 °F] -18 °C to 177 °C [0 °F to 350 °F] -18 °C to 260 °C [0 °F to 500 °F]
Contacts WE-1 gold alloy cross point silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy
Approvals UL, CSA UL, CSA, VDE UL UL, CSA, VDE UL, CSA, VDE UL, CSA, VDE UL, CSA, VDE
Features gold-alloy contacts; rivet sleeve
construction
rivet sleeve construction; high
profile and current
gold-alloy contacts; epoxy-
sealed cap
epoxy overmolded; rivet-sleeve construc-
tion; dust-free housing; factory calibrated rivet sleeve construction; high profile gold-alloy contacts; rivet sleeve construc-
tion; high profile; factory calibrated rivet sleeve construction; factory calibrated
11
Series 2450A 2450CM 2450CMG 2450HR 2450HRG 2450R 2450RC 2450RCG
Use heat detection high current low voltage high current low current high current high current low voltage
Reset type automatic manual manual automatic automatic automatic automatic automatic
Housing material phenolic, epoxy seal cap and
terminals ceramic ceramic phenolic phenolic phenolic ceramic ceramic
Functional property open or close on rise open on rise open on rise open or close on rise open on rise open or close on rise open or close on rise open or close on rise
Amperage 3 A 15 A/10 A 0.5 A 15 A/10 A 0.5 A 15 A/10 A 15 A/10 A 0.5 A
Operating
temperature range
47 °C to 107 °C
[117 °F to 225 °F]
52 °C to 232 °C
[125 °F to 450 °F]
52 °C to 232 °C
[125 °F to 450 °F]
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 260 °C
[32 °F to 500 °F]
0 °C to 260 °C
[32 °F to 500 °F]
Environmental
exposure range
0 °C to 150 °C
[32 °F to 302 °F]
10 °C to 260 °C
[50 °F to 500 °F]
10 °C to 260 °C
[50 °F to 500 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
-20 °C to 287 °C
[0 °F to 550 °F]
-20 °C to 287 °C
[0 °F to 550 °F]
Contacts WE-1 gold alloy cross point silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy silver/nickel alloy WE-1 gold alloy cross point
Approvals UL UL, CSA, VDE UL, CSA, VDE UL, CSA UL, CSA UL, CSA UL, CSA, VDE UL, CSA, VDE
Features gold-alloy contacts; epoxy-sealed
cap and terminals rivet sleeve construction gold-alloy contacts; rivet sleeve
construction
rivet sleeve construction; factory
calibrated
gold-alloy contacts; rivet sleeve
construction; factory calibrated
rivet sleeve construction; low
profile
rivet sleeve construction; low
profile
gold-alloy contacts; rivet sleeve
construction; low profile
Series 2450RG 2455R 2455RA 2455RVB 2455RC 2455RG 2455RM
Use low voltage high current heat detection high current high current low voltage high current
Reset type automatic automatic automatic automatic automatic automatic manual
Housing material phenolic phenolic phenolic, epoxy seal cap and
terminals ceramic, epoxy overmold ceramic phenolic phenolic
Functional property open or close on rise open or close on rise close on rise open or close on rise open on rise open or close on rise open on rise
Amperage 0.5 A 15 A/10 A 3 A 15 A/10 A 15 A/10 A 0.5 A 15 A/10 A
Operating
temperature range
0 °C to 150 °C
[32 °F to 302 °F]
0 °C to 150 °C
[32 °F to 302 °F]
47 °C to 107 °C
[117 °F to 225 °F] -12 °C to 105 °C [10 °F to 250 °F] 0 °C to 260 °C [32 °F to 500 °F] 0 °C to 150 °C [32 °F to 302 °F] 0 °C to 150 °C [32 °F to 302 °F] (inclusive)
Environmental
exposure range
-18 °C to 177 °C
[0 °F to 350 °F]
-18 °C to 177 °C
[0 °F to 350 °F]
0 °C to 150 °C
[32 °F to 302 °F] -18 °C to 121 °C [0 °F to 250 °F] -20 °C to 287 °C [0 °F to 550 °F] -18 °C to 177 °C [0 °F to 350 °F] -18 °C to 260 °C [0 °F to 500 °F]
Contacts WE-1 gold alloy cross point silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy silver/nickel alloy WE-1 gold alloy cross point silver/nickel alloy
Approvals UL, CSA UL, CSA, VDE UL UL, CSA, VDE UL, CSA, VDE UL, CSA, VDE UL, CSA, VDE
Features gold-alloy contacts; rivet sleeve
construction
rivet sleeve construction; high
profile and current
gold-alloy contacts; epoxy-
sealed cap
epoxy overmolded; rivet-sleeve construc-
tion; dust-free housing; factory calibrated rivet sleeve construction; high profile gold-alloy contacts; rivet sleeve construc-
tion; high profile; factory calibrated rivet sleeve construction; factory calibrated
12 www.honeywell.com/sensing
Series 78000 3400 3100 3200
Description transparent Kapton® insulated or Kapton® insulated high temperature silicon wire-wound silicon chemically etched
Maximum power 0.8 W/cm2 [5 W/in2] 6.2 W/cm2 [40 W/in2] 6.2 W/cm2 [40 W/in2] 6.2 W/cm2 [40 W/in2]
Operating/storage
temperature range -40 °C to 85 °C [-40 °F to 185 °F] Kapton® insulated: 177 °C [350 °F] max.
Kapton® insulated high temperature: 260 °C [500 °F] max.
250 °C [482 °F] max.
200 °C [392 °F] max. (UL)
250 °C [482 °F] max.
200 °C [392 °F] max. (UL)
Size constraints 0,60 m x 0,43 m [22 in x 17 in] 0,61 m x 0,61 m [24 in x 24 in] none, virtually any size and shape 0,61 m x 0,61 m [24 in x 24 in]
Geometry specific to customer requirements within size constraints specific to customer requirements within size constraints specific to customer requirements specific to customer requirements within
size constraints
Heater trace pattern continuous layer of ITO (Indium Tin Oxide) across entire surface specific to customer requirements specific to customer requirements specific to customer requirements
Construction
very thin layer of ITO electrically sputtered on PET polyester film; electrical connection made via
silver ink or carbon bus bars laid on top of the ITO; wire connections are made via ring terminals
eyeleted to the silver or carbon bus bars or flexible tail/connector
contain etched, resistive foil encased between two layers of Kapton®;
Kapton® insulated uses acrylic, thermoset bonding adhesive;
Kapton® insulated high temperature uses Teflon® bonding adhesive
contains resistive wire encased between two layers
of fiberglass-supported silicone rubber; all bonding
adhesives are uncured silicone rubber; cured under
pressure and temperature during manufacturing
contains resistive foil traces encased between two
layers of fiberglass-supported silicone rubber bonded
together using temperature and pressure; heater trace
patterns generated similar to processes used in pc-
board design and manufacture
Standard wire
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
PSA yes yes yes yes
Approvals – UL, CSA UL, CSA, TUV UL, CSA, TUV
Features no wires in clear view area; optical grade, thin film polyester; low power consumption low out gassing; variety of geometries; high dielectric strength with
minimal thickness
virtually any size or shape; multi-strand resistance
wires
multiple watt densities or varying trace geometries; flat,
molded-to-shape, spiral wrap
Flat, molded-to-shape, spiral wrap, transparent, composite, and high temperature
configurations with single, multiple, and variable watt densities to customize heat output
to unique applications. Potential applications include medical, food service, outdoor
cameras, valves, and appliances.
Heaters
Flexible Heaters
13
Series 78000 3400 3100 3200
Description transparent Kapton® insulated or Kapton® insulated high temperature silicon wire-wound silicon chemically etched
Maximum power 0.8 W/cm2 [5 W/in2] 6.2 W/cm2 [40 W/in2] 6.2 W/cm2 [40 W/in2] 6.2 W/cm2 [40 W/in2]
Operating/storage
temperature range -40 °C to 85 °C [-40 °F to 185 °F] Kapton® insulated: 177 °C [350 °F] max.
Kapton® insulated high temperature: 260 °C [500 °F] max.
250 °C [482 °F] max.
200 °C [392 °F] max. (UL)
250 °C [482 °F] max.
200 °C [392 °F] max. (UL)
Size constraints 0,60 m x 0,43 m [22 in x 17 in] 0,61 m x 0,61 m [24 in x 24 in] none, virtually any size and shape 0,61 m x 0,61 m [24 in x 24 in]
Geometry specific to customer requirements within size constraints specific to customer requirements within size constraints specific to customer requirements specific to customer requirements within
size constraints
Heater trace pattern continuous layer of ITO (Indium Tin Oxide) across entire surface specific to customer requirements specific to customer requirements specific to customer requirements
Construction
very thin layer of ITO electrically sputtered on PET polyester film; electrical connection made via
silver ink or carbon bus bars laid on top of the ITO; wire connections are made via ring terminals
eyeleted to the silver or carbon bus bars or flexible tail/connector
contain etched, resistive foil encased between two layers of Kapton®;
Kapton® insulated uses acrylic, thermoset bonding adhesive;
Kapton® insulated high temperature uses Teflon® bonding adhesive
contains resistive wire encased between two layers
of fiberglass-supported silicone rubber; all bonding
adhesives are uncured silicone rubber; cured under
pressure and temperature during manufacturing
contains resistive foil traces encased between two
layers of fiberglass-supported silicone rubber bonded
together using temperature and pressure; heater trace
patterns generated similar to processes used in pc-
board design and manufacture
Standard wire
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
• UL1180Teflon®
• gaugepercustomerrequest
• otherwiseselectedformax.heatercurrentdraw
PSA yes yes yes yes
Approvals – UL, CSA UL, CSA, TUV UL, CSA, TUV
Features no wires in clear view area; optical grade, thin film polyester; low power consumption low out gassing; variety of geometries; high dielectric strength with
minimal thickness
virtually any size or shape; multi-strand resistance
wires
multiple watt densities or varying trace geometries; flat,
molded-to-shape, spiral wrap
14 www.honeywell.com/sensing
Series HumidIcon™
HIH-6120/6121
HumidIcon™
HIH-6130/6131
HIH-4000 HIH-
4010/4020/4021
HIH-4030/4031 HIH-5030/5031 HIH-4602-L,
L-CP
HIH-4602-A, C HCH-1000
Description
digital output-type relative
humidity (RH) and temperature
sensor combined in the same
package
digital output-type relative
humidity (RH) and temperature
sensor combined in the same
package
integrated circuit
covered or uncovered,
filtered or unfiltered
integrated circuit
covered, filtered or unfil-
tered integrated circuit
covered, filtered or unfil-
tered integrated circuit covered integrated circuit monolithic IC with integral
thermistor or precision RTD
cased or uncased capacitive
polymer
Output digital I2C or SPI digital I2C analog voltage analog voltage analog voltage analog voltage analog voltage
analog voltage (for
humidity), resistance (for
temperature)
capacitance value
Package type SIP 4 Pin SOIC-8 SMD SIP (2,54 mm [0.100 in] or
1,27 mm [0.050 in] lead pitch)
SIP (2,54 mm [0.100 in] or
1,27 mm [0.050 in] lead
pitch)
surface mount surface mount TO-5 can TO-5 can SIP (2,54 mm [0.100 in]
lead pitch)
Response time 6 s typ. in 20 l/min minimum
airflow 6 s in 20 l/min minimum airflow 5 s 1/e in slow moving air 5 s 1/e in slow moving air 5 s 1/e in slow moving air 5 s 1/e in slow moving air 30 s 1/e in slow moving air 50 s 1/e in slow moving air 15 s at 30 %RH to 90 %RH
Long-term stability ±1.2 %RH for five years ±1.2 %RH for five years ±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year ±0.2 %RH each year
Operating
temperature range
-25 °C to 85 °C
[-13 °F to 185 °F]
-25 °C to 85 °C
[-13 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 120 °C
[-40 °F to 248 °F]
Operating
humidity range 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH
Moisture/dust filter yes (some listings) yes (some listings) no yes (some listings) yes (some listings) yes (some listings) no yes (some listings) no
Cover/case no no no yes (some listings) yes yes yes yes yes (some listings)
Calibration and
data print out no no yes (some listings) yes (some listings) yes (some listings) no yes (some listings) yes (some listings) no
Total error band ±5 %RH ±5 %RH – – – – – – –
Accuracy ±4 %RH ±4 %RH ±3.5 %RH ±3.5 %RH ±3.5 %RH ±3 %RH ±3.5 %RH ±3.5 %RH –
Voltage supply 3.3 Vdc typ 3.3 Vdc 4 Vdc to 5.8 Vdc 4 Vdc to 5.8 Vdc 4 Vdc to 5.8 Vdc 2.7 Vdc to 5.5 Vdc 4 Vdc to 5.8 Vdc 4 Vdc to 5.8 Vdc –
Features
industry-leading total error band
of ±5 %RH over a compensated
temperature range of 5 °C to
50 °C [41 °F to 122 °F] and
10 %RH to 90 %RH
industry-leading total error band
of ±5 %RH over a compensated
temperature range of 5 °C to
50 °C [41 °F to 122 °F] and 10
%RH to 90 %RH, optional one or
two %RH level alarm outputs
voltage output; near linear
voltage output vs. %RH; laser
trimmed; molded thermoset plas-
tic housing; chemically resistant
voltage output; near linear
voltage output vs. %RH;
laser trimmed; molded
thermoset plastic housing;
chemically resistant
surface mount package;
voltage output; near linear
voltage output vs. %RH;
laser trimmed; molded
thermoset plastic housing;
chemically resistant; tape
and reel
surface mount package;
voltage output; near linear
voltage output vs. %RH;
laser trimmed; molded
thermoset plastic housing;
chemically resistant; tape
and reel
linear voltage output vs
%RH; laser-trimmed inter-
changeability;
chemically resistant;
enhanced accuracy, fast
response
humidity and temperature
sensing in one package;
near linear voltage output
vs. %RH; laser trimmed;
chemically resistant; built-in
static protection
capacitance output; poly-
mide sensing material; glass
wafer substrate; low hyster-
esis; long-term stability
Configured with integrated circuitry to provide on-chip signal conditioning. Potential
applications include refrigeration, drying, meteorology, battery-powered systems, OEM
assemblies, HVAC, office automation, and medical.
Humidity Sensors
Humidity
15
Series HumidIcon™
HIH-6120/6121
HumidIcon™
HIH-6130/6131
HIH-4000 HIH-
4010/4020/4021
HIH-4030/4031 HIH-5030/5031 HIH-4602-L,
L-CP
HIH-4602-A, C HCH-1000
Description
digital output-type relative
humidity (RH) and temperature
sensor combined in the same
package
digital output-type relative
humidity (RH) and temperature
sensor combined in the same
package
integrated circuit
covered or uncovered,
filtered or unfiltered
integrated circuit
covered, filtered or unfil-
tered integrated circuit
covered, filtered or unfil-
tered integrated circuit covered integrated circuit monolithic IC with integral
thermistor or precision RTD
cased or uncased capacitive
polymer
Output digital I2C or SPI digital I2C analog voltage analog voltage analog voltage analog voltage analog voltage
analog voltage (for
humidity), resistance (for
temperature)
capacitance value
Package type SIP 4 Pin SOIC-8 SMD SIP (2,54 mm [0.100 in] or
1,27 mm [0.050 in] lead pitch)
SIP (2,54 mm [0.100 in] or
1,27 mm [0.050 in] lead
pitch)
surface mount surface mount TO-5 can TO-5 can SIP (2,54 mm [0.100 in]
lead pitch)
Response time 6 s typ. in 20 l/min minimum
airflow 6 s in 20 l/min minimum airflow 5 s 1/e in slow moving air 5 s 1/e in slow moving air 5 s 1/e in slow moving air 5 s 1/e in slow moving air 30 s 1/e in slow moving air 50 s 1/e in slow moving air 15 s at 30 %RH to 90 %RH
Long-term stability ±1.2 %RH for five years ±1.2 %RH for five years ±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year
±1.2 %RH for five years;
±0.25 %RH each year ±0.2 %RH each year
Operating
temperature range
-25 °C to 85 °C
[-13 °F to 185 °F]
-25 °C to 85 °C
[-13 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 85 °C
[-40 °F to 185 °F]
-40 °C to 120 °C
[-40 °F to 248 °F]
Operating
humidity range 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH 0 %RH to 100 %RH
Moisture/dust filter yes (some listings) yes (some listings) no yes (some listings) yes (some listings) yes (some listings) no yes (some listings) no
Cover/case no no no yes (some listings) yes yes yes yes yes (some listings)
Calibration and
data print out no no yes (some listings) yes (some listings) yes (some listings) no yes (some listings) yes (some listings) no
Total error band ±5 %RH ±5 %RH – – – – – – –
Accuracy ±4 %RH ±4 %RH ±3.5 %RH ±3.5 %RH ±3.5 %RH ±3 %RH ±3.5 %RH ±3.5 %RH –
Voltage supply 3.3 Vdc typ 3.3 Vdc 4 Vdc to 5.8 Vdc 4 Vdc to 5.8 Vdc 4 Vdc to 5.8 Vdc 2.7 Vdc to 5.5 Vdc 4 Vdc to 5.8 Vdc 4 Vdc to 5.8 Vdc –
Features
industry-leading total error band
of ±5 %RH over a compensated
temperature range of 5 °C to
50 °C [41 °F to 122 °F] and
10 %RH to 90 %RH
industry-leading total error band
of ±5 %RH over a compensated
temperature range of 5 °C to
50 °C [41 °F to 122 °F] and 10
%RH to 90 %RH, optional one or
two %RH level alarm outputs
voltage output; near linear
voltage output vs. %RH; laser
trimmed; molded thermoset plas-
tic housing; chemically resistant
voltage output; near linear
voltage output vs. %RH;
laser trimmed; molded
thermoset plastic housing;
chemically resistant
surface mount package;
voltage output; near linear
voltage output vs. %RH;
laser trimmed; molded
thermoset plastic housing;
chemically resistant; tape
and reel
surface mount package;
voltage output; near linear
voltage output vs. %RH;
laser trimmed; molded
thermoset plastic housing;
chemically resistant; tape
and reel
linear voltage output vs
%RH; laser-trimmed inter-
changeability;
chemically resistant;
enhanced accuracy, fast
response
humidity and temperature
sensing in one package;
near linear voltage output
vs. %RH; laser trimmed;
chemically resistant; built-in
static protection
capacitance output; poly-
mide sensing material; glass
wafer substrate; low hyster-
esis; long-term stability
16 www.honeywell.com/sensing
Aerospace
Aerospace applications are among the most demanding for
any type of product. Rigorous FAA requirements, extreme
environments (temperature, shock, vibration, the need for
hermetic sealing), and the ability to customize devices are just a
few of the parameters often required of sensors and switches in
these applications. Aerospace customers typically value speed
in prototyping and development, and Honeywell’s vertically
integrated, AS9100-approved manufacturing locations enhance
our ability to produce devices in a wide variety of packages. The
precision output of our products helps reduce risk and cost in
key applications while also minimizing the need for unscheduled
maintenance.
Honeywell’s in-depth aerospace engineering experience allows
us to work with customers in the design and development of
As one of the world’s leading providers of
sensors and switches, Honeywell
understands and meets the requirements
of a wide variety of industries.
Honeywell Sensing and Control is a global leader in providing reliable, cost-
effective sensing and switching solutions for our customers’ applications.
We serve thousands of customers in four core industry segments: industrial,
medical equipment, transportation, and aerospace/military products.
products that best meet the specified requirements of their
individual applications. Making products simple to install makes
the job easier every step of the way. And, the odds are that
Honeywell is already on the list of trusted suppliers for many
aerospace companies, underscoring the decades of experience
we bring to this field.
Honeywell products for this industry (many of them PMA-
certified) include force sensors, load cells, potentiometers, pilot
controls, pressure sensors, pressure switches, resolvers, sensor/
actuator assemblies for systems ranging from aerostructures
to fuel control to flight surfaces, speed sensors, temperature
probes, thermostats, torque sensors, y-guides for cargo
systems, MICRO SWITCH™ sealed and high-accuracy switches,
MICRO SWITCH™ pushbutton switches, and MICRO SWITCH™
rocker and toggle switches.
17
Medical
Medical applications typically require sensors and switches
that are highly stable and extremely reliable to enhance patient
safety and comfort. Stability is often essential to minimize long
term drift, reduce the need for recalibration, and improve ease
of use for medical equipment operators. Reliability enhances
patient safety in life-critical applications, reduces downtime,
and improves test throughput in applications such as clinical
diagnostics. The product needs to be easy to use and easy to
design into a system, so Honeywell’s extensive customization
and built-in calibration/amplification capabilities are strong
benefits. Confidence in Honeywell’s product performance,
reliability, and availability provide peace of mind for medical
equipment manufacturers who choose Honeywell.
Honeywell offerings for this industry include airflow sensors,
board mount and stainless steel media isolated pressure
sensors, Hall-effect magnetic position sensors, humidity sensors,
flexible heaters, force sensors, thermostats, commercial solid
state sensors, infrared sensors, oxygen sensors, pressure
and vacuum switches, potentiometers and encoders, MICRO
SWITCH™ pushbutton, rocker, and toggle switches, and hour
meters.
Industrial
The industrial arena can be a rough one. From high-speed food
processing to high-force stamping applications, reliable and
cost-effective sensors and switches often help minimize repair
costs, maximize system life, and reduce overall system expense.
Durability can mean the difference between smooth-running
processes and expensive downtime. Accurate, repeatable
sensor or switch output can reduce the need for calibration once
the device is applied. Because of the wide variety of potential
applications, Honeywell’s ability to deliver a customized product
that can meet virtually any size, weight, and power requirement
– as well as any packaging stipulations for tough, harsh
environments – often makes it easy to incorporate and use our
devices. Safety is another important consideration for industrial
users, and our products meet a wide variety of regulatory safety
requirements.
Honeywell’s industrial product line includes airflow sensors,
current sensors, humidity sensors, fiber-optic and liquid-level
sensors, linear position sensors, oxygen sensors, pressure
sensors, potentiometers and encoders, speed sensors,
temperature probes, ultrasonic sensors, wirewound resistors,
thermostats, commercial solid state sensors, flex heaters,
SMART position sensors, board mount and stainless steel media
isolated pressure sensors, force sensors, safety light curtains,
push-pull switches, and MICRO SWITCH™ basic switches,
hazardous area switches, safety switches, key and rotary
switches, limit switches, sealed and high-accuracy switches,
pushbutton, rocker, toggle switches, and relays.
Transportation
Getting from Point A to Point B is often challenging for end-
customers of transportation providers – Honeywell aims to make
the trip easier with highly reliable, cost-effective switches and
sensors. Our products are designed to support rigorous engine
requirements, and their efficiency can also help optimize engine
performance. Customization is often required to allow a switch
or sensor to be mounted in tight or challenging environments
including vibration, temperature extremes, and road
contamination. The durability of Honeywell products enhances
system reliability, which is also boosted by the stable, accurate
output of our devices. All of these capabilities allow demanding
customers to rely on Honeywell’s many years of experience in
the transportation industry.
Honeywell products for transportation applications include
Hall-effect rotary position sensors, inertial measurement
units, infrared sensors, keyless entry sensors, magnetic
position sensors, pressure sensors, speed and direction
sensors, ultrasonic sensors, thermostats, temperature probes,
commercial solid state sensors, SMART position sensors, and
MICRO SWITCH™ pushbutton, rocker, and toggle switches.
18 www.honeywell.com/sensing
Sensing and Control Product Portfolio
Product reliability. Industry knowledge. Expertise. Standard with every order.
With more than 50,000 sensing, switching, and control products ranging from snap-action, limit, toggle, and pressure
switches to position, speed, pressure, and airow sensors, Honeywell Sensing and Control has one of the broadest
sensing and switching portfolios available.
Airow sensors: Advanced microstructure
technology. Sensitive and fast response to flow,
amount/direction of air or other gas. Analog or digital
output. Thin-film, thermally isolated bridge structure
consists of a heater and temperature sensing
elements. May be used in: HVAC, respirators,
process control, oxygen concentrators, gas metering,
chromatography, leak detection equipment, medical/
analytical instrumentation, and ventilation equipment.
Current sensors: Accurate and fast response. Almost
no thermal drift or offset with temperature. Adjustable
linear, null balance, digital, and linear current sensors.
May be used in: Variable speed drives, overcurrent
protection, power supplies, ground fault detectors,
robotics, industrial process control, and wattmeters.
Flexible heaters: Flat, molded-to-shape, spiral
wrap, transparent, composite, and high temperature
configurations with single, multiple, and variable watt
densities. Can be bonded parts or combined. May
be used in: Airborne valves, outdoor cameras, LCD
displays, scanners, and telecommunication.
Force sensors: Variety of package styles and
various electrical interconnects including pre-
wired connectors, printed circuit board mounting,
and surface mounting for flexibility. May be used
in: Infusion and syringe pumps, blood pressure
equipment, pump pressure, drug delivery systems,
occlusion detection, and kidney dialysis machines.
Humidity sensors: Configured with integrated
circuitry. Provide on-chip signal conditioning with
interchangeability of ±3 % accuracy and out-of-the-
box reliability. Standardized, platform-based sensors.
May be used in: Air compressors, food and beverage
packaging and processing, HVAC, printing presses,
and office equipment.
Infrared sensors: IREDs, sensors, and assemblies
for object presence, limit and motion sensing,
position encoding, and movement encoding. Variety
of package styles, materials, and terminations. May
be used in: Printers/copiers, motion control systems,
metering, data storage systems, scanning, automated
transaction, drop sensors, and non-invasive
medical equipment.
Magnetic sensors: Digital and analog Hall-effect
position ICs, magnetoresistive position ICs, Hall-effect
vane, gear-tooth, and magnetic sensors. May be
used in: Speed and RPM sensing, motor/fan control,
magnetic encoding, disc speed, tape, flow-rate
sensing, conveyors, ignitions, motion control/detection,
power/position, magnetic code reading, vibration,
and weight sensing.
Position sensors: The SMART position sensor
measures linear or angular position of a magnet attached
to a moving object so that the object’s position can be
determined or controlled. Its simple, non-contact design
eliminates mechanical failure mechanisms, reduces wear
and tear, improves reliability and durability. May be used
in: valve position, material handling, plastic molding,
passenger bus level position, truck-mounted crane
outrigger position, aerial work lift platform, front loader
and digger/excavation boom position. Potentiometer
sensors measure linear, rotary position or displacement.
Honeywell’s proprietary conductive plastic delivers
extensive temperature range and infinite resolution, and
provides precision position measurement. May be used
in: robotic motion control, marine steering, and in-tank
level sensing. Ultrasonic sensors measure time delays
between emitted and echo pulses, often accurately
determining the sensor-to-target distance. May be used
in: level measurement, height and thickness sensing, and
diameter control.
Pressure sensors – board mount: Full line of industrial-
grade sensors: media-isolating design, multiple ports and
outlets, and electrical configurations. May be used in:
Pneumatic controls, air compressors, process monitoring,
hydraulic controls, VAV controls, clogged filter detection,
presence/absence of flow, and transmissions.
Pressure sensors – heavy duty: Small, allowing use
on their own in tight packages or as the building block
for a complete transducer. Developed for potential use
in pressure applications that involve measurement of
hostile media in harsh environments compatible with
316 stainless steel. May be used in industrial controls,
process control systems, and industrial automation.
Pressure transducers – heavy duty: Provide a complete
amplified and compensated pressure measurement
solution. Choice of ports, connectors, outputs and
pressure ranges, engineered to be resistant to a wide
variety of media for use in most harsh environments.
May be used in: Industrial HVAC/R and air compressors;
general system and factory automation pump, valve
and fluid pressure; and transportation (heavy equipment
and alternative fuel vehicles) system, pneumatics, and
hydraulics.
Proximity sensors: Designed to meet demanding
temperature, vibration, shock, and EMI/EMP interference
requirements. Number of housing materials and
termination styles. May be used in: Aircraft landing gear,
gun turret position control, and door/hatch monitoring.
Rotary position sensors: Digital and analog Hall-
effect, magnetoresistive, and potentiometric devices
and resolvers for sensing presence of a magnetic field
or rotary position. Directly compatible with electronic
circuits for application flexibility. May be used in: Audio
and lighting, frequency, temperature, position, medical/
instrumentation, computer peripherals, manual controls,
joysticks, telecom, welding, heating, and aerospace.
Speed sensors: Measure speed, position, and presence
detection utilizing magnetoresistive, variable reluctance,
Hall-effect, variable inductance, and Spiral technologies.
May be used in: Cam and crankshafts, transmissions,
fans, pumps, mixers, rollers, and motors.
SENSORS
19
MICRO SWITCH ™ rocker switches: Wide range of
electrical and display design. Many shapes, sizes, and
configurations to enhance manual operation. May be
used in: Transportation, agricultural and construction
equipment, test equipment, heavy-duty machinery,
marine equipment, small appliances, telecom, medical
instrumentation, and commercial aviation.
MICRO SWITCH™ toggle switches: Wide range
of electrical and display design. Available in many
shapes, sizes, and configurations. May be used in:
Aerial lifts, construction equipment, agriculture and
material-handling equipment, factory-floor controls,
process control, medical instrumentation, test
instruments, and military/commercial aviation.
MICRO SWITCH™ aerospace-grade pressure
switches: lightweight, compact pressure switches
sense changes in gas/pressure. Qualified to MIL-
PFR-8805. Lower operating force provides application
versatility with enhanced precision. Design modularity
allows for configuration of the switch, facilitating rapid
customization to the precise, demanding requirements.
May be used in: aerospace systems -including
engines, fuel pressure, and hydraulic systems, military
ground vehicles, ordnance and munitions release
systems, military maritime systems.
Pressure and vacuum switches: Feature set points
from 0.5 psi to 3000 psi. Rugged components have
enhanced repeatability, flexibility, and wide media
capability. May be used in: Transmissions, hydraulics,
brakes, steering, generators/compressors, dental
air, embalming equipment, oxygen concentrators, air
cleaners, fuel filters, and pool water pressure.
Limitless™ Series: Combines the best of MICRO
SWITCH™ limit switches with latest commercial
wireless technology. Beneficial for remote monitoring
where wiring/maintenance is not physically possible
or economically feasible. Used for position sensing
and presence/absence detection. May be used in:
valve position, crane boom/jib/skew position, lifts,
material handling, presses, construction/ag machines,
conveyors, remote/temporary equipment, grain
diverters or flaps, and door position.
MICRO SWITCH™ safety switches: For operator point-
of-operation protection, access detection, presence
sensing, gate monitoring, and electrical interfacing.
High-quality, dependable, cost-effective solutions. May
be used in: Packaging and semi-conductor equipment,
plastic-molding machinery, machine tools, textile
machines, lifts, industrial doors, bailers, compactors,
aircraft bridges, telescopic handlers, refuse vehicles.
Safety light curtains: Different resolutions permit
detection of an approaching finger, hand, limb, or
body. Separate or self-contained control units, various
housing sizes, resolutions, scanning ranges, and
protection heights. May be used in: Point-of-operation
protection, access detection, presence sensing, gate
monitoring, electrical-to-machine-circuitry interfacing,
emergency stop circuits on machines, sliding door
protection, conveyors, and transfer lines.
Temperature sensors: Customized probes,
thermistors, and RTD sensors. Plastic/ceramic,
miniaturized, surface-mount housings, and printed
circuit board terminations. May be used in: Semi-
conductor protection, vending machines, power
generation, hydraulic systems, thermal management,
and temperature compensation.
Thermostats: Commercial and precision snap-action.
Automatic or manual reset options, phenolic or ceramic
housings. May be used in: Telecommunications,
battery heater controls, computers, copy machines, fax
machines, food service, food carts, small and major
appliances, heat and smoke detectors, and
HVAC equipment.
MICRO SWITCH™ snap-action series: Snap-action
precision switches. Compact. Lightweight. Designed
for repeatability and enhanced life. Premium and
standard snap-action switches: standard, miniature,
subminiature, hermetically sealed, and high-
temperature versions. May be used in: Vending
machines, communication equipment, HVAC,
appliances, electronic gaming machinery, valve
controls, irrigation systems, foot switches, pressure,
and temperature controls.
MICRO SWITCH™ hazardous area switches:
Flame path designed to contain and cool escaping
hot gases that could cause an explosion. MICRO
SWITCH™ EX, BX, CX, and LSX Series. May be used
in: Grain elevators and conveyors, off-shore drilling,
petrochemical, waste-treatment plants, control valves,
paint booths, and hazardous waste handling facilities.
Key and rotary switches: Used on machinery in harsh
environments. O-rings help keep dirt and moisture out
and prolong life. May be used in: All-terrain vehicles,
golf carts, snowmobiles, scissor lifts, telehandlers,
construction and marine equipment, skid loaders,
agricultural equipment, material handlers.
MICRO SWITCH ™ limit switches: Broadest and
deepest limit switch portfolio. Rugged, dependable
position detection solutions. MICRO SWITCH™ heavy-
duty limit switches (HDLS) and global limit switches.
Hermetically and environmentally sealed switches.
May be used in: Machine tools, woodworking, textile,
and printing machinery, metal fabrication, balers/
compactors, forklifts, bridges, robotics, wind turbines,
elevators, moving stairs, doors, dock locks/levelers,
aerial lifts, cranes, conveyors, rail, shipboards,
and dock side.
MICRO SWITCH™ sealed and high accuracy
switches: Precision ‘snap action’ mechanisms.
Wide variety of actuators, terminations, circuitry
configurations, electrical ratings, contact materials, and
operating characteristics. May be used in: Landing
gear, flap/stabilizer controls, thrust reversers, space
vehicles, armored personnel carriers, de-icer controls,
wingfold actuators, industrial environments, valves,
and underwater.
MICRO SWITCH™ pushbutton switches: Lighted or
unlighted. Wide range of electrical and display design,
pushbuttons, and manual switches. Many shapes,
sizes, and configurations. Easy to apply, operate, and
maintain. May be used in: Control boards and panels,
industrial and test equipment, computers, medical
instrumentation, and aerospace.
SAFETY PRODUCTS
ELECTROMECHANICAL SWITCHES
WIRELESS SWITCHES
Honeywell Sensing and Control
1985 Douglas Drive North
Golden Valley, MN 55422
www.honeywell.com
009015-7-EN IL50 GLO
July 2012
© 2012 Honeywell International Inc. All rights reserved.
Find out more
To learn more about Honeywell’s sensing
and control products, call
+1-815-235-6847, email inquiries to
info.sc@honeywell.com, or visit
www.honeywell.com/sensing
Warranty/Remedy
Honeywell warrants goods of its manufacture as being free of
defective materials and faulty workmanship. Honeywell’s stan-
dard product warranty applies unless agreed to otherwise by
Honeywell in writing; please refer to your order acknowledge-
ment or consult your local sales office for specific warranty
details. If warranted goods are returned to Honeywell dur-
ing the period of coverage, Honeywell will repair or replace,
at its option, without charge those items it finds defective.
The foregoing is buyer’s sole remedy and is in lieu of all
other warranties, expressed or implied, including those of
merchantability and tness for a particular purpose. In no
event shall Honeywell be liable for consequential, special,
or indirect damages.
While we provide application assistance personally, through
our literature and the Honeywell web site, it is up to the cus-
tomer to determine the suitability of the product in the applica-
tion.
Specifications may change without notice. The information we
supply is believed to be accurate and reliable as of this print-
ing. However, we assume no responsibility for its use.
