LGRTC3CB01-000

_000843 Issue 1_ 

## GAPS & HAPS SERIES 

## **Aerospace Proximity Sensors** 

## DESCRIPTION 

Honeywell has over 30 years’ experience designing and delivering accurate and reliable proximity sensors that are currently used in a variety of military and commercial aircraft. 

Honeywell has two new platforms of proximity sensors: General Aerospace Proximity Sensors (GAPS)  and Harsh Aerospace Proximity Sensors (HAPS), formerly known as the IHM Series. Both platforms incorporate Honeywell’s patented Integrated Health Monitoring functionality, however the products have some technical differences that allow them to be used in various aerospace applications. GAPS can be used in less harsh areas of application with some differences of electrical and environmental characteristics when compared to HAPS. Whilst, HAPS Aerospace Proximity Sensors are configurable, non-contact, hermetically sealed devices designed to sense the presence or absence of a target in harshduty aircraft applications. 

The GAPS and HAPS platforms provide on/off outputs and can be configured with an optional health monitoring output to the host system. The sensing mechanism is based on the familiar Eddy Current Killed Oscillator (ECKO) principles; however, Honeywell has designed and implemented the patented FAVCO (Fixed Amplitude Variable Current Oscillator) technology which enables the Honeywell sensors to have the health monitoring (IHM) features. See Figure 5 to compare the ECKO and FAVCO technologies. The GAPS and HAPS Series helps to reduce downtime and maintenance costs due to a unique circuit that can detect any internal failures and display a fault output instead of a false positive or false negative. For the customer, this delivers the best performance with a lower overall cost over the life of the aircraft. 

## FEATURES 

- Industry-leading indirect lightning and dielectric ruggedness: Meets the increased requirements of today’s composite aircraft and most challenging applications including landing gear, thrust reversers, and flight controls 

- Enhanced vibration ruggedness: Capable of withstanding extremely high vibration applications 

- Environmentally rugged: Fully hermetic packages provide long-term reliability in very harsh environments by eliminating the potential for contamination of the sensor from the application environment. In addition, Honeywell has developed an innovative method to environmentally seal wire-lead (pigtail) configurations 

- Integral Health Monitoring Capability: Optional third output state to indicate the health of the sensor (whether it is healthy or failed). Reduces maintenance time, reduces delayed flights, and lowers overall maintenance cost across the life of the aircraft 

- Non-contact design: Utilizes noncontact technology to sense the presence or absence of a target regardless of the dirty, harsh environment in which it is placed, eliminating mechanical failure mechanisms, reducing wear, minimizing downtime, increasing durability, and increasing reliability 

## VALUE TO CUSTOMERS 

- Enhanced vibration and EMI specifications help to increase revenue (flight hours) and reduce cost to serve (system maintenance) 

- Hermetic sealing helps increase revenue (flight hours), reduce cost to serve (maintenance), & reduce cost of goods (spares) 

- Platform approach helps to increase revenue and reduce cost to serve 

- Health monitoring helps to increase revenue, reduce cost to serve, and reduce cost of goods 

- Supplier stability helps to reduce cost to serve (troubleshoot with original supplier) 

- Current install base helps to reduce cost to serve (proven performance and MTBF) 

## PORTFOLIO 

Honeywell’s GAPS and HAPS Series is part of a comprehensive line of aerospace sensors, switches, and value-added solutions. To view Honeywell’s complete product offering, click here. 

AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

GAPS GENERAL Aerospace Proximity Sensor 

HAPS HARSH Application Proximity Sensor 

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Landing Gear Doors Hydraulics Primary Surface Rear Stabilizer Gen Actuators TRAS Valves Engine<br>GAPS GAPS GAPS GAPS GAPS GAPS HAPS HAPS HAPS<br>S O M OO) 1a,<br>Ground Vehicles Airframe Rotary Actuators Evacuation Slides Cargo Storage   Turbine Speed/ACM Actuators Nacelle Canopies<br>HAPS GAPS GAPS GAPS GAPS GAPS HAPS HAPS HAPS<br>**----- End of picture text -----**<br>


## GAPS 

## HAPS 

DIFFERENTIATORS 500,000 MTBF > FLIGHT HOURS 500,000 MECHANICAL CHARACTERISTICS 115°C OPERATING TEMPERATURE 115°C 20 G VIBRATION 20 G* 40 G OPERATING SHOCK 20 G ELECTRICAL CHARACTERISTICS RADIO FREQUENCY CONDUCTED 150 mA Level W 300 mA Level Y SUSCEPTIBILITY RADIO FREQUENCY RADIATED 100 V/m CAT F 200 V/m CAT G SUSCEPTIBILITY LIGHTNING INDUCED TRANSIENT Level 3 Level 3 SUSCEPTIBILITY ON/OFF 20 mA OUTPUT TYPE IHM ON/OFF 250 mA 1000 Vdc/750 Vac DIELECTRIC/IR 500 Vdc/500 Vac 

_* HAPS has a Q factor of 4. Contact Honeywell for more information._ 

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## TABLE 1. GAPS SERIES AND HAPS SERIES PERFORMANCE SPECIFICATIONS 

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CHARACTERISTIC PARAMETER<br>Mechanical Characteristics GAPS HAPS<br>Less than 60 grams (inline variants);<br>Weight 60 g to 150 g<br>85 grams (right-angle variants)<br>Hermetically sealed,<br>Sealing Hermetically sealed<br>pigtail versions environmentally sealed<br>• D38999/25YA98PN  • D38999/25YA98PA<br>D38999/25YA98PN<br>• EN2997Y10803MN  • M83723/90Y1005N<br>Connector/leads D38999/25YA98PA<br>• M83723/90Y10056  • M83723/90Y10057<br>EN2997Y10803MN<br>• M83723/90Y10058  • Pigtail<br>• Inline, cylindrical, threaded • Inline, cylindrical, threaded<br>• Right angle, cylindrical, threaded • Right angle, cylindrical, threaded<br>Form factor<br>• Inline, cylindrical, flanged • Inline, cylindrical, flanged<br>• Right angle, cylindrical, flanged • Right angle, cylindrical, flanged<br>Sensing distance 3,5 mm max. 4 mm max.<br>Sensing face Inconel [®] Inconel [®]<br>Outer body material Stainless steel Stainless steel<br>Sensor head diameter 13,5 mm [0.53 in] 13,5 mm [0.53 in]<br>Sensor length 55 mm [2.17 in] max. various; 60 mm [2.36 in] max.<br>SS 17-4PH rectangular target with dimensions   SS 17-4PH rectangular target with dimensions<br>Target (typical)<br>25 mm x 18 mm x 3 mm [0.98 in x 0.71 in x 0.12 in] 25 mm x 18 mm x 3 mm [0.98 in x 0.71 in x 0.12 in]<br>MTBF 500,000 flight hours 500,000 flight hours<br>Electrical Characteristics GAPS HAPS<br>Supply voltage 12 Vdc to 32 Vdc (input) 12 Vdc to 28 Vdc<br>Supply current <10 mA <10 mA<br>Operating temperature range -55°C  to 115°C [-67°F to 239°F] -55°C to 115°C [-67°F to 239°F]<br>Storage temperature range -65°C to 115°C [-85°F to 239°F] -65°C to 115°C [-85°F to 239°F]<br>Target response time 5 ms 5 ms<br>Power on delay time <1 second <1 second<br>Bonding resistance < 2.5 m Ω <2.5 m Ω<br>Dielectric strength 1000 Vdc/750 Vac for 1 minute 500 Vdc/500 Vac for 1 minute<br>Insulation resistance 200 M Ω  min. at 50 Vdc 200 M Ω  min. at 50 Vdc<br>Sensing Characteristics GAPS HAPS<br>Ga/Gd see Figure 3 see Figure 3<br>17-4 PH stainless steel heat treated to condition  17-4 PH stainless steel heat treated to condition<br>Target material<br>H1025 H1025<br>Target dimension Rectangular target of 25 mm x 18 mm x 3 mm Rectangular target of 25 mm x 18 mm x 3 mm<br>**----- End of picture text -----**<br>


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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

TABLE 2. GAPS SERIES AND HAPS SERIES PERFORMANCE SPECIFICATIONS 

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CHARACTERISTIC PARAMETER<br>Environmental Characteristics GAPS HAPS<br>Temperature and altitude RTCA/DO-160G – Section 4, Category D3 RTCA/DO-160G – Section 4, Category D3<br>Temperature variation RTCA/DO-160G – Section 5, Category S2 RTCA/DO-160G – Section 5, Category S2<br>Humidity RTCA/DO-160G – Section 6, Category C RTCA/DO-160G – Section 6, Category C<br>Operational shock and crash<br>RTCA/DO-160G – Section 7, Category B RTCA/DO-160G – Section 7, Category B<br>safety<br>RTCA/DO-160G – Section 8, Category R   RTCA/DO-160G – Section 8, Category R<br>Vibration<br>(Curve E, E1, and W) (Curve E, E1, and W)<br>Explosion safety RTCA/DO-160G – Section 9, Category E&H RTCA/DO-160G – Section 9, Category E&H ENV III<br>Water proofness RTCA/DO-160G – Section 10, Category R RTCA/DO-160G – Section 10, Category R<br>Fluid susceptibility RTCA/DO-160G – Section 11, Category F RTCA/DO-160G – Section 11, Category F<br>Sand and dust RTCA/DO-160G – Section 12, Category D RTCA/DO-160G – Section 12, Category D<br>Fungus resistance RTCA/DO-160G – Section 13, Category F RTCA/DO-160G – Section 13, Category F<br>Salt spray RTCA/DO-160G – Section 14, Category T RTCA/DO-160G – Section 14, Category T<br>Magnetic effects RTCA/DO-160G – Section 15, Category A RTCA/DO-160G – Section 15, Category A<br>Power input RTCA/DO-160G – Section 16, Category A RTCA/DO-160G – Section 16, Category A<br>Voltage spike RTCA/DO-160G – Section 17, Category A RTCA/DO-160G – Section 17, Category A<br>Audio frequency conducted<br>RTCA/DO-160G – Section 18, Category Z RTCA/DO-160G – Section 18, Category Z<br>susceptibility<br>Induced signal susceptibility RTCA/DO-160G – Section 19, Category CWE RTCA/DO-160G – Section 19, Category CWE<br>Radio frequency radiated<br>RTCA/DO-160G – Section 20, Category F RTCA/DO-160G – Section 20, Category G<br>susceptibility<br>Radio frequency conducted<br>RTCA/DO-160G – Section 20, Category W RTCA/DO-160G – Section 20, Category Y<br>susceptibility<br>Radio frequency emission RTCA/DO-160G – Section 21, Category M RTCA/DO-160G – Section 21, Category M<br>Lightning induced transient<br>RTCA/DO-160G – Section 22, Category B3K3L3 RTCA/DO-160G – Section 22, Category B3K3L3<br>susceptibility<br>Icing RTCA/DO-160G – Section 24, Category A RTCA/DO-160G – Section 24, Category A<br>Electrostatic discharge RTCA/DO-160G – Section 25, Category A RTCA/DO-160G – Section 25, Category A<br>**----- End of picture text -----**<br>


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FIGURE 1. GAPS PRODUCT NOMENCLATURE LG CT A 3A A 0 ,yy Form Range Ga/Gd Electrical ¥ 4 Series Factor mm [in] Output Type Termination Reserved LG GeneralSeries CT[Inline, cylindrical] threaded A 1,75/2,75[0.069/0.108] 3B 3-wire,open collector outputnormally closed A[D38999/25YA98PN] Aerospace RT Right anglecylindrical B 2,00/3,00 3C 3-wire,open collector output B D38999/25YA98PA Proximity threaded [0.078/0.118] normally open Sensor 2,25/3,25 C [0.088/0.128] CF _[Inline, cylindrical]_ 3A _3-wire,_ C _EN2997Y10803MN* flanged* current sink output*_ 2,50/3,50 _Right angle_ D [0.098/0.138] ~~Se~~ RF _cylindrical_ ~~=F~~ _*Note: Please contact Honeywell for further details._ ~~SS~~ _flanged*_ ~~ee~~ FIGURE 2. HAPS SERIES PRODUCT NOMENCLATURE 1P CT A 3A A N N -000 yyy Form Range Ga/Gd Electrical Puy Pigtail yy Series Factor mm [in] Output Type Termination Length Hardware Reserved HAPS One-PieceSeries CT[Inline, cylindrical] threaded A 1,75/2,75[0.069/0.108] 3A 3-wire, current sink outputNear/Fault/Far A[D38999/25YA98PN] N[Not] applicable N Nohardware Proximity(Active) RT Right anglecylindricalthreaded B 2,00/3,00[0.078/0.118] 3B 3-wire,open collector outputnormally closed B D38999/25YA98PA A 30,84 cm [12.0 in] 1 Washer MS25081C6 (1 nos.)Hex nut MS21340-05 (2 nos.) Sensor CF[Inline, cylindrical] flanged C 2,25/3,25[0.088/0.128] 3C 3-wire,open collector outputnormally open C EN2997Y10803MN B 60,96 cm[24.0 in] RF Right anglecylindricalflanged D 2,50/3,50[0.098/0.138] H Pigtail (flying lead) C 91,44 cm[36.0 in] E 2,75/3,75[0.108/0.147] D _M83723/90Y1005N_ D 121,92 cm[48.0 in] F 3,00/4,00[0.118/0.157] E _M83723/90Y10056_ E 152,40 cm[60.0 in] F _M83723/90Y10057_ F 182,88 cm[72.0 in] G 213,36 cm[84.0 in] G _M83723/90Y10058_ ~~se~~ _*Note: These grayed-out options are non-qualified listings (not released as production listings in the ordering system). These listings will be qualified based on customer request. Contact Honeywell for further information on the grayed-out customization options._ 

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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## TABLE 3. GAPS SERIES INTERFACE DETAILS 

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SUPPLY  SUPPLY  OUTPUT<br>OUTPUT CONDITION CONNECTOR CATALOG LISTING PIN CONFIGURATION<br>VOLTAGE CURRENT TYPE<br>Pin A: Supply excitation<br>D38999/25YA98PN LGXXD3AAX-000 Pin B: Supply return<br>Pin C: Output<br>Target near:  4 mA ≤ Io ≤ 6 mA<br>Pin A: Supply excitation<br>12 Vdc to  20 mA  Current  Target far:  12 mA ≤ Io ≤ 16 mA<br>D38999/25YA98PA LGXXD3ABX-000 Pin B: Supply return<br>32 Vdc max. sink Internal fault: Pin C: Output<br>9 mA ≤ Io ≤ 11 mA or Io <1 mA<br>Pin 1: Supply excitation<br>EN2997Y10803MN LGXXD3ACX-000 Pin 2: Supply return<br>Pin 3: Output<br>Pin A: Supply excitation<br>D38999/25YA98PN LGXXD3BAX-000 Pin B: Supply return<br>Pin C: Output<br>Open   Target near:  Switch open,<br>12 Vdc to  20 mA  collector Io <50  μ A Pin A: Supply excitation<br>D38999/25YA98PA LGXXD3BBX-000 Pin B: Supply return<br>32 Vdc max. (normally Target far:  Switch close,<br>Pin C: Output<br>closed) Vo <1 V @ 20 mA of Io<br>Pin 1: Supply excitation<br>EN2997Y10803MN LGXXD3BCX-000 Pin 2: Supply return<br>Pin 3: Output<br>Pin A: Supply excitation<br>D38999/25YA98PN LGXXD3CAX-000 Pin B: Supply return<br>Pin C: Output<br>Open   Target near:  Switch close,<br>Pin A: Supply excitation<br>12 Vdc to  20 mA  collector Vo<1 V @ 20 mA of Io<br>D38999/25YA98PA LGXXD3CBX-000 Pin B: Supply return<br>32 Vdc max. (normally Target far:  Switch open,<br>Pin C: Output<br>open) Io<50  μ A<br>Pin 1: Supply excitation<br>EN2997Y10803MN LGXXD3CCX-000 Pin 2: Supply return<br>Pin 3: Output<br>**----- End of picture text -----**<br>


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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## TABLE 4. HAPS SERIES INTERFACE DETAILS 

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SUPPLY  SUPPLY  OUTPUT  CATALOG<br>OUTPUT CONDITION CONNECTOR PIN/WIRE CONFIGURATION<br>VOLTAGE CURRENT TYPE LISTING<br>D38999/25YA98PN 1PXXX3AANX-000 Pin A: Supply excitation<br>Pin B: Supply return<br>D38999/25YA98PA 1PXXX3ABNX-000 Pin C: Output<br>Pin 1: Supply excitation<br>EN2997Y10803MN 1PXXX3ACNX-000 Pin 2: Output<br>Pin 3: Supply return<br>Target near:  4 mA ≤ Io ≤ 6 mA M83723/90Y1005N 1PXXX3ADNX-000 Pin 1: Supply excitation<br>12 Vdc to  10 mA  Current  Target far:  12 mA ≤ Io ≤ 16 mA M83723/90Y10056 1PXXX3AENX-000 Pin 2: Output<br>28 Vdc max. sink Internal fault: Pin 3: Supply return<br>9 mA ≤ Io ≤ 11 mA or Io <1 mA M83723/90Y10057 1PXXX3AFNX-000 Pin 4: No connection<br>M83723/90Y10058 1PXXX3AGNX-000 Pin 5: No connection<br>White wire (orange stripes):<br>Supply excitation<br>Pigtail (Flying Lead) 1PXXX3AHXX-000 White wire (blue stripes): Output<br>White wire (no stripes): Supply<br>return<br>D38999/25YA98PN 1PXXX3AANX-000 Pin A: Supply excitation<br>Pin B: Output<br>D38999/25YA98PA 1PXXX3ABNX-000 Pin C: Supply return<br>Pin 1: Supply excitation<br>EN2997Y10803MN 1PXXX3ACNX-000 Pin 2: Output<br>Pin 3: Supply return<br>Open<br>collector Target near:  Switch open,   M83723/90Y1005N 1PXXX3ADNX-000 Pin 1: Supply excitation<br>12 Vdc to  10 mA  (nor- Io <50  μ A M83723/90Y10056 1PXXX3AENX-000 Pin 2: Output<br>28 Vdc max. mallyclosed) Target far:  Vo <1 V @ 20 mA of IoSwitch close,   M83723/90Y10057 1PXXX3AFNX-000 Pin 3: Supply return Pin 4: No connection<br>M83723/90Y10058 1PXXX3AGNX-000 Pin 5: No connection<br>White wire (orange stripes):<br>Supply excitation<br>Pigtail (Flying Lead) 1PXXX3AHXX-000 White wire (blue stripes): Output<br>White wire (no stripes): Supply<br>return<br>D38999/25YA98PN 1PXXX3AANX-000 Pin A: Supply excitation<br>Pin B: Output<br>D38999/25YA98PA 1PXXX3ABNX-000 Pin C: Supply return<br>Pin 1: Supply excitation<br>EN2997Y10803MN 1PXXX3ACNX-000 Pin 2: Output<br>Pin 3: Supply Return<br>Open<br>collector Target near:  Switch close,   M83723/90Y1005N 1PXXX3ADNX-000 Pin 1: Supply excitation<br>12 Vdc to  10 mA  (nor- Vo<1 V @ 20 mA of Io M83723/90Y10056 1PXXX3AENX-000 Pin 2: Output<br>28 Vdc max. mallyopen) Target far:  Io<50  μ A  Switch open,   M83723/90Y10057 1PXXX3AFNX-000 Pin 3: Supply return Pin 4: No connection<br>M83723/90Y10058 1PXXX3AGNX-000 Pin 5: No connection<br>White wire (orange stripes):<br>Supply excitation<br>Pigtail (Flying Lead) 1PXXX3AHXX-000 White wire (blue stripes): Output<br>White wire (no stripes): Supply<br>return<br>**----- End of picture text -----**<br>


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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## FIGURE 3. SLIDE-BY CURVES 

## **Proximity Sensor Actuation and De-Actuation Curves** 

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4<br>3.5<br>3<br>2.5<br>Ae 2 aan<br>Guaranteed De-Actuation Curve<br>JL EZ 1.5 = Typical De-Actuation Curve<br>Typical Actuation Curve<br>LJ 1 -<br>Guaranteed Actuation Curve<br>0.5<br>0<br>-5 -4 -3 -2 -1 0 1 2 3 4<br>X-Slide by distance (mm)<br>FIGURE 4. KEEP OUT ZONE MAPE 4. KEEP OUT ZONE MAP OUT ZONE MAP<br>/ ZS a ! ,<br>\ {€-)} | {it<br>NW, ;<br>7,62 mm<br>20,32 mm [0.8 in] [0.3 in]<br>ar 40,64 mm  —<br>[1.6 in]<br>Z-Head on distance (mm)<br>**----- End of picture text -----**<br>


FIGURE 4. KEEP OUT ZONE MAPE 4. KEEP OUT ZONE MAP OUT ZONE MAP 

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## FIGURE 5. ECKO VS. FAVCO TECHNOLOGY 

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Eddy<br>Current<br>**----- End of picture text -----**<br>


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Killed<br>**----- End of picture text -----**<br>


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Oscillator<br>Target Target Target<br>Absent Present Absent<br>**----- End of picture text -----**<br>


Eddy currents within the target cause a load on the sensor decreasing the amplitude of the oscillator, monitored by a trigger switching the output state **on** or **off** . 

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Fixed<br>Amplitude<br>Variable<br>**----- End of picture text -----**<br>


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Current<br>Oscillator<br>(or IHM)<br>Target Target Target<br>Absent Present Absent<br>**----- End of picture text -----**<br>


Energy measured to maintain the oscillation when a load on the sensor is applied caused by the eddy currents of the target. 

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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## GAPS WIRING DIAGRAMS 

## FIGURE 6. GAPS SERIES D38999/25YA98PN CONNECTOR 

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EEC Proximity Switch<br>Supply/Excitation<br>1 A<br>to unit 2 C Output<br>3 B Supply Return<br>FIGURE 7. GAPS SERIES EN2997Y10803MN CONNECTOR<br>EEC Proximity Switch<br>Supply/Excitation<br>1 1<br>to unit 2 3 Output<br>3 2 Supply Return<br>Load<br>Logic<br>Load<br>Logic<br>**----- End of picture text -----**<br>


## FIGURE 7. GAPS SERIES EN2997Y10803MN CONNECTOR 

## PRODUCT DIMENSIONS 

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3,3 [0.130]<br>FIGURE 8. GAPS SERIES LGCTD3CA01-000<br>3X Ø1,19 [0.047]<br>DIMENSIONS mm [in] Housing lockwire holes<br>5/8-24 UNEF-2A Electrical Connector<br>Ø19,0 ±0,15 D38999<br>[0.748 ±0.005]<br>Front Disc<br>2,5 ±0,25 Master Keyway<br>[0.098 ±0.009] D38999/25YA98PN<br>Connector mates with<br>D38999/26KA98SN<br>or equivalent<br>2 ±0,1 19 ±0,381<br>[0.08 ±0.003] 1 ±0,4 [0.748 ±0.015]<br>[0.039 ±0.015]<br>20,6 14,85 Ø13,8 ±0,15<br>[0.811] [0.585] [0.543 ±0.005]<br>54,24 ±0,25<br>[2.135 ±0.009]<br>**----- End of picture text -----**<br>


FIGURE 8. GAPS SERIES LGCTD3CA01-000 DIMENSIONS mm [in] 

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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## FIGURE 9. GAPS SERIES LGCTD3CB01-000 DIMENSIONS mm [in] 

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3,3 [0.130]<br>3X Ø1,19 [0.047]<br>lockwire holes<br>Housing Electrical Connector<br>D38999<br>5/8-24 UNEF-2A<br>Ø19,0 ±0,15<br>[0.748 ±0.005]<br>Front Disc<br>2,5 ±0,25<br>D38999/25YA98PA Master Keyway<br>[0.098 ±0.009]<br>Connector mates with<br>D38999/28KA98SA<br>or equivalent<br>19 ±0,381<br>1 ±0,4 [0.748 ±0.015]<br>2 ±0,1 [0.039 ±0.015]<br>[0.08 ±0.003]<br>20,6 14,85 Ø13,8 ±0,15<br>[0.811] [0.585] [0.543 ±0.005]<br>54,24 ±0,25<br>[2.135 ±0.009]<br>**----- End of picture text -----**<br>


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AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## FIGURE 10. GAPS SERIES LGRTD3CA01-000 DIMENSIONS mm [in] 

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44,14 [1.738]<br>24,74 ±0,3<br>Back cap [0.974 ±0.011]<br>21,34 ±0,2 Ø 19,05 ±0,2<br>[0.840 ±0.007] [0.75 ±0.007]<br>Housing<br>2,5 ±0,25<br>[0.098 ±0.009]<br>48 ±0,3<br>[1.9 ±0.011]<br>38,23 ±0,35<br>[1.505 ±0.013]<br>Master Keyway<br>28 ±0,15<br>[1.102 ±0.005]<br>Housing<br>5/8-24 UNEF-2A<br>Front Disc<br>1 ±0,4 Ø13,8 ±0,15<br>[0.039 ±0.0157] 2 ±0,1 [Ø0.543 ±0.005]<br>[0.08 ±0.004]<br>14,1 ±0,3 D38999/25YA98PN<br>[0.56 ±0.01] Connector mates<br>D38999/26KA98SN<br>or equivalent<br>**----- End of picture text -----**<br>


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## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

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FIGURE 11. HAPS SERIES: CYLINDRICAL, FLANGED HOUSING WITH EN2997Y10803MN CONNECTOR mm [in]<br>60,5 [2.36] max.<br>Connector: EN2997Y10803MN<br>(mates with EN2997SEC0803FN 3 [0.012]<br>or equivalent) 17  42,5 [1.67]<br>[0.67]<br>[0.61]15,5 [0.15]3,89 Ø 18 [Ø 0.70] 21,25<br>[0.84]<br>30° typ.<br>2X R13<br>Master keyway [0.51]<br>15,8 2X Ø 19,0<br>[0.62] [Ø 0.748]<br>13<br>55° R 0,75 [0.51]<br>16,5 [0.03]<br>[0.65] Or | R 2 [0.08] oy  i max. 27,9 Ø 13,5 [Ø 0.53] =).<br>[1.10]<br>26<br>[1.02]<br>2X Ø 5<br>[Ø 0.20] a<br>Connector shell EEC Electrical Schematic Proximity<br>Sensor<br>Supply/Excitation<br>1 1<br>Iq e Load ia<br>L<br>To measuring  Output o<br>End cap unit 2 2 g<br>Lower housing ci<br>3 3 Supply Return<br>Upper housing<br>FIGURE 12. HAPS SERIES: CYLINDRICAL, FLANGED HOUSING WITH M83723/90Y1005N CONNECTOR mm [in]<br>17<br>3 [0.012] [0.67] 42,5 [1.67]<br>15,5<br>[0.61] [0.15]3,89 Ø 18 [Ø 0.70] / 21,25<br>[0.84]<br>30° typ.<br>2X R13<br>Master keyway [0.51]<br>2X Ø 19,0<br>[Ø 0.748]<br>13<br>55° Connector:  R 0,75 Ø 15,8 [0.51]<br>16,5 M83723/90Y1005N [0.03] [Ø 0.62]<br>[0.65] M83723/97S1005N(mates with  R 2 [0.08] max. [1.10]27,9 Ø 13,5 [Ø 0.53]<br>or equivalent) 26<br>[Ø 0.20]2X Ø 5 EEC [1.02] Proximity<br>Sensor<br>4 4 No Connection<br>Connector 5 5 No Connection<br>Supply/Excitation<br>1 1<br>Load<br>L<br>To measuring unit 2 2 Output og<br>Hy End cap Z t t — ci<br>Lower housing 3 3 Supply Return<br>P ee<br>Upper housing Electrical Schematic<br>**----- End of picture text -----**<br>


Sensing and Internet of Things     13 

## AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## FIGURE 13. HAPS SERIES: CYLINDRICAL HOUSING WITH D38999/25YA98PN CONNECTOR mm [in] 

**==> picture [537 x 191] intentionally omitted <==**

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58 [2.31] max.<br>Connector: D38999/25YA98PN<br>19,89 20,3  (mates with D38999/26MA98SN<br>14,77 3,89 [0.78] [0.80] or equivalent)<br>[0.58] [0.15] 1,32 [0.05]<br>2 [0.08]<br>> [Ø 0.53]Ø 13,5 té [Ø 0.748]Ø 19 EX 19,05 [0.75] |<br>\ See detail A Master keyway<br>0.6250-24 UNEF-2A<br>EEC Electrical Schematic Proximity<br>Connector Sensor<br>Supply/Excitation<br>Ø 14,4  1 A<br>1,02 [Ø 0.57] Load L<br>[0.04] To measuring unit 2 B Output og<br>MINN Detail A. | Ty | i<br>End cap Scale 6:1 c<br>Lower housing [Upper housing] 3 C Supply Return<br>ty i a atte )<br>**----- End of picture text -----**<br>


FIGURE 14. HAPS SERIES: CYLINDRICAL HOUSING WITH PIGTAIL CONNECTION mm [in] 

**==> picture [488 x 192] intentionally omitted <==**

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53 [2.09] max.<br>19,89 17,17<br>[0.58]14,77 3,89 [0.78] 1,32 [0.05][0.68] Refer to pigtail lengthin nomenclature<br>[0.15]<br>Ø 13,5 Ø 19<br>[Ø 0.53] [Ø 0.748]<br>2 [0.08]<br>eS<br>End cap Rear bush<br>Ø 19,05 Lower housing Bush EEC Electrical Schematic Proximity<br>[Ø 0.75]<br>Sensor<br>0.6250-24 UNEF-2A Upper housing<br>an See detail A  | White with  Supply/Excitation<br>orange stripes<br>Load<br>L<br>1,02 [Ø 0.57]Ø 14,05 To measuring unit blue stripesWhite with  Output og<br>[0.04] i<br>Detail A. c<br>Scale 6:1 White Supply Return<br>**----- End of picture text -----**<br>


14    sensing.honeywell.com 

AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## FIGURE 15. HAPS SERIES: RIGHT ANGLE, FLANGED HOUSING WITH D38999/25YA98PN CONNECTOR mm [in] 

**==> picture [456 x 356] intentionally omitted <==**

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30,24<br> [1.19]<br>2X Ø 5,3<br>[Ø 0.21]<br>22 [0.87]<br>EEC Electrical Schematic Proximity<br>Sensor<br>Supply/Excitation<br>25 [0.98] 1 A<br>Back cap Load L<br>To measuring unit 2 B Output og<br>i<br>c<br>3 C Supply Return<br>7ry 19,8 [0.78] eaHit t<br>62 [2.44]<br>Connector: D38999/25YA98PN<br>(mates with D38999/26MA98SN<br>31 [1.22]<br>or equivalent)<br>— Master<br>2X 0,33 [0.013] x 45° =< keyway<br>C<br>T | A<br>[1.92]49 [0.015]R 0,4  B 3 [0.12]<br>max. A<br>17 [0.67]<br>A 38,6 Upper housing R 0,4 [0.015]<br>[1.52]<br>23,1<br>[0.91] 13,9 [0.55] Lower housing<br>oo—<br>3,89 [0.153] End cap<br>Ø 15 [Ø 0.59]<br>Ø 13,5<br>[Ø 0.53] Ø 18 [Ø 0.71]<br>Ø 19 [Ø 0.748]<br>**----- End of picture text -----**<br>


## FIGURE 16. HAPS SERIES: RIGHT ANGLE WITH EN2997Y10803MN CONNECTOR mm [in] 

**==> picture [539 x 299] intentionally omitted <==**

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29,61 [1.17]<br>( a<br>@i i t<br>Back cap Connector:<br>EN2997Y10803MN 22<br>EN2997SEC0803FN(mates with  [0.87] Ø 14,4<br>or equivalent. [Ø 0.57]<br>Master keyway<br>— =<br>1,02 [0.04]<br>Detail A<br>60 See Detail A. Scale 6:1<br>Upper housing (| [2.36] (im @ ¢<br>max. 25,1 [0.988] [1.46]37,1 0.6250-24 UNEF-2A<br>Lower housing 19,89<br>[0.78]<br>Sse. |=<br>End cap Ø 13,5 [Ø 0.53] 3,89 [0.153]<br>Ø 19 [Ø 0.748] EEC Electrical Schematic Proximity<br>Sensor<br>14,77 Supply/Excitation<br>[0.58] 1 1<br>Load<br>L<br>2 [0.04] To measuring unit 2 2 Output og<br>i<br>c<br>3 3 Supply Return<br>O j  i a<br>Sensing and Internet of Things     15<br>**----- End of picture text -----**<br>


AEROSPACE PROXIMITY SENSORS, GAPS & HAPS SERIES 

## FIGURE 17. HAPS SERIES: RIGHT ANGLE, FLANGED HOUSING WITH PIGTAIL CONNECTION mm [in] 

**==> picture [476 x 349] intentionally omitted <==**

**----- Start of picture text -----**<br>
23 [0.90] Refer pigtail length<br>in nomenclature<br>2X Ø 5,3<br>[Ø 0.21]<br>EEC Electrical Schematic Proximity<br>Sensor<br>22 [0.87] L a White with  Supply/Excitation<br>orange stripes<br>Load<br>L<br>To measuring  White with  Output o<br>unit blue stripes g<br>i<br>KH |<br>25 [0.98] c<br>White Supply Return<br>tape a F y<br>Lbe Back cap : t p 62 [2.44] l<br>22<br>[0.87]<br>31 [1.22]<br>Bush<br>Rear bush<br>R 0,25<br>[0.01]<br>2X 0,5 [0.02] x 45° 3 [0.12]<br>49 A ne 17 7: -<br>[1.92] [0.67]<br>A R 0,4 [0.015]<br>bo, | : © |<br>23,1 37,1 Upper housing<br>[0.91] [1.46]<br>Lower housing<br>End cap Ø 15,875<br>3,89 [0.153] [Ø 0.625]<br>Ø 18 [Ø 0.71]<br>Ø 13,5 [Ø 0.53]<br>Ø 19 [Ø 0.748]<br>ce<br>**----- End of picture text -----**<br>


## FIGURE 18. HAPS SERIES: RIGHT ANGLE WITH M83723/90Y1005N CONNECTOR mm [in] 

30 [1.18] 

**==> picture [439 x 240] intentionally omitted <==**

**----- Start of picture text -----**<br>
Back cap Connector:<br>M83723/90Y1005N 22<br>(mates with  [0.87]<br>M83723/97S1005N Ø 14,4<br>or equivalent.) Master keyway [Ø 0.57]<br>1,02 [0.04]<br>Upper housing 50 Detail A<br>Jig [1.97] @ See Detail A. # Scale 6:1<br>Lower housing max. 37,1<br>25,1 [0.988] [1.46] 0.6250-24 UNEF-2A<br>19,89<br>[0.78]<br>End cap Ø 13,5 [Ø 0.53] 3,89 [0.153]<br>= o_o Ø 19 | EEC Proximity<br>[Ø 0.748] Sensor<br>14,77 Electrical Schematic 4 No Connection<br>[0.58]<br>5 No Connection<br>2 [0.04] Supply/Excitation 1<br>Load<br>L<br>To measuring unit Output 2 og<br>i<br>c<br>Supply Return 3<br>Ol l l =<br>Connector<br>**----- End of picture text -----**<br>


16    sensing.honeywell.com 

## FOR MORE INFORMATION 

Honeywell Sensing and Internet of Things services its customers through a worldwide network of sales offices and distributors. For application assistance, current specifications, pricing, or the nearest Authorized Distributor, visit sensing.honeywell.com or call: 

## WARRANTY/REMEDY 

Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship during the applicable warranty period. Honeywell’s standard product warranty applies unless agreed to otherwise by Honeywell in writing; please refer to your order acknowledgment or consult your local sales office for specific warranty details. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace, at its option, without charge those items that Honeywell, in its sole discretion, 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 fitness for a particular purpose. In no event shall Honeywell be liable for consequential, special, or indirect damages. 

While Honeywell may provide application assistance personally, through our literature and the Honeywell web site, it is buyer’s sole responsibility to determine the suitability of the product in the application. 

Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this writing. However, Honeywell assumes no responsibility for its use. 

## m WARNING PERSONAL INJURY 

DO NOT USE these products as safety or emergency stop devices or in any other application where failure of the product could result in personal injury. 

Failure to comply with these instructions could result in death or serious injury. 

## m WARNING MISUSE OF DOCUMENTATION 

- The information presented in this product sheet is for reference only. Do not use this document as a product installation guide. 

- • Complete installation, operation, and maintenance information is provided in the instructions supplied with each product. 

- Failure to comply with these instructions could result in death or serious injury. 

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## Honeywell Sensing and Internet of Things 

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