Honeywell Quadrature Speed and Direction Sensors SNG-Q Series Installation Guide
- June 7, 2024
- Honeywell
Table of Contents
- Quadrature Speed and Direction Sensors 32309314
- SNG-Q Series
- General Information
- Table 1. Electrical Specifications
- Table 2. Mechanical Specifications
- Table 3. Environmental Specifications
- Leadwire Assignment
- Deutsch DTM04-4P Pinout
- Amp Superseal 1.5 Connector Pinout
- Figure 6. SNG-QPMB-000 Mounting Dimensions (For reference only:
- Circuit Diagram
- Leadwire Assignment
- Figure 7. SNG-QPDB-000 Mounting Dimensions (For reference only:
- Circuit Diagram
- Amp Superseal 1.5 282106 Pinout
- Figure 8. SNG-QPDB-002 Mounting Dimensions (For reference only:
- Circuit Diagram
- Deutsch DTM04-4P Pinout
- WARNING
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Installation Instructions for the
Quadrature Speed and Direction Sensors 32309314
SNG-Q Series
Issue E
General Information
Honeywell’s SNG-Q Series Quadrature Speed and Direction Sensors are designed to provide both speed and direction information. Speed information is provided from digital square wave outputs; direction is provided using a quadrature output with signals 90° phase shifted from each other. With the quadrature output, target direction is determined by output lead/lag phase shifting.
The product is designed for applications where enhanced accuracy is required to detect small target features. This accuracy is enabled by dual differential Hall-effect sensor IC technology. The SNG-Q Series is designed for a wide operating temperature range, robust electrical noise immunity and industry leading environmental sealing capability.
This product includes an O-ring seal for pressure applications, and a fixed mounting flange for simple installation using one fastener.
Table 1. Electrical Specifications
| Characteristic | Parameter | Comment |
|---|---|---|
| Supply voltage | 4.5 V to 26 V | — |
Output signal:
type
duty cycle¹
phase shift
high
low:
SNG-QPLA/QPCA/
QPMB/QPDB
load current
rise time
fall time
frequency
|
square wave
50% ±10%
90° ±45°
≥Vs – 0.5 V
≤0.5 V
≤1.75 V
40 mA max.
10 us max.
5 us max.
3 Hz to 20 kHz
|
Two channel, phase shifted by 90° either channel, may lead or lag.
Dependent on target geometry and sensor-to-target orientation; see Figures 2, 3, 4, 5, 6, 7, 8, 9 for recommended orientation.
Dependent on target geometry and sensor-to-target orientation; see Figures 2, 3, 4, 5, 6, 7, 8, 9 for recommended orientation.
—
—
Applies to each output at all conditions.
1 kOhm pull-up resistor, dependent on load resistor.
1 kOhm pull-up resistor, dependent on load resistor.
Frequencies >10 kHz may be dependent on target geometry and air gap.
Short circuit protection| 50 mA max.| —
Supply current:
normal
max.
|
12 mA
18 mA
|
all conditions
Reverse voltage| -26 V max.| 10 min duration
¹Duty cycle = Time high/time total.
Table 2. Mechanical Specifications
| Characteristic | Parameter |
|---|---|
| Sensing air gap | 0,0 mm to 2,0 mm [0.0 in to 0.08 in] |
Target:
width1
slot width2
tooth width2
tooth height3
|
5,0 mm [0.20 in] recommended; 12,7 mm [0.5 in] typ.
2,0 mm [0.08 in] min.
2,0 mm [0.08 in] min.
3,0 mm [0.12 in] recommended; 5,0 mm [0.20 in] typ.
Materials:
housing
bushing
O-ring
cable4
|
PBT
brass
fluorocarbon with PTFE coating, ø11,8 mm [ø0.47 in] OD x ø1,80 mm [ø0.07 in] CS
EVA, four conductor, 36 AWG, 28 strand, ø5,2 mm [ø0.20 in] jacket
Mounting:
bore size5
torque
|
ø15,15 mm to ø15,40 mm [ø0.60 in to ø0.61 in]
10 N m [88.5 in-lb] max. with M6 X 1.0 bolt
¹Narrower targets may limit axial offsets.
²Other geometry may be suitable.
³Shorter tooth heights may limit maximum air gap performance.
4Applies to SNG-QPLA-001, SNG-QPCA-001, SNG-QPMB-000, SNG-QPDB-000, and SNG-
QPDB-002.
5Application dependent.
Table 3. Environmental Specifications
| Characteristic | Condition | Parameter |
|---|
EMI:
radiated immunity
bulk current injection
ESD
|
ISO 11452-2, 400 MHz to 1 GHz
ISO 11452-4, 1 MHz to 400 MHz
ISO 10605, Section 9 conforms to CE Mark standards
EN60947-5-2:2007 and EN 60947-5-2/A1:2012
|
100 V/m
100 mA
±8 kV contact, ±15 kV air
Operating temperature| —| -40°C to 150°C [-40°F to 302°F]
Thermal shock, air to air| -40°C to 150°C [-40°F to 302°F], 60 min. soak, <3 s
transfer| 500 cycles
Humidity| 95% humidity at 38 °C [100 °F]| 240 hr
Salt fog| 5% salt solution by mass at 35 °C [95 °F]| 96 hr
Thermal saline dunk| 100°C to 25°C [212°F to 77°F] air to liquid, 5% saline|
10 cycles
High temperature exposure with power| 150°C [302°F], 13.5 Vdc, 1 kOhm load|
500 hr
Vibration| 3 perpendicular axes, 48 hr per axis| 29.28 GMS, 50 Hz to 2000 Hz
MIL-STD-202-214
Degree of protection| —| IP69K
Resistance to fluids| —| general under-the-hood automotive fluids
Figure 1. Sensor Output (All catalog listings)
Figure 2. Possible Mounting Orientations
Figure 3. SNG-QPLA-000 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Note: The load resistor values should be such that the output current does not exceed the maximum load current of 40 mA.
Use Ohm’s Law to calculate the load resistor based on the supply/load voltage used:
R = V / 0.04 A
Leadwire Assignment
Yellow
| Black| White| Blue
---|---|---|---
Vsupply| Ground| Channel A|
Channel B
Figure 4. SNG-QPCA-001 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Note: The load resistor values should be such that the output current does not exceed the maximum load current of 40 mA.
Use Ohm’s Law to calculate the load resistor based on the supply/load voltage used:
R = V / 0.04 A
Deutsch DTM04-4P Pinout
(mating connector is Deutsch DTM06-4S)
Pin 1
| Pin 2| Pin 3| Pin 4
---|---|---|---
Vsupply| Ground| Channel A|
Channel B
Figure 5. SNG-QPRA-000 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Note: The load resistor values should be such that the output current does not exceed the maximum load current of 40 mA.
Use Ohm’s Law to calculate the load resistor based on the supply/load voltage used:
R = V / 0.04 A
Amp Superseal 1.5 Connector Pinout
(mating connector is Amp Superseal 1.5 282088)
Pin A
| Pin B| Pin C| Pin D
---|---|---|---
Ground| Channel A| Channel B|
Vsupply
Figure 6. SNG-QPMB-000 Mounting Dimensions (For reference only:
mm/[in].)
Circuit Diagram
Note: The load resistor values should be such that the output current does not exceed the maximum load current of 40 mA.
Use Ohm’s Law to calculate the load resistor based on the supply/load voltage used:
R = V / 0.04 A
Leadwire Assignment
Yellow
| Black| White| Blue
---|---|---|---
Vsupply| Ground| Channel A|
Channel B
Figure 7. SNG-QPDB-000 Mounting Dimensions (For reference only:
mm/[in].)
Circuit Diagram
Note: The load resistor values should be such that the output current does not exceed the maximum load current of 40 mA.
Use Ohm’s Law to calculate the load resistor based on the supply/load voltage used:
R = V / 0.04 A
Amp Superseal 1.5 282106 Pinout
(mating connector is Amp Superseal 1.5 282088)
Pin 1
| Pin 2| Pin 3| Pin 4
---|---|---|---
Vsupply| Channel B| Channel A|
Ground
Figure 8. SNG-QPDB-002 Mounting Dimensions (For reference only:
mm/[in].)
Circuit Diagram
Note: The load resistor values should be such that the output current does not exceed the maximum load current of 40 mA.
Use Ohm’s Law to calculate the load resistor based on the supply/load voltage used:
R = V / 0.04 A
Deutsch DTM04-4P Pinout
(mating connector is Deutsch DTM06-4S)
Pin 1
| Pin 2| Pin 3| Pin 4
---|---|---|---
Vsupply| Channel B| Channel A|
Ground
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.
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 acknowledgement 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.
For more information
Honeywell Advanced Sensing Technologies services its customers through a
worldwide network of sales offices and distributors.
For application assistance, current specifications, pricing or the nearest
Authorized Distributor, visit our website or
call:
Asia Pacific +65 6355-2828
Europe +44 (0) 1698 481481
USA/Canada +1-800-537-6945
Honeywell Advanced Sensing Technologies
830 East Arapaho Road
Richardson, TX 75081
sps.honeywell.com/ast
32309314-E-EN | E | 05/21
© 2021 Honeywell International Inc.
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>