Honeywell | SNG-Q Series Quadrature Speed and Direction Sensors | Datasheet | Honeywell SNG-Q Series Quadrature Speed and Direction Sensors Datasheet

Honeywell SNG-Q Series Quadrature Speed and Direction Sensors Datasheet
Quadrature Speed and Direction Sensors
SNG-Q Series
32304260
Issue D
Datasheet
SNG-QPLA-000
SNG-QPRA-000
SNG-QPMB-000
SNG-QPDB-000
SNG-QPCA-001
SNG-QPDB-002
DESCRIPTION
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.
VALUE TO CUSTOMERS
• Higher reliability: IP69K rating, EMC radiated immunity
protection, O-ring seal and wide operating temperature
range:
- Improves equipment uptime
- Minimizes service costs
- Provides resistance to high electrical noise
- Provides resistance to moisture intrusion
- Wide operating temperature range
- Attempts to substantially reinforce the customer’s brand
equity
• Cost-competitive: Designed and manufactured using
a platform-based approach that enables better costcompetitiveness and mechanical and electrical
configurability for customers.
• Enhanced accuracy: Dual differential Hall-effect sensor IC
technology allows an enhanced ability to detect small target
features.
• Flexible: Wide operating temperature range, robust electrical
noise immunity and enhanced environmental sealing
capability allow flexibility of use in the application.
• Expedites installation: O-ring seal for use in pressure
applications and a fixed mounting flange allows for a
simpler installation process, using one fastener.
Sensing and Internet of Things
FEATURES
• Wide operating temperature range: -40ºC to 150ºC
[-40°F to 302°F]
• Environmental sealing: Moisture ingress protection rated to
IP69K
• Robust electrical noise immunity: Electrical noise radiated
immunity (EMC) rated to 100 V/m
• High frequency switching capability: 3 Hz to 20 kHz
• Direction information: From phase-shifted dual output
signals
• O-ring seal: Enables environmental sealing to mounting
surface
• Supply voltage range: 4.5 V to 26 V
• CE certified
POTENTIAL APPLICATIONS
Industrial:
• AC induction motors in material handling, agriculture, and
construction machines: May be used to help control power
delivered by the ac induction motor
• Escalators and elevators: May be used to help control speed
and position
Transportation:
• Hybrid electric transmissions in heavy duty trucks, buses,
agriculture and construction machines: May be used to help
control power regulation of the hybrid system
• Wheel speed detection in material handling, agriculture, and
construction machines: May be used to detect the speed
and direction of the wheels, which translates to the speed
and direction of the machine
• Hybrid engines in heavy duty trucks, buses, agriculture and
construction machines: May be used to help control power
regulation of the hybrid system
Not recommended for Aerospace or Defense applications.
PORTFOLIO
The SNG-Q Series joins the SNDH-T Series speed and
direction sensors. For speed only sensors, see the SNDH-H
Series, LCZ Series, ZH10 Series and 584XX Series.
Quadrature Speed and Direction Sensors, SNG-Q Series
Table 1. Electrical Specifications
Characteristic
Parameter
Comment
Supply voltage
4.5 V to 26 V
—
Output signal:
type
duty cycle1
square wave
50% ±10%
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.
—
—
phase shift
90° ±45°
high
low:
SNG-QPLA/QPCA/
QPMB/QPDB
load current
rise time
fall time
frequency
>Vs - 0.5 V
<0.5 V
<1.75 V
40 mA max.
10 us max.
5 us max.
3 Hz to 20 kHz
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
Duty cycle = Time high/time total.
1
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
cable 4
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 size 5
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
Narrower targets may limit axial offsets.
2
Other geometry may be suitable.
3
Shorter tooth heights may limit maximum air gap performance.
4
Applies to SNG-QPLA-001, SNG-QPCA-001, SNG-QPMB-000, SNG-QPDB-000, and SNG-QPDB-002.
5
Application dependent.
1
2
Sensing and Internet of Things
Quadrature Speed and Direction Sensors, SNG-Q Series
Table 3. Environmental Specifications
Characteristic
Condition
Parameter
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
EMI:
radiated immunity
bulk current injection
ESD
NS
Table 4. Order Guide
Catalog Listing
Description
SNG-QPLA-000
SNG-Q Series, quadrature speed and direction sensor, plastic housing, 35 mm [1.38 in] housing length,
500 mm [19.7 in] cable, right angle exit,
SNG-QPCA-001
SNG-Q Series, quadrature speed and direction sensor, plastic housing, 35 mm [1.38 in] housing length,
Deutsch DTM04-4P connector with 1250 mm [49.2 in] cable, right angle exit
SNG-QPRA-000
SNG-Q Series, quadrature speed and direction sensor, plastic housing, 35 mm [1.38 in] housing length,
integral Amp Superseal 1.5 connector, right angle exit
SNG-QPMB-000
SNG-Q Series, quadrature speed and direction sensor, plastic housing, 45 mm [1.77 in] housing length,
500 mm [19.7 in] cable, straight exit
SNG-QPDB-000
SNG-Q Series, quadrature speed and direction sensor, plastic housing, 45 mm [1.77 in] housing length,
Amp Superseal 1.5 connector 282106 with 145 mm [5.71 in] cable, straight exit
SNG-QPDB-002
SNG-Q Series, quadrature speed and direction sensor, plastic housing, 45 mm [1.77 in] housing length,
Deutsch DTM04-4P c
onnector with 1250 mm [49.2 in] cable, straight exit
Figure 1. General Nomenclature
For example, SNG-QPLA-000 defines an SNG-Q Series quadrature speed and direction sensor, plastic housing, cable with leads, right
angle exit, 35 mm [1.38 in] housing length.
SNG-Q
P
L
A
Series
Housing Material1
Connection Type2
Housing Length
4-wire quadrature
speed and direction
sensor
P
Plastic
S
Integral connector, straight exit3
A
35 mm [1.38 in]
R
Integral connector, right angle exit
B
45 mm [1.77 in]
L
Cable with leads, right angle exit
M
Cable with leads, straight exit
C
Connector with cable, right angle exit
D
Conenctor with cable, straight exit3
-
000
For Internal Use Only
Contact Honeywell for other Housing Material options.
Other cable lengths available upon request.
3
Contact Honeywell.
1
2
Sensing and Internet of Things
3
Quadrature Speed and Direction Sensors, SNG-Q Series
Figure 2. Sensor Output (All catalog listings)
Figure 3. Possible Mounting Orientations
Vsupply
Radial
Output
channel A
(leading)
Phase shift
Vsupply
Output
channel B
(lagging)
Target cross section
relative to output
channel A
0°
90°
270°
180°
360°
90°
Axial
Tooth
Slot
Figure 4. SNG-QPLA-000 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Vs: Yellow wire
Load B
Load A
2,0
[0.08]
Channel B: Blue wire
Power
Supply
(4.5 V to 26 V)
Channel A: White wire
SNG-QPLA-000
Ground: Black wire
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:
500
[19.69]
ø6,20
23
[0.91]
R = V / 0.04 A
4
[0.16]
[0.24]
ø13,00
[0.51]
15,0
[0.59]
15,0
[0.59]
Leadwire Assignment
ø21,00
21,5
[0.85]
Yellow
[0.83]
Vsupply
5,00
[0.20]
56.0 Max.
[2.20]
8,50 - 9,00
[0.33 - 0.35]
4,50
[0.18]
2,50
[0.10]
34,95
[1.38]
ø13,90
[0.55]
ø14,95
[0.59]
4
Sensing and Internet of Things
Black
White
Blue
Ground Channel A Channel B
Quadrature Speed and Direction Sensors, SNG-Q Series
Figure 5. SNG-QPCA-001 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Vs: Pin 1
Load B
Load A
Power
Supply
(4.5 V to 26 V)
Channel B: Pin 4
Channel A: Pin 3
SNG-QPCA-001
2,0
[0.08]
Ground: Pin 2
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
1250
[49.2]
ø6,20
[0.24]
ø13,00
[0.51]
ø21,00
15,0
[0.59]
15,0
[0.59]
[0.83]
21,5
[0.85]
5,00
[0.20]
56.0 Max.
[2.20]
8,50 - 9,00
[0.33 - 0.35]
4,50
[0.18]
2,50
[0.10]
34,95
[1.38]
ø13,90
[0.55]
ø14,95
[0.59]
4
3
1
2
Deutsch DTM04-4P Pinout
(mating connector is Deutsch DTM06-4S)
Pin 1
Vsupply
Pin 2
Pin 3
Pin 4
Ground Channel A Channel B
Sensing and Internet of Things
5
Quadrature Speed and Direction Sensors, SNG-Q Series
Figure 6. SNG-QPRA-000 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Vs: Pin D
Load B
Load A
2,0
[0.08]
Channel B: Pin C
Power
Supply
(4.5 V to 26 V)
Channel A: Pin B
SNG-QPRA-000
Ground: Pin A
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
15
[0.59]
ø6,20
Amp Superseal 1.5 Connector Pinout
(mating connector is Amp Superseal 1.5 282088)
[0.24]
31,77
[1.25]
3
[0.12]
13,80
[0.54]
108.5°
5,85
[0.23]
66,0 Max.
[2.60]
5,00
[0.20]
8,50 - 9,00
[0.33 - 0.35]
4,50
[0.18]
2,50
[0.10]
34,95
[1.38]
ø13,90
[0.55]
ø14,95
[0.59]
6
Sensing and Internet of Things
Pin A
Pin B
Pin C
Pin D
Ground
Channel A
Channel B
Vsupply
Quadrature Speed and Direction Sensors, SNG-Q Series
Figure 7. SNG-QPMB-000 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Vs: Yellow wire
Power
Supply
(4.5 V to 26 V)
Load B
Load A
0,0 - 2,0
[0.0 - 0.8]
Channel B: Blue wire
Channel A: White wire
SNG-QPMB-000
Ground: Black wire
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
ø18,0
Leadwire Assignment
[0.71]
ø6,2
[0.24]
Yellow
Vsupply
ø13,00
Black
White
Blue
Ground Channel A Channel B
ø20,8
[0.51]
[0.82]
15,0
[0.59]
4
[0.16]
23
[0.91]
490
[19.29]
5,0
[0.20]
61,0 Max.
[2.40]
8,50 - 9,50
[0.33 - 0.37]
4,50
[0.18]
2,5
[0.10]
44,95
[1.77]
ø13,9
[0.55]
ø14,9
[0.59]
Sensing and Internet of Things
7
Quadrature Speed and Direction Sensors, SNG-Q Series
Figure 8. SNG-QPDB-000 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
VS: Pin 1
Power
Supply
(4.5 V to 26 V)
Load B
Load A
0,0 - 2,0
[0.0 - 0.8]
Channel B: Pin 2
SNG-QPDB-000
Channel A: Pin 3
Ground: Pin 4
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
ø18,0
Amp Superseal 1.5 282106 Pinout
(mating connector is Amp Superseal 1.5
282088)
Pin 4
[0.71]
Pin 3
ø6,2
[0.24]
Pin 2
Pin 1
Pin 1
ø13,00
Vsupply
ø20,80
[0.51]
[0.82]
15,0
[0.59]
50.0
[1.97]
145
[5.71]
5,0
[0.20]
61,0 Max.
[2.40]
8,50 - 9,50
[0.33 - 0.37]
4,50
[0.18]
2,5
[0.10]
44,95
[1.77]
ø13,90
[0.55]
ø14,95
[0.59]
8
Sensing and Internet of Things
Pin 2
Pin 3
Channel B Channel A
Pin 4
Ground
Quadrature Speed and Direction Sensors, SNG-Q Series
Figure 9. SNG-QPDB-002 Mounting Dimensions (For reference only: mm/[in].)
Circuit Diagram
Vs: Pin 1
Load A
Load B
0,0 - 2,0
[0.0 - 0.8]
Channel B: Pin 2
Power
Supply
(4.5 V to 26 V)
Channel A: Pin 3
SNG-QPDB-002
Ground: Pin 4
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
15,0
[0.59]
ø13,00
Deutsch DTM04-4P Pinout
(mating connector is Deutsch DTM06-4S)
ø18,0
[0.51]
[0.71]
Pin 1
Pin 2
Pin 3
Pin 4
Vsupply Channel B Channel A Ground
ø6,2
[0.24]
41,30
[1.63]
1250
[49.2]
5,0
[0.20]
8,50 - 9,50
[0.33 - 0.37]
4,50
[0.18]
61,0 Max.
[2.40]
2,5
[0.10]
44,95
[1.77]
ø13,90
[0.55]
ø14,90
[0.59]
Sensing and Internet of Things
9
ADDITIONAL INFORMATION
The following associated literature is available on the
Honeywell web site at sensing.honeywell.com:
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.
• Product Range Guide
• Product Line Guide
• Product Installation Instructions
Failure to comply with these instructions could result in
death or serious injury.
• Application notes
WARNING
MISUSE OF DOCUMENTATION
• The information presented in this datasheet 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.
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.
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:
Asia Pacific
+65 6355-2828
Europe +44 (0) 1698 481481
USA/Canada
+1-800-537-6945
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.
Honeywell Sensing and Internet of Things
9680 Old Bailes Road
Fort Mill, SC 29707
www.honeywell.com
32304260-D-EN | D | 05/18
© 2018 Honeywell International Inc.
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertising