RTY090HVNBA [HONEYWELL]
Hall-effect Rotary Position Sensors;型号: | RTY090HVNBA |
厂家: | Honeywell |
描述: | Hall-effect Rotary Position Sensors |
文件: | 总10页 (文件大小:1538K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Hall-effect Rotary Position Sensors
RTY Series with Integral Actuator
RTP Series with External Actuator
Datasheet
RTY Series and RTP Series Hall-effect Rotary Position
Sensors
The RTY Series and RTP Series Hall-effect Rotary Position Sensors provide non-contact sensing in harsh transportation and
industrial applications at a competitive cost.
•
•
RTY Series: These shaft activated products are available in two versions: an integral shaft with or without a lever. The lever
may allow customers to reduce the number of mechanical linkages required for their applications, which may reduce the cost
of the overall customer solution.
RTP Series: Takes non-contact sensing to the next level by separating the magnet from the sensor body. The absence of the
actuator shaft removes the wear and tear on the bearings caused by radial forces. A choice of a bare or a housed magnet is
available.
These products use a magnetically biased, Hall-effect integrated circuit (IC) to sense rotary movement of the actuator over a set
operating range. Rotation of the actuator changes the magnet’s position relative to the IC. The resulting flux density change is
converted to a linear output.
The IC, together with conditioning and protection circuitry, is sealed in an IP69K-qualified rugged package for durability in most
harsh environments.
Eight operating ranges from 50° to 360° are tolerant to over-travel and allow use in most common applications. Low voltage and
high voltage versions cover an input voltage range of 4.5 Vdc to 30 Vdc.
Honeywell’s industry-leading capabilities in research and development provide the customer with known quality and support.
Potential Applications
Features
TRANSPORTATION
•
True, non-contact operation
•
Position and movement detection (pedals, throttles,
gear shift, levers, steering, linkages, and hitches) in
trucks, buses, off-road vehicles, cranes, and industrial/
construction/agricultural vehicles and equipment)
Suspension/kneeling position (buses, trucks)
•
35 M cycle product life (RTY Series); unlimited rotation (RTP
Series)
•
•
•
Solid-state Hall-effect technology
Rugged IP69K-sealed package with integral connector
Automotive-grade EMI/EMC testing, integrated reverse
polarity, and short circuit protection
•
•
Tilt/trim position (boat engines, tilling equipment)
•
•
Industry-standard AMP termination, 32 mm mounting pitch,
North American or European pinout styles, and compact
package
INDUSTRIAL
•
•
•
Valve control
HVAC damper control
Irrigation equipment pivot control
Eight operating ranges up to 360°
RUGGED • LONG PRODUCT LIFE • NON-CONTACT SENSING
sensing.honeywell.com
2
Hall-effect Rotary Position Sensors
Table 1. Electrical Specifications
RTY Series
RTP Series
LV (Low Voltage) HV (High Voltage)
0.5 Vdc
Characteristic
LV (Low Voltage)
0.5 Vdc
HV (High Voltage)
Supply voltage
5
10 Vdc to 30 Vdc
5
10 Vdc to 30 Vdc
Supply current:
normal
during output to ground short
20 mA max.
25 mA max.
32 mA max.
47 mA max.
20 mA max.
25 mA max.
32 mA max.
47 mA max.
Output:
standard
0.5 Vdc to 4.5 Vdc
ratiometric
0.5 Vdc to 4.5 Vdc
non-ratiometric
0.5 Vdc to 4.5 Vdc
ratiometric
0.5 Vdc to 4.5 Vdc
non-ratiometric
inverted
4.5 Vdc to 0.5 Vdc
ratiometric
4.5 Vdc to 0.5 Vdc
non-ratiometric
4.5 Vdc to 0.5 Vdc
ratiometric
4.5 Vdc to 0.5 Vdc
non-ratiometric
Output signal delay
4 ms typ.
Overvoltage protection
10 Vdc
-10 Vdc
—
10 Vdc
-10 Vdc
—
Reverse polarity protection
-30 Vdc
-30 Vdc
Output to ground short circuit
protection
continuous
12 bit
Resolution
Output load resistance
(pull down to ground)
10 kOhm typ.
EMI:
100 V/m per ISO11452-2 from 200 MHz to 1000 MHz
100 V/m per ISO11452-2 from 200 MHz to 1000 MHz
radiated immunity
conducted immunity
EMC
100 mA BCI per ISO11452-4 100 mA BCI per ISO11452-4 100 mA BCI per ISO11452-4 100 mA BCI per ISO11452-4
from 1 MHz to 200 MHz
from 1 MHz to 400 MHz
from 1 MHz to 200 MHz
from 1 MHz to 400 MHz
exceeds CE requirements
Table 2. Mechanical Specifications
RTY Series
LV (Low Voltage) HV (High Voltage)
35 M cycles
RTP Series
Characteristic
LV (Low Voltage)
HV (High Voltage)
infinite rotation
Expected life
-
Air gap:
—
—
—
3,00 mm 0.5 mm [0.12 in 0.02 in]
2,00 mm 0.5 mm [0.08 in 0.02 in]
2.002,00 mm [0.08 in] max.
bare magnet actuator
housed magnet actuator
misalignment
Material:
shaft
magnet
sensor housing
housed magnet overmold
sensor/housed magnet bushing
sensor bushing
stainless steel
—
NdFeB
PBT plastic
PPS plastic
brass
—
PBT plastic
—
—
stainless steel
—
AMP Superseal 282087-1
no
Mating connector
Mechanical end stop
Mounting screw sizes:
sensor to mounting surface
non-magnetic, stainless steel M5 screws and
10 mm [0.39 in] OD washers
non-magnetic, stainless steel M4 X 0.7 screws and
8 mm [0.31 in] OD washers
non-magnetic stainless steel M6 screws,
—
—
lever to mounting surface
non-magnetic, stainless steel M3 X 0.5
plain cup point set screws
housed magnet actuator to
actuator mounting shaft
Approvals
CE
sensing.honeywell.com
3
RTY Series and RTP Series
Table 3. Environmental Specifications
RTY Series
RTP Series
LV (Low Voltage) HV (High Voltage)
-40 °C to 125 °C [-40 °F to 257 °F]
Characteristic
LV (Low Voltage)
HV (High Voltage)
Operating temperature range
Ingress protection
Media compatibility
Shock1
IP69K
heavy transportation fluids
50 G peak
Vibration1
20 G peak
concentration 5% 1% for 240 hr per SAE J1455
Section 4.3.3.1 (at 5.0 Vdc, 38 °C [100 F °])
bare magnet: 96 hr for as per ASTM B117
housed magnet: 240 hr per ASTM B117
Salt fog
1 Does not apply RTY Series sensor shaft with lever.
CAUTION
NOTICE
ELECTROSTATIC
SENSITIVE
DEVICES
Ferrous material or magnet material more
DO NOT OPEN OR HANDLE
than 300 Gauss within 10 mm [0.39 in]
from sensor boundary may impact
sensor performance.
EXCEPT AT A
STATIC FREE WORKSTATION
ESD SENSITIVITY:
CLASS 2
Figure 1. All Available Configurations
Series
Actuator Type
Integral shaft without lever
Series
Actuator Type
Separate bare magnet
RTY
RTP
Integral shaft with lever
Separate housed magnet
sensing.honeywell.com
4
Hall-effect Rotary Position Sensors
Figure 2. Product Nomenclature
RTY Series
For example, RTY050LVEAA deꢀnes an RTY Series Hall-Effect Rotary Position Sensor, 50° (±±5°ꢁ sensinꢂ ranꢂe anꢂle, 5 Vdc supply
voltaꢂe, European pinout style, 4.5 Vdc (leftꢁ, 0.5 Vdc (riꢂhtꢁ output type, shaft without lever actuation type
A
RTY
LV
E
A
050
Sensinꢂ Ranꢂe
Anꢂle
Output Type
Series
Supply Voltaꢂe
Actuator Type
Pinout Style
RTY Series Hall-Effect
Rotary Postion Sensor
with Inteꢂral Actuator
Shaft without lever
5 Vdc
X
A
Standard:
0.5 Vdc (leftꢁ, 4.5 Vdc (riꢂhtꢁ
LV
50° (±±5°ꢁ
European:
050
E
A
B
pin 1 = GND
pin ± = Vcc
pin ꢃ = output
10 Vdc to ꢃ0 Vdc
60° (±ꢃ0°ꢁ
70° (±ꢃ5°ꢁ
90° (±45°ꢁ
1±0° (±60°ꢁ
HV
060
070
090
120
Inverted:
4.5 Vdc (leftꢁ, 0.5 Vdc (riꢂhtꢁ
North American:
pin 1 = Vcc
pin ± = GND
pin ꢃ = output
N
Shaft with lever
180° (±90°ꢁ
±70° (±1ꢃ5°ꢁ
ꢃ60° (±180°ꢁ
180
270
360
RTP Series
For example, RTP050LVEBX deꢀnes an RTP Series Hall-Effect Rotary Position Sensor, 50° (±±5°ꢁ sensinꢂ ranꢂe anꢂle, 5 Vdc supply
voltaꢂe, European pinout style, inverted 4.5 Vdc (leftꢁ, 0.5 Vdc (riꢂhtꢁ output type, bare maꢂnet actuator type
RTP
B
X
050
LV
E
Sensinꢂ Ranꢂe
Anꢂle
Series
Output Type
Supply Voltaꢂe
Actuator Type
Pinout Style
RTP Series Hall-Effect
Rotary Postion Sensor
with External Actuator
5 Vdc
Standard:
0.5 Vdc (leftꢁ, 4.5 Vdc (riꢂhtꢁ
LV
European:
50° (±±5°ꢁ
60° (±ꢃ0°ꢁ
70° (±ꢃ5°ꢁ
E
Bare maꢂnet
050
060
070
X
A
A
B
pin 1 = GND
pin ± = Vcc
pin ꢃ = output
10 Vdc to ꢃ0 Vdc
HV
Inverted:
4.5 Vdc (leftꢁ, 0.5 Vdc (riꢂhtꢁ
North American:
pin 1 = Vcc
pin ± = GND
pin ꢃ = output
N
90° (±45°ꢁ
090
120
Housed maꢂnet
(carrier type “A”ꢁ±
1±0° (±60°ꢁ
180° (±90°ꢁ
±70° (±1ꢃ5°ꢁ
ꢃ50° (±175°ꢁ
ꢃ60° (±180°ꢁ1
180
270
350
360
1 ꢃ60° Sensinꢂ Ranꢂe Anꢂle available upon request.
± Customized housed maꢂnet actuators available upon request.
sensing.honeywell.com
5
RTY Series and RTP Series
Figure 3. RTY Series Mounting Dimensions (For reference only: mm [in.])
Sensor without lever
Output diagram
22,0
[0.87]
5,3
[0.21]
ø5,35
8,3
[0.33]
[0.21]
37.0
[1.46]
ø15,50
[0.61]
55
[2.17]
4,60
[0.18]
36,4
[1.43]
1
3
2
1
Mounting surface
9,5
[0.37]
13,8
[0.54]
26,0
[1.02]
15,6
[0.61]
B
θ
A
C
Non-magnetic, stainless steel M5
screws and 10 mm [0.39 in] OD
washers, mounting torque is
2,5 0,5 N m [22.1 4.4 in-lb]
1
ø6,00
+θ/2°
−θ/2°
[0.24]
1
2
3
4,12
[0.16]
25
[0.98]
Sensor with lever
8,3
[0.33]
40,0
[1.57]
22,0
[0.87]
5,00
[0.20]
10,0
[0.39]
15,0
Standard Output
[0.59]
ø5,35
[0.21]
= Left output: 0.5 Vdc
= Zero reference
A
B
C
1
37,0
[1.46]
= Right output: 4.5 Vdc
22,0
[0.87]
Inverted Output
55
[2.17]
2
= Left output: 4.5 Vdc
= Zero reference
A
B
C
36,4
[1.43]
1
Mounting
surface
= Right output: 0.5 Vdc
9,5
[0.37]
13,8
[0.54]
26,0
[1.02]
15,7
[0.62]
14,0
[0.55]
Non-magnetic, stainless steel M5
screws and 10 mm [0.39 in] OD
washers, mounting torque is
2,5 0,5 N m [22.1 4.4 in-lb]
1
2
Non-magnetic stainless steel M6
screws, mounting torque is
8 N m [70.8 in-lb] max.
sensing.honeywell.com
6
Hall-effect Rotary Position Sensors
Figure 4. RTP Series Mounting Dimensions (For reference only: mm [in].)
Sensor with bare magnet actuator
Output diagram
B
θ
43,3
3,00 0,5 Air gap
[0.ꢀ2 0.02]
[ꢀ.70]
5,00
[0.20]
−θ/2°
+θ/2°
32,00 0,ꢀ5
[ꢀ.26 0.0ꢀ]
A
C
ꢀ0,80
[0.43]
ø5,00
[0.20]
ꢀ8,5
[0.73]
øꢀ2,00
[0.47]
56,9
[2.24]
2X ø4,30 0,5
Sensing
surface
[0.ꢀ7 0.02]
ꢀ
ꢀ7,8
[0.70]
16,00
[0.63]
Standard Output
Mounting
surface
= Left output: 0.5 Vdc
= Zero reference
A
B
C
Bare
magnet
actuator
ꢀꢀ,00
[0.43]
Bare Magnet
= Right output: 4.5 Vdc
Inverted Output
= Left output: 4.5 Vdc
= Zero reference
A
B
C
Non-magnetic, stainless steel M4 X 0.7 screws and
8 mm [0.39 in] OD washers, torque is 2,0 0,2 N m
[17.7 1.8 in-lb].
1
= Right output: 0.5 Vdc
Orientation
hole
Sensor with housed magnet actuator
Output Diagram
B
θ
43,3
[1.70]
ꢀ,00 0,5 Air gap
[0.08 0.0ꢀ]
Sensing
surface
A
3ꢀ,00 0,15
[1.ꢀ6 0.01]
C
10,80
[0.43]
−θ/2°
+θ/2°
4,50
[0.18]
18,5
[0.73]
ø8,00
[0.31]
2X M3 X 0.5
ꢀX ø4,30 0,5
56,9
[ꢀ.ꢀ4]
[0.17 0.0ꢀ]
14,0
[0.55]
1
ꢀ
16,0 0,5
[0.63 0.0ꢀ]
17,8
[0.70]
6,0
[0.ꢀ4]
16,00
[0.63]
Standard Output
= Left output: 0.5 Vdc
= Zero reference
Mounting
surface
Housed
magnet
actuator
A
B
C
Housed Magnet
ø15,00
= Right output: 4.5 Vdc
[0.59]
Inverted Output
Non-magnetic, stainless steel M3 X 0.5 plain cup point set
screws, torque is 0,5 N m to 0,6 N m [4.42 in-lb to 5.31 in-lb]
Non-magnetic, stainless steel M4 X 0.7 screws and
8 mm [0.31 in] OD washers, torque is 2,0 0,2 N m
[17.7 1.8 in-lb].
1
2
= Left output: 4.5 Vdc
= Zero reference
A
B
C
= Right output: 0.5 Vdc
Orientation
arrow
sensing.honeywell.com
7
RTY Series and RTP Series
Table 4 RTY Series Functional Characteristics1
Characteristic
Standard Output
Inverted Output
Sensing
Angle
Linearity Accuracy
Error2
Error3
50° ( 25°)
60° ( 35°)
70° ( 35°)
90° ( 45°)
120° ( 60°)
180° ( 90°)
270° ( 135°)
Clamp High
4.5
Clamp High
4.5
2.5
2.5
0.5
0.5
Clamp Low
Clamp Low
0.0
0.0
A
B
C
A
B
C
0
0
0
0
0
0
0
-25
-30
+25
+30
+35
+45
+60
+90
+135
0
0
0
0
0
0
0
-25
-30
+25
+30
+35
+45
+60
+90
+135
-35
-35
-45
-45
-60
-60
-90
-90
-135
-135
Actuator Position (°)
Actuator Position (°)
1.0%
1.6%
4.5
2.5
4.5
2.5
360° ( 180°)
0.5
0.0
0.5
0.0
A
A
B
0
C
B
0
C
-180
+180
-180
+180
Actuator Position (°)
Actuator Position (°)
1
2
A
B
C
See Figure 3 for references to
.
Linearity error is the deviation of the measured value from the best fit line and is the quotient of the measured output ratio deviation from the
best fit line at the measured temperature to the best fit line output ratio span at the measured temperature.
Accuracy is measured as a deviation from the index line, where the index line is defined as the line with the ideal slope and sensor output
voltage corrected at 0º position for its ideal value at 25 °C 5 °C. Accuracy is valid only when the sensor output is correct at 0º position for its
ideal value in the application.
3
sensing.honeywell.com
8
Hall-effect Rotary Position Sensors
Table 5. RTP Series Functional Characteristics1
Characteristic
Standard Output
Inverted Output
Sensing
Angle
Linearity Accuracy
Error2
Error
50° ( 25°)
60° ( 35°)
70° ( 35°)
90° ( 45°)
120° ( 60°)
180° ( 90°)
270° ( 135°)
350° ( 175°)
Clamp High
4.5
Clamp High
4.5
2.5
2.5
0.5
0.5
Clamp Low
Clamp Low
0.0
0.0
A
B
C
A
B
C
0
0
0
0
0
0
0
0
-25
-30
+25
+30
0
0
0
0
0
0
0
0
-25
-30
+25
+30
-35
+35
-35
+35
-45
+45
-45
+45
-60
+60
-60
+60
-90
+90
-90
+90
-135
-175
+135
-135
-175
+135
+175
+175
2.0%
—
(°)
Actuator Position (°)
Actuator Position
4.5
2.5
4.5
2.5
360° ( 180°)
0.5
0.0
0.5
0.0
A
B
0
C
A
B
0
C
-180
+180
-180
+180
Actuator Position (°)
Actuator Position (°)
1
2
See Figure 4 for references to
A
B
C .
Linearity error is the deviation of the measured value from the best fit line and is the quotient of the measured output ratio deviation from the best
fit line at the measured temperature to the best fit line output ratio span at the measured temperature.
sensing.honeywell.com
9
ADDITIONAL INFORMATION
WARNING
PERSONAL INJURY
The following associated literature is available at sensing.honeywell.com:
• Product Range Guide
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 Line Guide
• Installation Instructions
• Application Note
Failure to comply with these instructions could result in
death or serious injury.
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. 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 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 fitness for
a particular purpose. In no event shall Honeywell be liable
for consequential, special, or indirect damages.
Find out more
Honeywell serves its customers through
a worldwide network of sales offices,
representatives and distributors.
For application assistance, current
specifications, pricing or name of the
nearest Authorized Distributor, contact
your local sales office.
While we provide application assistance personally, through our
literature and the Honeywell website, it is up to the customer 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 printing.
However, we assume no responsibility for its use.
To learn more about Honeywell Sensing
and Productivity Solutions’ products, call
+1-815-235-6847 or 1-800-537-6945,
visit sensing.honeywell.com, or e-mail
inquiries to info.sc@honeywell.com
Sensing and Productivity Solutions
Honeywell
9680 Old Bailes Road
32307665-B-EN IL50
March 2016
Fort Mill, SC 29707
honeywell.com
© 2016 Honeywell International Inc. All rights reserved.
相关型号:
©2020 ICPDF网 联系我们和版权申明