joral non contact encoders ppt
TRANSCRIPT
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Ver 1.0 2
Non Contact Encoders
and Position Sensors
Joral LLC
5050 S Towne Drive
New Berlin, WI 53151
Joralllc.com
Proxencoder.com
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Joral designs and manufactures Shafted, and Non Shafted magnetic encoders, position sensors, and Tilt Sensors.
Joral has been the suppler for CAT timber harvesting computers for 15 years, during a customer visit in 2004, an engineer asked if we could design a better encoder. The current product they were using had a life in the field of several months. Our first shafted encoder product was installed on a harvest head in January of 2005. During 2007 we invented the Non Contact Encoder in the Hockey Puck format, and applied for a patent on the design. We named it that first because of its unique shape, but also because to prove its ruggedness, we played hockey, using the encoder as the puck. Higher pulse rate encoders, the 18mm form factor, and 30 mm form factor followed. Our latest market innovation is the field programmable magnetic encoder requiring only a simple push of a button and turn of the shaft.
Our first shafted encoders were (and still are) installed on timber harvesting heads. We have encoders on, or are the OEM supplier for manufactures such as CAT, John Deere, Logmax, TigerCat, Waratah, etc. Our first Hockey Puck encoders were installed on a ship laying undersea cable, watching the spools unreel the cable. Since then Joral non contact encoders have been installed in a myriad of situations were traditional encoders have failed due to environmental conditions. Including such applications as cement trucks, car washes, logging machines, sewer cleaning machines and conveyors on bottling lines.
All Joral devices are designed from the end users point of view. Diagnostic LEDs, total encapsulation, wide operating voltage range.
While standard products are our main focus, we also design custom and embedded sensors for OEM applications.
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Non Contact Encoders
and Rotation Sensors
A Bi-Polar (N/S across the face)
magnet is mounted an the axis
of the rotating shaft.
The magnet is referred to as the
“Application Magnet”.
The Sensor is mounted so that the
active end has clear view if the
“Application Magnet”
Sense distance is dependent on
installation variable, Rotation Speed,
Application magnet, Shaft Acceleration
etc. Sense distance .1 to .5 inches is
typical with over 2 inches possible.
Sensor and Application magnet
may be axially misaligned.
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What’s The Magic?
All Sensor based Hall encoders have the same
basic design. A sensor chip with multiple Hall
elements (4 to 6) has a rare earth magnet precisely
located on its center axis. As the magnet spins, the
Hall sensors detect the magnetic field impressed
upon each element. Since the magnet is
diametrically magnetized, each sensor sees a
slightly different N/S force. A DSP then compares
the strengths and calculates the absolute magnet
position. The internal magnet is held within .1 mm of
both the sensor center axis, and the Z distance.
The Joral difference is that the sensor magnet is
contained inside the encoder. In a specially
machined cavity, suspended on ceramic bearings.
The “application magnet” is used to spin the
“sensor magnet” inside the encoder.
Output Waves & Signals
Outputs For Different
ApplicationsJoral Proxcoders provide a full range
of output signals. Both incremental
and absolute signals are available.
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Quadrature with marker index pulse
data channels show motion and
direction.
Step and Direction – The step wire
pulses to indicate shaft motion, the
direction wire indicates direction of
shaft rotation – Recommended for
PLC connection
SSI interface reports absolute
encoder position as a serial data
signal for connection to PLC or
microprocessor
Analog reports shaft position as a
variable voltage. 0 to VDC or 0 to
5VDC are both available.
PWM output is perfect for
connection to a microprocessor.
Each bit is represented by a 1us of
on time. Encoder angle is calculated
by the ratio of on time to total signal
time.
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Specifications
Total Encapsulation –
Automotive Grade Material
stable when exposed to
UV, Temperature,
and Hydrocarbons.
IP69 Encoder Rating - +50 PSI
operation +500 PSI survival
6-30 VDC operating range
LED’s on PWR, AB and Mkr
for diagnostics
Mil Spec Vibration rating
- 40 to +80 C
6000 RPM operation
HP58 Food Grade Plastic
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PEHP18
18 mm ProxEncoder
Form factor of 18 mm Prox Switch – 6 Conductor 6 foot cable.
Incremental 16,32,24,128,256,512 PPR Rates
Pulse per Revolution Quadrature A,B,Mkr
Pulse per Step and Direction
Absolute Position PWM
0 - Applied Voltage PWM @ 1024 hz
0-5 VDC PWM @ 1024 hz
Absolute Position Analog Voltage
0 - Applied Voltage Analog (External Filter)
0-5 VDC Analog (External Filter)
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HP58
58 mm Hockey
Puck Encoder
Form factor of 58 mm Encoder
4 pin M8, 5 or 8 pin M12 Rear Exit, 5 pin M12 Side Exit - 5 pin Phoenix - Cable
Incremental
256 Pulse per Revolution Quadrature A,B,Mkr
8, 16, 32, 64, 80, 128
512 Pulses per Revolution Step and Direction
16, 32, 64, 80, 128, 256
2048 Pulse per Revolution Quadrature A,B,Mkr
8, 10, 16, 20, 32, 40, 50, 64, 80, 100, 125, 128, 200,
250, 256, 400, 500, 512, 1024, 2048 – FIXED OR FIELD PROGRAMMABLE
Absolute SSI - 13 bit (8192 position)
2 Channels – Clock - Data
Absolute J1939 Canbus - 13 bit (8192 position)
Absolute PWM (1024 position)
0 - Applied Voltage PWM @ 1024 hz ( optional External Filter)
0-5 VDC PWM @ 1024 hz ( optional External Filter)
Absolute Analog (1024 steps)
0 - Applied Voltage Analog
0-5 VDC Analog
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PEHP30
30 mm
ProxEncoder
Form factor of 30 mm Prox Switch
4 pin M8 - 5 or 8 pin M12 – Cable
Full Differential Outputs Available ABZ-A’B’Z’
Incremental 8, 10, 16, 20, 32, 40, 50, 64, 80, 100,
125, 128, 200, 250, 256, 400, 500, 512, 1024, 2048
Pulse per Revolution Quadrature A,B,Z
Pulse per Step and Direction
Absolute Position PWM
0 - Applied Voltage PWM @ 1024 hz
0-5 VDC PWM @ 1024 hz
Absolute Position Analog Voltage
0 - Applied Voltage Analog (External Filter)
0-5 VDC Analog (External Filter)
Absolute SSI - 13 bit (8192 position)
2 Channels – Clock - Data
Absolute J1939 Canbus - 13 bit (8192 position)
Addressable – Position, RPM. Degs.
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J1939 for Mobile Markets
Developed by the Society of Automotive Engineers (SAE) J1939 is
the preferred CAN communication method for equipment used in a
wide range of industries. Forestry , agriculture, construction, and
fire/rescue use J1939 to communicate vital machine parameters to
the controlling computer. J1939 protocol that defines the format of
the message “nodes” devices on the machine.
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The JORAL J1939 encoders transmit instantaneous position
information, and average RPM in the standard communication
message. An external programming resistor may be used to set
the device address so multiple encoders may reside on a single
bus.
Connects to Parker IQAN, IFM Eefector, Danfoss Plus One and a
host of other J1939 platforms.
8192 Absolute Position
Position and RPM Output
Cable or M12 Connector
30mm or 58mm shell
Sealed with LED’s
Addressable
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Absolute SSI Interface
SSI “Synchronous Serial Interface is an
industry stand for serial communication
interface between encoders and host
computers of PLC’s. The encoders
absolute position number is transmitted
in time as a series of on/off pulses. The
timing is controlled by the clock pulse.
The SSI interface uses a CLOCK and
DATA (optionally an ENCODER
SELECT).
SSI interface for PLC
or Microprocessor
connection
A 13 bit encoder would require 14 wires to send the position
information to a host computer if the connection were in
parallel. The serial SSI connection only requires 4 wires, and
may be transmitted thousands of feet.
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Explosion Proof HP58
Proxcoder senses
shaft magnetic field
though explosion
proof housing
CLASS 1 Div 1, ATEX,
Hockey Puck Proxcoder senses Application Magnet
mounted on rotating shaft though the explosion proof
housing. Housing carries all the ratings, encoder assumes
ratings because it is mounted inside the housing.
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Part Number BreakdownThe Part Number Describes the Encoder
Code1: Housing Style Code 3: Resolution Code 4: Connection Code 5:Special
J130 (30mm) A 0008 0050 0250 5TRM (5 pin terminal) --
J140 (40mm) 0010 0064 0256 5M12 (5 pin M12) 5 Volt Output
J150 (50mm) 0016 0080 0400 5M2P (5 pin M12 on 18” pigtail
J15F (50mm Flange mount) 0020 0100 500 5C72 (5 pin Flying lead cable 72”)
J158 (58mm) 0025 0125 0512 8M12 (8 pin M12)
0032 0128 1024 8M2P (8 pin M12 on 18” pigtail)
0040 0200 2048 8C72 (8 pin Flying lead cable 72”)
DT04 (4 pin Deutsch)
B 0032 0064 0128
0256
C 0064 0128 0256
0512
D 180 90
E 960 1920 3840
7680 15360 30720
61440 122880
Connection Options Housing Option
Code A 13 Bit Quadrature X 1939 (J1939 CAN Bus) 8M12 / DT04 / 5C72
Code B 10 Bit Quadrature X APWM (Absolute position PWM) 5TRM / 5C72
Code C 10 Bit Step and Direction X ASSI (Absolute position SSI) 8M12 / DT04
Code D 10 Bit Commutation X 5VDC (Absolute position 0-5 vdc) 5TRM J150 / J15F / J158
Code E RPM Tach Encoder X SMTENC 1 (Code Set A) 5M12 / 5C72 J150 / J15F / J158
Code X Intelligent Encoder X SMTENC 2 (Code Set B/C/D) 5M12 / 5C72 J150 / J15F / J158
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Part Number BreakdownThe Part Number Describes the Encoder
Application
Magnets
Cables
Brackets
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Installation InstructionsAs Simple as 1-2-3
1 Mount Magnet on rotation axis of shaft
2 Position encoder over magnet – with
active area of encoder centered over
magnet. Magnet to encoder spacing of
approximately .250 inches
3 Connect encoder power and signal wires
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Magnets, Cables & Hardware
A full range of accessories are
available to speed the installation
process.
Joral engineers can assist in the
design and specification of
custom magnet assembles.
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Application NotesInstallation
Application Magnets
¼- 20 Ring APJ-004
Shaft Collar APJ-005
Sensing though a barrier
Explosion Proof APJ-001
Hyd Motor APJ-002
Gearbox APJ-003
Interfacing Output Types
Quadrature APJ-006
Step & Direction APJ-007
SSI Absolute Output APJ-008
PWM Digital APJ-009
Analog APJ-010
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Designer KitLimited only by your Imagination
Application Magnets
Analog Meter
Counter
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Proxencoder.com Web Site
Quick and Easy Name Recognition
Customer Entry Point for Information
Web Order with Distributor Credit
Demo Point for Sales Personal
Link to Joral LLC full web site
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Contact Info
Carl D Schrubbe - Engineering / Sales Manager
262-853-7615 Cell
Dave Engsberg - Business / Sales [email protected]
Jeff Warzalla – Inside Sales [email protected]
262-901-1021
Ross Blank - Engineer
Jordan Schrubbe - Sales