Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 1 of 18
ARISO
CONTACTLESS COUPLER
TE Connectivity Germany GmbH
Pfnorstrasse 1
64293, Darmstadt
Germany
Tel.: +49 (0) 6151 607 0
Fax: +49 (0) 6151 607 1223
www.te.com
Link to ARISO Products in TE.com
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 2 of 18
1. GENERAL
1.1 Part Numbers (PNs), Models, Applicable Documents and Model’s Explanation
The following set of documents, in its entirety, describes the product
Version
Part Number
Model
Document #
Document Title
GPIO
PN 2287598-1
TXM030S012PNP2A
DS 116-19004
AS 114-19159
TS 109-19040
PS 108-19484
Datasheet (this document)
Application Specification
Test Specification
Product Specification
PN 2287598-2
RXM030S012PNP2A
PN 2287598-3
TXM030S012PNP8A
PN 2287598-4
RXM030S012PNP8A
PN 2287598-5
RXM030S012PNP8B
IO-Link
PN 2287598-7
TXM030S012IOL2A
DS 116-19006
AS 114-94474
TS 109-18361
PS 108-94597
Datasheet
Application Specification
Test Specification
Product Specification
PN 2287598-8
RXM030S012IOL2A
GPIO and IO-Link
TEC 109-1
107-18120
WS 101-18013
C-2287598
General Requirements for Testing
Packaging Specification
Workmanship Specification
Customer Product Drawing
Explanation of the Models’ Characters
GPIO and IO-Link
TX / RX
Power Transmitter / Receiver
M
Form Factor: M = Circular
030
Housing Diameter: 30mm
S
Product Type: S = Standard
012
Power Level at RX Input: 12W
GPIO
PNP
Internal Logic: PnP
2 or 8
Number of PNP Signal Channels (GPO for the TX and GPI for the RX)
A or B
Wiring Pinout Options: A or B = arbitrary names for different cases
IO-Link
IOL
Internal Logic: IO-Link
2
Number of Digital Channels (C/Q and DI/DO)
A
Wiring Pinout Option: A = arbitrary name
This ARISO product contains PowerbyProxi™ wireless power technology
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 3 of 18
1.2 Design and Construction
Product shall be of the design, construction and physical dimensions specified on the applicable Customer Product Drawing and
Product Specification.
The following versions are available for the ARISO GPIO Contactless Connectivity Product:
M30, 4 pins, 2 PNP channels:
ARISO TXM030S012PNP2A - Power Transmitter / Data Receiver (1)
ARISO RXM030S012PNP2A - Power Receiver / Data Transmitter (1)
M30, 12 pins, 8 PNP channels:
ARISO TXM030S012PNP8A - Power Transmitter / Data Receiver (1)
ARISO RXM030S012PNP8A - Power Receiver / Data Transmitter (1)
Optimized for connection to distribution boxes PNs: 2273161-1 (S1 only), 2273146-1, 2273139-1 and 2273134-1.
ARISO RXM030S012PNP8B - Power Receiver / Data Transmitter (1)
Optimized for connection to distribution box PN 2273161-1 (S2 supported at sockets 1 and 2, sockets 7 and 8 not connected).
Note (1)
The nomenclature “Data Transmitter / Data Receiver” refers only to the Data Channels.
The TX and the RX exchange continuously acknowledgment signals (intrinsic internal data transmission) in both
directions for a stable communication. TX and RX are Transceivers regardless of the external data transmission.
1.3 Features
The product has the following features:
Power Input Reverse Polarity Protection
The product switches off if the power supply connected to the TX has wrong polarity.
Power Output Short Circuit Protection / Data Output Short Circuit Protection
The product switches off the power / data if the outputs are short circuited or if the load is above specification.
Data Input / Output Reverse Polarity Protection
The product is protected against reversed connections of the data inputs and data outputs.
Over Temperature Protection (OTP)
The product switches off if the temperature becomes too high.
Foreign Object Protection (FOP)
The product switches off if metal is present between Power Transmitter and Power Receiver.
Dynamic Pairing
Any ARISO TX can pair with any ARISO RX.
See paragraph 5.6 for a Cross Wiring Pinout.
Status OK / In Operating Range Indication
The ARISO TX has two status signals indicating either Normal Operation or Incorrect Behavior (like Over Temperature or
Presence of a Foreign Object).
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 4 of 18
1.4 Characteristics overview
Power Transfer Capability
12.0W on RX side towards its load (sensor), Ambient Temperature 55°C
Maximum distance between TX and RX: 7.0mm
Number of Digital GPIO Channels
TX PN 2287598-1 and RX PN 2287598-2 have 2 PNP Digital GPIO Channels
TX PN 2287598-3 and RX PN 2287598-4/-5 have 8 PNP Digital GPIO Channels
TX LED Color
Yellow (570nm ≤ λ ≤ 590nm)
TX LED Brightness
min. 3 mcd (possible reduction through the lens cap)
1.5 Mechanical Data
See Customer Product Drawing for full details.
Parameter
Value
Units
Conditions
Max. Tightening Torque
40
N·m
-
M12 Connector Minimum Torque for IP67
0,6
N·m
-
Max. Cable Pulling Force
50
N
1 minute
Maximum TX Weight
155
g
Cable included
Maximum RX Weight
150
g
Cable included
Dimensions TX
See Customer Product Drawing
Dimensions RX
See Customer Product Drawing
1.6 Environmental Data
Parameter
Value
Unit
Condition
Min. Ambient Temperature
-20
°C
Operational
Max. Ambient Temperature
+55
°C
Operational
OTP Threshold
+65
°C
-
Max. Ambient Temperature
+75
°C
Powered, Non-Operational
Max. Ambient Storage Temperature
+100
°C
-
Ingress Protection
IP67
-
-
Mechanical Shock
30
g
Acc. EN/IEC 60512-6-3 (see PS §1.1)
Mechanical Vibration
0.01
g2/Hz
Acc. EN/IEC 60512-6-4 (see PS §1.1)
Free Fall Test
1
m
Acc. IEC 60512-5 (see PS §1.1)
Rapid Temperature Change
-25 to +80
°C
Acc. EN/IEC 60068-2-14 (see PS §1.1)
Damp Heat, cyclic
21 cycles
Acc. IEC 60512-11-12 (see PS §1.1)
Lower Air Temperature: 25°C ± 3°C.
Upper Air Temperature: 55°C ± 2°C.
90-100% Relative Humidity.
Duration of cycles: 12+12 hours.
Dry heat
+80
°C
Acc. EN/IEC 60512-11-9 (see PS §1.1)
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 5 of 18
Parameter
Value
Unit
Condition
Flowing Mixed Gas Corrosion
-
-
Acc. EN/IEC 60512-11-7 (see PS §1.1)
Electrostatic Discharge
8 / 4
kV
Acc. EN/IEC 61000-4-2 (see PS §1.1)
Pass Criterion: B
Air / Contact Discharge
Radiated EM Field Immunity
10
V/m
Acc. EN/IEC 61000-4-3 (see PS §1.1)
Freq. Range: 80-1000 MHz
Fast Transient Immunity
±1 / ±2
kV
Acc. EN/IEC 61000-4-4 (see PS §1.1)
Data / Supply Lines
Surge Immunity
±2
kV
Acc. EN/IEC 61000-4-5 (see PS §1.1)
Supply lines to ground.
Pass Criterion B.
Immunity to Conducted Disturbances
10
VRMS
Acc. EN/IEC 61000-4-6 (see PS §1.1)
Pass Criterion A.
Power Frequency Magnetic Field Immunity
30
A/m
Acc. EN/IEC 61000-4-8 (see PS §1.1)
Pass Criterion A
2. POWER LINK
2.1 Power Input
Parameter
Value
Unit
Condition
TX Input Voltage
24.0
VDC
Tolerance: ±10%
Maximum TX Input Current
0.75
A
-
Maximum TX Standby Power
1.0
W
Unmated
4.0
W
Mated
Maximum TX Inrush Current
1.4
A
-
Reverse Polarity Protection
Yes
-
-
Foreign Object Protection
Yes
-
-
Under-Voltage Lockout (UVL)
20.3
V
-
UVL Hysteresis
0.1
V
-
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 6 of 18
2.2 Power Output
2.2.1 General
Parameter
Value
Unit
Condition
RX Output Voltage
24.0
VDC
Tolerance: ±5%
RX Continuous Output Power
12.0
W
Maximum Axial Distance TX-RX: 7.0 mm
RX Peak Output Power
12.5
W
No Misalignment
RX Max. Output Ripple & Noise
480
mV
-
Operational Readiness (Power and Data)
160 (1)
ms
RX Power and Data are ready at full load when TX
is switched on.
Operational Readiness (Data only)
25 (2)
ms
TX Data are ready after RX Power is ready.
Take the startup time of the sensor into account.
Short Circuit Protection
Yes
-
-
Can handle an Output Inrush Current up to
200
μA/s
2A during 100μs
10A during 20µs
Output Short Circuit Current
0.65
A
-
Over Temperature Protection
Yes
-
-
Maximum Axial Distance
7
mm
Misalignment 0mm
Maximum Misalignment
5
mm
-
Maximum Tilt
30
°
-
Rotational Invariance or Rotational Freedom
1250 (3)
rpm
-
Minimum Inter Coupler Distance
60
mm
-
Minimum Metal Clearance in XY Direction
15
mm
-
Minimum Metal Clearance in Z Direction
10
mm
-
Note (1): the TX and the RX are already near each other before the TX is powered up
Note (2): the TX is powered up without RX. After a RX is put near the TX, the RX needs the time written to provide stable Data Outputs.
Note (3): Tested at another version
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 7 of 18
2.2.2 Maximum Power over Distance
Distance d “cap-to-cap” between RX and TX [mm]
Output Power [W]
0.0
12.0
2.0
12.0
4.0
12.0
6.0
12.0
7.0
12.0
2.2.3 Maximum Power over Misalignment
Distance / Misalignment / Tilt
Δz / Δr / ΔΩ
[mm / mm / °]
Output Power [W]
0.0 ±5.0 0.0
12.0
2.0 ±5.0 0.0
12.0
2.0 0.0 7.5
12.0
2.0 ±5.0 8.5
12.0
4.0 ±5.0 0.0
12.0
4.0 0.0 15.0
12.0
4.0 ±5.0 17.5
12.0
5.0 ±3.0 0.0
12.0
5.0 0.0 20.0
12.0
5.0 ±3.0 22.5
12.0
7.0 ±2.0 0.0
12.0
7.0 0.0 25
12.0
7.0 ±2.0 32.5
12.0
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 8 of 18
3. DATA LINK
3.1 GPI, General Purpose Digital Inputs (PNP) at RX side
Parameter
Value
Unit
Maximum Input Voltage
36
V
Minimum Input Voltage
-1
V
Minimum Input High Level
8
V
Maximum Input Low Level
5
V
Input Load current
< 4.5
mA
Maximum switching frequency through cables
500
Hz
3.2 GPO, General Purpose Digital Output (PNP) at TX side
Parameter
Value
Unit
Condition
Number of Channels
8
-
-
RX Maximum Output Voltage
24
V
Equal to Input Voltage.
RX Minimum Output Voltage
0
V
-
Output Stage Type
PNP
-
-
Max. Impedance High
4
Ω
-
Min. Impedance Low
1
MΩ
-
Maximum Output Current
250
mA
Tolerance: ±20%
Overcurrent protected, see note below.
Maximum Delay + Jitter
800
μs
Single channel
Note: All digital outputs are over-current protected, the total sum of all currents from GPIO-1 to GPIO-8, FOD and Status
NOK cannot be larger than specified.
VGPO-Low
VGPO-High
VGPI-Low
VGPI-High
GPI-n
GPO-n
Delay
Jitter
Jitter
Delay
Figure 3.2.1 – Definition of Delay and Jitter for DI/DO data link
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 9 of 18
4. IN OPERATING RANGE / STATUS INDICATION
The ARISO Transmitter (TX) has two status signals indicating the status of operation.
These two signals, Status_NOK (Not OK) and FOD (Foreign Object Detection), indicate the followings:
State Description
FOD level
Status_NOK Level
LED
Notes
TX powered
RX not present
Low
High
10Hz blinking
TX not paired
TX powered
RX paired with TX
Low
Low
Continuously On
System in operating range and in
normal operation
TX powered
RX paired with TX
Low
High
10Hz blinking
System error e.g.:
Over temperature
RX obstructed by Foreign Object
TX powered
RX paired with TX
High
High
1Hz blinking
System error e.g.:
Too high power due to FOD
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 10 of 18
5. CONNECTOR INTERFACES FOR TX AND RX
Both the TX and RX are equipped with a standard A-Coded 12-Pins or 4-Pins M12 connector: male for the TX and female for
the RX. For the mechanical outline, see Customer Product Drawing.
RX Side – Female – 12 Pins
TX Side – Male – 12 Pins
Figure 5.1 – TX and RX mating connector interfaces
TX Side – Male – 4 Pins
RX Side – Female – 4 Pins
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 11 of 18
5.1 Wiring Pinout for the TX PN 2287598-1 (TXM030S012PNP2A – 4 Pins)
Position Number
Signals
1
+24VDC
2
GPO-1
3
Ground
4
GPO-2
5.2 Wiring Pinout for the TX PN 2287598-3 (TXM030S012PNP8A – 12 Pins)
Position Number
Signals
Comment
1
+24VDC
This Wiring Pinout fits to the following TE
Connectivity distribution boxes:
PN 2273134-1
PN 2273139-1
PN 2273146-1
PN 2273161-1
2
Ground
3
GPO-1
4
GPO-2
5
GPO-3
6
GPO-4
7
GPO-5
8
GPO-6
9
GPO-7
10
GPO-8
11
FOD (Foreign Object Detection)
12
Status_NOK (Status Not OK)
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 12 of 18
5.3 Wiring Pinout for the RX PN 2287598-2 (RXM030S012PNP2A – 4 Pins)
Position Number
Signals
1
+24VDC
2
GPI-1
3
Ground
4
GPI-2
5
Not Connected
5.4 Wiring Pinout for the RX PN 2287598-4 (RXM030S012PNP8A – 12 Pins)
Position Number
Signals
Comments
1
+24VDC
-
This Wiring Pinout fits to the following TE
Connectivity distribution boxes:
PN 2273134-1
PN 2273139-1
PN 2273146-1
PN 2273161-1 (only 8xS1 of the Distribution
Box Sockets).
2
Ground
-
3
GPI-1
S1 Socket 1
4
GPI-2
S1 Socket 2
5
GPI-3
S1 Socket 5
6
GPI-4
S1 Socket 3
7
GPI-5
S1 Socket 7
8
GPI-6
S1 Socket 4
9
GPI-7
S1 Socket 6
10
GPI-8
S1 Socket 8
11
Not connected
-
12
Not connected
-
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 13 of 18
5.5 Wiring Pinout for the RX PN 2287598-5 (RXM030S012PNP8B – 12 Pins)
Position Number
Signals
Comments
1
+24VDC
-
This Wiring Pinout fits to the TE
Connectivity distribution box
PN 2273161-1
(S2 at Sockets 1 and 2 is supported but
Sockets 7 and 8 are not working).
2
Ground
-
3
GPI-1
S1 Socket 1
4
GPI-2
S1 Socket 2
5
GPI-3
S1 Socket 5
6
GPI-4
S1 Socket 3
7
Not connected
-
8
GPI-5
S1 Socket 4
9
GPI-6
S1 Socket 6
10
Not connected
-
11
GPI-7
S2 Socket 1
12
GPI-8
S2 Socket 2
5.6 Cross Wiring Pinout for pairs using TX and RX with different numbers of pins
TX with 4 pins can be coupled with RX with 12 pins and TX with 12 pins can be coupled with RX with 4 pins using the following
correspondence among the pins:
TX
RX
Part Number
Pin # – Channel
Pin # – Channel
Part Number
PN 2287598-1
4 Pins (2 Channels)
2 – CH1
6 – CH4
PN 2287598-4
12 Pins (8 Channels)
Pin Coding Version A
4 – CH2
7 – CH5
PN 2287598-1
4 Pins (2 Channels)
2 – CH1
6 – CH4
PN 2287598-5
12 Pins (8 Channels)
Pin Coding Version B
4 – CH2
8 – CH5
PN 2287598-3
12 Pins (8 Channels)
6 – CH4
2 – CH1
PN 2287598-2
4 Pins (2 Channels)
7 – CH5
4 – CH2
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 14 of 18
6. TE CONNECTIVITY DISTRIBUTION BOXES COMPATIBLE WITH THE SPECIFIED ARISO PRODUCTS
PN 2273139-1
PN 2273134-1
PN 2273146-1
PN 2273161-1
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 15 of 18
7. DATA LINK
Note that the digital output (GPO) does not have a reverse polarity protection.
Extra care should be taken to assure that the output is connected correctly.
8. UNSPECIFIED SITUATIONS
There are a number of unspecified situations in which the operation is not guaranteed.
8.1 Mating distance bigger than 7mm
In case the axial distance between TX and RX is just over 7 mm (at full load) or over 8 mm (at low load) the Voltage Output of
the RX might be unstable: the pair continuously switches on and off.
8.2 Input Voltage below 24VDC – 10%
Although an Under-Voltage Lockout is specified, the behavior at voltage levels between the Under-Voltage Lockout level and
the minimum input voltage (21.6V) is not defined. Repeated ON and OFF switching of the Output Voltage at the RX side might
occur, depending upon the load and the actual Input Voltage.
8.3 Metal clearance less than 30mm
Although Foreign Object Detection is present, no metal objects should be placed in the region between TX and RX.
Those metal objects might get hot depending upon their geometry.
8.4 Inter coupler distance less than 60mm
In case two coupler pairs are located in close proximity (distance between central axes of both pairs less than 60mm) both Power
and Data Transfer of any of the two pairs, might be affected by the proximity of the other coupler pair.
8.5 Ambient temperature higher than 60°C
Although the power transmitter side has an Over Temperature Protection, putting the RX in an environment higher than 60°C
might result in malfunctioning.
8.6 UV environment
The product should not be used in environments with high UV radiation or with chemical compounds.
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 16 of 18
9. SAFETY NOTES AND DISCLAIMERS
9.1 Personnel requirements
Installation and startup are permitted only by trained technicians.
9.2 Non-intended use
Guarantee and warranty claims against the manufacturer are rendered non-redeemable by unauthorized operations, tampering
and non-intended use.
9.3 Electric and magnetic field emission
The device (coupler pair) can be used according to its intended application (keeping minimum separation distance of 20cm from
human body) without any access restrictions.
9.4 Hot surfaces
The active surface heats up even under normal operation conditions.
Contact of metal objects on the active surface should be avoided (Fire Hazard).
9.5 Foreign metal objects
Although Foreign Object Detection is implemented, small metal devices located between the transmitter and
receiver can get very hot, even with the risk of fire in case of combustible material near the metal.
Whether the metal devices will get hot depends upon their size and geometry.
9.6 Power supply and Class of Equipment
The power supply generating the necessary 24VDC for the TX should have either double isolated or reinforced isolation (safety
extra low voltage output: double reinforced isolation from primary mains).
The product shall be connected to a power supply with Class II protected outputs.
The product has Class of Equipment III.
9.7 Cable protection
In static applications, the cable bending radius at coupler shall be at minimum 5 times the cable diameter.
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 17 of 18
9.8 Moving and rotating applications
Especially in moving and/or rotating applications the cables should be protected and mounted into clips / straps.
In dynamic applications, the cable bending radius at shall be at minimum 10 times the cable diameter.
Furthermore, especially in rotating applications, special attention should be paid to the balance of the total setup.
9.9 Human protection
Especially in moving / rotation applications the human body should be protected against any harm (crushing,
cutting etc.)
9.10 Safety and environment
This product shall not be used in a safety critical application.
This product shall not be used in space applications at low pressure that could cause outgassing of the materials.
9.11 Frequency Bands and Maximum Output Power
The Radio Equipment operates within the following Frequency Band with the following Maximum Output Power
Frequency Band
[MHz]
Maximum Transmitted Radio-Frequency Power
[mW]
2400 – 2483.5
4.27
The product complies with Article 10.8 of Radio Equipment Directive 2014/53/EU.
10. OTHERS
The product described herein has not been fully tested to ensure conformance to the requirements outlined above.
TE makes no representation or warranty, expressed or implied, that the product or design will comply with these requirements.
Further, TE may change these requirements based on the results of additional testing and evaluation.
Contact TE Engineering for further details.
Datasheet
Class I
ARISO M30 12W GPIO
DS 116-19004 Rev. C1
26th of February 2018
This specification is a controlled document and
subject to change.
© 2018 TE Connectivity Germany GmbH, a TE Connectivity Ltd.
company. All Rights Reserved.
Page 18 of 18
NOTES AND STATEMENTS
FCC ID: 2ADK7-ARISO
IC: 12496A-ARISOTX and 12496A-ARISORX
Intended use: Coupler to transfer 12W power and data (digital GPIO link), integrated in a control system.
This device complies with Industry Canada licence-exempt RSS standard(s) and part 15 of the FCC Rules.
Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this
device must accept any interference received, including interference that may cause undesired operation.
Changes or modifications not expressly approved by the party responsible for compliance could void the user's
authority to operate the equipment.
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15
of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the
equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful
interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful
interference in which case the user will be required to correct the interference at his own expense.
The interference potential of the device is low as it is a low frequency device with a near field antenna, designed to
provide reasonable protection against harmful interference when the equipment is operated in a commercial
environment and accordingly tested.
If this equipment does cause harmful interference, which can be determined by turning the equipment off and on by
disconnecting the couplers from the power and signal source, the user is encouraged to try to correct the interference
by one or more of the following measures:
1. Increase the separation between this equipment and the disturbed one
2. Consult the dealer or an experienced technician for help
No maintenance of the device is needed, once installed and used in accordance with the instruction manual.
Notes et déclarations:
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence.
L'exploitation est autorisée aux deux condition suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2)
l'appareil doit accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre
le fonctionnement.
