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DX80N9Q45VTP

型号:

DX80N9Q45VTP

品牌:

BANNER[ Banner Engineering ]

页数:

8 页

PDF大小:

728 K

下载PDF手册
®
Sure Cross Wireless Q45VTP Node  
Datasheet  
The Wireless Q45VTP Node is a compact, industrial, battery-powered device that wirelessly communicates with any Sure Cross  
Performance Gateway and mounts on a variety of machines to analyze vibration data and identify and predict failures in rotating  
machinery. The Q45VTP uses DIP switches to allow multiple configuration options for the vibration characteristics being monitored  
by Banner's QM42VT1 Vibration Sensor.  
Benefits  
Delivers pre-processed high accuracy vibration values for monitoring rotating equipment such as:  
Motors  
Pumps  
Rotary Compressors  
Exhaust or HVAC fan motors  
Spindles  
Easy-to-use rugged device that can be easily mounted to equipment  
Use with the DXM Wireless Controller to track and trend vibration characteristics in real time to predict need for  
maintenance, predict potential component failure and avoid process downtime.  
Eliminate control wires—The Sure Cross wireless system is a radio frequency network with integrated I/O that removes the  
need for power and control wires  
Reduce complexity—Machine or process reconfiguration made easier; great for retrofit applications  
Deploy easily—Simplify installation on existing equipment enables deployment in remote and hard-to-access locations  
where implementing a wired solution would be difficult, impractical, or not cost-effective  
Battery powered for “peel and stick” functionality with 2+ years of battery life  
Achieves vibration accuracy of 1ꢀ0 RMS velocity ꢁin/secꢂ  
Detects vibration characteristics on 2 axis ꢁradial and axialꢂ such as RMS Velocity, High  
Frequency Acceleration, Peak Acceleration, Peak Velocity Component Frequency, etc  
Transmit power levels of 25ꢀ mW or 1 Watt for 9ꢀꢀ MHz models and 65 mW for 2.4 GHz  
models are user-selectable  
DIP switches for user configuration of sample time and vibration characteristics  
Frequency Hopping Spread Spectrum ꢁFHSSꢂ technology ensures reliable data delivery  
within the unlicensed Industrial, Scientific, and Medical ꢁISMꢂ band  
Transceivers provide bidirectional communication between the Gateway and Node, including  
fully acknowledged data transmission  
Diagnostics allow user-defined output settings in the unlikely event of lost RF signal  
WARNING:  
Do not use this device for personnel protection.  
Using this device for personnel protection could result in serious injury or death.  
This device does not include the self-checking redundant circuitry necessary to allow its use in  
personnel safety applications. A device failure or malfunction can cause either an energized ꢁonꢂ or de-  
energized ꢁoffꢂ output condition.  
Models  
Model  
Radio Frequency  
Inputs and Outputs  
DX8ꢀN2Q45VTP  
DX8ꢀN9Q45VTP  
2.4 GHz ISM Band  
9ꢀꢀ MHz ISM Band  
Pre-configured to monitor QM42VT1 vibration/temperature sensors  
®
Exporting Sure Cross Radios. It is our intent to fully comply with all national and regional regulations regarding radio frequency emissions. Customers who want to re-export this product  
to a country other than that to which it was sold must ensure the device is approved in the destination country. A list of approved countries appears in the Radio Certifications section of  
the product manual. The Sure Cross wireless products were certified for use in these countries using the antenna that ships with the product. When using other antennas, verify you are  
not exceeding the transmit power levels allowed by local governing agencies. Consult with Banner Engineering Corp. if the destination country is not on this list.  
Original Document  
2ꢀ8637 Rev. A  
8 October 2ꢀ18  
208637  
®
Sure Cross Wireless Q45VTP Node  
Storage Mode  
While in storage mode, the Q45VTP's radio does not operate. The Q45VTP ships from the factory in storage mode to conserve the  
battery. To wake the device, press and hold the button for five seconds. To put any Q45VTP into storage mode, press and hold the  
button for five seconds. The Q45VTP is in storage mode when the LEDs stop blinking.  
General Operation  
For the first 15 minutes after power up, the Node samples the sensor every two seconds ꢁfast sample modeꢂ. After 15 minutes, the  
Node defaults to 5 minute sample intervals. Activate fast sample mode by single clicking the button ꢁthe amber LED is solidꢂ.  
ISO 1ꢀ816 provides guidance for evaluating vibration velocity severity motors, pumps, fans, compressors, gear boxes, blowers,  
dryers, presses, and other machines that operate in the 1ꢀ to 1ꢀꢀꢀ Hz frequency range.  
Machine  
in/s  
Class I  
Small Machines  
Class II  
Medium Machines  
Class III  
Large Rigid Foundation  
Class IV  
Large Soft Foundation  
mm/s  
0.28  
0.45  
0.71  
1.12  
1.80  
2.80  
4.50  
7.10  
11.2  
18.0  
28.0  
45.9  
0.01  
0.02  
0.03  
0.04  
0.07  
0.11  
0.18  
0.28  
0.44  
0.70  
1.10  
1.77  
good  
satisfactory  
unsatisfactory  
unacceptable  
Figure 1. Vibration Severity per ISO 1ꢀ816  
Button and LEDs  
1
Button  
2
3
4
5
Red LED (flashing) indicates a radio link error with the Gateway.  
Green LED (flashing) indicates a good radio link with the Gateway.  
Amber LED is not used.  
3
2
1
5
4
DIP Switches  
Configuration Instructions  
Bind to the Gateway and Assign the Node Address  
Before beginning the binding procedure, apply power to all the devices. Separate the devices by two meters when running binding  
procedure. Put only one Gateway into binding at a time to prevent binding to the wrong Gateway.  
Figure 2. Buttons on a housed Gateway  
2
www.bannerengineering.com - Tel: +1-763-544-3164  
P/N 2ꢀ8637 Rev. A  
®
Sure Cross Wireless Q45VTP Node  
1. Enter binding mode on the Gateway.  
For housed DX8ꢀ Gateways, triple-click button 2 on the Gateway. Both LEDs flash red.  
For board-level DX8ꢀ Gateways, triple-click the binding button on the Gateway. The green and red LED flashes.  
2. Assign the Q45VTP a Node address using the Gateway's rotary dials. Use the left rotary dial for the left digit and the right  
rotary dial for the right digit. For example, to assign your Q45VTP to Node 1ꢀ, set the Gateway's left dial to 1 and the right  
dial to ꢀ. Valid Node addresses are ꢀ1 through 47.  
3. Loosen the clamp plate on the top of the Q45VTP and lift the cover.  
4. Enter binding mode on the Q45VTP by triple-clicking the Q45VTP's binding button.  
The red and green LEDs flash alternately and the sensor searches for a Gateway in binding mode. After the Q45VTP is  
bound, the LEDs stay solid momentarily, then they flash together four times. The Q45VTP exits binding mode.  
5. Label the sensor with the Q45VTP's Node address number for future reference.  
6. Repeat steps 2 through 5 for as many Q45VTP as are needed for your network.  
7. After binding all Q45VTP, exit binding mode on the Gateway.  
For housed DX8ꢀ Gateways, double-click button 2 on the Gateway.  
For board-level DX8ꢀ Gateways, double-click the binding button on the Gateway.  
For Gateways with single-line LCDs, after binding your Q45VTP to the Gateway, make note of the binding code displayed under  
the Gateway's *DVCFG menu, XADR submenu on the LCD. Knowing the binding code prevents having to re-bind all Q45VTPs if  
your Gateway is ever replaced.  
Bind a Q45 Node to a DXM Gateway and Assign the Node Address  
Before beginning the binding procedure, apply power to all the devices. Separate radios by 2 meters when running binding  
procedure. Put only one DXM Gateway into binding at a time to prevent binding to the wrong Gateway.  
1. On the DXM radio using the arrow keys select the ISM Radio menu on the LCD and click ENTER.  
2. Highlight the Binding menu and click ENTER.  
3. Use the arrow keys to select the Node address to bind the Q45VTP to.  
4. Loosen the clamp plate on the top of the Q45VTP and lift the cover.  
5. Enter binding mode on the Q45VTP by triple-clicking the power/binding button.  
The red and green LEDs flash alternately and the sensor searches for a Gateway in binding mode. After the Q45VTP binds,  
the LEDs stay solid momentarily, then they flash together four times. The Q45 exits binding mode.  
6. Label the sensor with the Q45VTP's Node address number for future reference.  
7. Click BACK on DXM to exit binding for that specific Node address.  
8. Repeat steps 3 through 7 changing the Node address for as many Q45VTPs as are needed for your network.  
9. Click BACK on DXM until back to the main menu when finished binding.  
DIP Switches  
After making any changes to any DIP switch position, reboot the Q45VTP by triple-clicking the button, waiting a second, then  
double-clicking the button.  
The DIP switches are in the OFF position. To turn a DIP switch on, push the switch toward the battery pack. DIP switches one  
through four are numbered from left to right.  
DIP Switches  
Description  
1
2
3
4
5
6
7
8
Transmit power: 1 Watt  
OFF*  
ON  
Transmitt power: 25ꢀ mW ꢁcompatible with 15ꢀ mW radiosꢂ  
1
Default I/O configuration  
OFF*  
OFF  
OFF  
OFF  
ON  
OFF*  
OFF  
ON  
OFF*  
ON  
I/O configuration 1  
I/O configuration 2  
I/O configuration 3  
I/O configuration 4  
I/O configuration 5  
OFF  
ON  
ON  
OFF  
OFF  
OFF  
ON  
ON  
1
User configurable if switch 7 is OFF; for input serial addresses, see Modbus Registers and I/O Serial Addresses on page 5  
P/N 2ꢀ8637 Rev. A  
www.bannerengineering.com - Tel: +1-763-544-3164  
3
®
Sure Cross Wireless Q45VTP Node  
DIP Switches  
Description  
Reserved  
1
2
3
4
5
6
7
8
ON  
ON  
OFF  
User configured ꢁuse the Sensor Configuration Tool To pre-configure  
QM42VT1ꢂ  
ON  
ON  
ON  
Sample/report rate: user configured ꢁ5 minutes by defaultꢂ  
Sample/report rate: 15ꢀ seconds  
Sample/report rate: 6ꢀ seconds  
Reserved  
OFF*  
OFF  
ON  
OFF*  
ON  
OFF  
ON  
ON  
English units ꢁe.g. velocity = in/sꢂ  
Metric units ꢁe.g. velocity = mm/sꢂ  
Reserved  
OFF*  
ON  
OFF*  
* Default position  
I/O Configurations ꢁSet by DIP Switches 2, 3, and 4ꢂ  
I/O Configuration 1 I/O Configuration 2 I/O Configuration 3 I/O Configuration 4  
High-Frequency RMS RMS Velocity ꢁin/  
Input  
Register  
Default I/O  
I/O Configuration 5  
Full Bandwidth RMS  
Acceleration ꢁGꢂ  
1
2
RMS Velocity ꢁin/secꢂ RMS Velocity ꢁin/secꢂ  
RMS Velocity ꢁin/secꢂ  
Acceleration ꢁGꢂ  
secꢂ  
Z-Axis  
Peak Velocity  
Peak Acceleration ꢁGꢂ Component  
Frequency ꢁHzꢂ  
High-Frequency RMS  
Peak Acceleration ꢁGꢂ  
Acceleration ꢁGꢂ  
Full Bandwidth Peak  
Acceleration ꢁGꢂ  
Full Bandwidth RMS  
Acceleration ꢁGꢂ  
3
4
-
-
Temperature ꢁ°Fꢂ  
Reserved  
Temperature ꢁ°Fꢂ  
Reserved  
Temperature ꢁ°Fꢂ  
Reserved  
Temperature ꢁ°Fꢂ  
Reserved  
Temperature ꢁ°Fꢂ  
Reserved  
Temperature ꢁ°Fꢂ  
Reserved  
High-Frequency RMS RMS Velocity ꢁin/  
Full Bandwidth RMS  
Acceleration ꢁGꢂ  
5
6
RMS Velocity ꢁin/secꢂ RMS Velocity ꢁin/secꢂ  
RMS Velocity ꢁin/secꢂ  
Acceleration ꢁGꢂ  
secꢂ  
X-Axis  
Peak Velocity  
Peak Acceleration ꢁGꢂ Component  
Frequency ꢁHzꢂ  
High-Frequency RMS  
Peak Acceleration ꢁGꢂ  
Acceleration ꢁGꢂ  
Full Bandwidth Peak  
Acceleration ꢁGꢂ  
Full Bandwidth RMS  
Acceleration ꢁGꢂ  
If DIP switch 7 is on, all in/s units change to mm/s. DIP switch 7 will only switch units with DIP switch I/O configurations, not with  
any user configuration.  
Configure the Q45 Using the User Configuration Tool (UCT)  
The User Configuration Tool ꢁUCTꢂ offers an easy way to change sensor settings, show sensor data from different sensors, and  
retrieve data from the Gateway radio. The UCT runs on any Windows computer and uses an adapter cable to connect the Gateway  
to your computer.  
Download the most recent version of the UCT from Banner Engineering's website: www.bannerengineering.com/wireless.  
4
www.bannerengineering.com - Tel: +1-763-544-3164  
P/N 2ꢀ8637 Rev. A  
®
Sure Cross Wireless Q45VTP Node  
1. Go to the Configuration > Device Configuration screen.  
2. On the top of the screen, select Nodes Currently in the System from the drop-down list and click Get devices in system.  
All Nodes bound to the Gateway connected to the computer display.  
3. Click the arrow next to the Nodes to display the parameters specific to that Node.  
In this example, the parameters for Node 1 are shown.  
4. Under the Node 1 I/O points section, click GET I/O Points.  
All I/O types for this Node are loaded onto the screen.  
5. To view the parameters for an I/O point, click the arrow next to that I/O point.  
In this example, the parameters for I/O point 1 are shown.  
6. To set the Serial address, go to the Serial options section of the I/O point's parameters and enter the value.  
In this example, the Serial address is set to 16 for output Z-Axis RMS Velocity ꢁin/secꢂ.  
7. After making changes to the I/O point parameters, click SEND to send the changes to the network.  
8. Repeat steps 5 and 8 for each input to manually change the configuration of the vibration parameters by changing the  
serial address.  
For more information on using the User Configuration Tool software, refer to the User Configuration Tool Instruction Manual ꢁp/n  
14ꢀ628ꢂ.  
Modbus Registers and I/O Serial Addresses  
I/O Serial Addresses  
I/O Range  
Holding Register Representation  
Serial  
Address  
Output Type  
Min  
Max  
Min ꢁDecꢂ  
Max ꢁDecꢂ  
1, 5  
16  
25  
-
Z-Axis RMS Velocity ꢁin/secꢂ  
-
6.5535  
65.535  
-
-
65535  
65535  
-
2, 5  
Z-Axis High-Frequency RMS Acceleration  
Reserved  
1, 5  
64  
73  
2ꢀ  
68  
18  
66  
19  
67  
24  
72  
37  
69  
17  
23  
65  
71  
22  
7ꢀ  
27  
75  
28  
76  
X-Axis RMS Velocity ꢁin/secꢂ  
6.5535  
65.535  
65.535  
65.535  
6553.5  
6553.5  
65.535  
65.535  
65.535  
65.535  
65.535  
65.535  
6.5535  
65.535  
6.5535  
65.535  
65.535  
65.535  
65.535  
65.535  
65.535  
65.535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
65535  
2, 5  
X-Axis High-Frequency RMS Acceleration ꢁGꢂ  
2, 6  
Z-Axis Peak Acceleration ꢁGꢂ  
2, 6  
X-Axis Peak Acceleration ꢁGꢂ  
4, 5  
4, 5  
Z-Axis Peak Velocity Component Frequency ꢁHzꢂ  
X-Axis Peak Velocity Component Frequency ꢁHzꢂ  
2, 5  
Z-Axis RMS Acceleration ꢁGꢂ  
2, 5  
X-Axis RMS Acceleration ꢁGꢂ  
2, 6  
Z-Axis Kurtosis  
2, 6  
X-Axis Kurtosis  
2, 6  
Z-Axis Crest Factor  
2, 6  
X-Axis Crest Factor  
1, 5  
Z-Axis Peak Velocity ꢁin/secꢂ  
1, 5  
Z-Axis Peak Velocity ꢁmm/secꢂ  
1, 5  
X-Axis Peak Velocity ꢁin/secꢂ  
1, 5  
X-Axis Peak Velocity ꢁmm/secꢂ  
2, 5  
Z-Axis RMS Velocity ꢁmm/secꢂ  
2, 5  
X-Axis RMS Velocity ꢁmm/secꢂ  
2, 6  
Full Bandwidth RMS Acceleration Z-Axis ꢁGꢂ  
2, 6  
Full Bandwidth RMS Acceleration X-Axis ꢁGꢂ  
2, 7  
Full Bandwidth Peak Acceleration Z-Axis ꢁGꢂ  
2, 7  
Full Bandwidth Peak Acceleration X-Axis ꢁGꢂ  
1 Value = Register value ÷ 1ꢀꢀꢀꢀ  
2 Value = Register value ÷ 1ꢀꢀꢀ  
4 Value = Register value ÷ 1ꢀ  
5 Measurement bandwidth = 1ꢀ Hz to 1 kHz  
6 Measurement bandwidth = 1 kHz to 4 kHz  
7 Measurement Bandwidth = 1ꢀ Hz to 4 kHz  
P/N 2ꢀ8637 Rev. A  
www.bannerengineering.com - Tel: +1-763-544-3164  
5
®
Sure Cross Wireless Q45VTP Node  
I/O #  
Modbus Holding Register  
I/O Type  
I/O Range  
Holding Register  
Representation  
Gateway  
Any Node  
Min.  
Max.  
Min.  
Max.  
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
1 + ꢁNode# × 16ꢂ  
2 + ꢁNode# × 16ꢂ  
3 + ꢁNode# × 16ꢂ  
4 + ꢁNode# × 16ꢂ  
5 + ꢁNode# × 16ꢂ  
6 + ꢁNode# × 16ꢂ  
7 + ꢁNode# × 16ꢂ  
8 + ꢁNode# × 16ꢂ  
...  
Sensor Input Register 1  
Sensor Input Register 2  
Sensor Input Register 3  
Sensor Input Register 4  
Sensor Input Register 5  
Sensor Input Register 6  
Reserved  
Device Message  
15  
16  
15  
16  
15 + ꢁNode# × 16ꢂ  
16 + ꢁNode# × 16ꢂ  
Control Message  
Reserved  
By default, data is supplied to the Node every five minutes, unless the Node requests the data sooner. The default configuration is  
shown and all optional outputs types are listed. Use the User Configuration Tool ꢁUCTꢂ to adjust the Sensor Register output type.  
For more information, see Configure the Q45 Using the User Configuration Tool ꢁUCTꢂ on page 4.  
Temperature values outside the operating range of the device are forced to the maximum or minimum values.  
Replacing the Batteries  
To replace the lithium "AA" cell battery, follow these steps. As with all batteries, these are a fire, explosion, and severe burn hazard.  
Do not burn or expose them to high temperatures. Do not recharge, crush, disassemble, or expose the contents to water. Properly  
dispose of used batteries according to local regulations by taking it to a hazardous waste collection site, an e-waste disposal  
center, or other facility qualified to accept lithium batteries.  
1. Lift the plastic cover.  
2. Slide the board containing the batteries out of the Q45 housing.  
3. Remove the discharged batteries and replace with new batteries. Use two 3.6 V  
AA lithium batteries, such as Xeno's XL-6ꢀF or equivalent.  
4. Verify the battery’s positive and negative terminals align to the positive and  
negative terminals of the battery holder mounted within the case. Caution: There  
is a risk of explosion if the battery is replaced incorrectly.  
5. Slide the board containing the new batteries back into the Q45 housing.  
Replacement battery model number: BWA-BATT-ꢀꢀ6. For pricing and availability, contact  
Banner Engineering.  
Specifications  
Performance Radio with Internal Antenna Specifications  
Radio Range2  
9ꢀꢀ MHz Compliance ꢁ1 Wattꢂ  
9ꢀꢀ MHz, 1 Watt ꢁInternal antennaꢂ: Up to 3.2 km ꢁ2 milesꢂ with line of sight  
2.4 GHz, 65 mW ꢁInternal antennaꢂ: Up to 1ꢀꢀꢀ m ꢁ328ꢀ ftꢂ with line of sight  
FCC ID UE3RM18ꢀ9: This device complies with FCC Part 15, Subpart C,  
15.247  
IC: 7ꢀ44A-RM18ꢀ9  
Antenna Minimum Separation Distance  
9ꢀꢀ MHz, 15ꢀ mW and 25ꢀ mW: 2 m ꢁ6 ftꢂ  
9ꢀꢀ MHz, 1 Watt: 4.57 m ꢁ15 ftꢂ  
2.4 GHz Compliance  
FCC ID UE3ꢀꢀDX8ꢀ-24ꢀꢀ - This device complies with FCC Part 15, Subpart  
C, 15.247  
ETSI EN 3ꢀꢀ 328: V1.8.1 ꢁ2ꢀ12-ꢀ6ꢂ  
IC: 7ꢀ44A-DX8ꢀ24  
2.4 GHz, 65 mW: ꢀ.3 m ꢁ1 ftꢂ  
Radio Transmit Power  
9ꢀꢀ MHz, 1 Watt: 3ꢀ dBm ꢁ1 Wꢂ conducted ꢁup to 36 dBm EIRPꢂ  
2.4 GHz, 65 mW: 18 dBm ꢁ65 mWꢂ conducted, less than or equal to 2ꢀ dBm  
ꢁ1ꢀꢀ mWꢂ EIRP  
Link Timeout  
Gateway: Configurable via User Configuration Tool ꢁUCTꢂ software  
Node: Defined by Gateway  
Spread Spectrum Technology  
FHSS ꢁFrequency Hopping Spread Spectrumꢂ  
Radiated Immunity HF  
1ꢀ V/m ꢁEN 61ꢀꢀꢀ-4-3ꢂ  
2
Range depends on the environment and decreases significantly without line of sight. Always verify your wireless network's range by performing a Site Survey.  
6
www.bannerengineering.com - Tel: +1-763-544-3164  
P/N 2ꢀ8637 Rev. A  
®
Sure Cross Wireless Q45VTP Node  
Q45VTP Sensor Specifications  
Default Sensing Interval  
5 minutes  
Construction  
Molded reinforced thermoplastic polyester housing, oring-sealed  
®
transparent Lexan cover, molded acrylic lenses, and stainless steel  
Indicators  
Red and green LEDs ꢁradio functionꢂ  
hardware. Q45s are designed to withstand 12ꢀꢀ psi washdown.  
Typical Battery Life  
See chart.  
Shock  
4ꢀꢀG  
Operating Conditions  
–4ꢀ °C to +7ꢀ °C ꢁ–4ꢀ °F to +158 °Fꢂ  
9ꢀ0 at +5ꢀ °C maximum relative humidity ꢁnon-condensingꢂ  
Environmental Rating  
NEMA 6P, IEC IP67  
Battery Life for a Q45VT/Q45U Node with 1-Wire Serial Sensor  
This is the battery life curve for the following models:  
Q45VT or Q45U 1-Wire Serial Interface Node connected to a 1-wire serial sensor ꢁsuch as a VT1 Vibration/Temperature  
sensorꢂ  
Q45VTP Node  
6
2.4 GHz  
5.5  
5
4.5  
4
900 MHz (250 mW)  
3.5  
900 MHz (1 W)  
3
2.5  
2
1.5  
1
0
10  
20  
30  
40  
50  
60  
70  
Sample Rate (minutes)  
Accessories  
Sensors  
QM42VT1  
Vibration and temperature sensor with 1-wire serial interface  
Detects dual-axis vibration  
Zinc alloy housing  
3 m cable with a 5-pin M12/Euro-style male quick disconnect ꢁQDꢂ  
Datasheet: 1862ꢀ9  
P/N 2ꢀ8637 Rev. A  
www.bannerengineering.com - Tel: +1-763-544-3164  
7
®
Sure Cross Wireless Q45VTP Node  
QM42VT1QP  
Vibration and temperature sensor with 1-wire serial interface  
Detects dual-axis vibration  
Zinc alloy housing  
15ꢀ mm ꢁ6 inꢂ PVC cable with a 5-pin M12/Euro-style male quick disconnect ꢁQDꢂ  
Datasheet: 1862ꢀ9  
Banner Engineering Corp. Limited Warranty  
Banner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp. will repair or  
replace, free of charge, any product of its manufacture which, at the time it is returned to the factory, is found to have been defective during the warranty period. This warranty does not  
cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product.  
THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED ꢁINCLUDING, WITHOUT LIMITATION, ANY WARRANTY OF  
MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSEꢂ, AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE OF DEALING OR TRADE USAGE.  
This Warranty is exclusive and limited to repair or, at the discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE LIABLE TO  
BUYER OR ANY OTHER PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES  
RESULTING FROM ANY PRODUCT DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT,  
STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE.  
Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligations or liabilities relating to any product previously  
manufactured by Banner Engineering Corp. Any misuse, abuse, or improper application or installation of this product or use of the product for personal protection applications when the  
product is identified as not intended for such purposes will void the product warranty. Any modifications to this product without prior express approval by Banner Engineering Corp will  
void the product warranties. All specifications published in this document are subject to change; Banner reserves the right to modify product specifications or update documentation at  
any time. Specifications and product information in English supersede that which is provided in any other language. For the most recent version of any documentation, refer to:  
www.bannerengineering.com.  
For patent information, see www.bannerengineering.com/patents.  
©
Banner Engineering Corp. All rights reserved  
厂商 型号 描述 页数 下载

BANNER

 		DX80N2Q45UAC [ Sure Cross® Wireless Q45UA Ultrasonic Node ] 7 页

BANNER

 		DX80N2Q45VA [ Sure Cross® Wireless Q45VA Vibration and Temperature Sensor ] 10 页

BANNER

 		DX80N2Q45VTP [ Sure Cross® Wireless Q45VTP Node ] 8 页

BANNER

 		DX80N2X1S-P6 [ Sure Cross Performance Node ] 8 页

BANNER

 		DX80N2X1W-P6L [ Sure Cross® Performance Node ] 8 页

BANNER

 		DX80N2X6S-P6 [ Sure Cross Performance Node ] 8 页

BANNER

 		DX80N9Q45UAC [ Sure Cross® Wireless Q45UA Ultrasonic Node ] 7 页

BANNER

 		DX80N9Q45VA [ Sure Cross® Wireless Q45VA Vibration and Temperature Sensor ] 10 页

BANNER

 		DX80N9X1S-P6 [ Sure Cross Performance Node ] 8 页

BANNER

 		DX80N9X1W-P6L [ Sure Cross® Performance Node ] 8 页

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