Pressure measurement
Rosemount 3051S Coplanar Pressure Transmitters

Rosemount 3051S Coplanar Pressure Transmitters

Model: 3051S

$1.00

Supplier: Rosemount

Categories: Pressure measurement

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Product Description

Rosemount 3051S Coplanar Pressure Transmitters



ROSEMOUNT 3051C picture 001  




Description of Rosemount 3051S Coplanar Pressure Transmitters

The Rosemount 3051S Coplanar Pressure Transmitters are the industry leader for Differential, Gauge, and Absolute pressure measurement. The Coplanar Platform allows seamless integration with manifolds, primary elements, and seal solutions.

 

The 3051S Coplanar Pressure Transmitter series of Instrumentation can optimize your operation in four critical areas: production, quality, energy efficiency, and safety and environment. By leveraging the power of the scalable Rosemount 3051S across your entire operation, you will minimize process variability, gain greater process insight, reduce maintenance and downtime, and meet regulatory demands. What's more, it's easy for your people to use, ensuring you will realize the full potential of your measurement investment.


Features of Rosemount 3051S Coplanar Pressure Transmitters
 
• Ultra, ultra for flow, and classic performance
• 4-20 mA HART, Wireless, FOUNDATION fieldbus protocols
• Gauge, differential or absolute measurements
• Remote Display and Interface options
• Ranges up to 4000psi (275 bar)
• Zero and span adjustment
• PlantWeb alerts
• Burst pressure limit: 10,000 psig (689.5 bar)


Rosemount 3051 Pressure Transmitter       
Rosemount 3051S Coplanar Pressure Transmitters

• Warranty Up to 5-year limited warranty
• Rangedown Up to 150:1
• Diagnostics Basic Diagnostics, Loop Integrity, Process Intelligence, Plugged Impulse Line
• Communication Protocol 4-20 mA HART, WirelessHART®, FOUNDATION fieldbus, Profibus, 1-5 V Low Power HART
• Available Models 3051CD, 3051CA, 3051CG, 3051L, 3051TG, 3051TA


Rosemount 3051S In Line Pressure Transmitters     Rosemount 3051S Coplanar Pressure Transmitters

• Warranty Up to 15-year limited warranty
• Rangedown Up to 200:1
• Diagnostics Basic Diagnostics, Loop Integrity, Process Intelligence, Plugged Impulse Line
• Communication Protocol 4-20 mA HART, WirelessHART®, FOUNDATION fieldbus
• Available Models 3051S1CD, 3051S1CG, 3051S1TG, 3051S1TA, 3051SAL, 3051S2CD, 3051S2CG, 3051S2TG, 3051S2TA


Features of the Rosemount 3051 Series Transmitters      
Rosemount 3051S Coplanar Pressure Transmitters
 
Over the years, Rosemount 3051 Series transmitters have gained immense popularity across industries, owing to their following beneficial features:
 
Process Alerts: Advanced diagnostics create process alerts, which allow process owners to make necessary adjustments at the right time. Power advisory diagnostics will help monitor and detect issues pertaining to the power supply, grounding, wiring, and so on. Similarly, temperature alerts can also be set to understand if the process temperature has peaked or dropped down. This provides enough insights into the maintenance and safety measures to be adopted.

Local Operator Interface (LOI): This is designed according to Human-Centered Design principles. The interface has in-built configuration buttons that enable quick commissioning.

Wireless Technology: This technology helps add new pressure measurement points easily in many areas within the plant, which were earlier not accessible. The information provided by the transmitter helps optimize process efficiencies, as well as reduce human intervention in hazardous areas.

Hygienic Offering: Rosemount 3051 transmitters meet the requirements of hygienic applications. They are constructed in compliance with industry standards, as well as regulations. These transmitters are provided in stainless steel and aluminum housing. The transmitters are rated up to IP689K, and they can easily withstand sterilize-in-place as well as clean-in-place processes. They can be returned to the calibrated set point easily.

Why Rosemount 3051 Pressure Transmitters    Rosemount 3051S Coplanar Pressure Transmitters
 
In addition to the above-mentioned features, all Rosemount 3051 series pressure transmitters assure the following:
 
• Reference accuracy of up to 0.04%
• Five-year stability on first installations
• Unmatched performance in dynamic applications
• Advanced Plant Web functionality to improve the productivity of plants
• Improved performance when integrated with DP level, DP flowmeters, and manifolds

 
Types of 3051 Transmitters    Rosemount 3051S Coplanar Pressure Transmitters
 
At The Transmitter Shop, we provide the following Rosemount 3051 pressure transmitter models:
• 3051S Series SMART® Pressure Transmitters
• 3051C Pressure Transmitters
• 3051T Pressure Transmitters
• 3051L Level Transmitters
 
Difference Between 3051C Vs 3051S     Rosemount 3051S Coplanar Pressure Transmitters
 
Rosemount 3051S series SMART® pressure transmitters and Emerson 3051C coplanar pressure transmitters are widely preferred in process industries, owing to various beneficial advantages that they offer. The following points will help you understand it better:
 
• 3051C pressure transmitters are equipped with a flexible coplanar platform and 3051S pressure transmitters with hermetic SST SuperModuleTM platform. Both these features, along with advanced diagnostics enable users to access device and process information effectively.
• 3051S assures 0.025% accuracy and range down of 200:1. So, this pressure transmitter is a perfect choice if accuracy and turndown ratio is your main concern.
• 3051C is suited for applications, where turndown ratio and accuracy may not be a big concern. It is also considered an ideal choice if a process owners want to save money while remaining productive and safe.

 
How to Configure 3051 Transmitter        Rosemount 3051S Coplanar Pressure Transmitters
 
Configuration of Emerson Rosemount 3051 transmitter needs to be performed according to the guidelines provided by Rosemount. The following steps will lead to accurate commissioning of the transmitter.
• Commission the transmitter on the bench using an AMS Device Manager or a HART® communicator.
• Set the process application loop to manual. The HART® communicator or the AMS Device Manager will prompt for this action.
• Connect the bench equipment and wiring loops as per the below wiring diagram.
• Review the default configuration data using the AMS Device or the HART® Communicator.
• Review the parameters of digital output before performing any on-line operations with the transmitter. This will help you ensure that the transmitter is performing properly, and is configured to right process variables.
• Set the process variable units, output (transfer function), and range values.

 
Features of HART® Protocol/Communicator      Rosemount 3051S Coplanar Pressure Transmitters
 
• HART® stands for Highway Addressable Remote Transducer, which is a popular digital communications protocol developed by Rosemount. This protocol facilitates easy interfacing of HART-enabled master devices with HART-enabled field devices. It is one of the most widely used digital communications protocols used for process control, owing to several advantages that it offers. This protocol can communicate over 4-20 mA analog wiring, and is also compatible with old wiring systems, which makes it an excellent choice for digital communications. The following advantages of the protocol have contributed to its easy acceptability across the world.
 
• HART® helps reduce set-up time by enabling the safe transfer of calibration information and configuration settings.
• It is designed to capture performance data and manufacturing errors remotely, thereby eliminating the need for regular field checks, and helps process control managers to reduce maintenance costs. The data can be easily accessed on any HART-enabled device working on a 4-20 mA signal.
 
• The protocol can be interfaced with smart multivariable devices to receive accurate reports. This ability is owing to Device Description (DD), which is a data file describing the functions and features of the instrument. The HART® Communication Foundation possesses a library of device descriptions for manufacturers. They also regularly update the descriptions that any member of the foundation can easily subscribe.
 
• The protocol assures regulatory compliance with automated record keeping.

 
How to Troubleshoot Emerson Rosemount 3051 Pressure Transmitter     Rosemount 3051S Coplanar Pressure Transmitters
 
The Rosemount 3051 pressure transmitter provides 4-20mA analog output, with a HART® signal on 4-20 mA output. Here, the HART® signal is superimposed on the output. The following are a few tips that will help troubleshoot for 4-20mA output and make necessary arrangements.
 
• The milliamp reading of transmitter is zero: If this happens, you need to ensure the power is applied to the signal terminals, and the terminal voltage is set to 10.5 to 42.4 Vdc. Also, check the wires for reverse polarity, and check the open diode.
 
 The milliamp reading is extremely high or low: If you notice this during servicing, you need to verify applied pressure, as well as 4-20 mA range points. Also, ensure that the output is not in the alarming condition, and the power wires are connected to the right signal terminals, and not the test terminal.
 
• Transmitter is not communicating with field communicator: This may be due to various reasons. You need to check if the terminal voltage is set at 10.5 to 42.4 Vdc, the loop resistance is 250Ω minimum, the power wires are connected to the right terminals, and output is between 4 and 20mA or at saturation.

• Transmitter is not responding to applied pressure: If this happens, you need to check the manifold or impulse piping for leakage. Additionally, you need to ensure that the applied pressure is only between 4 and 20mA points, the output is not in alarming condition, and the transmitter is not in a loop test mode.

• The pressure variable reading of digital pressure is high or low: When this is noticed, you need to check the accuracy of the equipment used for testing. Also, check for the blockage in impulse piping or low fill in wet lag. Ensure that the transm- itter is calibrated properly and verify pressure calculations, too.

• The pressure variable reading of digital pressure is erratic: To correct this, you need to check for faulty equipment in pres sure line, verify the transmitter is not turning on/off with the equipment, and damping is properly set.
 
• Milliamp reading is erratic: If you notice erratic Milliamp reading, you need to verify a few things such as checking for external electrical interference, grounding of the transmitter, if the shield for the twisted pair is grounded at the end, and power source to transmitter has adequate current and voltage.
 

How does a Rosemount 3051 transmitter Work?        Rosemount 3051S Coplanar Pressure Transmitters
 
All Rosemount 3051 transmitter products feature calibration and reset options. These reset options enable the re-setting the measuring span to suit application requirements. The sensors of these transmitters work by converting the pressure readings into an analog electrical signal.
 
 
Integral Manifolds Solution for Rosemount Transmitter 3051   Rosemount 3051S Coplanar Pressure Transmitters
 
We provide the following types of integral manifolds for Rosemount 3051 pressure transmitter models.
• Rosemount 304 Conventional Manifold
• Rosemount 305 Integral Manifold
• Rosemount 306 In-Line Manifold

 

Rosemount 3051S Coplanar Pressure Transmitters

 

3051C Coplanar Pressure Transmitter 
3051T In-Line Pressure Transmitter 
3051CF Flowmeter 
3051CFA Annubar Flowmeter 
3051CFC Compact Flowmeter 
3051CFP Integral Orifice Flowmeter 
3051L Level Transmitter


Rosemount 3051S Coplanar Pressure Transmitters
 

3051TG1A2B21AB4K5M5   3051TG2A2B21AB4E5M5   3051TG2A2B21AB4M5   3051TG3A2B21AB4K5M5

3051TG4A2B21AB4K5M5   3051TA1A2B21AB4K5M5    3051TA2A2B21AB4M5
 


Rosemount 3051S Coplanar Pressure Transmitters

 

3051CFPDS005T1S0066D31AA1WA3WP5WR3G1QC1Q8J6Q4QSE8

3051CFPDS010S1S0109D52FB1WA3WP5WR5G1QC7Q8J6Q4QTI1

3051CFPDS015P1S0160R33WJ1WA3WP5WR3G1QC1Q8J6Q4QSIA

3051CFPDS005P2S0196R51XK1WA3WP5WR5G1QC7Q8J6Q4QTN1

3051CFPDS010D1S0260D32AP1WA3WP5WR3G1QC1Q8J6Q4QSK8

3051CFPDS015D2S0340D53FA1WA3WP5WR5G1QC7Q8J6Q4QTE5

3051CFPDS005D3S0150R31WB1WA3WP5WR3G1QC1Q8J6Q4QSI5

3051CFPDS010W1S0250R52XJ1WA3WP5WR5G1QC7Q8J6Q4QTIE

3051CFPDS015W3S0345D33AK1WA3WP5WR3G1QC1Q8J6Q4QSK5

3051CFPDS005W6S0500D51FP1WA3WP5WR5G1QC7Q8J6Q4QTC6


Rosemount 3051S Coplanar Pressure Transmitters

3051CFCDAS005N000031AA1WA3WP5WR3ABFEQC1Q4QSQ8E8L1SBSM4

3051CFCDCS010N040R72FB1WA3WP5WR5ACFEQC7Q4QTQ8I1LSBSM5

3051CFCDPS015N065033WJ1WA3WP5WR3ADFEQC1Q4QSQ8IALASBSM4

3051CFCDAS020N000R71XK1WA3WP5WR5DGFEQC7Q4QTQ8N1L1SBSM5

3051CFCDCS030N040032AP1WA3WP5WR3DHFEQC1Q4QSQ8K8L2SBSM4

3051CFCDPS040N065R73FA1WA3WP5WR5DJFEQC7Q4QTQ8E5LASBSM5

3051CFCDAS060N000031WB1WA3WP5WR3ABFEQC1Q4QSQ8I5L1SBSM4

3051CFCDCS080N040R72XJ1WA3WP5WR5ACFEQC7Q4QTQ8IEL2SBSM5

3051CFCDPS100N065033AK1WA3WP5WR3ADFEQC1Q4QSQ8K5LASBSM4

3051CFCDAS120N000R71FP1WA3WP5WR5DGFEQC7Q4QTQ8C6L1SBSM5

3051CFADG025ZC      3051CFADG180ZCHP       3051CFADG080DSHPS2T100031AA1M5     3051CFADG025DSHPS1T100031AA1M5

3051CFADG160ZCHPS2T100032AA1I1M5          3051CFADG300ZCHPS2T100031AA1I1M5    3051CFADG180ZCHPS2T100031AA1KSM5

3051CFADG120ZCHPS2T100031AA1I1M5HR5

 

Rosemount 3051S Coplanar Pressure Transmitters


3051CG1A02A1AB1H2L4M5, 3051CG2A02A1AB1H2L4M5, 3051CG3A02A1AB1H2L4M5, 3051CG4A02A1AB1H2L4M5, 3051CG5A02A1AB1H2L4M5, 3051CG1A02A1AB3H2L4M5, 3051CG2A02A1AB3H2L4M5, 3051CG3A02A1AB3H2L4M5, 3051CG4A02A1AB3H2L4M5, 3051CG5A02A1AB3H2L4M5, 3051CG1A02A1AB1H2L4M5K5, 3051CG2A02A1AB1H2L4M5K5, 3051CG3A02A1AB1H2L4M5K5 3051CG4A02A1AB1H2L4M5K5, 3051CG5A02A1AB1H2L4M5K5 3051CG1A02A1AB1H2L4M5E5, 3051CG2A02A1AB1H2L4M5E5, 3051CG3A02A1AB1H2L4M5E5, 3051CG4A02A1AB1H2L4M5E5, 3051CG5A02A1AB1H2L4M5E5, 3051CG1A02A1AB1H2L4M5I5, 3051CG2A02A1AB1H2L4M5I5, 3051CG3A02A1AB1H2L4M5I5, 3051CG4A02A1AB1H2L4M5I5, 3051CG5A02A1AB1H2L4M5I5, 3051CG1A02A1AB3H2L4M5K5, 3051CG2A02A1AB3H2L4M5K5, 3051CG3A02A1AB3H2L4M5K5, 3051CG4A02A1AB3H2L4M5K5, 3051CG5A02A1AB3H2L4M5K5, 3051CG1A02A1AB3H2L4M5E5, 3051CG2A02A1AB3H2L4M5E5, 3051CG3A02A1AB3H2L4M5E5, 3051CG4A02A1AB3H2L4M5E5, 3051CG5A02A1AB3H2L4M5E5, 3051CG1A02A1AB3H2L4M5I5, 3051CG2A02A1AB3H2L4M5I5, 3051CG3A02A1AB3H2L4M5I5, 3051CG4A02A1AB3H2L4M5I5, 3051CG5A02A1AB3H2L4M5I5, 3051CG1A22A1AB4M5, 3051CG2A22A1AB4M5, 3051CG3A22A1AB4M5, 3051CG4A22A1AB4M5, 3051CG5A22A1AB4M5, 3051CG1A22A1AB4M5DF, 3051CG2A22A1AB4M5DF, 3051CG3A22A1AB4M5DF, 3051CG4A22A1AB4M5DF, 3051CG5A22A1AB4M5DF 3051CG1A22A1AB4M5K5, 3051CG2A22A1AB4M5K5, 3051CG3A22A1AB4M5K5 3051CG4A22A1AB4M5K5, 3051CG5A22A1AB4M5K5, 3051CG1A22A1AB4M5E5 3051CG2A22A1AB4M5E5, 3051CG3A22A1AB4M5E5, 3051CG4A22A1AB4M5E5 3051CG5A22A1AB4M5E5, 3051CG1A22A1AB4M5I5, 3051CG2A22A1AB4M5I5 3051CG3A22A1AB4M5I5, 3051CG4A22A1AB4M5I5, 3051CG5A22A1AB4M5I5 3051CD0A02A1AB1H2L4M5, 3051CD1A02A1AB1H2L4M5, 3051CD2A02A1AB1H2L4M5 3051CD3A02A1AB1H2L4M5, 3051CD4A02A1AB1H2L4M5, 3051CD5A02A1AB1H2L4M5 3051CD0A02A1AB3H2L4M5, 3051CD1A02A1AB3H2L4M5, 3051CD2A02A1AB3H2L4M5 3051CD3A02A1AB3H2L4M5, 3051CD4A02A1AB3H2L4M5, 3051CD5A02A1AB3H2L4M5 3051CD0A02A1AB1H2L4M5K5, 3051CD1A02A1AB1H2L4M5K5, 3051CD2A02A1AB1H2L4M5K5, 3051CD3A02A1AB1H2L4M5K5, 3051CD4A02A1AB1H2L4M5K5, 3051CD5A02A1AB1H2L4M5K5, 3051CD0A02A1AB1H2L4M5E5, 3051CD1A02A1AB1H2L4M5E5, 3051CD2A02A1AB1H2L4M5E5, 3051CD3A02A1AB1H2L4M5E5, 3051CD4A02A1AB1H2L4M5E5, 3051CD5A02A1AB1H2L4M5E5, 3051CD0A02A1AB1H2L4M5I5, 3051CD1A02A1AB1H2L4M5I5, 3051CD2A02A1AB1H2L4M5I5, 3051CD3A02A1AB1H2L4M5I5, 3051CD4A02A1AB1H2L4M5I5, 3051CD5A02A1AB1H2L4M5I5, 3051CD0A02A1AB3H2L4M5K5, 3051CD1A02A1AB3H2L4M5K5, 3051CD2A02A1AB3H2L4M5K5, 3051CD3A02A1AB3H2L4M5K5, 3051CD4A02A1AB3H2L4M5K5, 3051CD5A02A1AB3H2L4M5K5, 3051CD0A02A1AB3H2L4M5E5, 3051CD1A02A1AB3H2L4M5E5, 3051CD2A02A1AB3H2L4M5E5, 3051CD3A02A1AB3H2L4M5E5, 3051CD4A02A1AB3H2L4M5E5, 3051CD5A02A1AB3H2L4M5E5, 3051CD0A02A1AB3H2L4M5I5, 3051CD1A02A1AB3H2L4M5I5, 3051CD2A02A1AB3H2L4M5I5, 3051CD3A02A1AB3H2L4M5I5, 3051CD4A02A1AB3H2L4M5I5, 3051CD5A02A1AB3H2L4M5I5, 3051CD1A22A1AB4M5, 3051CD2A22A1AB4M5, 3051CD3A22A1AB4M5, 3051CD4A22A1AB4M5, 3051CD5A22A1AB4M5, 3051CD1A22A1AB4M5DF, 3051CD2A22A1AB4M5DF, 3051CD3A22A1AB4M5DF, 3051CD4A22A1AB4M5DF, 3051CD5A22A1AB4M5DF, 3051CD1A22A1AB4M5K5, 3051CD2A22A1AB4M5K5, 3051CD3A22A1AB4M5K5, 3051CD4A22A1AB4M5K5, 3051CD5A22A1AB4M5K5, 3051CD1A22A1AB4M5E5, 3051CD2A22A1AB4M5E5, 3051CD3A22A1AB4M5E5, 3051CD4A22A1AB4M5E5, 3051CD5A22A1AB4M5E5, 3051CD1A22A1AB4M5I5, 3051CD2A22A1AB4M5I5, 3051CD3A22A1AB4M5I5, 3051CD4A22A1AB4M5I5, 3051CD5A22A1AB4M5I5, 3051CA1A02A1AB1H2L4M5, 3051CA2A02A1AB1H2L4M5, 3051CA3A02A1AB1H2L4M5, 3051CA4A02A1AB1H2L4M5, 3051CA5A02A1AB1H2L4M5, 3051CA1A02A1AB3H2L4M5, 3051CA2A02A1AB3H2L4M5, 3051CA3A02A1AB3H2L4M5, 3051CA4A02A1AB3H2L4M5, 3051CA5A02A1AB3H2L4M5, 3051CA1A02A1AB1H2L4M5K5, 3051CA2A02A1AB1H2L4M5K5, 3051CA3A02A1AB1H2L4M5K5, 3051CA4A02A1AB1H2L4M5K5, 3051CA5A02A1AB1H2L4M5K5, 3051CA1A02A1AB1H2L4M5E5, 3051CA2A02A1AB1H2L4M5E5, 3051CA3A02A1AB1H2L4M5E5, 3051CA4A02A1AB1H2L4M5E5, 3051CA5A02A1AB1H2L4M5E5, 3051CA1A02A1AB1H2L4M5I5, 3051CA2A02A1AB1H2L4M5I5, 3051CA3A02A1AB1H2L4M5I5, 3051CA4A02A1AB1H2L4M5I5, 3051CA5A02A1AB1H2L4M5I5, 3051CA1A02A1AB3H2L4M5K5, 3051CA2A02A1AB3H2L4M5K5, 3051CA3A02A1AB3H2L4M5K5, 3051CA4A02A1AB3H2L4M5K5, 3051CA5A02A1AB3H2L4M5K5, 3051CA1A02A1AB3H2L4M5E5, 3051CA2A02A1AB3H2L4M5E5, 3051CA3A02A1AB3H2L4M5E5, 3051CA4A02A1AB3H2L4M5E5, 3051CA5A02A1AB3H2L4M5E5, 3051CA1A02A1AB3H2L4M5I5, 3051CA2A02A1AB3H2L4M5I5, 3051CA3A02A1AB3H2L4M5I5, 3051CA4A02A1AB3H2L4M5I5, 3051CA5A02A1AB3H2L4M5I5, 3051CA1A22A1AB4M5, 3051CA2A22A1AB4M5, 3051CA3A22A1AB4M5, 3051CA4A22A1AB4M5, 3051CA5A22A1AB4M5, 3051CA1A22A1AB4M5DF, 3051CA2A22A1AB4M5DF, 3051CA3A22A1AB4M5DF, 3051CA4A22A1AB4M5DF, 3051CA5A22A1AB4M5DF, 3051CA1A22A1AB4M5K5, 3051CA2A22A1AB4M5K5, 3051CA3A22A1AB4M5K5, 3051CA4A22A1AB4M5K5, 3051CA5A22A1AB4M5K5, 3051CA1A22A1AB4M5E5, 3051CA2A22A1AB4M5E5, 3051CA3A22A1AB4M5E5, 3051CA4A22A1AB4M5E5, 3051CA5A22A1AB4M5E5, 3051CA1A22A1AB4M5I5, 3051CA2A22A1AB4M5I5, 3051CA3A22A1AB4M5I5, 3051CA4A22A1AB4M5I5, 3051CA5A22A1AB4M5I5


Rosemount 3051S Coplanar Pressure Transmitters
 

We are specialized in intelligent instruments, including : control system, transmitters, flow meters,sensors, recorders, analyzers, control valves, controllers, PLC's, etc.
 
We mainly supply Yokogawa, Emerson, Rosemount, Fisher, Honeywell, Siemens, ABB, FLUKE, Endress+Hauser, Schneider Electric, Pepperl+Fuchs, MTL, Rockwell(Allen Bradley), Hirschmann, Eaton, Moeller, FUJI, Omron, Yaskawa, Norgren, CHINT, Hach, Weidmuller, Phoenix, SMC, Testo, ASCO, Parker, Mitsubishi, Festo, GE, CISCO, Auma, IFM, GM, Turck, Bently Nevada, MOXA, Krohne, Foxboro and so on.


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Any inquiry,Please feel free to contact us!


Windy Wang           

HONGKONG XIEYUAN TECH CO., LIMITED  
Add: 7-A16,Caishen Commercial Plaza,Hankou Railway Station,Wuhan,China
Tel: +86-27-8588 3233 | Fax:+86-27-8530 9780 | Mobile/Whatsapp :+86 15972199006 | Skype: live:windy@hkxytech.com
Mail: windy@hkxytech.com  
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