Enermax Meter Software
You can download Eman Plus here to talk to the Enermax Plus meters.Once installed, you can log in using the username ADMIN and password EMANPLUS1) Click Configure->Manage Meter Comms ConfigurationYou should get the following screen2) Click Add Meter3) double click the cell under Meter4) Choose Generic Meter5) Enter your server's name (Adam for central server)6) click the 3 dot button.you should get the following screen7) Enter Server's name again8-14) as indicated in the image15) click Save16) click the 3 dots button under Meter Settingsyou should get the following screen17) enter the IP or domain name of your server (adam.pnpscada.com)18) enter the port number of the TCP bridge, usually 1000119) click OKclick Closeback in the Main Window20) To set it up to connect via a TCP bridge, doubleclick the status bar.you should get the following screen21) select the Generic Meter22) click Use selected meterNow when you try to read the meter it will try to read via the Bridge
Enermax Meter Software
Metering Provides the ability to monitor, analyse, report, and manage energy consumption and quality of supply. IoT communication functions and comprehensive energy management software provide effective solutions for industrial, commercial or data center applications and use in accreditation of Green Building status. Energy management software solutions provide automated and graphical trend analysis, client views, alarm management and user access level management. Products include; Modular energy (kWh) meters, Modular Multimeters, Digital & Analog Panel Meters, Digiware power monitoring systems, Energy management software, Dataloggers, Current Transformers and Split Core Current Transformers.
Enermax has just released its latest edition to the LIQFUSION lineup of AIO CPU coolers. The new cooler, the Enermax LIQUIFUSION 360 features a full size 360mm radiator which is cooled by three RGB enabled 120mm fans. Unlike many other AIO coolers on the market, the LIQFUSION 360 features a built in flow meter which allows users to easily monitor the flow of the contained liquid.
MaxTytan 1250W & 1050W PSUs are equipped with Wattage Meter, the digital panel near I/O switch for users to easily identify or monitor the real-time system power consumption; no additional software is required.
With the pump segregated away from its usual perch on the CPU block itself, the LIQFusion RGB 240 makes use of the CPU face to provide a visual flow meter, resembling a modern water wheel. LED lighting set within the acrylic top works with RGB lighting from the cooling fans for a bright, impressive lighting display. A second fill port is seen along the side of the CPU block, opposite the 90 degree swivel coolant ports.
The LIQFusion RGB 240 employs the service of dual 120mm Enermax T.B. RGB fans to provide both cooling and chroma during operation. By using the included RGB 4-pin splitter, control of several pre-determined color patterns are possible using the SATA-powered controller, or those with motherboard supported RGB lighting can opt to make use of those avenues and software control via the motherboard.
As close to a full load as we could push this system came up at 88.7% efficiency. The rails maintained a steady voltage that was within acceptable limits. The 3.3 and 5 volt rails went slightly under spec, the 12 volt stayed above it. At no time during the testing did the PSU get hot enough to cause concern. The air coming from it stayed exceptionally cool considering the amount of wattage it was producing. According to the Kill A Watt meter this PSU has a Power Factor of 0.99 which tells us there is very little wasted power with this one.
Currently supported meters:Strike Enermax E3 & Enermax+Elster A1700 (Vision), A140, A220 & Alpha A2500Landis & Gyr ZMD400Alstom IskraNetelek DM200 & Superkon
The LIQFUSION All-in-One CPU liquid cooler cools your Intel or AMD processor aggressively and quietly while offering stunning ARGB lighting. The T.B. RGB fans and water block can be set to glow in RGB lighting via the included control box or synced via motherboard software. The water block also offers a flow meter for easy monitoring of the coolant flow. Choose from LIQFUSION 240 with two 120mm fans and LIQFUSION 360 with three 120mm fans to fit your specific configuration.
Our load tests utilize a couple of FAST ATE active load testers and a variety of other equipment such as an oscilloscope, power conditioner, temperature probe and a power consumption meter. You can read more about our standard testing approach here.
There aren't any dials to change voltages, switches to change rails to configure, or software to install to monitor and control your power supply. It is simply a unit build with quality inside and out that you just plug in and go. It is the no fuss high wattage power supply for guys who have high-end rigs and don't have time to mess around. It is the unit that just works and keeps you happy, without you even knowing it is there.
Access to the software functions can be via any terminal (PC, iPad, smart phone etc.) that has access to the internet, from anywhere in the world. Applications are available for iPhone*, iPad*, and Android devices.
The software can be configured to measure just one piece of information from a meter, such as energy consumption. This is typically from meters with pulse outputs. For devices such as multifunction energy meters, any parameter that the meter reads can be displayed and recorded by the software.
Because the system is cloud based there are no up-front charges for buying software. You simply pay a very small annual charge for the data hosting, website access and maintenance, which is related to the number of meters to be monitored.
Digital panel meters are available with a wide range of features and options. One feature common on more advanced digital panel meters is Modbus serial communications, often with RS-485, RS-232, or USB connections available. Precision Digital's PROVU Series is a good example of this.
Modbus communications can have a major impact on your industrial process. Assuming some (preferably all) the devices in your application are Modbus enabled; the advantages of using this serial communications are numerous. Two common advantages are the ability to easily use multivariable transmitters and the increased accuracy from a digital measurement and display system. Multivariable level transmitters are becoming more commonly available and more popular. These devices are capable of measuring multiple process variables. One common application is tanks with oil and water. The transmitter can sense the top level, interface level of the two liquids, and the average temperature in the tank. The most accurate and most convenient way to read this information is with a serial communications option, such as a Modbus. A Modbus scanner can display one or more of these variables with just a few serial communication wires. Precision Digital's PD865 Snooper, for example, can poll (request information from) up to eight process variables, displaying one and allowing additional PD865 meters to display the other variables. (www.predig.com/PD865) This would require three wires for RS-485, wired in parallel to three PD865 Snoopers. In contrast, using traditional analog outputs and digital panel meters would require three isolated 4-20 mA signal loops with three isolated power supplies.The reading of a digital value is also more accurate, as there is no analog signal inaccuracy or temperature drift in a Modbus system. The reading on the display is exactly what the transmitter is detecting.This enhanced accuracy also benefits flow rate and total systems. From industrial batching to custody transfer, accurate flow rates and totals are critical in oil and gas transport. Every analog signal used in a system adds to the system inaccuracy. Several very accurate meters, transmitters, and displays can combine their error to make a measureable inaccuracy in the system as a whole. The more parts of this system that use exact flow and total values transmitted by serial communications, the more accurate the system as a whole.These two applications; mixed oil and water tank gauging and precise oil and gas flow measurement, are just two general examples of how almost any system can benefit from the use of Modbus serial communications. Other advantages include the simplicity of adding more devices into the Modbus network vs. a traditional network of analog signals; the ability of a centralized SCADA system to communicate with all levels of data acquisition devices directly; and simplified device programming possible with computer software which is a part of most Modbus devices.
Many other possible serial communications parameters may be set by a user in a Modbus device. Byte-to-byte timeouts, transmit delays, and other settings are often available, but the default settings are often sufficient for simple networks. Networks that are slow, have many network adapters, or are particularly complex may require these parameters to be set for non-default values.Modbus Registers and TablesDefined for all Modbus enabled devices, Modbus tables are charts used to define the Modbus registers used in a device. Each piece of information accessible by Modbus in a device has a Modbus register. Each register will have a data type and register number. For example, a Precision Digital PD6000 digital panel meter stores the process variable in registers 40001-40002 as a floating point variable. The Modbus register table for the PD6000 defines this, and gives useful information - this is a read only register, and the table defines the allowable range of values in the register.4When configuring a Modbus network, the information in these tables is entered into the various devices that read information. For example, if using a Modbus scanner to read the values from a multivariable level transmitter, the scanner will be programmed with the transmitter Modbus address/Slave ID as well as the register number and data types for each piece of information to be read from the transmitter (ie: top level, interface level, and temperature).While often confusing to read through on their own, these Modbus tables are a tool for programming the Modbus master device (the scanner in the above example). They are not intended as an instruction manual or application guide, and are only used when referencing the data a Modbus master will read from a Modbus slave device. Don't be intimidated by the complexity of a Modbus table!