Use WATTS UP Net Power Analyzer/Watt Meter/USB for Remote Monitoring
A complete internet enabled and power switching power analyzer and watt meter, the Watts Up Net is simple to use. Plug the Watts Up Monitor into a three-prong grounded electric outlet using the 6 foot long cord. Then plug any electrical device into the top of the monitor. The power monitor will immediately display the wattage demanded by the electrical appliance. Leave the device plugged into the monitor for hours or days: see displayed the cumulative amount of electricity consumed or the cumulative cost of the electricity used (based on your local electric rate). Internet enabled AND power switching! The Watts UP Net includes all the Watts Up Pro features. Use for remote monitoring of electrical usage and electrical quality. The built-in web server lets you access data through the internet. Just connect Watts Up. Net to the public internet (via home or office network) and the power meter will automatically output data.
View live data in table format or graphical. Or download the data as a csv file. Data speed capability is as fast as every second (extra fees may apply for certain speeds). Connect a wireless adapter (for example the Dlink DWL-G730AP or the TrendNet TEW430APB, both configured in client mode) into the meter's ethernet port, and the meter can be used wirelessly.
In addition, the .Net introduces active energy savings. With an internal switching relay , the .Net can turn off power to the end load based on user configurable rules. Rules can be based on single or multiple meters. These rules and their associated application include: Time of day: Effective when your utility has TOU (time of use) rates, where they charge a higher rate during peak times. Peak usage (watts): For commercial accounts, which are typically charged a surcharge if their consumption ever surpasses a peak threshold during the billing month. Having multiple .Net meters can enable you to simply and economically "shed power" and keep you under the threshold. For example, connect 10 meters to your account, and configure our website to automatically turn off specific loads when the total power across all ten meters exceeds a threshold you designate. Cumulative usage (wh): Use for tiered pricing rates, when higher usage is billed at a higher rate. Manual on/off: For security reasons, rebooting servers, or while on vacation.
Normally, the .Net ships with the same memory as the PRO ES.
WATTS UP.Net Power Analyzer/Watt Meter Specifications: - Higher ratings of 100-250v, 50/60Hz, and 15 amps require the universal outlet (UO) version. The electronics in the meter are capable of 20 amps but the cord and receptacle have different ratings. Verify the rating on the cordset you are purchasing.
- +/- 1.5%, + 3 counts of the displayed value
- Below 60 watts, amps and power factor lose accuracy
- Ethernet connection includes communication via TCP/IP, and http.
- Power switching rated at 100,000 cycles and is normally on
- NIST calibration certificates available
- USB interface
- Mains supply voltage fluctuations not to exceed +/- 10% of the nominal voltage
- Rate can be entered from $0.001 to $85.00 per kilowatt hour, in tenths of a penny
- Input is via 6' electric cord (USA style only), output is via outlet on top of meter
- Indoor use only
- UL listed to standard UL 610010-1, and CAN CAS/C22.2 61010-1
- UO version also CE marked
- UL certification requires the following statement:
- Altitude up to 2000 meters
- Temperature 5° C to 40° C
Maximum relative humidity 80% for temperatures up to 31° C decreasing linearly to 50% relative humidity at 40° C Installation Category II Measures and records 18 parameters, including: Current Watts, Minimum
Watts, Maximum Watts, Power Factor, Volt Amp (apparent PWR), Cumulative
Watt Hours, Average Monthly Kwh, Elapsed Time, Duty Cycle, Frequency
(Hz), Cumulative Cost, Average Monthly $, Line Voltage, Minimum Volts,
Maximum Volts, Current Amps, Minimum Amps, Maximum Amps. *Some
inverters have extremely fast rise times and can damage the electronics.
The .Net is recommended if using with an inverter. * Some loads
and environments cause excessive noise, which can corrupt calibration
data thus leading to erroneous data. This is typically not a problem.
But especially for industrial studies where the data is critical, we
highly recommend the .Net. This model has significant hardware and
software improvements to reduce the likelihood of errors.
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