Description
Fluke NORMA 6003 OffersAccurate enough for the lab, built for the field
Designed for portability, the lightweight, battery-powered analyzer eliminates the need to carry large, fragile, expensive analyzers into the field, allowing you to make measurements directly at the load in nearly any environment. By measuring directly at the load, you can discover how the equipment operates under real-world conditions, with real-world variables, not just at a test bench or in the lab.
Combined with wide-band frequency response, it makes it easier than ever to make measurements on hard to access systems such as inverter drive systems, DC-AC and AC-DC power conversion systems, and electric motors without removing them from service. Making these measurements in the field simplifies the troubleshooting, and performance measurement processes without sacrificing uptime, giving you more accurate test results, that will enable you to discover whether your loads are operating as effectively and efficiently as they should be.
Features
Key measurements: Voltage, current, active power, reactive power, apparent power, power factor, and harmonics with associated values
High accuracy and wide bandwidth – 0.1% measurement accuracy and 500 kHz bandwidth
Highly portable and easily installed in tight spaces – only 3.78″ (9.6 cm) thick
Operate continuously for up to 10 hours without an external power supply using the 5000 mAh Li-ion internal battery
Measure safely – safety rated for CAT III 1000V, CAT IV 600 V environments
Measure three phase power and DC output power at the same time with three channels, with voltage and current inputs on each channel
0.1% accuracy, 500 kHz bandwidth, 200 ks/s sample rate so you can rely on the power conversion system measurements you take no matter what distortion may be present
USB and RS485 interface and open communication protocol for easy system integration and software platform flexibility
Combine two analyzers to enable simultaneous measurement of multiple circuits for even more troubleshooting capability – configurable to 6 or 8 channels using dual analyzer synchronization
View critical data in the field on the main display – Meter, Waveform, Harmonics up to the 100th, Vector and Trend
Ensure high common-mode rejection and allow flexible configurations according to measurement requirements using the electrically isolated channels
User adjustable measurement rate from 100 ms to 1 s with continuous logging via 32GB of onboard storage
Easy in-field set up using the integrated front panel or a remote PC connection (USB or RS485)
Online measuring, data download and analysis with included PC software (Fluke Power Analyzer Software)
Full remote control of the connected instrument using Fluke Power Analyzer Software and a local USB or long-distance RS485 connection
Applications
R&D and third party labs
Renewable energy/clean tech
ManufacturingFluke NORMA 6003 OffersAccurate enough for the lab, built for the field
Designed for portability, the lightweight, battery-powered analyzer eliminates the need to carry large, fragile, expensive analyzers into the field, allowing you to make measurements directly at the load in nearly any environment. By measuring directly at the load, you can discover how the equipment operates under real-world conditions, with real-world variables, not just at a test bench or in the lab.
Combined with wide-band frequency response, it makes it easier than ever to make measurements on hard to access systems such as inverter drive systems, DC-AC and AC-DC power conversion systems, and electric motors without removing them from service. Making these measurements in the field simplifies the troubleshooting, and performance measurement processes without sacrificing uptime, giving you more accurate test results, that will enable you to discover whether your loads are operating as effectively and efficiently as they should be.
Features
Key measurements: Voltage, current, active power, reactive power, apparent power, power factor, and harmonics with associated values
High accuracy and wide bandwidth – 0.1% measurement accuracy and 500 kHz bandwidth
Highly portable and easily installed in tight spaces – only 3.78″ (9.6 cm) thick
Operate continuously for up to 10 hours without an external power supply using the 5000 mAh Li-ion internal battery
Measure safely – safety rated for CAT III 1000V, CAT IV 600 V environments
Measure three phase power and DC output power at the same time with three channels, with voltage and current inputs on each channel
0.1% accuracy, 500 kHz bandwidth, 200 ks/s sample rate so you can rely on the power conversion system measurements you take no matter what distortion may be present
USB and RS485 interface and open communication protocol for easy system integration and software platform flexibility
Combine two analyzers to enable simultaneous measurement of multiple circuits for even more troubleshooting capability – configurable to 6 or 8 channels using dual analyzer synchronization
View critical data in the field on the main display – Meter, Waveform, Harmonics up to the 100th, Vector and Trend
Ensure high common-mode rejection and allow flexible configurations according to measurement requirements using the electrically isolated channels
User adjustable measurement rate from 100 ms to 1 s with continuous logging via 32GB of onboard storage
Easy in-field set up using the integrated front panel or a remote PC connection (USB or RS485)
Online measuring, data download and analysis with included PC software (Fluke Power Analyzer Software)
Full remote control of the connected instrument using Fluke Power Analyzer Software and a local USB or long-distance RS485 connection
Applications
R&D and third party labs
Renewable energy/clean tech
Manufacturing
Fluke NORMA 6003 Specifications
Key Specifications
Inputs
3 Voltage + 3 Current
Sample Rate
200 ks/s
Measurement Update Rate
100 ms, 200 ms, 500 ms, 1s
Dual Analyzer Synchronization Mode
Able to extend to 6, 7 or 8 channels (using multiple instruments)
Data Trend Storage Rate
As per display rate
Main Function
Meter, Scope, Harmonic, Phasor, Trend
Measuring Parameters
RMS, DC Component, AC Component, Rectified Mean, Peak Value, Peak-Peak, Crest Factor, Form Factor, Fundamental Component, Fundamental Content, Harmonic Distortion, Harmonic Content, Harmonic Factor for voltages and currents, Active Power, Reactive Power, Apparent Power, Power Factor, Phase Shift, Efficiency, Impedance, Electric Energy, Charge/Discharge capacity (Ah), Frequency
Electrical
Range
10, 100, 1000 V
Crest Factor
CF ≤2
Maximum Voltage
10% overload
Input Impedance
2 MΩ/10 pF (typical)
Temperature Coefficient
0.05 (Spec)/k
Bandwidth
1000 V range: 500 kHz
100 V range: 200 kHz
10 V range:100 kHz
CMRR
120 dB at 50/60 Hz
Accuracy (% Reading + % Range)
Range – 1000 V
DC: 0.1 + 0.1
AC (10 Hz to 1 kHz): 0.1 + 0.1
AC (10 kHz): 5 + 0.5
Range – 100 V
DC: 0.1 + 0.1
AC (10 Hz to 1 kHz): 0.1 + 0.1
AC (10 kHz): 5 + 0.5
Range – 10 V
DC: 0.1 + 0.2
AC (10 Hz to 1 kHz): 0.1 + 0.2
AC (10 kHz): 5 + 0.5
Current
Crest factor: CF ≤2
Temperature coefficient: 0.05 x (Spec)/k
Overload capacity: 10% overload
CMRR: 120 dB at 50/60 Hz
Shunt (Current Input)
Measuring range: 0.1, 1, 10 A
Input impedance: 0.025 Ω (typical)
Bandwidth: 10 A – 500 kHz; 1 A – 200 kHz; 0.1 A – 100 kHz
BNC (Voltage Input)
Range: 0.1, 1, 10 V
Input impedance: 100 kΩ/100 pF (typical)
Bandwidth: 10 V – 500 kHz; 1 V – 200 kHz; 0.1 V – 100 kHz
Range – 10 A
DC: 0.1 + 0.2
AC (10 Hz to 1 kHz): 0.1 + 0.1
AC (10 kHz): 5 + 1
Range – 1 A
DC: 0.1 + 0.5
AC (10 Hz to 1 kHz): 0.1 + 0.2
AC (10 kHz): 5 + 1
Range – 0.1 A
DC: 0.1 + 2
AC (10 Hz to 1 kHz): 0.1 + 1
AC (10 kHz): 5 + 1
Range – 10 V
DC: 0.1 + 0.1
AC (10 Hz to 1 kHz): 0.1 + 0.1
AC (10 kHz): 5 + 1
Range – 1 V
DC: 0.1 + 0.2
AC (10 Hz to 1 kHz): 0.1 + 0.1
AC (10 kHz): 5 + 1
Range – 0.1 V
DC: 0.1 + 1
AC (10 Hz to 1 kHz): 0.1 + 0.5
AC (10 kHz): 5 + 1
General Specifications
Operating Temperature
14 to 122°F (-10 to 50°C)
Storage Temperature
-22 to 140°F (-30 to 60°C)
Operating Humidity
Non-condensing (<50°F [10°C])
≤90% RH (at 50 to 86°F [10 to 30°C])
≤75% RH (at 86 to 104°F [30 to 40°C])
≤45% RH (at 104 to 122°F [40 to 50°C])
Altitude
Operating: 6561.68' (2000 m)
Storage: 39,370.1' (12,000 m)
Display
5.7", TFT LCD, 640 x 480
Battery
BP 291, 10.8 V/5000 mAh, 54Wh IEC 62133, UN38.3
Operating time: 10 Hours (on battery)
Communication Interface
USB/RS485
Storage Capacity
32GB
PC Software
Fluke Power Analyzer software
Ingress Protection
IP 50 (Terminals mated) according to IEC 60529
Safety
IEC 61010-1: Pollution Degree 2
IEC 61010-2-030: CAT IV 600V, CAT III 1000 V
EMC
IEC 61326-1: Industrial
IEC 61326-2-2
Dimensions
11.73 x 8.46 x 3.78" (298 x 215 x 96 mm)
Weight
7.7 lbs (3.5 kg)
Click here for complete specifications on the Fluke NORMA 6003
What's included with the Fluke NORMA 6003
Power Analyzer
Test Leads:
3 x Red
3 x Black
6 x Blue
Alligator Clips:
3 x Red
3 x Black
6 x Blue
USB (Mini B) Cable
RS-485/Synchrony Adapter
Soft Carrying Case
Power Supply Adapter
Power Cord
USB Flash Drive for PC SW and User Manual
Webinar: Electrical Power Testing
It’s no secret that power quality can have a big impact on productivity and safety in the workplace. That’s why there’s been a rapid increase in the demand for electrical power measurement equipment recently. With that in mind, having an effective frontline troubleshooting and reliability tactic should be a priority. Keeping track of the power quality in your facility plays an important part in avoiding costs related to poor power quality management like productivity costs, reduced efficiency, higher energy bills, and capital equipment degradation and failure.
Webinar: Introduction to Portable Precision Power Analyzers with Fluke
This wideband precision analyzer is accurate enough for the lab, yet it's built for the field. Offering you more freedom than ever before to make high accuracy power measurements wherever you need to. Whether in the lab or in the field. Designed for portability and eliminates the need to carry large, fragile, expensive analyzers into the field, allowing you to make measurements directly at the load in nearly any environment. By measuring directly at the load, you can discover how the equipment operates under real-world conditions, with real-world variables, not just at a test bench or in the lab.
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