Fluke CNX™ i3000 iFlex® AC Wireless Current Module
Compare products: wireless testers
Key features
The CNX™ i3000 iFlex® AC Wireless Current Module has all the essentials to help you conveniently take current measurements.
- iFlex® Current Probe allows you to get into tight, awkward spaces
- True-rms ac current measurements to 2500 A, with 3% accuracy
- Memory recording up to 65,000 readings
- Backlit LCD Display
- CAT IV 600 V, CAT III 1000 V
Using the optional PC adapter, the CNX™ wireless troubleshooting system can track up to 10 measurement modules simultaneously, with results downloaded for further analysis.
Product overview: Fluke CNX™ i3000 iFlex® AC Wireless Current Module
Priority Gold Instrument CarePlan
Make sure to ask your account manager about the Fluke Calibration Priority Gold CarePlan
A Fluke Calibration Priority Gold CarePlan puts you in control of your downtime and in control of your business, with calibration services and other offerings.The cabinet is already jammed, and now you're supposed fit in a current clamp, while wearing a full arc flash suit.
The CNX™ i3000 iFlex® AC Wireless Current Module gives you a better way. Deenergize. Slip the flexible current probe in between conductors. Close the cabinet and reenergize. Now you can view measurements from up to 20 meters away on the CNX™ Wireless Multimeter. Use multiple modules for easy measurements on three-phase systems. Plus, no more writing down data as the CNX™ i3000 Current Module captures up to 65,000 sets of time stamped min/max/avg readings, using the optional PC adapter. CNX™ wireless test tools also offer increased safety by letting you view readings in a separate location from the test point. Now you can take readings on moving machinery, with only the measurement module in harm's way.
Specifications: Fluke CNX™ i3000 iFlex® AC Wireless Current Module
Specifications | |
Range | 2500 A AC |
Resolution | 0.1A to 999.9, 1A from 1000 to 2500 |
Accuracy | 3 % ± 5 digits |
Crest factor (50 Hz/60 Hz) | 3.0 at 1100 A, 2.5 at 1400 A, 1.42 at 2500 A, add 2 % for C.F. > 2 |
Display | 3-1/2 digits, LCD w/backlight |
Log rate/interval | 1 sec minimum/adjustable by PC or front panel |
Battery type | 2 AA, NEDA 15 A, IEC LR6 |
Battery life | 400 hours |
Memory record | up to 65,000 readings |
Unbound listen interval | 5 seconds |
RF communications | 2.4 GHZ ISM Band |
RF communication range | 20 Meters |
Operating temperature | -10 °C to +50 °C |
Storage temperature | -40 °C to +60 °C |
Operating humidity | 90 % at 35 °C, 75 % at 40 °C, 45 % at 50 °C |
EMC | EN 61326-1:2006 |
Safety compliance | EN/IEC 61010-1:2010 to 1000 V Measurement Category (CAT) III 600 V Measurement Category (CAT) IV EN/IEC 61010-2-030:2010 EN/IEC 610101-2-031:2002 EN/IEC 61010-2-032:2002 |
Pollution degree | 2 |
Temperature coefficient | Add 0.1 X (specified accuracy)/ °C (<18 °C or >28 °C) |
Safety rating | CAT IV 600 V, CAT III 1000 V |
Certifications | CSA, FCC T68-FWCS IC:6627A-FWCS |
Ingress Protection (IP) rating | IP42 |
Size (HxWxD) | 16.5 cm x 6.35 cm x 3.56 cm |
(6.5 in x 2.5 in x 1.4 in) | |
Weight | .22 kg (8 oz) |
Jaw opening | 25.4 cm (10 in) coil |
Manuals + resources: Fluke CNX™ i3000 iFlex® AC Wireless Current Module
- CNX 3000 | Users manual
- CNX 3000 | Users manual supplement
- CNX 3000 | Quick reference guide
- CNX 3000 | Statement of memory volatility
- CNX 3000 | Instruction sheet
- CNX 3000 | Calibration manual
- CNX 3000 | Safety sheet
- CNX 3000 | Safety sheet supplement
- CNX a3000 | Quick reference guide
- CNX a3000 | Safety sheet
- CNX i3000 | Quick reference guide
- CNX i3000 | Safety sheet
- CNX i3000 | Calibration manual
- CNX i3000 | Calibration manual supplement
- CNX t3000 | Calibration manual
- CNX t3000 | Quick reference guide
- CNX t3000 | Safety sheet
- CNX v3000 | Calibration manual
- CNX v3000 | Safety sheet
- CNX v3000 | Quick reference guide
- CNX v3000, CNX t3000, CNX i3000, CNX a3000 | Statement of memory volatility
- Radio Frequency Data Class A | Instruction sheet
- v3000 FC, v3001 FC, a3000 FC, a3001 FC, a3002 FC, t3000 FC | Statement of memory volatility