Fluke 125B OffersCompact and rugged, this oscilloscope is ideal for industrial electrical and electro-mechanical equipment troubleshooting and maintenance applications. Features innovative functions that help technicians troubleshoot faster for quicker results and to keep their systems running smoothly. Additionally, triggering displays waveforms without having to adjust amplitude, timebase, and trigger settings.
Features
Key measurements: Voltage, current and power waveforms with numerical values including harmonics,
resistance, diode, continuity and capacitance measurements
Automatically capture, view and analyze complex waveforms: Fluke Connect and Viewâ„¢ triggering automatically displays waveforms without having to adjust amplitude, timebase and trigger settings, while Intellasetâ„¢ technology analyzes the signal and automatically displays critical numerical readings, making troubleshooting faster than ever
View data locally on the instrument, or via Fluke Connect mobile app
Dual-input digital oscilloscope and multimeter
40 MHz oscilloscope bandwidth
Two 5000-count true-rms digital multimeters
Connect-and-View trigger simplicity for hands-off operation
IntellaSet technology automatically and intelligently adjusts numerical readout based on the measured signal
Dual-input waveform and meter reading recorder for trending data over extended periods
Recorder Event Detect captures elusive intermittent signals on repetitive waveforms up to 4 kHz
Shielded test leads for oscilloscope, resistance and continuity measurements
Resistance, continuity, diode and capacitance meter measurements
Power measurements (W, VA, VAR, PF, DPF, Hz)
Voltage, current and power harmonics
Check Industrial networks with BusHealth physical layer tests against defined reference levels
Save or recall data and instrument setups
Store instrument setups defined by a test sequence for routine maintenance or most often used test procedures
External optically isolated USB interface to transfer, archive and analyze scope or meter data
Optional WiFi adapter connected to internal USB port to wirelessly transfer information to the PC, laptop or Fluke Connect mobile app
Rugged design to withstand 3 g Vibration, 30 g shock, and rated IP51 according to EN/IEC60529
Highest safety rating in the industry: safety rated for CAT IV 600Â V
Connect-and-View triggering for an instant, stable display
Oscilloscope users know how difficult triggering can be. Using the wrong settings can lead to unstable waveform captures, and sometimes the wrong measurement data. This instrument's unique Connect-andView triggering technology recognizes signal patterns and automatically sets up the correct triggering to provide a stable, reliable, and repeatable display. Connect-and-View triggering is designed to work with virtually any signal, including motor drives and control signals - without adjusting parameters, or even touching a button. Signal changes are instantly recognized and settings are automatically adjusted, providing a stable display even when measuring multiple test points in quick succession.
IntellaSet/AutoReading
The Auto Readings function with Fluke IntellaSet technology uses proprietary algorithms to intelligently analyze the measured waveform and automatically displays the most appropriate numerical measurements on the screen, so you can get the data you need easier than ever before. As an example, when the measured waveform is a line voltage signal, the Vrms and Hz readings are automatically displayed, whereas if the measured waveform is a square wave, the Vpeak-peak, and Hz readings are automatically displayed. Using IntellaSet technology in conjunction with Connect-and-View automatic triggering you can be sure you're seeing not only the correct waveform but the appropriate numerical reading as well. All without touching a button.
Industrial equipment needs a reliable power supply to operate properly, use the dual input to obtain key power measurements
For single-phase or 3-phase balanced systems, the dual inputs of the Industrial ScopeMeter 120B Series can measure AC+DC RMS voltage on channel A and AC+DC RMS current on channel B. This oscilloscope can then calculate; frequency, phase angle, active power (kW), reactive power (VA or var), power factor (PF), or displacement power factor (DPF) and can also calculate the power values for a 3-phase system where all phases have equal voltage and currents. This applies to both balanced systems and resistive loads.
Harmonics Measurement
Harmonics are periodic distortions of voltage, current, or power sine waves. Harmonics in power distribution systems are often caused by non-linear loads such as switched-mode dc power supplies and adjustable speed motor drives. Harmonics can cause transformers, conductors, and motors to overheat. In the Harmonics function, the Test Tool measures harmonics to the 51st. Related data such as dc components, THD (Total Harmonic Distortion), and K factor are measured to provide a complete insight into the electrical state of health of your loads.
One test lead to measure multiple electrical parameters
High-frequency waveform, meter, capacitance, and resistance measurements as well as continuity checks are all covered by a single set of shielded test leads. No time is wasted finding or swapping leads.
Fluke Connect mobile app compatibility
Automated industrial machinery is harder than ever to troubleshoot. It's not enough to just know where you have to test, you also have to know what to look for and that can be hard without baseline measurement data or access to subject matter experts. This Fluke Connect Assets wireless system of software and wireless test tools enables technicians to reduce maintenance costs and increase uptime with accurate equipment records and maintenance data that is easy to interpret, and share. Compare and contrast test point measurement data and trends so you can better understand signal characteristics and changes over time. And, by storing maintenance data on the Fluke Cloud you can enable team members to access it from wherever and whenever they need to so you can get advice or approvals in the field and get your systems up and running faster than ever before.
Use the comprehensive recorder modes to help find intermittent faults with ease
The toughest faults to find are those that happen only once in a while-intermittent event. They can be caused by bad connections, dust, dirt, corrosion, or simply broken wiring or connectors. Other factors, like line outages and sags or the starting and stopping of a motor, can also cause intermittent events resulting in equipment shutdowns. When these events happen, you may not be around to see them. But, your Fluke ScopeMeter Test Tool will. You can either plot the minimum and maximum peak measurement values or record the waveform trace. And, with expandable micro SD memory, recording sessions can be done for up to 14 days. This recorder is even more powerful with the addition of Recorder Event Detect, which makes detecting and logging intermittent faults easier than ever. Just set a threshold on a meter reading or scope trace and deviations are tagged as unique events. You no longer need to search through masses of data to pinpoint faults, and can quickly step from one tagged event to the next, while still having access to the full data set.
Industrial Bus Health Test verifies electrical signal quality on industrial buses
Bus Health Test analyzes the electrical signals on the industrial bus or network and gives a clear "Good", "Weak" or "Bad" indication mark for each of the relevant parameters, presented next to the actual measurement value. Measured values are compared to standard values based on the selected bus types (CAN-bus, Profi-bus, Foundation Field, RS-232, and many more), or, unique reference values can be set if different tolerances are required. This oscilloscope can validate the quality of the electrical signals as soon as they are passed along the network, without looking at the data content. Additionally, this oscilloscope checks the signal levels and speed, transition times and distortion, and compares these to the appropriate standards to help you find errors such as improper cable connections, bad contacts, incorrect grounding, or improper terminators.
Applications
Ideal for industrial electrical and electro-mechanical equipment troubleshooting and maintenance applicationsFluke 125B OffersCompact and rugged, this oscilloscope is ideal for industrial electrical and electro-mechanical equipment troubleshooting and maintenance applications. Features innovative functions that help technicians troubleshoot faster for quicker results and to keep their systems running smoothly. Additionally, triggering displays waveforms without having to adjust amplitude, timebase, and trigger settings.
Features
Key measurements: Voltage, current and power waveforms with numerical values including harmonics,
resistance, diode, continuity and capacitance measurements
Automatically capture, view and analyze complex waveforms: Fluke Connect and Viewâ„¢ triggering automatically displays waveforms without having to adjust amplitude, timebase and trigger settings, while Intellasetâ„¢ technology analyzes the signal and automatically displays critical numerical readings, making troubleshooting faster than ever
View data locally on the instrument, or via Fluke Connect mobile app
Dual-input digital oscilloscope and multimeter
40 MHz oscilloscope bandwidth
Two 5000-count true-rms digital multimeters
Connect-and-View trigger simplicity for hands-off operation
IntellaSet technology automatically and intelligently adjusts numerical readout based on the measured signal
Dual-input waveform and meter reading recorder for trending data over extended periods
Recorder Event Detect captures elusive intermittent signals on repetitive waveforms up to 4 kHz
Shielded test leads for oscilloscope, resistance and continuity measurements
Resistance, continuity, diode and capacitance meter measurements
Power measurements (W, VA, VAR, PF, DPF, Hz)
Voltage, current and power harmonics
Check Industrial networks with BusHealth physical layer tests against defined reference levels
Save or recall data and instrument setups
Store instrument setups defined by a test sequence for routine maintenance or most often used test procedures
External optically isolated USB interface to transfer, archive and analyze scope or meter data
Optional WiFi adapter connected to internal USB port to wirelessly transfer information to the PC, laptop or Fluke Connect mobile app
Rugged design to withstand 3 g Vibration, 30 g shock, and rated IP51 according to EN/IEC60529
Highest safety rating in the industry: safety rated for CAT IV 600Â V
Connect-and-View triggering for an instant, stable display
Oscilloscope users know how difficult triggering can be. Using the wrong settings can lead to unstable waveform captures, and sometimes the wrong measurement data. This instrument's unique Connect-andView triggering technology recognizes signal patterns and automatically sets up the correct triggering to provide a stable, reliable, and repeatable display. Connect-and-View triggering is designed to work with virtually any signal, including motor drives and control signals - without adjusting parameters, or even touching a button. Signal changes are instantly recognized and settings are automatically adjusted, providing a stable display even when measuring multiple test points in quick succession.
IntellaSet/AutoReading
The Auto Readings function with Fluke IntellaSet technology uses proprietary algorithms to intelligently analyze the measured waveform and automatically displays the most appropriate numerical measurements on the screen, so you can get the data you need easier than ever before. As an example, when the measured waveform is a line voltage signal, the Vrms and Hz readings are automatically displayed, whereas if the measured waveform is a square wave, the Vpeak-peak, and Hz readings are automatically displayed. Using IntellaSet technology in conjunction with Connect-and-View automatic triggering you can be sure you're seeing not only the correct waveform but the appropriate numerical reading as well. All without touching a button.
Industrial equipment needs a reliable power supply to operate properly, use the dual input to obtain key power measurements
For single-phase or 3-phase balanced systems, the dual inputs of the Industrial ScopeMeter 120B Series can measure AC+DC RMS voltage on channel A and AC+DC RMS current on channel B. This oscilloscope can then calculate; frequency, phase angle, active power (kW), reactive power (VA or var), power factor (PF), or displacement power factor (DPF) and can also calculate the power values for a 3-phase system where all phases have equal voltage and currents. This applies to both balanced systems and resistive loads.
Harmonics Measurement
Harmonics are periodic distortions of voltage, current, or power sine waves. Harmonics in power distribution systems are often caused by non-linear loads such as switched-mode dc power supplies and adjustable speed motor drives. Harmonics can cause transformers, conductors, and motors to overheat. In the Harmonics function, the Test Tool measures harmonics to the 51st. Related data such as dc components, THD (Total Harmonic Distortion), and K factor are measured to provide a complete insight into the electrical state of health of your loads.
One test lead to measure multiple electrical parameters
High-frequency waveform, meter, capacitance, and resistance measurements as well as continuity checks are all covered by a single set of shielded test leads. No time is wasted finding or swapping leads.
Fluke Connect mobile app compatibility
Automated industrial machinery is harder than ever to troubleshoot. It's not enough to just know where you have to test, you also have to know what to look for and that can be hard without baseline measurement data or access to subject matter experts. This Fluke Connect Assets wireless system of software and wireless test tools enables technicians to reduce maintenance costs and increase uptime with accurate equipment records and maintenance data that is easy to interpret, and share. Compare and contrast test point measurement data and trends so you can better understand signal characteristics and changes over time. And, by storing maintenance data on the Fluke Cloud you can enable team members to access it from wherever and whenever they need to so you can get advice or approvals in the field and get your systems up and running faster than ever before.
Use the comprehensive recorder modes to help find intermittent faults with ease
The toughest faults to find are those that happen only once in a while-intermittent event. They can be caused by bad connections, dust, dirt, corrosion, or simply broken wiring or connectors. Other factors, like line outages and sags or the starting and stopping of a motor, can also cause intermittent events resulting in equipment shutdowns. When these events happen, you may not be around to see them. But, your Fluke ScopeMeter Test Tool will. You can either plot the minimum and maximum peak measurement values or record the waveform trace. And, with expandable micro SD memory, recording sessions can be done for up to 14 days. This recorder is even more powerful with the addition of Recorder Event Detect, which makes detecting and logging intermittent faults easier than ever. Just set a threshold on a meter reading or scope trace and deviations are tagged as unique events. You no longer need to search through masses of data to pinpoint faults, and can quickly step from one tagged event to the next, while still having access to the full data set.
Industrial Bus Health Test verifies electrical signal quality on industrial buses
Bus Health Test analyzes the electrical signals on the industrial bus or network and gives a clear "Good", "Weak" or "Bad" indication mark for each of the relevant parameters, presented next to the actual measurement value. Measured values are compared to standard values based on the selected bus types (CAN-bus, Profi-bus, Foundation Field, RS-232, and many more), or, unique reference values can be set if different tolerances are required. This oscilloscope can validate the quality of the electrical signals as soon as they are passed along the network, without looking at the data content. Additionally, this oscilloscope checks the signal levels and speed, transition times and distortion, and compares these to the appropriate standards to help you find errors such as improper cable connections, bad contacts, incorrect grounding, or improper terminators.
Applications
Ideal for industrial electrical and electro-mechanical equipment troubleshooting and maintenance applications
Fluke 125B Specifications
Oscilloscope Mode (Vertical)
Frequency Response - DC Coupled
Without probes and test leads (with BB120): DC to 40 MHz (-3 dB)
With STL120-IV 1:1 shielded test leads: DC to 12.5 MHz (-3 dB), DC to 20 MHz (-6 dB)
With VP41 10:1 probe: DC to 40 MHz (-3 dB)
Frequency Response - AC Coupled (LF Roll Off)
Without probes and test leads: <10 Hz (-3 dB)
With STL120-IV 1:1 shielded test leads: <10 Hz (-3 dB)
With VP41 10:1 probe: <10 Hz (-3 dB)
Rise Time, Excluding Probes, Test Leads
<8.75 ns
Input Impedance
Without probes and test leads: 1 MΩ/20 pF
With BB120: 1 MΩ/24 pF
With STL120-IV 1:1 shielded test leads: 1 MΩ/230 pF
With VP41 10:1 probe: 5 MΩ/15.5 pF
Sensitivity
5 mV to 200 V/div
Analog Bandwidth Limiter
10 kHz
Display Modes
A, -A, B, -B
Maximum Input Voltage A and B
Direct, with test leads, or with VP41 probe: 600 Vrms CAT IV, 750 Vrms maximum voltage
With BB120: 600 Vrms
Maximum Floating Voltage, from any Terminal to Ground
600 Vrms CAT IV, 750 Vrms up to 400 Hz
Oscilloscope Mode (Horizontal)
Scope Modes
Normal, single, roll
Ranges (Normal)
Equivalent sampling: 10 ns to 500 ns/div
Real time sampling: 1 μs to 5 s/div
Single (real time): 1 μs to 5 s/div
Roll (real time): 1 s to 60 s/div
Sampling Rate (for Both Channels Simultaneously)
Equivalent sampling (repetitive signals): up to 4 GS/s
Real time sampling 1 μs to 60 s/div: 40 MS/s
Trigger
Screen Update
Free run, on trigger
Source
A, B
Sensitivity A and B
At DC to 5 MHz: 0.5 divisions or 5 mV
At 40 MHz: 1.5 divisions
At 60 MHz: 4 divisions
Slope
Positive, negative
Advanced Scope Functions
Display Modes
Normal: Captures up to 25 ns glitches and displays analog-like persistence waveform
Smooth: Suppresses noise from a waveform
Glitch off: Does not capture glitches between samples
Envelope: Records and displays the minimum and maximum of waveforms over time
Auto Set (Connect-and-View)
Continuous fully automatic adjustments of amplitude, time base, trigger levels, trigger gap, and hold-off. Manual override by user adjustment of amplitude, time base, or trigger level
Input A and B
DC Voltage (V DC)
Ranges: 500 mV, 5, 50, 500, 750 V
Accuracy: ±(0.5% +5 counts)
Common mode rejection (CMRR): >100 dB at DC, >60 dB at 50, 60, or 400 Hz
Full scale reading: 5000 counts
True RMS Voltages (V AC and V AC+DC)
Ranges: 500 mV, 5, 50, 500, 750 V
Accuracy for 5 to 100% of range (DC coupled)
DC to 60 Hz (V AC + DC): ±(1% +10 counts)
1 to 60 Hz (V AC): ±(1% +10 counts)
Accuracy for 5 to 100% of range (AC or DC coupled): 60 Hz to 20 kHz: ±(2.5% +15 counts)
DC rejection (only V AC): >50 dB
Common mode rejection (CMRR): >100 dB at DC; >60 dB at 50, 60, or 400 Hz
Full scale reading: 5000 counts, reading is independent of any signal crest factor
Peak
Modes: Maximum peak, minimum peak, peak-to-peak
Ranges: 500 mV, 5, 50, 500, 2200 V
Accuracy: Maximum peak or minimum peak: 5% of full scale; peak-to-peak: 10% of full scale
Full scale reading: 500 counts
Frequency
Ranges: 1, 10, 100 Hz, 1, 10, 100 kHz, 1, 10, and 70 MHz
Frequency range: 15 Hz (1 Hz) to 50 MHz in continuous autoset
Accuracy at 1 Hz to 1 MHz: ±(0.5% +2 counts)
Full scale reading: 10,000 counts
RPM
Maximum reading: 50 kRPM
Accuracy: ±(0.5% +2 counts)
Duty Cycle
Range: 2 to 98%
Frequency range: 15 Hz (1 Hz) to 30 MHz in continuous autoset
Pulse Width
Frequency range: 15 Hz (1 Hz) to 30 MHz in continuous autoset
Full scale reading: 1000 counts
Amperes
With current clamp
Ranges: same as V DC, V AC, V AC+DC, or peak
Scale factors: 0.1, 1, 10, 100, 400 mV/A, 1 V/A, 10 mV/mA
Accuracy: same as V DC, V AC, V AC+DC, or peak (add current clamp uncertainty)
Decibel
0 dBV: 1 V
0 dBm (600/50 Ω): 1 mW referenced to 600 or 50 Ω
dB on V DC, V AC, or V AC+DC
Full scale reading; 1000 counts
Crest Factor
Range: 1 to 10
Full scale reading: 90 counts
Phase
Modes: A to B, B to A
Range: 0 to 359°
Resolution: 1°
Power
Configurations: 1 phase/3 phase 3 conductor balanced loads (3 phase: fundamental component only, AUTOSET mode only)
Power factor (PF): Ratio between watts and VA range - 0.00 to 1.00
Watt: RMS reading of multiplying corresponding samples of input A (volts) and input B (amperes); Full scale reading: 999 counts
VA: Vrms x Arms; Full scale reading: 999 counts
VA reactive (var): √((VA)2-W2); Full scale reading: 999 counts
Vpwm
Purpose: To measure on pulse width modulated signals, like motor drive inverter outputs
Principle: Readings show the effective voltage based on the average value of samples over a whole number of periods of the fundamental frequency
Accuracy: As Vrms for sine wave signals
Input A to Common
Ohm
Ranges: 50, 500 Ω, 5, 50, 500 kΩ, 5, 30 MΩ
Accuracy: ±(0.6% +5 counts) 50 Ω ±(2% +20 counts)
Full scale reading: 50 Ω to 5 MΩ - 5000 counts; 30 MΩ - 3000 counts
Measurement current: 0.5 mA to 50 nA, decreases with increasing ranges
Open circuit voltage: <4 V Common Continuity (Cont) Beep: <(30 Ω ±5 Ω) in 50 Ω range Measurement current: 0.5 mA Detection of shorts of: ≥1 ms Common Diode Measurement voltage: At 0.5 mA: >2.8 V
At open circuit: <4 V Measurement current: 0.5 mA Polarity: + on input A, - on COM Capacitance (CAP) Ranges: 50, 500 nF, 5, 50, 500 μF Full scale reading: 5000 counts Measurement current: 500 nA to 0.5 mA, increases with increasing ranges Advanced Meter Functions Zero Set Set actual value to reference AutoHold (on A) Captures and freezes a stable measurement result. Beeps when stable. AutoHold works on the main meter reading, with thresholds of 1 Vpp for AC signals and 100 mV for DC signals Fixed Decimal Point Activated by using attenuation keys Cursor Readout Sources A, B Single Vertical Line Average, minimum and maximum readout Average, minimum, maximum and time from start of readout (in ROLL mode; instrument in HOLD) Minimum, maximum and time from start of readout (in RECORDER mode; instrument in HOLD) Harmonics values in POWER QUALITY mode Dual Vertical Lines Peak-peak, time distance and reciprocal time distance readout Average, minimum, maximum and time distance readout (in ROLL mode; instrument in HOLD) Dual Horizontal Lines High, low and peak-peak readout Rise or Fall Time Transition time, 0%-level and 100%-level readout (manual or auto leveling; auto leveling only possible in single channel mode) Accuracy As oscilloscope accuracy Recorder Meter Readings Measurement speed: Maximum 2 measurements Record size (minimum, maximum, average): 2 M readings for 1 channel Recorded time span: 2 weeks Maximum number of events: 1024 Waveform Record Maximum sample rate: 400 K samples Size internal memory: 400 M samples recorded time Span internal memory: 15 minutes at 500 μs/div - 11 hours at 20 ms/div Record size SD card: 1.5 G samples Recorded time span SD card: 11 hours at 500 μs/div - 14 days at 20 ms/div Maximum number of events: 64 Power Quality Readings Watt, VA, var, PF, DPF, Hz Watt, VA, Var Ranges (Auto) 250 W to 250 MW, 625 MW, 1.56 GW When selected: total (%r) ±(2% + 6 counts) When selected: fundamental (%f) ±(4% + 4 counts) DPF 0.00 to 1.00 PF 0 to 1, ±0.04 Frequency Range 10 Hz to 15 kHz 40 to 70 Hz Number of Harmonics DC to 51 Readings/Cursor Readings (Fundamental 40 to 70 Hz) Vrms/Arms /Watt Each harmonic from fundamental maybe selected for individual readings Bus Health Tester AS-i Subtype: NEN-EN50295 CAN Subtype: ISO-11898 Interbus S Subtype: RS-422 Protocol: EIA-422 Modbus Subtype: RS-232; Protocol: RS-232/EIA-232 Subtype: RS-485; Protocol: RS-485/EIA-485 Foundation Fieldbus Subtype: H1 Protocol: 61158 type 1, 31.25 kBit Profibus Subtype: DP; Protocol: EIA-485 Subtype: PA; Protocol: 61158 type 1 RS-232 Subtype: EIA-232 RS-485 Subtype: EIA-485 General Specifications Waveform Display Vertical: 10 div of 40 pixels Horizontal: 12 div of 40 pixels Maximum Input Voltage A and B Direct on input or with leads: 600 Vrms CAT IV for derating With banana-to BNC adapter BB120: 600 Vrms for derating Maximum floating voltage from any terminal to ground: 600 Vrms CAT IV, 750 Vrms up to 400 Hz Display Type: 5.7" color active martrix TFT Resolution: 640 x 480 Interface Optically isolated: Transfer screen copies (bitmaps), settings and data USB to PC/laptop: OC4USB optically isolated USB adapter/cable, (optional), using FlukeView® software for Windows® Wireless Radio with Adapter Frequency range: 2412 to 2462 MHz Output power: <100 mW Environmental MIL-PRF-28800F, Class 2 Temperature Battery operation: 32 to 104°F (0 to 40°C) Power adapter operation: 32 to 122°F (0 to 50°C) Storage: -4 to 140°F (-20 to 60°C) non-condensing Humidity (Operating) At 32 to 50°F (0 to 10°C): non-condensing At 50 to 86°F (10 to 30°C): 95% At 86 to 104°F (30 to 40°C): 75% At 104 to 122°F (40 to 50°C): 45% Altitude Operating at 10,000' (3 km): CAT III 600 V Operating at 6600' (2 km): CAT IV 600 V Storage: 40,000' (12 km) EMC Electromagnetic Compatibility USA (FCC): 47 CFR 15 subpart B (this product is considered an exempt device per clause 15.103) Enclosure Protection IP51, ref: EN/IEC60529 Safety General: IEC 61010-1: Pollution Degree 2 Measurement: IEC 61010-2-033: CAT IV 600 V/CAT III 750 V Memory Internal memory can store 20 data sets (screen waveform and setup) Micro SD card slot with optional SD card (maximum size of 32 GB) Power External: Via power adapter BC430 Input voltage: 10 to 21 V DC Consumption: 5 W typical Input connector: 5 mm jack Internal: Via battery pack BP290 Battery power: Rechargeable Li-Ion 10.8 V Operating time: 7 hours with 50 % backlight brightness Charging time: 4 hours with test tool off, 7 hours with test tool on Allowable ambient temperature: 32 to 104°F (0 to 40°C) during charging Dimensions 10.2 x 5.2 x 2.15" (259 x 132 x 55 mm) Weight 3.2 lbs (1.4 kg) including battery pack Click here for complete specifications on the Fluke 125B What's included with the Fluke 125B Oscilloscope 2 x Shielded Test Leads with Ground Leads Test Lead Hook Clips Banana to BNC Adapter Voltage Probe AC Current Clamp USB Angled Adapter WiFi USB Adapter Li-Ion Battery Pack Charger/Power Adapter See it. Save it. Share it. All the facts, right in the field. Fluke engineers have delivered an innovative mobile platform and tool that helps solve everyday problems, allowing you to instantly document measurements, retrieve historical data, and share live measurements with your team. All handled by the Android™ or iOS smart phone you already carry. Fluke Connect with ShareLive™ video call is the only wireless measurement system that lets you stay in contact with your entire team without leaving the field. The Fluke Connect mobile app is works with over 20 different Fluke products - the largest suite of connected test tools in the world. Make the best decisions faster than ever before by viewing temperature, mechanical, electrical and vibration measurements for each equipment asset in one place. Get started saving time and increasing your productivity. Fluke Connect Features: TrendIt™ Graphs: Use graphing to show changes in measurements, allowing you to graph and show problems instantly. EquipmentLog™ History: Access equipment history building a database of equipment health and baselines with cloud backup. ShareLive™ Video Calls: Save, collaborate and share measurements instantly with your team anytime, from anywhere. AutoRecord™ Measurements: Instantly save measurements to your phone with Cloud backup. Fluke Cloud™ Storage: Securely access equipment records anywhere, anytime. Fluke Connect Benefits: Maximize uptime Minimize maintenance costs Better assessments with accurate records Higher efficiency with less walking around; no notebook and excel needed Share troubleshooting knowledge live Create and share helpful content in the field Access to Fluke digital product manuals means no need to carry manuals in the field Keep organized manually entered measurements Webinar: Solar Trends and Troubleshooting PV Systems with Fluke In recent years, more and more people are opting for greener solutions to minimize environmental damage, which has led to an increased demand for environmentally safe solutions. As such, there are more efforts being made on using solar energy in various segments of our society. These changes also entail the need for tools that improve testing and troubleshooting solar solutions.
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