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For the more demanding applications, the ScopeMeter 190 B Series high-performance oscilloscopes offer specifications found on top-end bench instruments. Fluke has enhanced its ScopeMeter® range of high-performance hand-held monochrome oscilloscopes. The range consists of the 192B(60MHz), 196B (100MHz) & 199B(200MHz). Large, bright display The upgraded 190B Series models have larger, brighter LCD screens, an increased display update rate & an extended range of trigger modes. The new display features a 14.4 cm diagonal, 20 percent larger than the original 190 Series ScopeMeter's screen. It is also twice as bright as before. More functions An automatic measurement function that allows users to measure the effective output voltage of variable speed motor drives and pulse-width modulated power supplies is also built in. Other features include a waveform-compare function allowing an acquired trace to be stored as a 'reference trace', and subsequently used to visually compare newly acquired waveforms. The coverage of the TrendPlot function has been extended from 8 to 22 days. With up to 200 MHz bandwidth, 2.5 GS/s real-time sampling and a deep memory of 27,500 point per input, they're ideal for engineers who need the full capabilities of a high-performance oscilloscope in a handheld, battery powered instrument. The 190B series are a three-in-one instrument incorporating a scope, multimeter and paperless recorder. |
60 MHz Bandwidth Dual Channel ScopeMeter Two 5,000-count true-rms digital multimeters Up to 500MS/s, real-time sampling per input Connect & View™ automatic triggering Full range of manual trigger modes plus external triggering 24 automatic waveform measurements Automatic capture and replay of 100 screens 27,500 points per input record length using ScopeRecord mode Automatic rise and fall time measurement Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Cursors, zoom and real-time clock Rechargeable NiMH battery pack 1000V independently floating isolated inputs Includes a 5000 count true-RMS multimeter and a TrendPlot™ paperless recorder |
100 MHz Bandwidth Dual Channel ScopeMeter Two 5,000-count true-rms digital multimeters Up to 1GS/s, real-time sampling per input Connect & View™ automatic triggering Full range of manual trigger modes plus external triggering 24 automatic waveform measurements Automatic capture and replay of 100 screens 27,500 points per input record length using ScopeRecord mode Automatic rise and fall time measurement Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Cursors, zoom and real-time clock Rechargeable NiMH battery pack 1000V independently floating isolated inputs Includes a 5000 count true-RMS multimeter and a TrendPlot paperless recorder |
200 MHz Bandwidth Dual Channel ScopeMeter Two 5,000-count true-rms digital multimeters Up to 2.5GS/s, real-time sampling per input Connect & View automatic triggering Full range of manual trigger modes plus external triggering 24 automatic waveform measurements Automatic capture and replay of 100 screens 27,500 points per input record length using ScopeRecord mode Automatic rise and fall time measurement Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Cursors, zoom and real-time clock Rechargeable NiMH battery pack 1000V independently floating isolated inputs Includes a 5000 count true-RMS multimeter and a TrendPlot paperless recorder |
60 MHz Bandwidth Dual Channel Colour ScopeMeter Two 5,000-count true-rms digital multimeters Increased waveform acquisition memory depth of 3k points per input Advanced Trigger Function Frequency Spectrum Analysis using FFT Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Automatic rise and fall time measurement Improved TrendPlot scaling Improved Voltage Readings stability Pass/Fail testing with reference waveform 2mV sensitivity Color for easy identification of individual waveforms Full-size, high-resolution screen for revealing more signal detail Digital Persistence for analyzing complex dynamic waveforms like on an analogue scope Fast display update rate for seeing dynamic behavior instantaneously Stop-on-Trigger in ScopeRecord™ mode for storing and analyzing pre-trigger waveform data Waveform reference for visual comparisons Vpwm function for motor drive and frequency inverter applications Connect-and-View triggering for an instant stable waveform Automatic capture and replay of last 100 screens Isolated inputs (1000 V CAT II/600 V CAT III) 4 hours battery operation |
100 MHz Bandwidth Dual Channel Colour ScopeMeter Two 5,000-count true-rms digital multimeters Increased waveform acquisition memory depth of 3k points per input Advanced Trigger Function Frequency Spectrum Analysis using FFT Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Automatic rise and fall time measurement Improved TrendPlot scaling Improved Voltage Readings stability Pass/Fail testing with reference waveform 2mV sensitivity Color for easy identification of individual waveforms Full-size, high-resolution screen for revealing more signal detail Digital Persistence for analyzing complex dynamic waveforms like on an analogue scope Fast display update rate for seeing dynamic behavior instantaneously Stop-on-Trigger in ScopeRecord™ mode for storing and analyzing pre-trigger waveform data Waveform reference for visual comparisons Vpwm function for motor drive and frequency inverter applications Connect-and-View triggering for an instant stable waveform Automatic capture and replay of last 100 screens Isolated inputs (1000 V CAT II/600 V CAT III) 4 hours battery operation |
200 MHz Bandwidth Dual Channel Colour ScopeMeter Two 5,000-count true-rms digital multimeters Increased waveform acquisition memory depth of 3k points per input Advanced Trigger Function Frequency Spectrum Analysis using FFT Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Automatic rise and fall time measurement Improved TrendPlot scaling Improved Voltage Readings stability Pass/Fail testing with reference waveform 2mV sensitivity Color for easy identification of individual waveforms Full-size, high-resolution screen for revealing more signal detail Digital Persistence for analyzing complex dynamic waveforms like on an analogue scope Fast display update rate for seeing dynamic behavior instantaneously Stop-on-Trigger in ScopeRecord™ mode for storing and analyzing pre-trigger waveform data Waveform reference for visual comparisons Vpwm function for motor drive and frequency inverter applications Connect-and-View triggering for an instant stable waveform Automatic capture and replay of last 100 screens Isolated inputs (1000 V CAT II/600 V CAT III) 4 hours battery operation |
Based on the 199C Color ScopeMeters, the 225C offers the full functionality of those instruments yet with the addition of powerful test capabilities for a wide variety of Industrial Bus systems. When in Bus health Test mode, these ScopeMeters automatically make an analysis of the electrical signals passing through the bus, and compare the parameters to standard values as described in the industry standards for that bus type. Alternatively, the user may select an ‘Eye pattern’ display to visually check the overall signal quality. Parameters are automatically qualified as ‘good’, ‘weak’ or ‘bad’ based on a comparison to the appropriate industrial standards or to user set reference values. Each of the measured parameters is presented with momentary value and with statistical minimum and maximum values measured over time. The reference values used are also displayed, to give the user an easier grip on the systems behavior. Tested parameters include signal amplitudes, bias voltage, rise- and fall-times, jitter, distortion and noise levels (in-band noise as well as out-of-band noise) depending on the requirements of the associated industry standard. Bus Health Test Bus Health Test analyses the electrical signals on the industrial bus or network and gives a clear “Good”, “Weak” or “Bad” validation 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 type, or you may set your personal reference values if you need different tolerances. All common bus types are supported The 225C ScopeMeters support not just one or two bus systems but all commonly seen industrial buses. From the lower speed AS-i and CAN to the higher speed Ethernet 100Base-T based systems are covered by a single instrument. A simple menu structure allows for selecting the main bus type and, where applicable, sub-types listed in a sub-menu for easy selection. Tested parameters and reference values are then set according the selection made. Large color screen The large color screen of the 225C shows the individual parameters with validation, the actual measured value, the minimum and maximum values recorded over time, and the reference values used for the validation. The choice of parameters differs with the bus type and may include bias voltage, signal high- and low-levels, rise- and fall-times, in-band and out-of-band noise levels, jitter, pulse width, baudrate, and more. The activity indicators tell you the data flow is ongoing and they stop flashing the moment communications come to a halt. Making test connections The large screen also gives wiring information for each of the supported bus types, giving the user guidance in making the test connections. A set of break-out adapters is included with the 225C to give access to each of the wires and pins of the commonly used connection systems M12, DB-9 and RJ-45. Eyepattern Mode The Fluke 225C can make the signal quality validation as soon as electrical signals are passed along the network, without looking at the data content. They find errors like improper cable connections, bad contacts, incorrect grounding and missing or superfluous terminators. In the eye-pattern mode, a waveform display is built over successive signal passes to give you a visual indication of overall signal quality, noise levels and signal jitter, using the scope’s user selectable persistence mode. Floating independently isolated input channels Thanks to the independently isolated input channels and the floating inputs, the ScopeMeter can take truly floating differential measurements from balanced 2-wire systems such as RS-485 and CAN, giving a high level of suppression for common mode disturbances and noise. One input channel can be connected to measure the voltage between the two signal wires, and the other can be connected to measure the common mode voltage over ground at the same time, independently. This way, you may also measure the signals passing through the twisted wires of the 100Base-T Ethernet. Features: 200 MHz Bandwidth Up to 2.5 GS/s real time sampling Bus Health Test Increased waveform acquisition memory depth of 3k points per input Advanced Trigger Function Frequency Spectrum Analysis using FFT Advanced waveform mathematics for adding, subtracting and multiplying waveforms A versus B waveform display for advanced signal analysis Automatic rise and fall time measurement Improved TrendPlot scaling Improved Voltage Readings stability Pass/Fail testing with reference waveform 2mV sensitivity Color for easy identification of individual waveforms Full-size, high-resolution screen for revealing more signal detail Digital Persistence for analyzing complex dynamic waveforms like on an analog scope Fast display update rate for seeing dynamic behavior instantaneously Stop-on-Trigger in ScopeRecord™ mode for storing and analyzing pre-trigger waveform data Waveform reference for visual comparisons Vpwm function for motor drive and frequency inverter applications Connect-and-View™ triggering for an instant stable waveform Automatic capture and replay of last 100 screens Isolated inputs (1000 V CAT II/600 V CAT III) 4 hours battery operation |
Accessories Package, including: C190 Hard Carrying Case OC4USB Optically Isolated USB Adapter/Cable SW90W/034E FlukeView ® Software for Windows. |
The Fluke 123 Industrial Scopemeter is a compact 20 MHz two channel scope and DMM. Ideal for troubleshooting industrial machinery, instrumentation, control and power systems. The Fluke 123 has unique features like Connect-And-View, and TrendPlot that simplify taking measurements and reduce troubleshooting time when working in the field or in industrial environments. |
Fluke has extended it's Industrial 120 Series ScopeMeter® range with the 40MHz Model 124.
Compared to the original, and still available 123 model, the new Fluke 124 ScopeMeter® extends the troubleshooting power by adding more bandwidth, oscilloscope cursors, more memories and a more powerful NiMH battery.
The compact 124 ScopeMeter® is the rugged solution for industrial troubleshooting and installation applications. It's a truly integrated test tool, with oscilloscope, multimeter and "paperless" recorder in one
affordable, easy-to-use instrument. Find fast answers to problems in machinery, instrumentation, control and power systems. |
For troubleshooting Industrial Busses. Resistance and Capacitance measurements. Troubleshooting a network segment starts with checking connectivity, measuring the cable impedance making sure it is not open or shorted. Cable impedance is dependant on network type, for example, Foundation Fieldbus uses a 120 Ohm cable terminated at either end of the segment with 120 Ohms. Also, check capacitance, making sure it is within specification. A good cable is essential for proper electrical signal performance. Network signal electrical performance. Checking electrical signal performance requires measuring key parameters of the network signal. The 125 includes a Bus Health test mode that is designed to trigger on and capture network signal waveforms. Select a bus type, the ScopeMeter Bus Health mode then runs algorithms to measure key signal parameters like bias voltages, signal low, high and peak-to-peak levels. The bus health mode also measures distortion or signal jitter determining overall signal quality. Verify signaling meets specification. The signal parameter measurements are compared to the industry specification, a low and high limit defined by the standard is used to determine if these key parameters are within specification. Display icons are used to clearly indicate which parameters are outside of the industry specification. Fluctuating or incorrect bias voltages is indicative of grounding or termination issues, while low signal level measurements could mean there is excessive attenuation caused by too long cable runs, too many devices on one segment or simply incorrect network termination. Signal distortion like overshoot is a sign of reflections typically caused by cable imperfections or failing connectors. Inspecting the signaling for disturbances is simplified with the “eye pattern” display mode. The clearer the center “eye” of the signal display the less distortion and disturbances on the signal. Phase noise and jitter are typical digital signal distortion caused by device receiver transmitter circuits. External electrical interference from high-energy sources such as lighting systems and heavy-duty machinery can be detected by inspecting the eye pattern. Electrical interference like noise, static discharge and transients can cause network devices to reset, monitoring a segment can capture these events thereby helping to isolate their source. Once the cabling and signaling parameters are eliminated, network protocol diagnostic tools are used to verify digital protocol performance. Eliminating cabling and signal quality issues are two critical steps to isolating network performance issues. The Fluke 125 ScopeMeter includes measurement functions and algorithms to verify the integrity of network digital signaling. Features Dual-input 40 MHz digital oscilloscope Two 5,000-count true-rms digital multimeters A dual-input TrendPlot recorder Connect-and-View™ trigger simplicity for hands-off operation Shielded test leads for oscilloscope, resistance and continuity measurements Industrial Networks bus health testing Measure harmonics and power, VA, VAR, W, PF Up to seven hours battery operation 600 V CAT III safety certified Optically isolated RS-232 interface Rugged compact case Bus Health Tester |
Accessories Package, including: FlukeView ® Software for Windows. OC4USB Optically Isolated USB Adapter/Cable ScopeMeter 120 Series Hard Carrying Case (black) One BB120 Adapter Dimensions case: W x H x D 40 x 34 x 12.0 cm 15.5 x 13.5 x 4.75 inches |
The DP120 differential voltage probe is designed to make measurements on signals with floating reference. The DP120 has two probes with shrouded banana probe tips (one red, one black) and shielded cable for improved noise immunity. Input impedance between each input to shielding BNC is 5 MO in parallel with 6 pF. Input impedance between the inputs is 10 MO with a capacitance of 5 pF. Input: Probes with shrouded banana probe tip Probe length: 1.5 meter (60 inch) Maximum Input Voltage to Ground: 600V rms CAT III per IEC 1010-2-031 / 1000Vrms CAT II, per IEC 1010-2-031 Maximum Differential Voltage: 1000V DC or1000Vrms or 1200V (DC + ACpeak) Output Cable: Safety designed 0.5m (5ft) BNC Cable Attenuation: 200x and 20x Bandwidth: DC to 20 MHz (-3 dB) Accuracy: ±2.5% Rise time: 17.5 ns CMRR: 200x: @ 60 Hz = 80dB, @ 1 MHz = 50 dB 20x: @ 60 Hz = 70dB, @ 1 MHz = 40 dB Battery type: Alkaline 9 volt, NEDA, IEC6LR61 Battery life: 8-hour operation, 400-hour stand by Power Adapter: PM 8907/80n (optional) Included Accessories: AC85A Large Jaw Alligator Clips and AC83 Pin-Grabber Test Clips |
Designed for use with Fluke ScopeMeter 123. The probe connects to the optical port of the ScopeMeter 123, and features isolated external triggering, for measurements that require external triggering or triggering on floating reference signals. Probe length is 1.2m (48 inch). The probe includes a hookclip with ground lead, and a 9-Volt Alkaline battery. Input impedance is 10MO in parallel with 15pF. Trigger level: TTL compatible (High = 2V, Low = 0.8V) Minimum pulsewidth: 7 µs Maximum frequency: 50 kHz Maximum signal voltage: 600 Vrms, CAT II per IEC1010-2-031 Maximum voltage to ground: 600 Vrms, CAT II per IEC1010-2-031 Input resistance: 10 MW ±10 kW Battery type: Alkaline 9 volt, NEDA, IEC6LR61 Battery life: 60 hours |
