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Midtronics CPX-900

sku Product SKU:  MID-CPX-900

CPX-900 Battery & Electrical System Analyzer offers advanced diagnostics in a handheld one-piece diagnostic tool. CPX-900 features Conductance Profiling™, a patented Midtronics technology that identifies batteries with low reserve capacity, a key capability to accurately diagnose the increasing electrical demands placed on modern vehicles.

  • Quickly and accurately diagnose a battery’s cranking and reserve capacity health
  • Reduced charge and retest results
  • Proven Midtronics quality – durable design features for heavy daily use
  • Support automated over-the-air software updates and data analytics

Battery Management Processes

Midtronics products are designed to meet a variety of battery and electrical system service requirements, but selected features on individual products may make them a better fit for your unique service applications. This product is particularly well-suited for these battery management processes:

  • Preventative maintenance

  • Vehicle arrival inspection

  • pre-delivery inspection

  • Warranty management

  • Service diagnostics

KEY PRODUCT DIFFERENTIATOR

Conductance Profiling™

Combines our conductance algorithm with new proprietary technology to:

  • Identify batteries with poor reserve capacity that may start the car, but could fail to support other vehicle accessories
  • Ensures service readiness for emerging vehicle systems and batteries with new points of battery failure

Analytics and Communication

  • BMIS integration supports automated over-the-air software updates and analytical reporting

    • Capture and review battery testing data
    • Visibility into process compliance
    • E-mail results via built-in Wi-Fi

ZAR -1

NETSCOUT SpectraSecure

sku Product SKU:  NET-SpectraSecure

Distributed Denial of Service (DDoS) attacks can target any application or service that is reachable from the internet . Web servers, DNS servers, routers, session border controllers, and many other services are constantly subject to attack. Identifying and mitigating these attacks is done using on-premises solutions, cloud-based solutions, or a hybrid solution combing both.

DDoS mitigation is not static. With the power, sophistication, and frequency of DDoS attacks rising, DDoS mitigation must continually evolve in order to protect against the latest attack scenarios. But how can you be sure you are protected? Waiting for an attack to happen to test your resilience is a risky proposition. NETSCOUT’s SpectraSecure solution helps you eliminate that risk.

The NETSCOUT Solution for DDoS Mitigation Testing

SpectraSecure tests DDoS resilience in a controlled manner using configurable threat vectors that can mimic the malicious traffic launched by botnets. SpectraSecure utilizes test-botnets to simulate real-world attack scenarios in a customer’s controlled environment. Using SpectraSecure, you can validate the resilience of any potential target, including networks, applications, and services. Test attacks launched by SpectraSecure appear massively distributed, even when the test-botnet consists of a small number of Virtual Machines. A single test using a volumetric attack vector may appear to originate from millions of unique endpoints.

War Games

Although traditional lab testing is essential, it cannot assess the organizational readiness required for holistic DDoS attack mitigation. Conducting war games is one of the best ways to verify that the teams, tools, and processes will all be on the same page when an attack occurs.

Blacklist Verification

Maintaining a blacklist of source addresses can present a challenge. Use SpectraSecure in the lab to verify the target can handle high volume DDoS attacks from blacklisted sources. In a production network, SpectraSecure can launch low-bandwidth attacks to verify that blacklisted packets are handled properly.

Deep Packet Inspection Testing

Solutions that use Deep Packet Inspection (DPI) to identify attacks require test traffic with specific content at the application layer. Using SpectraSecure, simulated attacks can contain a mix of traditional attack vectors and packets that contain application-specific content to trigger DPI-based filters.

Notification Testing

Identifying and mitigating DDoS attacks often involves automatic notification of staff and external systems. Use SpectraSecure to verify these critical steps are occurring as required.

Multi-Vector and Custom Attacks

Use SpectraSecure to stay ahead of threat actors by verifying resilience to multi-vector attacks and custom attack scenarios. SpectraSecure’s built-in attack vectors can be modified and combined together to create unique scenarios that exercise all aspects of a mitigation system.

ZAR -1

Fluke8588

Fluke 8588A Reference Multimeter

sku Product SKU:  FCAL-8588A

Stability, simplicity, and performance by design

The 8588A incorporates exceptional linearity, low noise, and stability in the design. This best-in-class long-scale digital reference multimeter guarantees superior 3.5 ppm one-year dc voltage relative accuracy and long-term stability over a wide measurement range and functions.

The 8588A contains the world’s most stable voltage references and attenuators custom crafted at Fluke Calibration.  These precision components eliminate the need for daily internal self-calibration to compensate for drift when less-precise components are used.  Autozeroing also becomes unnecessary because the amplifier offsets are ultra-stable.  The 8588A achieves an exceptional 8.5-digit resolution reading in one second, two times shorter than the next best in class, which amounts to considerable productivity improvements.

The 8588A is easy and intuitive to use. It is the ideal lab multimeter for metrologists and calibration laboratory managers who expect and appreciate a straightforward setup that quickly achieves the maximum performance of the instrument.

  • 2.7 µV/V (95%), 3.5 µV/V (99%), 1 year relative accuracy, dc voltage without internal self-calibration or auto-adjustments
  • 0.5 µV/V (95%), 0.65 µV/V (99%), 24 hour stability, dc voltage
  • 7 µΩ/Ω (95%), 9 µΩ/Ω (99%), 1 year, resistance
  • 2.02x full scale stretches lower noise floor to higher signal levels to maximize higher accuracies from the instrument
  • 200 ns to 100 s aperture setting allows the industry's widest flexibility to control data capture window

Accuracy, offset and stability provide excellent ac performance

The 8588A provides the most accurate true ac rms measurement available in a Fluke Calibration multimeter.

With a 5 mega-samples-per-second sampling analog-to-digital converter and an extraordinarily stable dc analog path, the 8588A achieves remarkable ac rms measurement performance that is ten times faster, two times less noisy, and more sensitive for low level signals than other instruments in this class. It utilizes digital rms calculations to maintain full resolution of a wide dynamic range of digitized signals, so you can see a wide range of measurements clearly.

Rapid digital filters are more effective than their analog equivalents for faster settling. The digital filters eliminate the dielectric absorption on analog filters, commonly associated with residual slow-tail characteristics. The digital filters effectively shorten settling time to within 6 cycles of the filter frequency and less than 1 ppm of the fully settled value.This is up to 10 times faster than other long scale precision digital multimeters at low frequencies.

Low noise is achieved from averaging the collected high-resolution digitized data and the inherently stable signal path. De-coupling low level signal sensitivity from temperature drift enables the 8588A to make higher accuracy low-level ac measurements. Therefore, temperature drift, offsets, and long-term instability typically associated with an analog rms converter are eliminated.

  • 60 µV/V (95%), 77 µV/V (99%), 1 year relative accuracy, for the most accurate ac voltage measurement
  • 250 µA/A (95%), 323 µA/A (99%), 1 year relative accuracy, ac current
  • 15 ms settling time at 1kHz ac filter form 10x faster ac voltage measurement
  • 2.02x full scale Vpp, 1.2x full scale rms
  • Up to 30 A for peak ac current greatly extends ac current measurement range

8588A AC voltage measurement, screen capture
AC voltage measurement

8588A AC voltage measurement settings, screen capture
AC voltage measurement settings

Usability designed for metrologists by metrologists

The 8588A is the ideal lab multimeter. It streamlines the measurement process while eliminating misunderstandings, with an easy-to-access user interface in English, Chinese, French, German, Japanese, Korean, Russian and Spanish. An intuitive graphical display lets you easily visualize trends, histograms, complex waveforms, and statistics and perform routine metrology tasks quickly. You can perform both real-time and post-capture analysis for short-term and long-term stability, identifying and quantifying drifts, run-around noise, and uncertainty analysis without the need for an external computer or software. You can also quickly visualize post-processed frequency domain signals of fundamental and harmonic amplitude and phase content.

Some popular system multimeters have complex menu structures and unintuitive commands, while others lack any user interface, presenting barriers to training and operation. By contrast, the 8588A/8558A feature an easy to- access configuration menu that makes it easy to train new users.

The front panel features many new usability improvements. Visual Connection Management™ output terminals light up to show which terminals are active, guiding the user to make the correct connections. The handles are over-molded for comfort and easy transport.

USB host ports are placed both on the front and rear of the instrument. Use the ports to export data to external memory devices or simplify firmware updates. For remote communication with a PC, choose from Ethernet, GPIB or USBTMC connectors on the rear panel.

The 8558A/8558A provides full emulation of the Fluke 8508A Reference Multimeter and command compatibility of the Keysight 3458A Digital Multimeter via SCPI commands, making it an ideal replacement for these older instruments.

  • Graphical display that enables instantaneous visualization of trend plot, statistical analysis, histogram and FFT. 
  • GPIB, USBTMC, Ethernet allows industry-standard selection of remote interface. • USB thumb drive enables quick and easy data transfer to PC in .csv format.
  • SCPI compliant commands with 8508A and 3458A emulation mode simplifies and accelerates system upgrade process to 8588A/8558A
  • Programmable front/rear input switching with ratio measurement allows ratio-metric measurements between front and rear terminals in dc voltage, resistance, current functions with state-ofthe- art linearity, noise performance, superb transfer uncertainties.
  • Capacitance and RF power meter readout from Rohde & Schwarz NRP Series expands the utility of 8588A in calibrating multi-product calibrators for improved productivity in calibration labs.
     

8588A Trend plot, screen capture
Trend plot

 Histogram, screen capture
Analyze: Histogram

The MET/CAL™ Calibration Management Software advantage

The 8588A and 8558A work with Fluke Calibration MET/CAL™ Calibration Software, in 8508A emulation mode, allowing increased throughput while ensuring calibrations are performed consistently every time. This powerful software documents calibration procedures, processes and results for ease in complying with ISO/IEC 17025 and similar quality standards.

Support and services when you need them

Fluke Calibration offers testing, repair and calibration services to meet your needs quickly and at a fair cost while maintaining the high level of quality that you expect. Our electrical calibration laboratories are accredited for conformance to ISO Guide 17025 and we maintain global calibration and repair facilities.

You can enhance warranty protection with a Priority Gold Instrument CarePlan service package.

A Priority Gold Instrument CarePlan includes an expedited annual calibration to reduce downtime by a week and extended warranty to help ensure the best long-term performance from your instruments. Choose from one-year, three-year or five-year CarePlans. (Note: Priority shipping times vary by country. Contact your local Fluke Calibration sales representative for details.)

ZAR -1

Tek-MSO4x-Front

4 Series MSO Mixed Signal Oscilloscope

sku Product SKU:  TEK-MSO4x

Strength in numbers

Input channels

  • 4 or 6 FlexChannel® inputs 
  • Each FlexChannel provides: 
    • One analog signal that can be displayed as a waveform view, a spectrum view 1, or both simultaneously 
    • Eight digital logic inputs with TLP058 logic probe 

Bandwidth (all analog channels)

  • 200 MHz, 350 MHz, 500 MHz, 1 GHz, 1.5 GHz (upgradable) 

Sample rate (all analog / digital channels)

  • Real-time: 6.25 GS/s 

Record length (all analog / digital channels)

  • 31.25 Mpoints standard (62.5 Mpoints optional upgrade) 

Waveform capture rate

  • >500,000 waveforms/s 

Vertical resolution

  • 12-bit ADC 
  • Up to 16-bits in High Res mode 

Standard trigger types

  • Edge, Pulse Width, Runt, Timeout, Window, Logic, Setup & Hold, Rise/Fall Time, Parallel Bus, Sequence, Visual Trigger 
  • Auxiliary Trigger ≤300 VRMS (Edge Trigger only) 

Standard analysis

  • Cursors: Waveform, V Bars, H Bars, V&H Bars 
  • Measurements: 36  
  • FastFrameTM: Segmented memory acquisition mode with maximum trigger rate waveforms per second 
  • Plots: Time Trend, Histogram and Spectrum 
  • Math: Basic waveform arithmetic, FFT, and advanced equation editor 
  • Search: Search on any trigger criteria 

Optional analysis

  • Spectrum View: Frequency-domain analysis with independent controls for frequency and time domains 
  • Power Measurements and Analysis 

Optional serial bus trigger, decode and analysis

  • I2C, SPI, I3C, RS-232/422/485/UART, SPMI, CAN, CAN FD, LIN, FlexRay, SENT, USB 2.0, Ethernet, I2S, LJ, RJ, TDM, MIL-STD-1553, ARINC 429  

Arbitrary/Function Generator1

  • 50 MHz waveform generation 
  • Waveform Types: Arbitrary, Sine, Square, Pulse, Ramp, Triangle, DC Level, Gaussian, Lorentz, Exponential Rise/Fall, Sin(x)/x, Random Noise, Haversine, Cardiac 

Digital voltmeter2

  • 4-digit AC RMS, DC, and DC+AC RMS voltage measurements 

Trigger frequency counter2

  • 8-digit 

Display

  • 13.3-inch (338 mm) TFT color 
  • High Definition (1,920 x 1,080) resolution 
  • Capacitive (multi-touch) touchscreen 

Connectivity

  • USB 2.0 Host, USB 2.0 Device (5 ports); LAN (10/100/1000 Base-T Ethernet); HDMI 3

e*Scope®

  • Remotely view and control the oscilloscope over a network connection through a standard web browser 

Warranty

  • 3 years standard

Dimensions

  • 9.8 in (249 mm) H x 17.7 in (450 mm) W x 6.1 in (155 mm) D 
  • Weight: <16.8 lbs. (7.6 kg) 

1Optional and ungradable.

2Free with product registration.

3Requires connection to high definition display (1,920 x 1,080 resolution).

Never let a lack of channels slow down your verification and debug process again!

The 4 Series MSO offers better visibility into complex systems by offering four and six channel models with a 13.3-inch high-definition (1,920 x 1,080) display. Many applications, such as embedded systems, three-phase power electronics, automotive electronics, power supply design, and DC-to-DC power converters, require the observation of more than four analog signals to verify and characterize device performance, and to debug challenging system issues.

Most engineers can recall situations in which they were debugging a particularly difficult problem and wanted greater system visibility and context, but the scope they were using was limited to two or four analog channels. Using a second scope involves significant effort to align trigger points, difficulty in determining timing relationships across the two displays, and documentation challenges.

And while you might assume that a six channel scope would cost 50% more than a four-channel scope, you'll be pleasantly surprised to find that six channel models are only ~20% more than four channel models. The additional analog channels can pay for themselves quickly by enabling you to keep current and future projects on schedule.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Voltage measurements on a switch-mode power supply showing the ripple voltage on one of the power rails.

 

FlexChannel®technology enables maximum flexibility and broader system visibility

The 4 Series MSO redefines what a Mixed Signal Oscilloscope (MSO) should be. FlexChannel technology enables each channel input to be used as a single analog channel, eight digital logic inputs (with the TLP058 logic probe), or simultaneous analog and spectrum views1with independent acquisition controls for each domain. Imagine the flexibility and configurability this provides.

With a six FlexChannel model, you can configure the instrument to look at six analog and zero digital signals. Or five analog and eight digital. Or four analog and 16 digital, three analog and 24 digital and so on. You can change the configuration at any time by simply adding or removing TLP058 logic probes, so you always have the right number of digital channels.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

FlexChannel technology enables the ultimate in flexibility. Each input can be configured as a single analog or eight digital channels based on the type of probe you attach.

 

 

Previous-generation MSOs required tradeoffs, with digital channels having lower sample rates or shorter record lengths than analog channels. The 4 Series MSO offers a new level of integration of digital channels. Digital channels share the same high sample rate (up to 6.25 GS/s), and long record length (up to 62.5) Points for analog channels.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

The TLP058 provides eight high performance digital inputs. Connect as many TLP058 probes as you like, enabling up to a maximum of 48 digital channels.

 

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Channel 2 has a TLP058 Logic Probe connected to the eight inputs of a DAC. Notice the green and blue color coding, where ones are green and zeros are blue. Another TLP058 Logic Probe on Channel 3 is probing the SPI bus driving the DAC. The white edges indicate higher frequency information is available by either zooming in or moving to a faster sweep speed on the next acquisition.

 

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Beyond just analog and digital, FlexChannel inputs include Spectrum View. This Tektronix-patented technology enables you to simultaneously view both analog and spectral views of all your analog signals, with independent controls in each domain.

 

1Optional.

Unprecedented signal viewing capability

The stunning 13.3-inch (338 mm) display in the 4 Series MSO is the largest display in its class. It is also the highest resolution display, with full HD resolution (1,920 x 1,080), enabling you to see many signals at once with ample room for critical readouts and analysis.

The viewing area is optimized to ensure that the maximum vertical space is available for waveforms. The Results Bar on the right can be hidden, enabling the waveform view to use the full width of the display.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Stacked display mode enables easy visibility of all waveforms while maintaining maximum ADC resolution on each input for the most accurate measurements.

 

The 4 Series MSO offers a revolutionary new Stacked display mode. Historically, scopes have overlaid all waveforms in the same graticule, forcing difficult tradeoffs:

  • To make each waveform visible, you vertically scale and position each waveform so that they don't overlap. Each waveform uses a small percentage of the available ADC range, leading to less accurate measurements.

  • For measurement accuracy, you vertically scale and position each waveform to cover the entire display. The waveforms overlap each other, making it hard to distinguish signal details on individual waveforms

The new Stacked display eliminates this tradeoff. It automatically adds and removes additional horizontal waveform 'slices' (additional graticules) as waveforms are created and removed. Each slice represents the full ADC range for the waveform. All waveforms are visually separated from each other while still using the full ADC range, enabling maximum visibility and accuracy. And it's all done automatically as waveforms are added or removed! Channels can easily be reordered in stacked display mode by dragging and dropping the channel and waveform badges in the Settings bar at the bottom of the display. Groups of channels can also be overlaid within a slice to simplify visual comparison of signals.

The large display in the 4 Series MSO also provides plenty of viewing area not only for signals, but also for plots, measurement results tables, bus decode tables and more. You can easily resize and relocate the various views to suit your application.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Viewing three analog channels, eight digital channels, a decoded serial bus waveform, decoded serial packet results table, four measurements, a measurement histogram, measurements results table with statistics and a search on serial bus events - simultaneously! 

 

Exceptionally easy-to-use user interface lets you focus on the task at hand

The Settings Bar - key parameters and waveform management

Waveform and scope operating parameters are displayed in a series of “badges” in the Settings Bar that runs along the bottom of the display. The Settings Bar provides Immediate access for the most common waveform management tasks. With a single tap, you can:

  • Turn on channels 
  • Add math waveforms 
  • Add reference waveforms 
  • Add bus waveforms 
  • Enable the optional integrated Arbitrary/Function generator (AFG) 
  • Enable the optional integrated digital voltmeter (DVM) 

The Results Bar - analysis and measurements

The Results Bar on the right side of the display includes immediate, one-tap access to the most common analytical tools such as cursors, measurements, searches, measurement and bus decode results tables, plots, and notes.

DVM, measurement and search results badges are displayed in the Results Bar without sacrificing any waveform viewing area. For additional waveform viewing area, the Results Bar can be dismissed and brought back at any time.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Configuration menus are accessed by simply double-tapping on the item of interest on the display. In this case, the Trigger badge was double-tapped to open the Trigger configuration menu.

 

Touch interaction finally done right

Scopes have included touch screens for years, but the touch interface has been an afterthought. The 4 Series MSO's display includes a capacitive touchscreen and provides the industry's first oscilloscope user interface truly designed for touch.

The touch interactions that you use with phones and tablets, and expect in a touch enabled device, are supported in the 4 Series MSO.

  • Drag waveforms left/right or up/down to adjust horizontal and vertical position or to pan a zoomed view 
  • Pinch and expand to change scale or zoom in/out in either horizontal or vertical directions 
  • Drag items to the trash can to delete them 
  • Swipe in from the right to reveal the Results Bar or down from the top to access the menus in the upper left corner of the display 

Smooth, responsive front panel controls allow you to make adjustments with familiar knobs and buttons, and you can add a mouse or keyboard as a third interaction method.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Interact with the capacitive touch display in the same way you do on your phones and tablets. 

 

Attention to detail in the front-panel controls

Traditionally, the front face of a scope has been roughly 50% display and 50% controls. The 4 Series MSO display fills about 75% of the face of the instrument. To achieve this, it has a streamlined front panel that retains critical controls for simple intuitive operation, but with a reduced number of menu buttons for functions directly accessed via objects on the display.

Color-coded LED light rings indicate trigger source and vertical scale/position knob assignments. Large, dedicated Run/ Stop and Single Sequence buttons are placed prominently in the upper right, and other functions like Force Trigger, Trigger Slope, Trigger Mode, Default Setup, Autoset and Quick-save functions are all available using dedicated front panel buttons.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Efficient and intuitive front panel provides critical controls while still leaving room for the largehigh definition display.

 

Experience the performance difference

Digital Phosphor technology with FastAcq™ high-speed waveform capture

To debug a design problem, first you must know it exists. Digital phosphor technology with FastAcq provides you with fast insight into the real operation of your device. Its fast waveform capture rate - greater than 500,000 waveforms per second - gives you a high probability of seeing the infrequent problems common in digital systems: runt pulses, glitches, timing issues, and more. To further enhance the visibility of rarely occurring events, intensity grading indicates how often rare transients are occurring relative to normal signal characteristics.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

FastAcq's high waveform capture rate enables you to discover infrequent problems common in digital design.

 

Industry leading vertical resolution

The 4 Series MSO provides the performance to capture the signals of interest while minimizing the effects of unwanted noise when you need to capture high-amplitude signals while seeing smaller signal details. At the heart of the 4 Series MSO are 12-bit analog-to-digital converters (ADCs) that provide 16 times the vertical resolution of traditional 8-bit ADCs.

A new High Res mode applies a hardware-based unique Finite Impulse Response (FIR) filter based on the selected sample rate. The FIR filter maintains the maximum bandwidth possible for that sample rate while preventing aliasing and removing noise from the oscilloscope amplifiers and ADC above the usable bandwidth for the selected sample rate. High Res mode always provides at least 12 bits of vertical resolution and extends all the way to 16 bits of vertical resolution at ≤125 MS/s sample rates.

New lower-noise front end amplifiers further improve the 4 Series MSO's ability to resolve fine signal detail.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

The 4 Series MSO's 12-bit ADC, along with the new High Res mode, enable industry leading vertical resolution.

 

Triggering

Discovering a device fault is only the first step. Next, you must capture the event of interest to identify root cause. The 4 Series MSO provides a complete set of advanced triggers, including:

  • Runt 
  • Logic 
  • Pulse width 
  • Window 
  • Timeout 
  • Rise/Fall time 
  • Setup and Hold violation 
  • Serial packet 
  • Parallel data 
  • Sequence 
  • Visual Trigger 

With up to a 62.5 Mpoint record length, you can capture many events of interest, even thousands of serial packets in a single acquisition, providing high-resolution to zoom in on fine signal details and record reliable measurements.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

The wide variety of trigger types and context-sensitive help in the trigger menu make it easier than ever to isolate the event of interest.

 

Visual Trigger - finding the signal of interest quickly

Finding the right cycle of a complex bus can require hours of collecting and sorting through thousands of acquisitions for an event of interest. Defining a trigger that isolates the desired event speeds up debug and analysis efforts.

Visual Trigger extends the instrument's triggering capabilities by scanning through all waveform acquisitions and comparing them to on-screen areas (geometric shapes). You can create an unlimited number of areas using the mouse or touchscreen, and a variety of shapes (triangles, rectangles, hexagons, or trapezoids) can be used to specify the desired trigger behavior. Once shapes are created, they can be edited interactively to create custom shapes and ideal trigger conditions. Once multiple areas are defined, a Boolean logic equation can be used to set complex trigger conditions using on-screen editing features.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Visual Trigger areas isolate an event of interest, saving time by only capturing the events you want to see.

 

By triggering only on the most important signal events, Visual Trigger can save hours of capturing and manually searching through acquisitions. In seconds or minutes, you can find the critical events and complete your debug and analysis efforts. Visual Trigger even works across multiple channels, extending its usefulness to complex system troubleshooting and debug tasks.

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

Multiple channel triggering. Visual Trigger areas can be associated with events spanning multiple channels, such as triggering on a specific burst-width on channel 1 and a specified bit pattern on channel 2.

 

Accurate high-speed probing

The TPP Series passive voltage probes offer all the benefits of general-purpose probes -- high dynamic range, flexible connection options, and robust mechanical design -- while providing the performance of active probes. Up to 1 GHz analog bandwidth enables you to see high frequency components in your signals, and extremely low 3.9 pF capacitive loading minimizes adverse effects on your circuits and is more forgiving of longer ground leads.

An optional, low-attenuation (2X) version of the TPP probe is available for measuring low voltages. Unlike other low-attenuation passive probes, the TPP0502 has high bandwidth (500 MHz) as well as low capacitive loading (12.7 pF).

 

4-Series-MSO-MSO44-MSO46-Datasheet

 

 

4 Series MSOs come standard with four probes for four or six channel models (TPP0250 for 200 MHz models; TPP0500B for 350 MHz, 500 MHz, 1 GHz, and 1.5 GHz models).

 

TekVPI Probe Interface

The TekVPI®probe interface sets the standard for ease of use in probing. In addition to the secure, reliable connection that the interface provides, many TekVPI probes feature status indicators and controls, as well as a probe menu button right on the comp box itself. This button brings up a probe menu on the oscilloscope display with all relevant settings and controls for the probe. The TekVPI interface enables direct attachment of current probes without requiring a separate power supply. TekVPI probes can be controlled remotely through USB or LAN, enabling more versatile solutions in ATE environments. The 4 Series MSO provides up to 80 W of power to the front panel connectors, sufficient to power all connected TekVPI probes without the need for an additional probe power supply.

IsoVu™ Isolated Measurement System

Whether designing an inverter, optimizing a power supply, testing communication links, measuring across a current shunt resistor, debugging EMI or ESD issues, or trying to eliminate ground loops in your test setup, common mode interference has caused engineers to design, debug, evaluate, and optimize "blind" until now.

Tektronix' revolutionary IsoVu technology uses optical communications and power-over-fiber for complete galvanic isolation. When combined with the 4 Series MSO equipped with the TekVPI interface, it is the first, and only, measurement system capable of accurately resolving high bandwidth, differential signals, in the presence of large common mode voltage with:

  • Complete galvanic isolation

  • Up to 1 GHz bandwidth

  • 1 Million to 1 (120 dB) common mode rejection at 100 MHz

  • 10,000 to 1 (80 dB) of common mode rejection at full bandwidth

  • Up to 2,500 V differential dynamic range

  • 60 kV common mode voltage range

 

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The Tektronix TIVM Series IsoVu™ Measurement System offers a galvanically isolated measurement solution to accurately resolve high bandwidth, differential signals up to 2,500 Vpk in the presence of large common mode voltages, with the best in class common mode rejection performance across its bandwidth.

 

Comprehensive analysis for fast insight

Basic waveform analysis

Verifying that your prototype's performance matches simulations and meets the project's design goals requires careful analysis, ranging from simple checks of rise times and pulse widths to sophisticated power loss analysis, characterization of system clocks, and investigation of noise sources.

The 4 Series MSO offers a comprehensive set of standard analysis tools including:

  • Waveform- and screen-based cursors 
  • 36 automated measurements. Measurement results include all instances in the record, the ability to navigate from one occurrence to the next, and immediate viewing of the minimum or maximum result found in the record 
  • Basic waveform math 
  • Basic FFT analysis 
  • Advanced waveform math including arbitrary equation editing with filters and variables 
  • FastFrame™ Segmented Memory enables you to make efficient use of the oscilloscope’s acquisition memory by capturing many trigger events in a single record while eliminating the large time gaps between events of interest. View and measure the segments individually or as an overlay. 

Measurement results tables provide comprehensive statistical views of measurement results with statistics across both the current acquisition and all acquisitions.

 

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Using multiple channels to visualize multiple clock and data lines.

 

Navigation and search

Finding your event of interest in a long waveform record can be time consuming without the right search tools. With today's record lengths of many millions of data points, locating your event can mean scrolling through literally thousands of screens of signal activity.

The 4 Series MSO offers the industry's most comprehensive search and waveform navigation with its innovative Wave Inspector®controls. These controls speed panning and zooming through your record. With a unique force-feedback system, you can move from one end of your record to the other in just seconds. Or, use intuitive drag and pinch/expand gestures on the display itself to investigate areas of interest in a long record.

The Search feature allows you to automatically search through your long acquisition looking for user-defined events. All occurrences of the event are highlighted with search marks and are easily navigated to, using the Previous ( ← ) and Next ( → ) buttons found on the front panel or on the Search badge on the display. Search types include edge, pulse width, timeout, runt, window, logic, setup and hold, rise/fall time and parallel/serial bus packet content. You can define as many unique searches as you like.

You can also quickly jump to the minimum and maximum value of search results by using the Min and Max buttons on the Search badge.

 

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Earlier, FastAcq revealed the presence of a runt pulse in a digital data stream prompting further investigation. In this acquisition, Search 1 reveals that there are six runt pulses in the acquisition.

 

Serial protocol triggering and analysis (optional)

During debugging, it can be invaluable to trace the flow of activity through a system by observing the traffic on one or more serial buses. It could take many minutes to manually decode a single serial packet, much less the thousands of packets that may be present in a long acquisition.

And if you know the event of interest that you are attempting to capture occurs when a particular command is sent across a serial bus, wouldn't it be nice if you could trigger on that event? Unfortunately, it's not as easy as simply specifying an edge or a pulse width trigger.

 

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Triggering on a CAN serial bus. A bus waveform provides time-correlated decoded packet content including Start, Arbitration, Control, Data, CRC and ACK while the bus decode table presents all packet content from the entire acquisition.

 

The 4 Series MSO offers a robust set of tools for working with the most common serial buses found in embedded design including I2C, SPI, I3C, RS-232/422/485/UART, SPMI, CAN, CAN FD, LIN, FlexRay, SENT, USB LS/FS/HS, Ethernet 10/100, Audio (I2S/LJ/RJ/TDM), MIL-STD-1553, and ARINC 429.

Serial protocol search enables you to search through a long acquisition of serial packets and find the ones that contain the specific packet content you specify. Each occurrence is highlighted by a search mark. Rapid navigation between marks is as simple as pressing the Previous ( ← ) and Next ( → ) buttons on the front panel or in the Search badge that appears in the Results Bar.

The tools described for serial buses also work on parallel buses. Support for parallel buses is standard in the 4 Series MSO. Parallel buses can be up to 48 bits wide and can include a combination of analog and digital channels.

  • Serial protocol triggering lets you trigger on specific packet content including start of packet, specific addresses, specific data content, unique identifiers, and errors.

  • Bus waveforms provide a higher-level, combined view of the individual signals (clock, data, chip enable, and so on) that make up your bus, making it easy to identify where packets begin and end, and identifying sub-packet components such as address, data, identifier, CRC, and so on.

  • The bus waveform is time aligned with all other displayed signals, making it easy to measure timing relationships across various parts of the system under test.

  • Bus decode tables provide a tabular view of all decoded packets in an acquisition much like you would see in a software listing. Packets are time stamped and listed consecutively with columns for each component (Address, Data, and so on).

Spectrum View (optional)

 

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Intuitive spectrum analyzer controls like center frequency, span and resolution bandwidth (RBW), independent from time domain controls, provide easy setup for frequency domain analysis. A spectrum view is available for each FlexChannel analog input, enabling multi-channel mixed domain analysis.

 

It is often easier to debug an issue by viewing one or more signals in the frequency domain. Oscilloscopes have included math-based FFTs for decades in an attempt to address this need. However, FFTs are notoriously difficult to use for two primary reasons.

First, when performing frequency-domain analysis, you think about controls like Center Frequency, Span, and Resolution Bandwidth (RBW), as you would typically find on a spectrum analyzer. But then you use an FFT, where you are stuck with traditional scope controls like sample rate, record length and time/div and have to perform all the mental translations to try to get the view you’re looking for in the frequency-domain.

Second, FFTs are driven by the same acquisition system that’s delivering the analog time-domain view. When you optimize acquisition settings for the analog view, your frequency-domain view isn’t what you want. When you get the frequency-domain view you want, your analog view is not what you want. With math-based FFTs, it is virtually impossible to get optimized views in both domains.

Spectrum View changes all of this. Tektronix’ patented technology provides both a decimator for the time-domain and a digital downconverter for the frequency-domain behind each FlexChannel. The two different acquisition paths let you simultaneously observe both time- and frequency-domain views of the input signal with independent acquisition settings for each domain. Other manufacturers offer various ‘spectral analysis’ packages that claim ease-of-use, but they all exhibit the limitations described above. Only Spectrum View provides both exceptional ease-of-use and the ability to achieve optimal views in both domains simultaneously.

 

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Spectrum Time gates the range of time where the FFT is being calculated. Represented by a small graphical rectangle in the time domain view, it can be positioned to provide time correlation with the time domain waveform. Perfect for conducting Mixed Domain Analysis. Up to 11 automated peak markers provide frequency and magnitude values of each peak. The Reference marker is always the highest peak shown and is indicated in red.

 

Power analysis (optional)

The 4 Series MSO has also integrated the optional 4-PWR-BAS/SUP4-PWR-BAS power analysis package into the oscilloscope's automatic measurement system to enable quick and repeatable analysis of power quality, input capacitance, in-rush current, harmonics, switching loss, safe operating area (SOA), modulation, ripple, efficiency, amplitude and timing measurements, and slew rate (dv/dt and di/dt).

Measurement automation optimizes the measurement quality and repeatability at the touch of a button, without the need for an external PC or complex software setup.

 

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The Power Analysis measurements display a variety of waveforms and plots.

 

Designed with your needs in mind

Connectivity

The 4 Series MSO contains a number of ports which you can use to connect the instrument to a network, directly to a PC, or to other test equipment.

  • Three USB 2.0  ports on the front and two more USB 2.0  host ports on the rear panel enable easy transfer of screen shots, instrument settings, and waveform data to a USB mass storage device. A USB mouse and keyboard can also be attached to USB host ports for instrument control and data entry.

  • The rear panel USB Device port is useful for controlling the oscilloscope remotely from a PC.

  • The standard 10/100/1000BASE-T Ethernet port on the rear of the instrument enables easy connection to networks and provides LXI Core 2011 compatibility.

  • The HDMI port on the rear of the instrument lets you duplicate the instrument display on an external monitor or projector with 1,920 x 1,080 resolution.

 

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The I/O you need to connect the 4 Series MSO to the rest of your design environment.

 

Remote operation to improve collaboration

Want to collaborate with a design team on the other side of the world?

The embedded e*Scope®capability enables fast control of the oscilloscope over a network connection through a standard web browser. Simply enter the IP address or network name of the oscilloscope and a web page will be served to the browser. Control the oscilloscope remotely in the exact same way that you do in-person.

The industry-standard TekVISA™ protocol interface is included for using and enhancing Windows applications for data analysis and documentation. IVI-COM instrument drivers are included to enable easy communication with the oscilloscope using LAN or USBTMC connections from an external PC.

 

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e*Scope provides simple remote viewing and control using common web browsers.

 

Arbitrary/Function Generator (AFG)

The 4 Series MSO contains an optional integrated arbitrary/function generator, perfect for simulating sensor signals within a design or adding noise to signals to perform margin testing. The integrated function generator provides output of predefined waveforms up to 50 MHz for sine, square, pulse, ramp/triangle, DC, noise, sin(x)/x (Sinc), Gaussian, Lorentz, exponential rise/fall, Haversine and cardiac. The arbitrary waveform generator provides 128 k points of record for loading saved waveforms from an internal file location or a USB mass storage device. The 4 Series MSO is compatible with Tektronix' ArbExpress PC-based waveform creation and editing software, making creation of complex waveforms fast and easy.

Digital Voltmeter (DVM) and Trigger Frequency Counter

The 4 Series MSO contains an integrated 4-digit digital voltmeter (DVM) and 8-digit trigger frequency counter. Any of the analog inputs can be a source for the voltmeter, using the same probes that are already attached for general oscilloscope usage. The counter provides a very precise readout of the frequency of the trigger event on which you’re triggering. Both the DVM and trigger frequency counter are available for free and are activated when you register your product.

Enhanced security option

The optional 4-SEC enhanced security option enables password-protected enabling/disabling of all instrument I/O ports and firmware upgrades. In addition, option 4-SEC provides the highest level of security by ensuring that internal memory is clear of all setup and waveform data in compliance with National Industrial Security Program Operating Manual (NISPOM) DoD 5220.22-M, Chapter 8 requirements as well as Defense Security Service Manual for the Certification and Accreditation of Classified Systems under the NISPOM. This ensures you can confidently move the instrument out of a secure area.

Help when you need it

The 4 Series MSO includes several helpful resources so you can get your questions answered rapidly without having to find a manual or go to a website:

  • Graphical images and explanatory text are used in numerous menus to provide quick feature overviews. 
  • All menus include a question mark icon in the upper right that takes you directly to the portion of the integrated help system that applies to that menu. 
  • A short user interface tutorial is included in the Help menu for new users to come up to speed on the instrument in a matter of a few minutes. 

 

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Integrated help answers your questions rapidly without having to find a manual or go to the internet.

 

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IET-PRS-370

PRS-370 Self-Adjusting Programmable Resistance Box & RTD Simulator

sku Product SKU:  IET-PRS-370

The PRS-370 is a Self-Adjusting Programmable Resistance Substituter, just connect an 8.5 digit DMM; Fluke 8508A, 8588A or the Keysight 3458A to the PRS-370 via the IEEE-488 interface, and the PRS-370 becomes a short-term stable variable standard of resistance.

The PRS-370 instructs the DMM to make a measurement of the source resistance and then automatically fine adjusts the output resistance to achieve the "best" accuracy to the nominal resistance value, typically better than 10 ppm.

The PRS-370 utilizes both the front and rear binding posts so that the DUT and DMM can be connected at the same time. Once the resistance measurement is complete using the DMM and rear binding posts, the source resistance is switched to the front binding posts.

The large graphical color display shows the target resistance, ∆ from nominal, measured resistance from the DMM and measurement uncertainty of the DMM.



Save time in adjustment
At the touch of a button the built-in firmware routine allows for automatic calibration of the internal resistors by just connecting a DMM to the PRS-370 . No entering values or manual trimming saves significant time over traditional programmable resistance decades or manual decades.

The right mix of features
The PRS-370 was designed with the right mix of features for to be efficient for both manual and automated application in both laboratory and production environments. With its wide range the PRS-370 was designed to replace multiple decade boxes, individual resistance standards and reduce test time.

User interface
The PRS-370 utilizes a large state-of-the-art color capacitive touchscreen which provides super fast response time. Even in low or bright light conditions the display provides exceptional clarity with large fonts and easy-to-read menus.

The user interface makes the PRS-370 well suited for high accuracy requirements for both manual and automated applications such as; calibration of resistance meters, calibration of temperature controllers and indicators, automated test systems requiring a precision resistive load

The user interface also features softkeys and a numeric keypad allowing use of the user interface without using the touch-screen.

No zero resistance
The PRS Series programmable resistance box employs very low resistance, low thermal emf relays with gold-clad silver-alloy contacts. A special design keeps contact resistance to a minimum. The gold plating keeps the silver contacts from becoming tarnished when unused, or when only low currents are passed through them. This is most often the case when only minute test currents are drawn by digital multimeters and other test instruments. Contact resistance remains low and repeatable through the use of multiple contacts.

Highest quality components
The programmable resistance box employs, high-quality gold-plated tellurium-copper five-way binding posts serve to minimize the thermal emf effects, which would produce errors in dc resistance measurements. Resistors are custom Z-foil and low inductance wirewound for low TC and excellent stability.

5 year warranty
With its industry leading 5 year warranty all aspects of the PRS-370 focus on reliability, reduced ownership costs and simplicity out of the box.

RTD calibration
The PRS-370 is also a programmable decade resistor and RTD simulator that can be used stand-alone to automate your source resistance and temperature controller testing.
Built-in tables for PT100 and PT1000 RTDs and direct resistance substitution makes the PRS-370 ideal for for RTD (Resistance Temperature Detector) simulation. User defined tables can also be created for use with other RTDs. The operator can enter temperature directly and the correct resistance will automatically be programmed.

Resistor carousel
Built-in EIA "preferred value" resistance tables of 1% (E96), 5% (E24), 10% (E12) increments or user specified increment allows the PRS-370 to be used as a resistor carousel.

AC performance
The PRS-370 programmable resistance box is a precision resistance source with excellent characteristics of stability, temperature coefficient, and power coefficient. The use of low inductance wirewound and Z-foil resistors allows the PRS-370 to be used in ac applications with minimal resistance change below 1 kHz.

Interface
Operation is both local using a color touch screen and numeric keypad or remote control with the standard IEEE-488 interface. The versatility of the IEEE-488 interface allows you to completely automate your testing when not used with a DMM.

Calibration history
Calibration history of each internal resistor can be reviewed to show drift and performance. The calibration history data can be retrieved via SCPI command for further analysis.
Pressing a switch on the front panel allows access to calibration history and adjustment menus minimizing unauthorized access.

Cyber security statement
The PRS-370 contains a microcontroller, and runs proprietary firmware. The firmware can only be updated via a JTAG or similar cable and only accessed by removing the top cover of the instrument.
There are no facilities to update firmware via the GPIB interface on the PRS-370.
Windows or Linux are not used in this product.
A factory reset is provide which will reset the PRS-370 back to factory default including calibration data history and all other data that can be saved by a user.
 

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IND-TANGO-TX1

Tango TX1 Single-Gas Detector

sku Product SKU:  IND-TANGO-TX1

Experience maintenance-free gas detection and improved worker safety with the Tango®TX1 single gas monitor. A 2-year runtime and patented DualSense® Technology, increase worker safety, regardless of bump test frequency, while reducing overall costs. Simply put, with two of the same sensor, the Tango TX1 is one of the safest single gas detectors available today.

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AMETEK-ASD Series

sku Product SKU:  AME- ASD S

The ASD power supply series with DaVinci Power™ technology represents the next generation of precision programmable AC-DC power conversion.

The ASD series with its 3U, 30kW water-cooled packaging provides the highest power density available. The ASD power supply is designed for industry leading load transient response with outstanding output ripple and noise. The water-cooling packaging allows for use in environments that normally exclude air-cooled power supplies.

The ASD power supply series advanced digital architecture, with realtime digital control and Graphical User Interface (GUI), enables many features to better control and monitor your process or application. The optional advanced features package includes a built-in oscilloscope function for measurement and display of: power, voltage, current, output impedance, output cable impedance and output cable voltage drop. The ASD series allows you to program different "fault levels", enabling detection of output cabling, connections or load problems before they cause critical system problems. The ASD can replace your PLC device by closing the loop on an external parameter such as temperature. The ASD's Advanced Diagnostics And Maintenance (ADAMsm) feature includes a flight data recorder feature that lets you access multiple recorded parameters, such as: voltage, current, power, load impedance, faults and input voltage. This allows you to easily determine "why" you had an unexpected outcome.

The advanced digital monitoring and control features combined with industry leading power density and reliability makes the Sorensen ASD series the power supply of choice for stringent and high value processes and applications.

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E-DWT-H Electronic Deadweight Tester

sku Product SKU:  FCL-E-DWT-H

All the features you expect in a modern state-of-the-art electronic dwt, including:

Accuracy and performance

  • One-year measurement uncertainty is ± 0.02% of reading from 10% to 100% with one Q-RPT, and from 1% to 100% with two Q-RPTs
  • Low torque variable volume allows for pressure generation up to 200 MPa (30,000 psi) with minimal physical effort
  • Separate fine adjustment tool for maximum, superfine control resolution
  • User defined resolution and ready limits enable user to optimize performance based on DUT specifications
  • High pressure isolation valve and pressure relief valve protect the low pressure reference transducer from over pressure when high pressure reference transducer is active

Ease of use

  • AutoRange feature optimizes measurement and safety features for the specific range of the instrument being calibrated
  • Simple rezeroing while vented at atmospheric pressure
  • Simple, objective pressure “ready/not ready indicator with user adjustable criteria to ensure repeatable results among operators
  • Not dependent on local gravity or ambient temperature
  • Sets and reads any pressure value directly in any unit of measure, without moving weights
  • Built-in priming system to fill system with test fluid and purge unwanted air to assure smooth operation
  • Optional foot switch accessory allows hands-free data collection when running AutoTests

Portability

Automation

AUTOMATE DATA COLLECTION AND MANAGE CALIBRATION ASSETS WITH COMPASS® FOR PRESSURE SOFTWARE

E-DWT can run stand-alone tests and collect test data for dead weight tester calibration. Test data can be downloaded over the RPM4-E-DWT’s RS232 interface.

The RPM4-E-DWT’s RS232 interface can also be used to run the E-DWT with COMPASS® for Pressure software or user developed software.

COMPASS® for Pressure software is universal pressure calibration software for the laboratory, which can be used to run simple or complex tests with multiple instruments. The user can create his/her own calibration report, and data can be exported to Fluke MET/CAL® Plus Calibration Management Software.

The support you need, when you need it
Fluke’s calibration, testing and repair services are dedicated to satisfying your needs quickly and at a fair cost while maintaining the unmatched level of quality that is our trademark.

Fluke’s calibration laboratories are accredited by the American Association for Laboratory Accreditation (A2LA) for conformance to ISO Guide 17025.

Fluke Calibration has access to global calibration and repair facilities to keep your dead weight tester and other hardware in top working order.

If you need training for yourself or your staff, Fluke Calibration offers a broad range of classes including: the principles and practices of pressure calibration, advanced pressure metrology, gas flow calibration using a molbloc/molbox system, setup and operation of COMPASS® for Pressure calibration software, and other electrical, temperature and RF calibration topics.

The Fluke Calibratoin commitment to support provides additional benefits as well, including invitations to software user group meetings and conferences, periodic email bulletins and a Fluke Calibration newsletter.

  • RS232 interface allows for real time automated data collection and customized report generation using COMPASS® for Pressure calibration software

Free upgrades

Flash memory for simple and free embedded software upgrades from Fluke Calibration.

  • Rechargeable battery pack option for eight hours of field operation
  • Everything to set, adjust and read pressure in one compact, transportable package
  • Optional shipping/carrying case with handles and wheels allows for easy transport to field application
  • Proven rugged and weatherproof design with room for accessories.  

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