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Oscilloscopes Probes and Accessories
Tektronix DPO4AUTO Application Module
Product Brochure
Model Name/Number | DPO4AUTO |
Brand | Tektronix |
Bus setup options | CAN bus setup, showing signal type options for CAN bus. |
Source for CAN_H, CAN_L, Rx, or Tx probing | Analog channels 1-4 Digital channels D0-D15 |
Thresholds | Per-channel thresholds |
Application Module: Automotive Serial Triggering and Analysis (CAN/CAN FD, LIN)
- Automated Serial Triggering, Decode, and Search options for CAN, LIN
- Trigger on all the critical elements of a serial bus such as address, data, etc
- Decode all the critical elements of each message. No more counting 1s and 0s!
- Search through long acquisitions using user-defined criteria to find specific messages
- Event table shows decoded serial bus activity in a tabular, time-stamped format for quick summary of system activity
- Export Event table data to .csv format
Tektronix MDO3AFG - Arbitrary Function Generator Application Module
Product Brochure
Model Name/Number | MDO3AFG |
Brand | Tektronix |
Interface Type | I2S, LJ, RJ, TDM |
Includes | 13 predefined waveforms and arbitrary waveform generation |
Unique Features | Adds arbitrary function generator to any MDO3000 Series product |
The MDO3000 contains an optional integrated arbitrary function generator (option MDO3AFG), 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 storing waveforms from the analog input, a saved internal file location, a USB mass storage device, or from an external PC. Once a waveform is in the edit memory of the arbitrary waveform generator, it can be modified via an on-screen editor and then replicated out of the generator. The MDO3000 is compatible with Tektronix’ ArbExpress PC-based waveform creation and editing software, making creation of complex waveforms fast and easy. Transfer waveform files to your MDO3000 edit memory via USB or LAN or using a USB mass storage device to be output from the AFG in the oscilloscope.
Tektronix MDO3BND Application Module
Product Brochure
Model Name/Number | MDO3BND |
Brand | Tektronix |
MDO3COMP | Computer serial triggering and analysis (RS-232/422/485/UART) |
MDO3LMT | Limit/Mask test |
MDO3USB | USB serial triggering and analysis (LS, FS) |
MDO3SEC | Add password protected security to enable or disable all communication ports and firmware upgrades |
MDO3AERO | Aerospace serial triggering and analysis (MIL-STD-1553, ARINC429) |
MDO3AUDIO | Audio serial triggering and analysis (I2S, LJ, RJ, TDM) |
MDO3AUTO | Automotive serial Triggering, Decoding and Analysis (CAN, CAN FD, LIN) |
MDO3EMBD | Embedded serial triggering and analysis (I2C, SPI) |
MDO3FLEX | FlexRay serial triggering and analysis (FlexRay) |
MDO3PWR | Power measurement and analysis |
Tektronix TPSBAT battery pack for TPS series Oscilloscopes
Product Brochure
Model Name/Number | TPSBAT |
Brand | Tektronix |
Ac Dc Current Probe
Product Brochure
Brand | Tektronix |
Usage/Application | Industrial |
Model Name/Number | A622 |
Output | 10 mV/A, 100 mV/A |
Maximum Conductor Diameter | 11.8 mm (0.46 inch) |
Maximum Bare-wire Voltage | 600 V (CAT III) |
Frequency range | DC to 100 kHz |
Maximum Input Current | 100 A peak |
provide a voltage output to oscilloscopes. It has a BNC connector and can be used with a shrouded banana plug adapter 1 so it can also be used on digital multimeters, and oscilloscopes. The A622 can measure
AC/DC currents from 50 mA to 100 A peak over a frequency range of DC to 100 kHz. It provides 10 mV or 100 mV output for each Amp measured
Ac Current Probe
Product Brochure
Brand | Tektronix |
Usage/Application | Industrial |
Model Name/Number | A621 |
Frequency | 5 Hz to 50 kHz |
Output | 1 mV/A, 10 mV/A, 100 mV/A |
Maximum Conductor Diameter | 54 mm (2.13 in.) |
Maximum Bare-wire Voltage | 600 V (CAT III) |
Maximum Input Current | 2000 A peak |
Current Probe
Brand | Tektronix |
Usage/Application | Laboratory |
Measurement accuracy from | uAs to 2000 A |
Best in class bandwidth | up to 120 MHz |
Best in class current clamp sensitivity down | 1 mA |
Packaging Type | Box |
Tektronix current probe solutions offer:
- The broadest range of AC/DC and AC-only current probes
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- The only products with bare wire voltage ratings
- Automatic readout and scaling when used with Tektronix oscilloscopes so you don’t have to convert volts to amps or manually set the scaling
TPP0250 - Tektronix - Oscilloscope Probe, Passive, 250 MHz
Product Brochure
Model Name/Number | TPP0250 |
Brand | Tektronix |
Bandwidth | 250MHz |
Attenuation | 10X |
Cable length | 1.3 meter |
Input Impedance | 10 MOhms, <4 pF at Probe tip |
Passive Voltage Probe
Product Brochure
Usage/Application | Laboratory |
Attenuation | 10X |
Input capacitance as low as | 3.9 pF |
Input Resistance | 10 Meg Ohm |
Rise Time | < 3.5 nS |
Cable Length | 1.3 m |
Bandwidth up to | 1 GHz |
Our presented range of Passive Probe is broadly employed in the market for their durable nature. Due to their top features, these are enormously demanded in the market.
Other Details:
- Passive voltage probes ship standard with most oscilloscopesand provide a low cost, general purpose probing solution. Generally, these probes lack the performance of an active voltage probe but provide the ruggedness and wide dynamic range suitable for visualizing signals over a broad range of applications. Tektronix has released a new class of passive probes that redefine performance in the passive probe product category.
Tektronix new class of passive probe solutions offer:
- Best-in-class input capacitance which minimizes performance loss when long ground leads are attached
- Automated probe compensation eliminating the need for the compensation screwdriver
Tektronix P5200A High Voltage Differential Probe
Product Brochure
Attenuation | 50x / 500x |
Bandwidth | 50 MHz |
Make | Tektronix |
Model Name/Number | P5200A |
Cable Length | 1.8 m |
Common Mode Voltage | +-1300 V |
Maximum Input Voltage-to-Earth | 1000 V CAT II |
Differential Input Impedance | 10 M Ohm / 2 pF |
A high voltage differential probe is used for measuring the voltage difference between two test points where neither test point is at ground. High voltage differential probes from Tektronix can be used for signals up to 6000 V. These probes are the best choice for making non-ground referenced, floating or isolated measurements in large part due to their common mode rejection capability. These products are designed, manufactured, and serviced by Tektronix.
Tektronix High Voltage Differential Probe solutions offer:
- Best-in-class bandwidth and probe loading
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- High and medium voltage products to support varying dynamic range and measurement resolution requirements
- Most extensive set of probe accessories
TEKTRONIX P6015A High Voltage Probe
Product Brochure
Brand | Tektronix |
Attenuation | 1000 X |
Bandwidth | 75 MHz |
Model Name/Number | P6015A |
Nominal Length | 3 m |
Compensation Range | 7 to 49 pf |
A high voltage single-ended probe is typically used for measuring ground referenced signals up to 40 kV. However, some single-ended probes are designed for instruments with isolated or floating inputs for measurements that are not ground referenced. Users should select probes with a low input capacitance specification (< 4 pF) to minimize the probe’s loading effect on the circuit because a probe with lower input capacitance will offer higher input impedance at higher frequencies.
Tektronix High Voltage Probe solutions offer:
- Best-in-class bandwidth up to 800 MHz
- Best-in-class probe loading with input capacitance as low as 1.8 pF
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- Most extensive set of probe accessories
Tektronix P5100A High Voltage Probe
Minimum Order Quantity: 1 Unit
Product Brochure
Brand | Tektronix |
Usage/Application | Laboratory |
Model Name/Number | P5100A |
Attenuation | 100x |
Bandwidth | 500 MHz |
Nominal Length | 2 m |
Compensation Range | 7 to 30 pf |
Rise Time | Less Than 700 ps |
Power Rail Probes
Brand | Tektronix |
DC offset up to | 60 V |
Transient events up to | 4 GHz |
Voltage range of | +-60V |
Dynamic range of | +-1V |
Our firm is ranked amongst the reputed names in the market for offering an extensive range of Power Rail Probes. Besides, we present this series to our clients at nominal prices.
Other Details:
- Optimized for power integrity measurements, these probes combine low noise contribution, high bandwidth, low loading, and a wide range of connectivity alternatives.
- Traditional power integrity applications typically use passive or differential probes to measure power rails. The changing technology landscape means designers need higher accuracy ripple measurements with very fast transitions pushing into multiple GHz range. New design challenges call for new measurement equipment that can minimize noise from the measurement tools while also offering more bandwidth to see more signal content. The ultra-low noise TPR1000/4000 power rail probe offers low loading for accuracy (especially in the most sensitive measurements) and offers low noise contribution and high bandwidth options.
- The new power rail probe covers power rail to measure power supplies from plug, down to the pin of an integrated circuit. It also offers a wide , which, on higher voltage rails, lets you look at droop on the line or when a lot of current is drawn by load or transients. Coupled with the right scope, this powerful combination means you don’t have to worry if the noise you are seeing is from your test equipment or if you’re seeing aggressors in your system that you could never see before.
- Power engineers are challenged to get more power efficiency from smaller and tighter designs. This is especially true for engineers in the automotive, industrial and consumer markets where typical validation requires probing at least 1 or more rails in parallel with other signals. This creates new constraints on connectivity due to tight spacing, buried signals, and smaller geometry components.
- The power rail probe comes with modular and flexible connectivity options to cover most needs. Now, when you’re soldering to a surface-mount component connected to a power rail, you have the MMCX lock-snap connections that make test set-up a breeze.
- No matter the industry, power integrity requirements are becoming more and more strict and the number of power rails in a single design is only growing. Depending on your bandwidth needs, Tektronix has a whole suite of oscilloscopes that are optimal to pair with the power rail probe.
- For the engineers that are working on the power integrity of fast devices like microprocessors, memory components, FPGAs, storage devices and image sensors, and need the highest accuracy in ripple measurements with transitions in the 2 to 4 GHz range, you have the 6 Series MSO scope that has bandwidths up to 8GHz. When you don’t need as much bandwidth but need to make accurate ripple measurements on an ever-growing number of DC supplies, you can use the up to 8 Channels of the 5 Series MSO. The MDO3000 and MDO400C offer a great option when making traditional ripple measurements under 1GHz at the bench.
IsoVu Isolated Probes
Brand | Tektronix |
Bandwidth | 1 GHz |
Mode rejection | 160 dB or 100 Million to 1 common |
Fiber Cable Length | 3 meters |
Common mode voltage | 60 kV |
Other Details:
- IsoVu® probes are the right tool for today’s demanding power measurement challenges given their industry leading Learn how you can use IsoVu technology to make impossible measurements such as high side Vgs.
Gallium Nitride (GaN) and Silicon Carbide (SiC) power design measurements can be time consuming and in some cases impossible. Learn how companies like Panasonic are turning to IsoVu to reduce their time to market.
Learn how to overcome common sources of measurement error using IsoVu.
Highlights:
- Are you able to accurately characterize your high side device?
- Do you get different results when you move the probe's cables?
- Are you getting consistent results across test benches?
Logic Analyzer Probe
Pulse Width | 10ms |
Brand | Tektronix |
Analog bandwidth | 2 GHz |
Minimum digital swing | 300 mV |
Probe type | Single-ended Data Single-ended Clock General purpose |
Other Details:
- Verification and debug of today's high speed, low voltage digital signals requires probing solutions that can accurately acquire from a wide variety of electronic designs and protect signal fidelity. Tektronix logic analyzer probes contain a variety of connectivity options that are engineered to ensure that signal acquisition is a true reflection of your design's performance. Compare and learn more about Tektronix logic analyzer probe solutions.