Yokogawa’s DLM series of oscilloscopes represents cutting-edge innovation, drawing on over a century of expertise in measuring instrument technology. The DLM series includes a variety of models, from unique vertical compact 2 and 4-channel options to 8-channel benchtop models. The operation panel, equipped with a highly responsive touch screen, keys, and knobs, ensures intuitive control of various analysis functions while maintaining familiar operability. Notably, this oscilloscope is the industry’s first to feature a serial bus auto setup function, which automatically configures analysis tools for diverse in-vehicle network protocols, making it indispensable for engineers and researchers in the automotive sector.
The DLM series from Yokogawa is set to elevate your development and evaluation processes to new heights.
The DLM5000HD series sets a new standard for high-definition oscilloscopes.
The DLM3000HD redefines high-definition in a compact design
The DLM5000 series offers versatile measurement options with up to 8 analog channels.
The DLM3000 series is ideal for any test enviroment thanks to its small footprint.
Conditions
Input Channels >= Sampling Rate >= Bandwidth >= ADC Resolution >= Display Size >=
Model Code
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DLM3022/ DLM3032/ DLM3052
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DLM3024/ DLM3034/ DLM3054
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DLM3034HD/ DLM3054HD
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DLM5034/ DLM5054
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DLM5038/ DLM5058
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DLM5034HD/ DLM5054HD
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DLM5038HD/ DLM5058HD
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Max. Sampling Rate
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2.5 GS/s
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2.5 GS/s
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2.5 GS/s
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2.5 GS/s
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2.5 GS/s
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2.5 GS/s
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2.5 GS/s
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Bandwidth
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DLM3022: 200 MHz DLM3032: 350 MHz DLM3052: 500 MHz
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DLM3024: 200 MHz DLM3034: 350 MHz DLM3054: 500 MHz
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DLM3034HD: 350 MHz DLM3054HD: 500 MHz
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DLM5034: 350 MHz DLM5054: 500 MHz
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DLM5038: 350 MHz DLM5058: 500 MHz
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DLM5034HD: 350 MHz DLM5054HD: 500 MHz
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DLM5038HD: 350 MHz DLM5058HD: 500 MHz
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Analog Input Channels
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2 ch
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4 ch or 3 ch when using logic input
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4 ch or 3 ch when using logic input
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4ch
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8ch
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4ch
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8ch
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Logic Input
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-
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8-bit
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8-bit
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16-bit(std)/32-bit(option)
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16-bit(std)/32-bit(option)
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16-bit(std)/32-bit(option)
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16-bit(std)/32-bit(option)
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Vertical Sensitivity
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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1 MΩ input: 500 μV/div to 10 V/div, 50 Ω input: 500 μV/div to 1 V/div
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Input Coupling
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AC 1MΩ, DC 1MΩ, DC 50Ω
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AC 1MΩ, DC 1MΩ, DC 50Ω
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AC 1MΩ, DC 1MΩ, DC 50Ω
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AC 1MΩ, DC 1MΩ, DC 50Ω
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AC 1MΩ, DC 1MΩ, DC 50Ω
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AC 1MΩ, DC 1MΩ, DC 50Ω
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AC 1MΩ, DC 1MΩ, DC 50Ω
|
Input Impedance
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1 MΩ±1.0%, 50 Ω±1.0%
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1 MΩ±1.0%, 50 Ω±1.0%
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1 MΩ±1.0%, 50 Ω±1.0%
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1 MΩ±1.0%, 50 Ω±1.0%
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1 MΩ±1.0%, 50 Ω±1.0%
|
1 MΩ±1.0%, 50 Ω±1.0%
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1 MΩ±1.0%, 50 Ω±1.0%
|
Max. Input Voltage
|
1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
|
1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
|
1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
|
1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
|
1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
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1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
|
1 MΩ input: 300 Vrms or less and 400 Vpeak or less, 50 Ω input: 5 Vrms or less and 10 Vpeak or less
|
Trigger Types
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Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
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Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
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Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
|
Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
|
Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
|
Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
|
Edge, Edge OR, Pulse Width, Timeout, Pattern, Runt, Rise/Fall Time, Interval, Window, Window OR, TV, User Define serial pattern, A Delay B, A to B(N)
|
Trigger Types (Option)
|
-
|
UART/ I2C/ SPI/ FlexRay/ CAN/ CAN FD/ LIN/ SENT/ CXPI/ PSI5 Airbag
|
UART/ I2C/ SPI/ FlexRay/ CAN/ CAN FD/ LIN/ SENT/ CXPI/ PSI5 Airbag
|
UART/ I2C/ SPI/ FlexRay/ CAN/ CAN FD/ LIN/ SENT/ CXPI/ PSI5 Airbag
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UART/ I2C/ SPI/ FlexRay/ CAN/ CAN FD/ LIN/ SENT/ CXPI/ PSI5 Airbag
|
UART/ I2C/ SPI/ FlexRay/ CAN/ CAN FD/ LIN/ SENT/ CXPI/ PSI5 Airbag
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UART/ I2C/ SPI/ FlexRay/ CAN/ CAN FD/ LIN/ SENT/ CXPI/ PSI5 Airbag
|
Vertical Axis Resolution
|
8 bits max. 12 bits (High Resolution Mode)
|
8 bits max. 12 bits (High Resolution Mode)
|
12 bits max. 16 bits (High Resolution Mode)
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8 bits max. 12 bits (High Resolution Mode)
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8 bits max. 12 bits (High Resolution Mode)
|
12 bits max. 16 bits (High Resolution Mode)
|
12 bits max. 16 bits (High Resolution Mode)
|
Sweep Time
|
1 ns/div to 500 s/div
|
1 ns/div to 500 s/div
|
1 ns/div to 500 s/div
|
1 ns/div to 500 s/div
|
1 ns/div to 500 s/div
|
1 ns/div to 500 s/div
|
1 ns/div to 500 s/div
|
Max. Record Length (St'd)
|
125 Mpoints
|
125 Mpoints
|
125 Mpoints
|
125 Mpoints
|
125 Mpoints
|
125 Mpoints
|
125 Mpoints
|
Max. Record Length (Optional)
|
-
|
500 Mpoints
|
1 Gpoints
|
500 Mpoints
|
500 Mpoints
|
1 Gpoints
|
1 Gpoints
|
Internal Media Drive (St'd)
|
-
|
-
|
-
|
-
|
-
|
-
|
-
|
Internal Storage
|
300 MB Flash ROM 60 GB SSD (option)
|
300 MB Flash ROM 60 GB SSD (option)
|
300 MB Flash ROM 60 GB SSD (option)
|
1.7 GB (Standard) 64 GB (option)
|
1.7 GB (Standard) 64 GB (option)
|
1.7 GB (Standard) 64 GB (option)
|
1.7 GB (Standard) 64 GB (option)
|
Interface (St'd)
|
USB3.0, Ethernet
|
USB3.0, Ethernet
|
USB3.0, Ethernet
|
USB3.0, Ethernet
|
USB3.0, Ethernet
|
USB3.0, Ethernet
|
USB3.0, Ethernet
|
Interface (Optional)
|
GP-IB
|
GP-IB
|
GP-IB
|
GP-IB
|
GP-IB
|
GP-IB
|
GP-IB
|
Other Features
|
USB storage
|
USB storage
|
USB storage, Two-unit connection function "DLMsync" for synchronous measurement of up to 8 analog channels (/SY option), IEEE1588 Slave
|
USB storage, Two-unit connection function "DLMsync" for synchronous measurement of up to 16 analog channels (/SYN option), IEEE1588 Slave
|
USB storage, Two-unit connection function "DLMsync" for synchronous measurement of up to 16 analog channels (/SYN option), IEEE1588 Slave
|
USB storage, Two-unit connection function "DLMsync" for synchronous measurement of up to 16 analog channels (/SY option), IEEE1588 Slave
|
USB storage, Two-unit connection function "DLMsync" for synchronous measurement of up to 16 analog channels (/SY option), IEEE1588 Slave
|
Other Features (Optional)
|
Built-in printer, probe power terminals
|
Built-in printer, memory expansion, User defined Math, Power supply analysis function, serial bus analysis, probe power terminals
|
Built-in printer, memory expansion, User defined Math, Power supply analysis function, serial bus analysis, probe power terminals, IEEE1588 Master (/CY option)
|
Built-in printer, memory expansion, User defined Math, Power supply analysis function, serial bus analysis, probe power terminals
|
Built-in printer, memory expansion, User defined Math, Power supply analysis function, serial bus analysis, probe power terminals
|
Built-in printer, memory expansion, User defined Math, Power supply analysis function, serial bus analysis, probe power terminals, IEEE1588 Master (/CY option)
|
Built-in printer, memory expansion, User defined Math, Power supply analysis function, serial bus analysis, probe power terminals, IEEE1588 Master (/CY option)
|
Display
|
8.4" XGA color TFT LCD Touch Screen
|
8.4" XGA color TFT LCD Touch Screen
|
8.4" XGA color TFT LCD Touch Screen
|
12.1" XGA color TFT LCD Touch Screen
|
12.1" XGA color TFT LCD Touch Screen
|
12.1" XGA color TFT LCD Touch Screen
|
12.1" XGA color TFT LCD Touch Screen
|
External Dimensions (W x H x D) *excluding protrusions
|
226 x 293 x 193 mm
|
226 x 293 x 193 mm
|
226 x 293 x 193 mm
|
426 x 266 x 180 mm
|
426 x 266 x 180 mm
|
426 x 266 x 180 mm
|
426 x 266 x 180 mm
|
Weight
|
Approx. 4.2 kg
|
Approx. 4.2 kg
|
Approx. 4.2 kg
|
Approx. 7.3 kg
|
Approx. 7.3 kg
|
Approx. 7.3 kg
|
Approx. 7.3 kg
|
The design, validation, and manufacturing of modern electronics necessitate the measurement of both analog and digital signals. A mixed signal oscilloscope enables the simultaneous, time-correlated observations and analysis of analog with digital (logic) signals, to establish causal relationships between the various areas of a device's electronics. Yokogawa oscilloscopes are purpose-built tools for troubleshooting electrical anomalies, measuring parametric values, and monitoring cause-and-effect relationships between signals.
From our first mixed signal oscilloscope in 1988 and over ten generations since, Yokogawa oscilloscopes have enabled engineers to maintain high sample rates for long observation periods with deep, segmented acquisition memory. Our mixed signal oscilloscopes offer extensive signal analysis capabilities, dedicated analysis and decode of serial buses such as I2C, SPI, CAN, LIN, CXPI, and FlexRay, improved ergonomics, and value.
Designed for the demands of modern electronics, our mixed signal oscilloscopes offer reliability, advanced analysis, and ease of use. Both experienced engineers and newcomers will find our tools intuitive and powerful, making complex troubleshooting and analysis straightforward.
Equip your engineering team with our advanced mixed-signal oscilloscopes to enhance your electronic testing and analysis capabilities.
【search key】 DLM3, DLM30, DLM300, DLM, DL
【search key】 DLM3, DLM30, DLM300, DLM, DL
The AC Power Input in all Yokogawa instruments is designed as a 3-pin connection (one of which is a GND pin). In some parts of the world, PCs are sold with AC power cables that are 2-pin. Often times this means the ...
You can disable the soft menu from saving to a screenshot by setting the Mode to Normal through the Utility menu.
The DL series instruments are capable of measuring the delay between traces or the delay between channels. The measured output value can be displayed in either time or degree. To setup the DL850 Scopecorder to measure delay, follow ...
The DLM2000 Series mixed signal oscilloscopes are capable of performing enhanced parameter measurements and calculations. This feature allows you to perform automated measurements of waveform parameters of two different areas. It ...
For the DLM2000 Mixed Signal Oscilloscope with user-defined math (G2 Option), you can calculate the ratio of two voltages in decibels. The formula for calculating the ratio of two voltages in dB is: dB = ...
Decimation is a technique used to reduce the total number of samples. You can use Xviewer to perform decimation on your waveform data files that have the WDF/WVF/ASCII CSV extension format. Decimation reduces the ...
With the DLM2000 series mixed signal oscilloscope, up to 20,000 previously captured waveforms can be saved into the acquisition memory. You can use the HISTORY function to search, display and save just one or all of ...
There are two methods to programmatically determine if the calculations for waveform parameters is completed on the DL series oscilloscopes. Send the :MEAS:WAIT? command. This will ensure that no other commands are ...
We do not have an instruction manual describing the *.WDF file format structure like we did for the *.WVF files.
We provide a list of support options with more details.
If your DL series oscilloscope is not measuring rise or fall time, it may be because you are attempting to measure asymmetric waveforms. It is not possible to perform automatic rise or fall time measurements on DL ...
High Resolution mode can be used to remove high frequency noise and increase vertical resolution. It achieves this by increasing the number of effective bits per data to 12-bits through digital and bandwidth filters.
The timestamp on the DLM2000 Mixed Signal Oscilloscope corresponds to the end of waveform acquisition and is the time of the very last acquisition. Likewise, the timestamp in history corresponds to the last waveform acquisition.Please ...
The DLM2000 Mixed Signal Oscilloscope have a unique feature that will allow you to save the timestamps in the History List. Please verify or update the firmware version on your DLM2000 to version 1.81 or later. There are two different save ...
The measured propagation delay for the PB500 500 MHz Passive Probe (701943) is approximately 8.2 ns. A simple way of measuring the propagation delay, using the DL9000, is to measure the delay between two ...
Even though the display record length is shorter than the specified record length, measurement is made over the full record length. There is no function that allows you to move the display position to view the other ...
The Time Axis Accuracy is the accuracy of the A/D clock. It is not possible to directly measure the A/D clock and the A/D clock is not output from the ScopeCorder DL850/SL1400. To verify the accuracy of the A/D clock, you will ...
Please verify the following items: USB does not exceed 16 GB Latest firmware is installed on DLM2000 USB Format is FAT32 USB works properly on PC Test USB on another USB port If the problem persists, please ...
Yes, the DLM2000 Mixed Signal Oscilloscope can decode and analyze J1939.
Question:If the DL9000 Oscilloscopes is in normal trigger mode and no waveform acquisitions have been made i.e. the scope has not triggered, a query to the instrument using the :Waveform:Record or :History:Record? Minimum it returns ...
Can we upgrade the DLM2000 Mixed Signal Oscilloscope memory to /M2? No – DLM2000 Memory is factory only (must be ordered at time of new purchase); there is not a mod available for this type of upgrade.
Frequency to Voltage Conversion Problem: A transducer produces a sine-wave output dependant on the voltage-input; here is how to decode that output with a scope or a ScopeCorder. For 3kV input, the transducer ...
When communicating or controlling the DL7400 Digital Oscilloscope via USB in LabVIEW, you must use the USB driver files provided by NI-VISA (Version 3.0 or later). The Yokogawa USB driver files labeled YKUSB or YKMUSB can be used when ...
The DL850 can be installed with one of the following language options:JapaneseEnglishChineseKoreanGermanFrenchItalianSpanishRussianFor the English (-HE) model, the menu and message language can be changed in the UTLITY ...
In the menu of GO/NO-GO Zone Editor determination, there is no menu option for setting the for measuring range.The measuring range can be set in the Area1 sub-menu of the Automated Waveform Measurement Parameter menu..
The DLM2000 Mixed Signal Oscilloscopes can save multiple waveform history data to 1 file when the file type is set to Binary format. However, when the file save type is set to ASCII, only the displayed waveform data can be saved regardless ...
When using voltage probes, please set the channel probe mode using the command :CHANnel:PROBe 10.00 or 0.01. When using current probe, please set the channel probe mode using the command :CHANnel:PROBe C10 or ...
The free software DL-GATE can be used for the following products only:DL1700E seriesDL7400 series (firmware version after 1.32)DL1600 series (firmware version after 1.13)DL750 series (firmware version after ...
The DLM2000 mixed signal oscilloscopes has a Serial Bus Analysis option from /F1 to /F4. This includes the CAN, LIN, UART, I2C, and SPI protocols. However, there is one more User-Defined Serial Bus Analysis, which is not an add-on ...
How to use SNTP on DL850 ScopeCorder The sequence below is very important for SNTP to work properly.1. Set DATE/TIME and GMT Time Difference to your location FIRST. EDT is -4 hours, EDT is -5 hours - as examples. 2. Set a SNTP ...
Please make sure to set Time/Div to a setting which will display a minimum of sixteen (16) Cycles. To setup the instrument for harmonic analysis: Press the WINDOW1 key Press the Type soft key Select ...
The sanitation procedure for various Yokogawa oscilloscopes have been documented below. Please download the document or pdf that refers to your Yokogawa oscilloscope.
The Yokogawa .SNP file is a proprietary Yokogawa file format for saving waveform snapshots. This file has no relation to the Microsoft Snapshot Viewer program. The .SNP file can only be viewed on the oscilloscope.
Yes, the HDMI pinout carries the I2C on pins 15 and 16 of the HDMI connector cable. The HDCP (content protecting encryption keys) signal is carried on pins 15 and 16.
Any DL9000 Digital Oscilloscope with firmware version 1.82 or older will require a one time upgrade via FAT-16 PC Card. After applying the one time upgrade, any subsequent new firmware update can be performed via USB flash drive. Please see ...
To use wireless mouses or keyboards on a device, a driver needs to be installed. Yokogawa instruments will not let you install drivers on the device, therefore it is not possible to connect a wireless mouse or ...
Please see the attached document for complete instructions on how to get connected to the DLM2000 Mixed Signal Oscilloscope using Xviewer.
Please download the attached document for detailed instructions on how to work around the DLM2000 Mixed Signal Oscilloscope ASCII record length limit Error Code 545
Please download the attached article. This article discusses the three types of display interpolation found in the Yokogawa DL9000 and SB5000 Digital Oscilloscopes. It is also applicable to other Yokogawa Oscilloscopes.
Yes, VXI-11 is required and needs to be enabled for the DLM2000 Mixed Signal Oscilloscope to connect properly to Xviewer when using an ethernet connection. If the VXI-11 option is unchecked, a connection failed message will appear. Related ...
The DLM series oscilloscopes (DLM5000HD, DLM5000, and DLM3000) and ScopeCorders (DL950, DL350) provide the CAN Bus symbolic decode analysis function. For DLM series, an overlay function displays the CAN packet structure directly below the time domain waveform.
Yes, DLM2000 Mixed Signal Oscilloscope has CE Certification. Please see attached documents for details.
Yes, the NAK CAN Bus Trigger is supported on the DLM2000 Mixed Signal Oscilloscope and DL9000 Digital Oscilloscope. DL9000: Refer to the IM 701310-51E (page 3-13)DLM2000: Refer to the IM 710105-02E (page 2-16)
The DLM2000 Mixed Signal Oscilloscope base model with standard storage memory capacity is 100MB. With the /C8 Option, the internal storage memory capacity is 1.8GB.
Although the DLM2000/DL9000 Mixed Signal Oscilloscope does not have a BoxAvg acquisition mode, there is an alternative method for achieving the same effect. The combination of Hi-Res mode and a low pass bandwidth filter will work in the same ...
The actual input limit for the DLM2000 Mixed Signal Oscilloscope is 212V (DC+ACpeak) for not only a 0.01 or 0.001 Hz AC signal but also a DC signal. The reason why 150 Vrms is indicated on the DLM2000 specification sheet is that the safety ...
There are three kinds of standards for which a differential probe is necessary: FlexRay CAN UART (Some but not all UART) It is not necessary to use a differential probe for the LIN, I2C and SPI standards.
Unfortunately we do not have an automated program for adjusting the DL9000 digital oscilloscope is it is failing calibration. Please follow the procedures on the DL9000 service manual or the CE handbook.
No, the DL9000 cannot be upgraded or modified to a SB5000.
If your DLM2000 has firmware version 1.245 or later, then you can use a USB flash drive to upgrade the firmware of your unit. Note:DLM2000 refers to models DLM2024, DLM2022, DLM2034, DLM2032, DLM2052, DLM2054
If you selected Decimation or P-P Compression when saving waveform data in ASCII CSV format, then the HResolution will not be equivalent to the Sampling Rate. If Decimation or P-P Compression is not selected, then ...
The true noise floor of a Yokogawa oscilloscope is ≤ 2-3mVpp. The DL9000 Digital Oscilloscope, for example, has approximately 280uV residual noise at 2mV/Div with input termination set to 50Ω. The residual noise may be measured by ...
The IEC Harmonic analysis on the DL/DLM series oscilloscopes provides a rough analysis and estimation for harmonic testing. The scope will perform an FFT on the current waveform and can be used to measure the general ...
You can express any arbitrary exponentiation, in Xviewer or DL series instruments, by using the LOG (common logarithm) and EXP (exponential) functions. For example, for C1 raised to the exponent of 0.2, the math ...
The DLM2000 Mixed Signal Oscilloscope can save all history acquisition waveforms into one file, if the data type is set to Binary (file extension *.WDF) and History Mode is set to All. If the data type is set to ASCII, only the latest ...
The DLM6000 Mixed Signal Oscilloscope shows the network icon to notify the user that the instrument is disconnected from a network. This is a specification of the LXI standard that is on the DLM6000 that requires the instrument to show the icon ...
The Header Size entry, for a ASCII format data file, denotes the number of header lines in the header part of the ASCII File.
In general, the recommended sampling rate for CAN bus or I2C analysis is 10x the bit-rate. If the waveform is not noisy, the sampling rate can be set to around 4-5x the bit-rate.
The DL1600 digital oscilloscope will not save timestamp data into a column like some of the newer scopes (DL850 and DLM2000). There are two methods for adding timestamp data to the DL1600 listed below: WARNING: Please use caution when ...
The measurement function can be used only when data are saved in the ACQ (BIN) format. In addition, when data are saved in this format, all functions including waveform zoom can be used in the same fashion as with the ...
Yes, data is retained in the DL1500 Oscilloscope internal memory even if power is turned OFF because there is a lithium battery.
Yes, if all the data cannot fit onto one disk, a message will appear prompting you to enter the next floppy disk. Simply follow the instructions to save the data to multiple floppy disks. The same procedure also ...
Yes, screen image data can be saved in BMP and other formats even if the built-in printer is not installed.
The data will be in IS2 format unless the History Memory function is active, then it will be in the IS1 format.
When using color the file size ranges from 50 KB to 200 KB, if Compression is turned ON. The size varies greatly since the compression rate changes depending on the density of the waveform. The file size is larger for ...
It is currently not possible to load .WVF waveform data saved by a DL1540 onto the DL1540C/DL1540CL or vice versa. This is because the internal circuit is not common between the two models. It is however, possible to ...
Yes, you can select color or monochrome when saving or transferring the screen image data on Yokogawa DL1540C/CL Digital Oscilloscope.
There are two types of waveform data that can be loaded. Waveform data saved using P-P.Computation and X-Y display cannot be performed on P-P display waveform data that are loaded. Waveform data saved in ACQ BIN ...
It is the power spectrum defined by PS = 20 x Log(X/1Vrms)
If Y(V) is the converted value for X(dBV), the equation is: Y = 10(X/20) from X=20*LOG(Y)
If the FFT does not appear, check to assure that the horizontal position of the waveform is set exactly to Zero. If the horizontal position is set to a non-zero value, the FFT will not be performed.
The result of the computation between channels is displayed in units of divisions. By subtracting ch1 from ch2, you obtain 10 V. However, the result shows 2, a value obtained after dividing 10 V by the V/div value (10/5).
The averaging function supported by the DL1500 Digital Oscilloscope exponential averaging. The models that support linear averaging (simple averaging) are the DL4000 Series, DL2700, and DL708.
The minimum dead time on the DL1540 and DL1540L Digital Oscilloscope is approximately 200 µs. However, this value varies depending on the T/Div setting, the number of channels, and the data length. Consider the minimum value to be the ...
The FFT is computed based on the ACQ data. In order to perform the FFT over 1 k points, the ACQ data are decimated (reduced) from 10 kW to 1 kW. At this point the sampling rate is equivalent to 100 kSs (1/10 of 1 MS/s).
The display channel colors are fixed to: CH1-yellow, CH2-green, CH3-pink, CH4-blue.
Yes, the color of the snapshot waveform is white so the displayed waveform will change colors if you move the position of the snapshot waveform on the DL1540C Digital Oscilloscope.
The manufacturer of our LCD has stated the luminance of the LCD drops to half after 25000 hours.
The width level of the Window trigger cannot be set to a value less than the voltage corresponding to 1 division at the specified voltage sensitivity. For example, if the voltage sensitivity is set to 500 V/div, then ...
Yes, there is no restriction on specifying or using the two functions simultaneously.
This function is available on firmware version 1.10 and higher. To check the version, press the MISC key on the front panel. and then select Information using the soft keys. This function is available on all versions of ...
The menu screen and messages DL1540 Digital Oscilloscope from the PC are cleared when commands such as "start" and "cursor on" are issued.
Only P-P data can be transferred once measurements are being made. The instrument must be stopped to transfer ACQ data.
The transfer could take up to 10 seconds. Normally it is 6 or 7 seconds, however this will vary depending on the performance of the PC and the GP-IB board. On the DL1540C Digital Oscilloscope, this may take longer than 10 s, because the ...
Error:Code 915 is the error message "Can't detect listener" when attempting to print with DL1540 Digital Oscilloscope. This error occurs when the hard copy destination is not set to the "printer," but to "plotter" without connecting external devices.
The update rate is 1 to 2 Hz when all measurement items are specified on Trace1 through Trace4. The update rate is 5 to 6 Hz when only a few measurement items are specified on Trace1.
Approximately 500 ms when performing zone determination.Approximately 700 ms when performing parameter determination.
No, the power supply section of the Digital Oscilloscope DL1540, DL1540L, DL1540C, and DL1540CL automatically switches between 100-120 VAC and 220-240 VAC. The power supply section of the DL1520 and DL1520L is specified when you order the ...
Yes, please visit our Contact Website and contact your local Yokogawa Representative to request a replacement for part no. A9080ZG.
The NO-GO output is controlled by software. Thus, there may be fluctuations in the processing time depending on the sensing conditions. Since the signal remains low until the next determination can be accepted, this ...
The SCSI connector type is half-pitch 50-pin (pin type).
No, the DL1540C/CL uses the color TFT LCD screen. The output to the monitor is supported by the VGA output function (optional).
To use the isolated input unit, the firmware version of the DL1540 Digital Oscilloscope must be 1.10 or higher. Please check the version number. If the version number is lower than 1.10, the firmware must be upgraded.
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No, the DL1640 Digital Oscilloscope USB port is not insulated from the analog input connector.
No, the DL1540C cannot load the binary data file of the DL1500. The DL1540C can only load the binary data file saved by the DL1540C. The DL1540CL can load the binary data file saved by the DL1540C and DL1540CL
The multi-unit synchronization option for the Yokogawa Test&Measurement DL950 ScopeCorder lets you time synchronize up to five DL950 ScopeCorders, for up to 160 channels of voltage, current, temperature, strain measurements, and more. This video walks you through how to set up and connect the multiple DL950 ScopeCorders, take measurements, and pull the data from all of the instruments for analysis with the IS8000 Integrated Test and Measurement Software Platform.
With ongoing innovations in motor and inverter technologies seeking to advance global decarbonization objectives in the automotive industry, it’s crucial that engineers have a thorough understanding of how to properly analyze these systems.
This complimentary webinar provides engineering professionals involved in motor and control system development with insights that enable data benchmarking and troubleshooting issues related to energy efficiency in electric vehicle (EV) powertrains.
Key webinar topics include:
–Targeted at automotive, mechatronics, and electronics R&D–
- Supporting the development of next-generation power electronics for automobiles and other applications -