The DLM4000 is an eight-channel mixed-signal oscilloscope suitable to test and debugging applications in the embedded systems, power electronics, mechatronics, and automotive sectors. Available in both 350 MHz and 500 MHz models, the 2.5 GSa/sec DLM4000 features eight analog input channels. The eighth input channel features Flex MSO which converts to a 8-bit logic analyzer at the push of a button; add sixteen additional logic analyzer inputs as an option, for 24-bit logic analysis. Advanced measurement and analysis features such as power analysis and serial-bus analysis, digital filtering, user-defined math, and super-long record lengths (up to 250 Mega Points) make the DLM4000 a super powerful engineering tool. High-resolution 12.1-inch LCD display, compact landscape format, ergonomic and friendly user-interface make it easy to use.
Motor control & inverter circuit development
Key to efficient and reliable high-performance electric motors is the modern inverter design, or ‘Intelligent Power Module’. Multi-channel, high-speed waveform measurement is an absolute necessity. Four channels are simply not enough. Boasting eight true analog inputs, the DLM4000 empowers today’s engineer with a convenient and comprehensive measurement system.
Electronic control unit & mechatronic test
Numerous I/O analog, digital, and serial-bus waveforms surrounding the Electronic Control Unit (ECU) must be measured. The DLM4000 offers ample channel-count and architecture to monitor eight analog channels and up to 24-bits of logic input while simultaneously performing protocol analysis such as UART, I²C, SPI, CAN, CAN FD, LIN, CXPI, PSI5 and FlexRay. The DLM4000 can speed up the R&D process when four channels are not enough.
Limitation of 4 ch MSO: The additional logic inputs of a four-channel MSO mixed-signal oscilloscope provides enough channels, but this method has a blind-spot. Digital waveform analysis using logic inputs alone cannot reveal anomalies such as voltage drift, noise, distortion or ringing, and measure risefall times. ECU testing requires stringent examination of all digital waveforms- and analog input channels are the best tool for the job.
When just a specific event or abnormal waveform needs to be captured, the flexible and reliable triggering of the DLM4000 is the solution. In addition to basic trigger functions such as Edge, State, and Pulse Width- Advanced trigger types are provided, including Edge OR between multiple channels, Serial Bus trigger in which A combination of two bus signals is possible, or an A and B combination of different trigger types.
The two advantages of a long waveform memory are the abilities to capture for long periods of time and to maintain high sample rates. Thus achieving higher effective measuring bandwidths for all time base settings.
Measuring time = Memory length / Sample rate
With the maximum memory installed (/M3 option), in single shot mode, a 10 kHz signal lasting for more than one hour can be captured. The same memory can capture a 200 millisecond signal at a sampling rate of 1.25 GS/s.
Two fully independent zoom windows
Enabling two fully independent zoom windows allows users to analyze the cause and effect of abnormal behaviors over all input channels. Users can also view and compare the details and timing of different serial buses operating at different speeds.
The DLM4000 can capture and replay up to 50,000 individual acquisitions (/M3 option). These can be displayed one at a time or as an accumulation. Using the search and measurement functions, abnormal signals can therefore be quickly isolated, analyzed and precisely categorized without needing to carefully configure triggers to capture rare events.
History Search Function
Search up to 50,000 waveform history records based on detailed search parameters using the history search function.
Replay Function
Automatically play back, pause, fast forward, and rewind waveform history records.
This is a license product for adding applicable optional features on to DLM4000 series on your own.
It is necessary to update main unit firmware in advance to V3.03 and above* in order to apply this license.
* Firmware version 3.70 or higher is required to apply -F9, -X1 licenses.
* Firmware version 4.70 or higher is required to apply -10, -11 licenses.
* Firmware version 5.01 or higher is required to apply -F4, -F6, -F7, -F8 licenses.
Model | Suffix code | Description |
---|---|---|
709820 | -G2 | User defined math |
-G3 | Power supply analysis function | |
-G4 | Power supply analysis function (includes G2) | |
-F1 | UART trigger and analysis | |
-F2 | I²C + SPI trigger and analysis | |
-F3 | UART + I²C + SPI trigger and analysis | |
-F4 | CAN + LIN trigger and analysis + CXPI analysis | |
-F5 | FlexRay trigger and analysis | |
-F6 | FlexRay + CAN + LIN trigger and analysis + CXPI analysis | |
-F7 | CAN + CAN FD + LIN trigger and analysis + CXPI analysis | |
-F8 | FlexRay + CAN + CAN FD + LIN trigger and analysis + CXPI analysis | |
-F9 | SENT trigger and analysis | |
-10 | PSI5 analysis | |
-11 | SENT+PSI5 trigger and analysis | |
-X1 | F4 -> F7 or F6 -> F8 (adds CAN FD) |
The /G3 and /G4 options enable switching loss, joule integral (I2t), SOA (safe operating area), harmonics based on EN61000-3-2, and other power parameters to be measured and analyzed.
Switching loss analysis:
The switching loss of the voltage and current input waveforms can be computed (U(t) x (I(t)) over long time periods. The turn-on/off loss, the loss including the continuity loss, and the loss over many cycles of the 50 Hz/60 Hz power line can be calculated and analyzed.
Power Measurement
The DLM4000 can also be used as a power meter by providing automated measurement of power parameters for up to two pairs of voltage and current waveforms, such as the active power, apparent power and power factor. These values can be statistically processed and calculated.
Differential probe PBDH0150 (701927)
DC to 150 MHz
1000 Vrms/ ±1400 Vpeak
Differential probe (701926)
DC to 50 MHz
5000 Vrms/7000 Vpeak
Current probe PBC100/PBC050 (701928/701929)
DC to 100 MHz (701928)
DC to 50 MHz (701929)
30 Arms
Deskew correction signal source (701936)
Equations can be arbitrarily created using a suite of operators such as trigonometric and logarithmic operators, integration and differentiation, pulse width operators, phase measurement and digital to analog conversion.
The flexible MSO inputs are included as standard. This enables the DLM4000 to be converted to a 7 analog and 8 digital input MSO. With the /L16 option, up to 24 logic signals can be measured. Bus/State display and optional DA calculation function, which is useful for evaluating AD/DA converters, are also provided.
UART (RS232)/ I²C/ SPI/ CAN/ CAN FD/ LIN/ FlexRay/ SENT/ PSI5/ CXPI
Dedicated trigger and analysis options are available for various serial buses of both in-vehicle and embedded systems. A wide variety of trigger combinations can be set, including ID and Data combinations, which can also be combined with conventional edge triggers. Trigger functions of some of the serial buses are not supported. Simultaneously display the physical layer waveforms and the digital data.
Serial bus auto-setup saves time
An intelligent serial bus auto-setup detects bit-rate and voltage threshold automatically and enables the DLM4000 to be quickly configured.
Up to 4 buses simultaneously
Analysis can be performed at high speed simultaneously on up to four different buses operating at different speeds. This is enhanced by the extensive search facilities, allowing the user to look for specific data in the very long memory. The dual-zoom facility means that different buses can be viewed and debugged alongside each other.
Differential probe PBDH1000 (701924)
DC to 1.0 GHz bandwidth 1 MΩ, approximately 1.1 pF
Maximum differential input voltage range: ±25 V
Differential probe (701920)
DC to 500 MHz bandwidth
100 kΩ, approximately 2.5 pF
Maximum differential input voltage range ±12 V
Logic probe PBL100/PBL250 (701988/701989)
100 MHz/250 MHz toggle frequency 1 MΩ, 10 pF/100 kΩ, 3pF
Reduced energy, emission of CO2, NOx and SOx about 25% compared to the previous model. Results of Life Cycle Assessment |
Model | Description |
---|---|
DLM4038 | DLM4038 350 MHz Mixed Signal Oscilloscope 8-channel 8-bit |
DLM4058 | DLM4058 500 MHz Mixed Signal Oscilloscope 8-channel 8 bit |
500 MHz, 10:1, 400 Vrms/1250 Vpeak CAT O 300 Vrms CAT II, 1.2 m
For DLM2000, DLM4000, DL6000, DLM6000 series
200 MHz, 10:1, ±1000 V (DC + ACpeak) CAT II, 2.5 m,Wide operating temperature range (−40 to +85°C)
For DLM2000, DLM4000 series.
15 MHz, 100:1/10:1, Max. Differential Voltage: ±500 V (DC + ACpeak) or 350 Vrms at 100:1 attenuation, Probe Power: Internal battery or probe power supply Work with Oscilloscopes, ScopeCorders
500 MHz, 10:1, Max. Differential Voltage: ±12 V (DC + ACpeak), Probe Power: probe power supply Work with 50 Ω input system oscilloscope
100 MHz, 100:1/10:1, Max. Differential Voltage: ±700 V (DC + ACpeak) at 100:1 attenuation, Probe Power: Internal battery or probe power supply
200 MHz, 10:1, Max. Differential Voltage: ±20 V (DC + ACpeak), Probe Power: probe power supply Work with 50 Ω input system oscilloscope
50 MHz, 1000:1/100:1, Max. Differential Voltage: 5000 Vrms/7000 Vpeak (1000:1), Probe Power: Internal battery or probe power supply B9852MJ power cable is bundled Work with Oscilloscopes, ScopeCorders
A clip set designed for 701937, 701938, 701939, 701943 (PB500) and 700939
Set contains one black and one red clip
1000 Vrms-CAT II
2 pieces (red and black) in 1 set
Connected to the 758933, 758917, or 701901
Length: 0.3m
Applicable for DL750/DL750P, SL1000, SL1400
Connected to the 700929, 701947
Maximum input voltage: 1,000V (DC + ACpeak)
Length: 0.26m/0.3m/0.4m
Applicable for DL750/DL750P, SL1000, SL1400
Set contains one black and one red clip.
1000 Vrms-CAT II.
This DC block can be used to remove the DC component from an incoming signal. Use this block if you want to remove bias voltage from reaching the PBL5000 probe.
Rated at 300 V. Attaches to the 758917 test leads. Sold in pairs.
Two adapters to a set for 5 A current
(screw-fastened type using B9317WD)
A clip set designed for the 700988, 700960 and 701940 probes.
The B9852HF contains the following eleven(11) kinds of accessories: Insulation cap, IC cap, BNC adapter, Rigid tip, Spring tip (Ø: 0.80 mm), Spring tip (Ø: 0.38 mm), Ground spring, Adjustment tool, Pincher tip, Standard ground lead, Color coding rings. PBL5000.
This cable is used to connect an external device, however, do not use this cable for purposes other than DL750/1600/1700/1700E/7400 GO/NO-GO judgement.
T-adapter for BNC connectors. Use for circuits having voltage levels no greater than 42 V.
BNC-BNC 2m. For connection to simultaneously measurement with 2 units, or for input external trigger signal.
For 701937, 701938, 701939, 701943 (PB500) and 700939.
Quantity of 1 unit: 10
For 701937,701938, 701939, 701943 (PB500) and 700939 Standard accessories include: Adapter, red wire (3), black wire (3)
A subassembly of 1.2 m long test leads with alligator-clip adapters.
Use only for circuits having voltage levels no greater than 42 V.
Applicable for SL1000 & SL1400.
For conversion between BNC and female banana plug
Applicable for DL750/DL750P, SL1000 & SL1400.
BNC-Banana-jack (female) adapter. Use for circuits having voltage levels no greater than 42 V.
For 702902, 702906
Banana-plug (male)-BNC adapter. Use for circuits having voltage levels no greater than 42 V.
Safety-terminal-binding-post adapter. Use for circuits having voltage levels no greater than 42 V.
Three pockets are provided for storing accessories and the user’s manual.
With increased focus on reducing energy consumption and compliance with efficiency standards, this app note provides an overview on the types of measurements needed for efficiency and power quality, and the instruments that take them.
While accurate rise time measurements have become easier to make, it remains, nonetheless, quite easy to overlook error contributions due to not only the oscilloscope but also the probe. And, while the error contributed by a scope's finite step-response (rise time) is often accounted for, that contributed by the probe is often overlooked.
The objective of this paper is to show the close relationship between efficiency and power quality, and provide education on the causes of power quality, types of power quality issues, and provide guidance on measurement considerations.
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This training module covers the following topics: