LeCroy HDO4104 4 Channel 200MHz Mixed Signal Oscilloscope
Condition: Refurbished/Calibrated
Warranty: 1 Year Warranty
Teledyne Lecroy HDO4104
Combining Teledyne LeCroy’s HD4096 high definition technology, with long memory, a compact form factor, 12.1” wide touch screen display, powerful debug tools, and mixed signal capability, the HDO4000 is the ideal oscilloscope for precise measurements and quick debug. Tools such as WaveScan Search and Find, LabNotebook Report Generator, and History Mode help identify and isolate problems for faster troubleshooting.
HD4096 Technology
HD4096 high definition technology consists of high sample rate 12- bit ADCs, high signal-to-noise input amplifiers and a low-noise system architecture. This technology enables high definition oscilloscopes to capture and display signals of up to 1 GHz with high sample rate and 16 times more resolution than other oscilloscopes
Long Memory
With up to 50 Mpts of memory the HDO4000 High Definition Oscilloscopes can capture large amounts of data with more precision than other oscilloscopes. The 2.5 GS/s, 50 Mpts architecture provides the ability to capture a fast transient or a long acquisition.
Large 12.1” Touch Screen
Navigating complicated user interfaces is a thing of the past thanks to the large touch screen display of the HDO4000. The user interface was designed for touch screens which makes navigating the HDO4000 extremely intuitive. Every aspect of the interface is touchable making channel, timebase and trigger settings only one touch away.
Compact Form Factor
The HDO4000 builds upon Teledyne LeCroy’s history of “Large Screen, Small Footprint” with its 12.1” wide touch screen display and 5” depth. Additionally, the innovative rotating, tilting feet enable the HDO4000 to be placed in 4 different viewing positions ensuring optimal viewing no matter where it is being positioned in the lab.
Oscilloscopes with HD4096 technology have higher resolution and measurement precision than 8-bit alternatives. The high sample rate 12-bit ADCs provide high resolution sampling at up to 2.5 GS/s. The high performance input amplifiers deliver phenomenal signal fidelity with a 55 dB signal-to-noise ratio and provide a pristine signal to the ADC to be digitized. The low-noise signal architecture ensures that nothing interferes with the captured signal and the oscilloscope displays a waveform that accurately represents the signals from the device under test.
Clean, Crisp Waveforms
When compared to waveforms captured and displayed by 8-bit oscilloscopes, waveforms captured with HD4096 technology are dramatically crisper and cleaner. Oscilloscopes with HD4096 acquire waveforms at high resolution, high sample rate and low noise to display the most accurate waveforms.
More Signal Details
Signal details often lost in the noise are clearly visible and easy to distinguish when captured on oscilloscopes with HD4096. Details which were previously difficult to even see can now be easily seen and measured. Using the oscilloscope zoom capabilities gives an even closer look at the details for unparalleled insight to the signals on screen.
Unmatched Measurement Precision
Precise measurements are critical for effective debug and analysis. HD4096 enables oscilloscopes to deliver unmatched measurement precision to improve testing capabilities and provide better results.
High-performance 16 Channel Mixed Signal Capability
With embedded systems growing more complex, powerful mixed signal debug capabilities are an essential part of modern oscilloscopes. The 16 integrated digital channels and set of tools designed to view, measure and analyze analog and digital signals enable fast debugging of mixed signal designs.
Extensive Triggering
Flexible analog and digital cross-pattern triggering across all 20 channels provides the ability to quickly identify and isolate problems in an embedded system. Event triggering can be configured to arm on an analog signal and trigger on a digital pattern.
Advanced Digital Debug Tools
Using the powerful parallel pattern search capability of WaveScan, patterns across many digital lines can be isolated and analyzed. Identified patterns are presented in a table with timestamp information and enables quick searching for each pattern occurrence. Use a variety of many timing parameters to measure and analyze the characteristics of digital busses. Powerful tools like trends, statistics and histicons provide additional insight and help find anomalies. Quickly see the state of all the digital lines at the same time using convenient activity indicators.
Trigger and Decode
The serial data trigger will quickly isolate events on a bus eliminating the need to set manual triggers and hoping to catch the right information. Trigger conditions can be entered in binary or hexadecimal formats and conditional trigger capabilities even allow triggering on a range of different events. Protocol decoding is shown directly on the waveform with an intuitive, color-coded overlay and presented in binary, hex or ASCII. Decoding on the HDO4000 is fast even with long memory and zooming in to the waveform shows precise byte by byte decoding.
Table and Search
To further simplify the debug process all decoded data can be displayed in a table below the waveform grid. Selecting an entry in the table with the touch screen will display just that event. Additionally, built-in search functionality will find specific decoded values. Serial data messages can be quickly located by searching on address, data and other attributes specific to a particular protocol. Once found, the specific location containing the specified search criteria can be automatically zoomed to.
Touch Screen Simplicity
Configuring the HDO4000 is simple thanks to the intuitive touch screen user interface. Everything on the screen is interactive. To adjust channel, timebase, or trigger settings, simply touch the associated descriptor box and the appropriate menu is opened. Measurements can be touched to adjust their settings and cursors can be positioned precisely by touching and dragging them to the proper location. A box can be drawn around a portion of a waveform to create a zoom. Even waveform offset and delay can be adjusted by touching and dragging the waveform.
WaveScan Advanced Search
WaveScan provides powerful isolation capabilities that hardware triggers can’t provide. WaveScan allows searching analog, digital or parallel bus signal in a single acquisition using more than 20 different criteria. Or, set up a scan condition and scan for an event over hours or even days.
Advanced Math and Measure
With many math functions and measurement parameters available, the HDO4000 can measure and analyze every aspect of analog and digital waveforms. By utilizing HD4096 technology, the HDO4000 measures 16 times more precisely than traditional 8-bit architectures. Additionally, the HDO4000 provides statistics, histicons and trends to show how waveforms change over time.
Advanced Waveform Capture with Sequence Mode
Use Sequence mode to store up to 10,000 triggered events as segments. This is ideal when capturing fast pulses in quick succession or when capturing events separated by long time periods. Each segment has a timestamp and dead-time between triggers is less than 1 μs. Isolate rate events over time by combining with advanced triggers.
History Mode Waveform Playback
Scroll back in time using History Mode to view previous waveforms and isolate anomalies. Use cursors and measurement parameters to quickly find the source of problems. History mode is always available with a single button press, no need to enable this mode and never miss a waveform.
LabNotebook
The LabNotebook feature of HDO4000 provides a report generation tool to save and document all your work. Saving all displayed waveforms, relevant settings, and screen images is all done through LabNotebook, eliminating the need to navigate multiple menus to save all these files independently.
Simplify Analysis of FFT Power Spectrum
Get better insight to the frequency content of any signal with use of the Spectrum Analyzer mode on the HDO4000. This mode provides a spectrum analyzer style user interface with controls for start/stop frequency or center frequency and span. The resolution bandwidth is automatically set for best analysis or can be manually selected. Vertical Scale can be selected as dBm, dBV, dBmV, dBuV, Vrms or Arms for proper viewing and analysis while the unique peak search automatically labels spectral components and presents frequency and level in an interactive table. Utilize up to 20 markers to automatically identify harmonics and quickly analyze frequency content by making measurements between reference and delta markers. To monitor how the spectrum changes over time, view the spectrogram which can display a 2D or 3D history of the frequency content.
Power Analyzer Automates Switching Device Loss Measurements
Quickly measure and analyze the operating characteristics of power conversion devices and circuits with the Power Analyzer option. Critical power switching device measurements, control loop modulation analysis, and line power harmonic testing are all simplified with a dedicated user interface and automatic measurements. Areas of turn-on, turn-off, and conduction loss are all identified with colorcoded waveform overlays for faster analysis.
Power Analyzer provides quick and easy setup of voltage and current inputs and makes measurements as simple as the push of a button. Tools are provided to help reduce sources of measurement errors and the measurement parameters provide details of single cycle or average device power losses.
Beyond the advanced power loss measurement capabilities, the Power Analyzer modulation analysis capabilities provide insight to understand control loop response to critical events such as a power supply’s soft start performance or step response to line and load changes. The Line Power Analysis tool allows simple and quick pre-compliance testing to EN 61000-3-2.
Specifications:
Analog - Vertical
|
Bandwidth (@ 50Ω) |
1 GHz |
|
Rise time |
450 ps typical |
|
Input Channels |
4 |
| Vertical Resolution | 12-bits; up to 15-bits with enhanced resolution (ERES) |
|
Sensitivity |
50 Ω: 1mV/div - 1 V/div; 1 MΩ: 1 mV/div - 10 V/div |
|
DC Gain Accuracy |
±(0.5%) Full Scale, offset at 0 V |
|
BW Limit |
20 MHz, 200 MHz |
|
Maximum Input Voltage |
50 Ω: 5 Vrms; 1 MΩ: 400 V max (DC + Peak AC ≤ 10 kHz) |
|
Input Coupling |
50 Ω: DC, GND; 1 MΩ: AC, DC, GND |
|
Input Impedance |
50 Ω ±2.0%, 1 MΩ ±2.0% || 15 pF |
|
Offset Range |
50 Ω: 1 mV - 4.95 mV: ±1.6 V, 5 mV - 9.9 mV: ±4 V, 10 mV - 19.8 mV: ±8 V, 20 mV - 1 V: ±10 V 1 MΩ: 1 mV - 4.95 mV: ±1.6 V, 5 mV - 9.9 mV: ±4 V, 10 mV - 19.8 mV: ±8 V, 20 mV - 100 mV: ±16 V, 102 mV - 198 mV: ±80V, 200 mV - 1 V: ±160 V, 1.02 V -10 V: ±400 V |
|
Offset Accuracy |
±(1.0% of offset value + 0.5%FS + 0.02% of max offset + 1 mV) |
| Analog - Acquisition | |
|
Sample Rate (Single-shot) |
2.5 GS/s |
|
Sample Rate (Repetitive) |
125 GS/s |
|
Record Length |
Standard -STD: 12.5 Mpts/ch (all channels) 25 Mpts (interleaved) Optional -L: 25 Mpts/ch (all channels), 50 Mpts (interleaved) |
|
Acquisition Modes |
Real Time, Roll, RIS (Random Interleaved Sampling), Sequence (Segmented Memory up to 10,000 segments with 1μs intersegment time) |
|
Timebase Range |
200 ps/div - 1.25 ks/div with standard memory (up to 2.5 ks/div with -L memory); RIS available at ≤ 10 ns/div; Roll Mode available at ≥ 100 ms/div and ≤ 5 MS/s |
|
Timebase Accuracy |
±2.5 ppm for 5 to 40C + 1.0 ppm/year from calibration |
| Trigger System | |
|
Modes |
Auto, Normal, Single, Stop |
|
Sources |
Any input channel, External, Ext/10, or line; slope and level unique to each source (except for line trigger) |
|
Coupling |
DC, AC, HFREJ, LFREJ |
|
Pre-trigger Delay |
0-100% of full scale |
|
Post-trigger Delay |
0-10,000 Divisions |
|
Hold-off |
2ns up to 20s or 1 to 1,000,000,000 events |
|
Internal Trigger Level Range |
±4.1 Divisions |
|
External Trigger Level Range |
Ext: ±400mV, Ext/10: ±4V |
| Trigger Types | Edge, Glitch, Width, Logic (Pattern), TV (NTSC, PAL, SECAM, HDTV–720p, 1080i, 1080p), Runt, Slew Rate, Interval (signal or Pattern), Dropout, Qualified (State or Edge |
| Measure, Zoom and Math Tools | |
|
Measurement Parameters |
Up to 8 of the following parameters can be calculated at one time on any waveform: Amplitude, Area, Base (Low), Delay, Delta Period @ Level, Delta Time @ Level, Duty, Duty @ Level, Edge @ Level, Fall Time (90%–10%), Fall Time (80%–20%), Frequency, Frequency @ level, Maximum, Mean, Minimum, Overshoot+, Overshoot-, Peak-Peak, Period, Period @ Level, Phase, Rise Time (10%–90%), Rise Time (20%–80%), RMS, Skew, Standard Deviation, Time @ Level, Top (High), Width+, Width-. Statistics and Histicons can be added to any measurement and all measurements can be gated. |
|
Zooming |
Use front panel QuickZoom button, or use touch screen or mouse to draw a box around the zoom area. |
|
Math Functions
|
Functions include Sum, Difference, Product, Ratio, Absolute Value, Averaging (summed and continuous), Derivative, Envelope, Enhanced Resolution (to 15-bits), Floor, Integral, Invert, Reciprocal, Rescale (change scale and units), Roof, Square, Square Root, Trend, Zoom and FFT (up to 1 Mpts with power spectrum output and rectangular, VonHann, and FlatTop windows). 2 dual operator math functions may be defined at a time. |
| Probes | |
|
Standard Probe |
One PP018(5mm) per channel |
|
Probing System |
BNC and Teledyne LeCroy ProBus for Active voltage, current and differential probes |
| Display System | |
|
Display Size |
12.1” Wide TFT-LCD Touch-Screen |
|
Display Resolution
|
1280 x 800 |
| Connectivity | |
|
Ethernet Port |
(2) 10/100/1000Base-T Ethernet interface (RJ-45 connector) |
|
USB Host Ports |
(6) USB Ports Total – (2) Front USB Ports |
|
USB Device Port |
(1) USBTMC |
|
GPIB Port (Optional) |
Supports IEEE – 488.2 |
|
External Monitor Port |
Standard 15-pin D-Type SVGA-compatible DB-15 connector, DVI connector and HDMI connector |
|
Remote Control |
Via Windows Automation, or via Teledyne LeCroy Remote Command Set |
| Processor/CPU | |
|
Type |
Intel B810 Celeron processor 1.6 GHz or better |
|
Processor Memory |
4 GB Standard |
|
Operating System |
Windows Embedded Standard 7 64-Bit |
| Power Requirements | |
|
Voltage |
100-240 VAC + 10% at 45-440 Hz; Automatic AC Voltage Selection |
|
Power Consumption (Nominal) |
200 W / 200 VA |
|
Max Power Consumption |
Max Power Consumption 320 W / 320 VA (with all PC peripherals and active probes connected to 4 channels) |
| Environmental | |
|
Temperature |
Operating: 5 °C to 40 °C; Non-Operating: -20 °C to 60 °C |
|
Humidity |
Operating: 5% to 90% relative humidity (non-condensing) up to +31 °C, Upper limit derates to 50% relative humidity (noncondensing) at +40 °C; Non-Operating: 5% to 95% relative humidity (non-condensing) as tested per MIL-PRF-28800F |
|
Altitude |
Operating: 3,048 m (10,000 ft) max at ≤ 30C; Non-Operating: Up to 12,192 meters (40,000 ft) |
| Physical | |
|
Dimensions (HWD) |
11.48”H x 15.72”W x 5.17“D (291.7 mm x 399.4 mm x 131.31 mm) |
|
Weight |
5.86 kg (12.9 lbs) |
| Regulatory | |
|
CE Certification |
Low Voltage Directive 2006/95/EC EN 61010-1:2010, EN 61010-2-030:2010
EMC Directive 2004/108/EC EN 61326-1:2006, EN61326-2-1:2006 |
| UL and cUL Listing | UL 61010-1 (3rd Edition), UL 61010-2-030 (1st Edition)
CAN/CSA C22.2 No.61010-1-12 |
For full LeCroy HDO4104 Osilloscope product specifications, please click here: HDO4104
Teledyne Lecroy HDO4104 200 MHz 4 Channel Oscilloscope
HD4096 High Definition Technology Enables Capture And Display Of Signals Up To 1 GHz With High Sample Rate And 16 Times More Resolution.
Includes Accessories As Listed Above!
BC# -L/T*
- Teledyne Lecroy HDO4104 Oscilloscope: (BC# -L/T*)
- Power Cord
- User Manual On CD-ROM