ADP300_技术文档

HDO4000

High Deﬁnition

Oscilloscopes

200 MHz – 1 GHz

Combining Teledyne LeCroy’s HD4096 high deﬁnition 12-bit

technology, with long memory, a compact form factor, 12.1” touch

screen display and powerful debug tools, 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.

Key Features

12-bit ADC resolution, up to

•

15-bit with enhanced resolution

200 MHz, 350 MHz, 500 MHz,

•

1 GHz bandwidths

Long Memory – up to 50 Mpts

•

HD4096 Technology

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

12.1” touch screen display

•

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

Multi-language User Interface

WaveScan – Advanced Search

and Find

LabNotebook Documentation

•

high deﬁnition oscilloscopes to capture makes navigating the HDO4000

and display signals of up to 1 GHz with extremely intuitive. Every aspect of the

and Report Generation

high sample rate and 16 times more

resolution than other oscilloscopes.

interface is touchable making channel,

timebase and trigger settings only

one touch away.

History Mode – Waveform

•

Playback

Long Memory

Spectrum Analyzer Mode

•

With up to 50 Mpts of memory

the HDO4000 High Deﬁnition

Oscilloscopes can capture large

amounts of data with more precision

Compact Form Factor

Power Analysis Software

The HDO4000 builds upon Teledyne

LeCroy’s history of “Large Screen,

Small Footprint” with its 12.1” wide

Serial Data Trigger and Decode

than other oscilloscopes. The 2.5 GS/s, touch screen display and 5” depth.

50 Mpts architecture provides the

ability to capture a fast transient or a

long acquisition.

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.

HD4096 HIGH DꢀFINITION TꢀCHNOLOGꢁ

HD4096 high deﬁnition technology consists of

high sample rate 12-bit ADCs, high signal-to-noise

ratio ampliﬁers and a low-noise system architec-

ture. 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.

High Signal

to Noise Input

Amplifiers

High Sample

Rate 12-bit

ADC’s

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.

Low Noise

System

Architecture

16x Closer to Perfect

8-bit

12-bit

Digitized Waveform

Signal from

Quantization ꢀrror

Device Under Test

16x More Resolution

12-bits of vertical resolution provides sixteen times more resolution than 8-bits. The 4096 discrete

levels reduce the quantization error. Signals captured with lower resolution oscilloscopes have a higher

level of quantization error resulting in less accurate waveforms on the display. Signals captured on an

oscilloscope with 12-bit HD4096 technology are accurately displayed with minimal quantization error.

2

DꢀꢂUG IN HIGH DꢀFINITION WITH HD4096

Oscilloscopes with HD4096 have a variety of beneﬁts that

allow the user to debug in high deﬁnition. Waveforms

displayed by high deﬁnition oscilloscopes are cleaner and

crisper. More signal details can be seen and measured; these

measurements are made with unmatched precision resulting

in better test results and shorter debug time.

Clean, Crisp Waveforms

More Signal Details

Unmatched

Measurement Precision

When compared to waveforms

captured and displayed by 8-bit

oscilloscopes, waveforms captured

with HD4096 technology are

Signal details often lost in the

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.

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.

dramatically crisper and cleaner.

Oscilloscopes with HD4096 acquire

waveforms at high resolution, high

sample rate and low noise to display

the most accurate waveforms.

8-bit

12-bit

A

ꢂ

C

ꢂ

C

Clean, Crisp Waveforms | Thin traces show the actual waveform with minimal noise interference

More Signal Details | Waveform details lost on an 8-bit oscilloscope can now be clearly seen

A

ꢂ

C

Unmatched Measurement Precision | Measurements are more precise and not affected by quantization noise

3

TOUCH SCRꢀꢀN SIMPLICITꢁ

Don’t waste time searching through a complex menu

structure to ﬁnd the proper setting. 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 touch-

ing and dragging them to the proper location. A box can be

drawn around a portion of a waveform to create a zoom of

that waveform. Even waveform offset and delay can be

adjusted simply by touching and dragging the waveform.

4

TOOLS FOR ꢀFFICIꢀNT DꢀꢂUG AND VALIDATION

Spectrum Analyzer Mode

View the frequency content of

signals with spectrum analyzer style

controls, easily adjust the frequency

span, resolution bandwidth and cen-

ter frequency. A unique peak search

detects spectral components and

presents frequency and level details

in an interactive table. Use the

spectrogram display to see changes

in the spectrum over time.

WaveScan Advanced

LabNotebook Documentation and

Report Generation Tool

Serial ꢂus Trigger and Decode

View decoded protocol information

on top of physical layer waveforms

and trigger on protocol speciﬁc

messages.

Search and Find Tool

Quickly search waveforms for

runts, glitches or other anomolies

with WaveScan.

Save all results and data with a single

button press and create custom

reports with LabNotebook.

Sequence Mode Acquisition

Capture many fast pulses in quick

succession or events separated by

long periods of time.

Advanced Math and Measure

Use automatic measurement

History Mode Waveform Playback

Scroll back in time to isolate

anomalies that have previously

been captured to quickly ﬁnd the

source of the problem.

parameters with statistics and

histicons as well as math functions to

understand every waveform detail.

5

HDO4000 - HIGH DꢀFINITION OSCILLOSCOPꢀ

HDO4000 High Deﬁnition Oscilloscopes

combine Teledyne LeCroy’s HD4096

high deﬁnition technology with long

memory and powerful debug tools in a

compact form factor with a 12.1” touch

screen display.

2

1. Only 13 cm (5”) Deep – The most

space-efﬁcient oscilloscope for your

bench from 200 MHz to 1 GHz

2. 12.1” Widescreen (16 x 9) high resolution

WXGA color touch screen display. The most

time-efﬁcient user interface is even easier to

use with a built-in stylus

3. Local language user interface – Select from

10 language preferences. Add a front panel

overlay with your local language

4. “Push” Knobs – All knobs have push

functionality that provides shortcuts to

common actions such as Set to Variable, Find

Trigger Level, Zero Offset, and Zero Delay

1

8

9

6

5. Waveform Control Knobs – Control channel,

zoom, math and memory traces with the

multiplexed vertical and horizontal knobs

6. Dedicated Cursor Knob – Select type of cursor,

position them on your signal, and read values

without ever opening a menu

3

7. Dedicated buttons to quickly access popular

debug tools.

8. Easy connectivity with two convenient USB

4

5

ports on the front, two on the side

9. Rotating and Tilting Feet provide 4 different

viewing positions

10. Auxiliary Output and Reference Clock

Input/Output connectors for connecting to

other equipment

6

11. USBTMC (Test and Measurement Class) port

simpliﬁes programming

7

8

10 11

Document and Share:

9

• Quickly save all ﬁles with LabNotebook

• Create custom reports with LabNotebook

• Save to internal solid state or network drive

• Print to a USB printer

• Save to USB memory stick

• Connect with LAN or GPIB

• View data on a PC with free WaveStudio utility

7

IDꢀNTIFꢁ AND ISOLATꢀ PROꢂLꢀMS FASTꢀR

Advanced Waveform Capture

with Sequence Mode

Use Sequence mode to store up to

10,000 triggered events as “segments”

into memory. This can be ideal when

capturing many fast pulses in quick

succession or when capturing events

separated by long time periods.

Sequence mode provides timestamps

for each acquisition and minimizes

dead-time between triggers to less

than 1 μs. Combine Sequence mode

with advanced triggers to isolate rare

events over time and analyze afterwards.

Advanced Math and Measure

WaveScan Advanced Search

WaveScan provides powerful isolation capabilities that hard-

ware triggers can’t provide. WaveScan provides the ability

to locate unusual events in a single capture (i.e., capture and

search), or “scan” for an event in many acquisitions over a

long period of time with more than 20 search modes.

With math functions including

averaging, enhanced resolution and

FFT plus a wide variety of measure-

ment parameters the HDO4000 can

measure and analyze every aspect of a

waveform. By utilizing HD4096 technol-

ogy, the HDO4000 measures 16 times

more precisely than traditional 8-bit

architectures. Beyond just measuring

waveforms, the HDO4000 provides

statistics, histicons and trends to show

how waveforms change over time.

Since the scanning “modes” are not

simply copies of the hardware triggers,

hours or days, enabling faster

debugging. When used in multiple

the utility and capability is much higher. acquisitions, WaveScan builds on the

For instance, there is no “frequency”

trigger in any oscilloscope, yet

traditional Teledyne LeCroy strength

of fast processing of data. Quickly scan

millions of events looking for unusual

occurrences, and do it much faster

and more efﬁciently than other

oscilloscopes can.

WaveScan allows for “frequency”

to be quickly “scanned.” This allows

the user to accumulate a data set of

unusual events that are separated by

8

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.

Go Back in Time to Identify the Source of a Problem

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.

unc

h F

WAVꢀFORM

V/div

T/div

Memory Length

Sample Rate

Measurement

Math

OSCILLOSCOPꢀ SꢀT UP

LAꢂNOTꢀꢂOOK

SCRꢀꢀN DUMP

Easy report generation helps

you share your ﬁndings and

communicate important results.

LabNotebook adds a simple way to

report your work and save all essential

waveforms, settings, and screen images.

Quickly save all the

necessary ﬁles with

LabNotebook in a

single button press.

Recall your settings

from any report

by using the

Flashback capability.

9

SPꢀCTRUM ANALꢁꢃꢀR MODꢀ

Key Features

Spectrum analyzer style controls

•

for the oscilloscope

Select from six vertical scales

•

Automatically identify frequency

•

peaks

Display up to 20 markers, with

•

interactive table readout of

frequencies and levels

ꢀasily make measurements with

•

reference and delta markers

Automatically identify and

•

mark fundamental frequency

Simplify Analysis of FFT Power Spectrum

and harmonics

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 fequency content.

Spectrogram shows how spectra

changes over time in 2D or

3D views

•

Spectrum analyzer style controls simplify waveform analysis in the frequency domain.

10

POWꢀR ANALꢁꢃꢀR OPTION

Key Features

Quickly analyze power conversion

•

circuits

Automatic switching device

•

measurements

Color coded overlay to identify

•

power losses

Control loop and time domain

•

response analysis

Line power and harmonics tests

•

to IꢀC 61000-3-2

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 har-

monic 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 color-coded waveform overlays for faster analysis.

Teledyne LeCroy has a variety of

probes and probing accessories such

as high common mode rejection ratio

(CMRR) differential ampliﬁers,

differential probes, current probes,

and deskew ﬁxtures.

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-compli-

ance testing to EN61000-3-2.

11

SꢀRIAL TRIGGꢀR AND DꢀCODꢀ OPTIONS

Debugging serial data busses can

be confusing and time consuming.

The serial data trigger and decode

options for HDO4000 provide time

saving tools for serial bus debug and

validation.

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.

Supported Serial Data

Protocols

• I²C, SPI, UART

• CAN, LIN, FlexRay™, SENT

• USB 1.0/1.1/2.0, USB 2.0-HSIC

• Audio (I²S, LJ, RJ, TDM)

• MIL-STD-1553, ARINC 429

• MIPI D-PHY, DigRF 3G, DigRF v4

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.

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

, built-in

that event. Additionally

search functionality will ﬁnd speciﬁc

decoded values.

View decoded protocol information on top of physical layer waveforms and trigger on protocol speciﬁc messages.

12

PROꢂꢀS

The right probe is an essential tool for accurate signal capture and Teledyne LeCroy offers an extensive range of

probes to meet virtually every probing need.

ꢃS Series High Impedance

Active Probes

ZS2500, ZS1500, ZS1000,

ZS2500-QUADPAK,

ZS1500-QUADPAK,

ZS1000-QUADPAK

The ZS Series probes provide high impedance and an

extensive set of probe tips and ground accessories to

handle a wide range of probing scenarios. The high

1 MΩ input resistance and low 0.9 pF input capacitance

mean this probe is ideal for all frequencies. The ZS Series

probes provide full system bandwidth for all Teledyne

LeCroy oscilloscopes having bandwidths of 1 GHz

and lower.

Differential Probes

(200 MHz–1.5 GHz)

ZD1500, ZD1000, ZD500,

ZD200

High bandwidth, excellent common-mode rejection ratio

(CMRR) and low noise make these active differential

probes ideal for applications such as automotive

development (e.g. FlexRay) and failure analysis, as well

as wireless and data communication design. The ProBus

interface allows sensitivity, offset and common-mode

range to be displayed on the oscilloscope screen.

High Voltage

Differential Probes

ADP305, ADP300, AP031

Low cost active differential probes are intended for

measuring higher voltages. The differential techniques

employed permit measurements to be taken at two

points in a circuit without reference to the ground,

allowing the oscilloscope to be safely grounded without

the use of opto-isolators or isolating transformers.

High Voltage

The PPE Series includes ﬁve ﬁxed-attenuation probes

covering a range from 2 kV to 20 kV, and one switchable

probe providing ÷10/÷100 attenuation for voltage inputs

up to 1.2 kV. All ﬁxed-attenuation, standard probes

automatically rescale compatible Teledyne LeCroy

oscilloscopes for the appropriate attenuation of the probe.

Passive Probes

PPE1.2KV, PPE20KV,

PPE2KV, PPE4KV, PPE5KV,

PPE6KV

Current Probes

CP031, CP030, AP015,

CP150, CP500, DCS015

Available current probes reach bandwidths of 100 MHz,

peak currents of 700 A and sensitivities of 10 mA/div. Use

multiple current probes to make measurements on three-

phase systems or a single current probe with a voltage

probe to make instantaneous power measurements.

Teledyne LeCroy current probes enable the design and

testing of switching power supplies, motor drives, electric

vehicles, and uninterruptible power supplies.

13

SPꢀCIFICATIONS

HDO4022

HDO4024

HDO4032

HDO4034

HDO4054

HDO4104

Vertical

Bandwidth (@ 50Ω)

Rise time

Input Channels

Vertical Resolution

Sensitivity

DC Gain Accuracy

BW Limit

200 MHz

1.75 ns typical

350 MHz

1 ns typical

500 MHz

700 ps typical

4

1 GHz

450 ps typical

4

2

4

2

4

12-bits; up to 15-bits with enhanced resolution (ERES)

50 Ω: 1mV/div - 1 V/div; 1 MΩ: 1 mV/div - 10 V/div

(0.5ꢀ) Full Scale, offset at 0 V

20 MHz, 200 MHz

Maximum Input Voltage

Input Coupling

Input Impedance

Offset Range

50 Ω: 5 Vrms; 1 MΩ: 400 V max (DC + Peak AC ≤ 10 kHz)

50 Ω: DC, GND; 1 MΩ: AC, DC, GND

50 Ω 2.0ꢀ, 1 MΩ 2.0ꢀ ꢁꢁ 15 pF

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

(1.0ꢀ of offset value + 0.5ꢀFS + 0.02ꢀ of max offset + 1 mV)

Acquisition

Sample Rate (Single-shot)

Sample Rate (Repetitive)

Record Length

2.5 GS/s

125 GS/s

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)

20 ps/div–10000 s/div; RIS available at ≤ 10 ns/div; Roll Mode available at ≥ 100 ms/div and ≤ 5 MS/s

2.5 ppm for 5 to 40C + 1.0 ppm/year from calibration

Timebase Range

Timebase Accuracy

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

Post-trigger Delay

Hold-off

0-100ꢀ of full scale

0-10,000 Divisions

2ns up to 20s or 1 to 1,000,000,000 events

Internal Trigger Level Range

External Trigger Level Range

Trigger Types

4.1 Divisions

Ext: 400mV, Ext/10: 4V

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, ꢃoom 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 (90ꢀ–10ꢀ),

Fall Time (80ꢀ–20ꢀ), Frequency, Frequency @ level, Maximum, Mean, Minimum, Overshoot+, Overshoot-,

Peak-Peak, Period, Period @ Level, Phase, Rise Time (10ꢀ–90ꢀ), Rise Time (20ꢀ–80ꢀ), 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

Math Functions

Use front panel QuickZoom button, or use touch screen or mouse to draw a box around the zoom area.

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.

14

SPꢀCIFICATIONS

HDO4022

HDO4024

HDO4032

HDO4034

HDO4054

HDO4104

Probes

Standard Probes

Probing System

One PP017 (5mm) per channel

BNC and Teledyne LeCroy ProBus for Active voltage, current and differential probes

One PP018(5mm) per channel

Display System

Display Size

Display Resolution

12.1” Wide TFT-LCD Touch-Screen

1280 x 800

Connectivity

Ethernet Port

(2) 10/100/1000Base-T Ethernet interface (RJ-45 connector)

(6) USB Ports Total – (2) Front USB Ports

(1) USBTMC

USB Host Ports

USB Device Port

GPIB Port (Optional)

External Monitor Port

Remote Control

Supports IEEE – 488.2

Standard 15-pin D-Type SVGA-compatible DB-15 connector, DVI connector and HDMI connector

Via Windows Automation, or via Teledyne LeCroy Remote Command Set

Processor/CPU

Type

Processor Memory

Operating System

Disk Type

Intel B810 Celeron processor 1.6 GHz or better

2 GB Standard

Windows Embedded Standard 7 64-Bit

Solid State Drive 64 GB or greater

Power Requirements

Voltage

100-240 VAC + 10ꢀ 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)

ꢀnvironmental

Temperature

Humidity

Operating: 5 °C to 40 °C; Non-Operating: -20 °C to 60 °C

Operating: 5ꢀ to 90ꢀ relative humidity (non-condensing) up to +31 °C, Upper limit derates to 50ꢀ relative humidity

(non-condensing) at +40 °C; Non-Operating: 5ꢀ to 95ꢀ 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)

Weight

11.48”H x 15.72”W x 5.17“D (291.7 mm x 399.4 mm x 131.31 mm)

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 61010-1 (3rd Edition), UL 61010-2-030 (1st Edition)

CAN/CSA C22.2 No.61010-1-12

UL and cUL Listing

15

ORDꢀRING INFORMATION

Product Description

Product Code

Product Description

Product Code

Serial Data Options (cont’d)

FlexRay Trigger and Decode Option

SENT Decode Option

MIL-STD-1553 Trigger and Decode Option

ARINC 429 Symbolic Decode Option

USB 2.0 Trigger and Decode Option

USB2-HSIC Decode Option

D-PHY Decode Option

DigRF 3G Decode Option

DigRF v4 Decode Option

HDO 4000 Oscilloscopes

HDO4K-FlexRaybus TD

HDO4K-SENTbus D

HDO4K-1553 TD

HDO4K-ARINC429bus DSymbolic

HDO4K-USB2bus TD

200 MHz, 2.5 GS/s, 2 Ch, 12.5 Mpts/Ch 12-bit HD