Product Highlights - Sicamax
Transcript of Product Highlights - Sicamax
Product Highlights
• Industry Leading 10GSa Sample Rate
• Useful Long Record Length to 500M
• True Amplitude measurements to the full
instrument bandwidth
• New Advanced Analysis Capabilities
• Modern and Flexible User Interface
• All enabled by our new UltraVisionII
Architecture and the Phoenix Chipset
Product Introduction
10.1’’ WVGA (1024*600) Capacitive
Multi-touch Screen, 256-level
Intensity Color Graded Display
25MHz 2-channel Generator
16-channel Logic Analyzer
Interface
X3 USB Host
Product Introduction
One-key Quick Operation
(Configurable)
Touch Screen Lock/Unlock Key
Special Combination Key
for Navigation
Search, ZOOM Key
Product Introduction
Special Key for 2-channel
Arbitrary Waveform Generator
Independent Waveform Analysis
Control Area
4 Analog Channels Input
Default Key
Product Introduction
USB HOST Interface
HDMI Video Output
LAN Interface, is in Compliance
with the Standards Specified in
LXI-C
USB DEVICE
Communication Interface
Product Introduction
EXT TRIG Input
TRIG OUT/PASSFAIL
Kensington Safety Lock Hole
Key Specifications
• 8 Models
– DS7014/MSO7014 – 4 ch/100MHz
– DS7024/MSO7024 – 4ch/200MHz
– DS7034/MSO7034 – 4ch/350MHz
– DS7054/MSO7054 – 4ch/500MHz
• Max Sample Rate: 10GSa/Sec
• >600,000 wfs/sec Waveform Capture Rate
• 450,000 frames of waveform record
• 6 Independent Instrument Functions
• Innovative analysis capabilities
• 41 Automated Measurements
• Powerful Triggering – Zone Triggering
Upgraded Hardware Platform
• Phoenix ChipSet
– Analog Front End ASIC (Beta Phoenicis)
– Signal Processing ASIC (Ankaa)
• Xilinx Zync-7000 SoC
• Dual Core ARM9 processor
• Linux +Qt Operating System
• DDR3 Storage Memory – SSTL15
• QDRII Display Memory – HSTL18
New Flexible User Interface
• 10.1” Capacitive Touch Display
• 5 Unique ways to interact
– Touch
– Traditional buttons and
– Keyboard Mouse Control
– Web Control – Remote Touch
– PC Based Remote Operation and Display
• Unique Touch Navigation
• Color Intensity Grading
• Simple Storage
• Multi Language Supports
• On Board Help
Features—Touch Screen
10.1-inch Capacitive Multi-touch Screen,
Gesture Enabled Operation
Tap
Pinch & Stretch
Drag
Rectangle Drawing
Features—Touch Screen
Exclusively Designed for the Touch Screen——Function Navigation
Oscilloscope Display
Brightness Color Grade
Oscilloscope Storage
Features—Multiple Languages
13 Languages Available for the System Menu
简体中文繁体中文
English Português
DeutschFrançais
日本語Elespañol
Polski
한국어
pусс
ภาษาไทย
Indonesian
Web Control
Remote touch control
Ultra Scope Software
Basic Information
System information
View the option list and install options
Open the help
Firmware upgrade
Why do you care about Bandwidth?
Key Specifications—Bandwidth
• The bandwidth of an oscilloscope is typically measured at
the -3 dB roll-off point which equals 70.79% of the
voltage
• Bandwidth has 2 major impacts on signal measurements:
– Amplitude attenuation
– Rise Time
• From the bandwidth you can infer the rise time:
– Instrument RT = ~0.35/BW
– Measurement risetime is √(RTscope2 + RTsignal2)
Bandwidth 5X Rule:
To limit risetime error have at least 5X the
bandwidth of the signal you are analyzing
500 MHz Sine, Full Bandwidth 500 MHz Sine, Insufficient Bandwidth
Insufficient Bandwidth attenuates signals leading to inaccurate measurements
Key Specifications—Bandwidth
50 ns Narrow Pulse, Full Bandwidth 50 ns Narrow Pulse, Insufficient Bandwidth
Insufficient Rise-Time distorts fast edges
Key Specifications—Bandwidth
Advantage: filter out high-frequency noise
-8
-7
-6
-5
-4
-3
-2
-1
0
1 100
dB
MHz50 Ohm Frequency Response Curve
Frequency Response -3dB Reference
Key Specifications—Bandwidth
-3dB bandwidth is greater than 500MHz
850MHz
• The -3dB roll-off on the DS7000 is
at about 850MHz
– True Amplitude measurements out
to full instrument bandwidth
– Improved Rise-time measurements
Customers requiring “true” amplitude measurements on 500MHz signals have
generally been forced to purchase
1GHz scopes.
Key Specifications—Sample Rate
Why do you care about Sample Rate?
• The Nyquist theorem states that you need to
sample at 2* the max frequency you are looking
for
– Insufficient for accurately capturing and displaying fast
and inconsistent signals
– Best practice is to have 5 times oversampling (5X Rule)
– Higher the Sample-Rate the better the resolution
• Under-sampling can lead to errors
• The results can’t be guaranteed with certainty unless the signal is sufficiently sampled
Waveform
Distortion
Waveform
Aliasing
Waveform
Loss
Impacts of Undersampling
Key Specifications—Memory Depth
Why do you care about Memory Depth?
• Sample rate combines with memory depth to determine the
length of the waveform capture
• Typically, we extend the memory to continue using the highest
possible sampling rate for as long as possible.
• For instance sampling at 10GSa/sec with 100M Record will allow a
1ms capture or 5ms with 500M
• Conversely, with 500M record length and 1GSa/sec sampling
(Nyquist at 500MHz) you can capture a full half second.
Key Specifications—Memory Depth
Signal pulse width is 5 ns
Not enough memory! At 2ms/Div they are
sampling at 200MSa/Sec under-sampling the
pulse and distoriting the result
Key Specifications—Waveform Capture Rate
sampling processing
Deadtime
• Waveform Capture rate is the number of trigger events that can be captured
and transferred to the display for viewing per second
• Memory depth and sampling rate define the length of each sampling time
• During “dead time” the scope analyzes data and moves data to the display
• Any signal artifact during dead time does not appear on the scope
Why do you care about Waveform Capture Rate?
Key Specifications—Waveform Capture Rate
Quickly Capture Infrequent Events
Clearly Observe the Changes of Each Frame
Key Specifications—Waveform Capture Rate
Innovation Roadmap
MSO/DS1000Z MSO/DS2000A MSO/DS4000 DS6000 MSO/DS7000
Channels 4 + 16 2 + 16 2 or 4 + 16 2 or 4 4 + 16
Analog BW 50 MHz to 100 MHz 100 MHz to 300 MHz 100 MHz to 500 MHz 600 MHz to 1 GHz 100 MHz to 500 MHz
Max sample rate 1 GSa/s 2 GSa/s 4 GSa/s 5 GSa/s 10GSa/s
Oversampling rate@500MHz
—— -—— 8 10 20
Max memory depth 24 Mpts (opt) 56 Mpts (opt) 140Mpts 140Mpts100Mpts(std)
500 Mpts (opt)
Waveform update rate
> 30,000wfms/s > 50,000wfms/s > 110,000wfms/s > 180,000wfms/s > 600,000wfms/s
Display 7 inch 8 inch 9 inch 10.1 inch 10.1 inch
Touch NO NO NO NO YES
The DS7000 gives you more than just time at high sample rate
Making Long Memory “Useful”
• Precision Measurements using Long Memory
• Enhanced FFT using Long Memory
• Zoom, Search and Mark makes navigating long records simple
• Record up to 450,000 Frames and Playback them back in
sequence for in depth analysis
Oscilloscope—Normal Measurement
• Legacy Products make
measurements on 1000Pts
• DS7000 Normal Mode takes
measurements on 1M Points
• DS7000 Precision Mode takes
measurements on full record
length (up to 500M)
More sample points equals more
precise and stable measurements
Oscilloscope Enhanced FFT
RIGOL legacy product
1 kpts
MSO/DS7000
1 Mpts
More sample points equals more
precise and useful measurements
Oscilloscope—ZOOM Mode
Oscilloscope—Search & Navigation
Oscilloscope—Record & Navigation
Record up to 450,000 Frames then play back captured frames sequentially in either direction)
The DS7000 makes it easier to debug your design
Making Advanced Analysis Easier
• Trigger Performance Improvements
• New Zone Trigger
• New Serial Decode Standards
• Histogram
• Color Temperature/Probability
• Enhanced FFT
• Pass-Fail
• Integrated Power Analysis Measurements
• Digital Measurements
• Direct Arb creation from Channel
• Multi-channel digital decode
• Enhanced Event Table
• 3 Digit Voltmeter
• Counter/Totalizer
Trigger Jitter Improvements
• Significant sampling increases drives improved time resolution
• Improved absolute accuracy of the timebase to +/- 2ppm
• All Digital Trigger using real-time sampling combined with improved time base significantly improves our internal trigger jitter (~10X Improvement)
DS4000
10MHz Input with 200ms trigger delay (28ns)
DS7000
10MHz Input with 200ms trigger delay (2.5ns)
Oscilloscope—Zone Trigger
Oscilloscope—Zone Trigger
Oscilloscope Trigger Types
Support 21 Trigger Types
Edge Pulse Slope Video
Pattern Duration Timeout
Runt Window Delay
Setup/Hold Nth
RS232 UART I2C SPI
CAN LIN FlexRay
New - I2S
New - MIL-STD 1553
Oscilloscope Histogram
• Histogram calculates a statistical distribution of values over a fixed dimension– Horizontal (time based)
– Vertical (amplitude based)
– Measurement (measurement based)
• Additional Statistical Measurements Provided to fully characterize signal behavior
Oscilloscope Enhanced FFT
• 1M Point FFT
• Enhanced FFT Controls
• Color Graded FFT
• Peak Search
• Up to 4x active FFTs
• Channel Labeling
Oscilloscope PASS/FAIL
Every time a failed/passed waveform is detected, a pulse output is generated
• Monitor systems for infrequent OOB conditions
• Trig out, Stop, Beep, or take screen shot on failures
• Maintain Pass/Fail statistics
Power Analysis
• We have integrated 13 of the most common power measurements into the scope (opt DS7000-PWR)
• Full Power Analysis still require Ultra Power Analyzer
Power Analysis
Power Quality Analysis Characterizing the quality of the AC in
Power Analysis
Output Ripple Analysis Characterizing the quality of the DC out
Ultra Power Analyzer
Current Harmonics Analysis Inrush Current Analysis Switching Loss
Safe Operating Area Modulation Analysis
RIGOL Probes Complete the Solution
• High Voltage Differential Probes
• Current Probes
• DeSkew Fixture
Features—6 into 1
Oscilloscope500MHz 10GSa/s
Logic Analyzer16 CH
Wave Generator2CH 25MHz
Digital VoltmeterCounter and
TotalizerProtocol Analyzer
Logic Analyzer Measure
Supports cursor bit level decode
Logic Analyzer Trigger & Decode
Supports decoding of up to 4 protocols at the same time
25MHz Dual Channel Arbitrary Waveform Generator
Create an ARB directly from any scope channel
Protocol Analyzer
Support the trigger, decode and search
8 Serial Protocol Types:RS232/UARTI2CSPICANLINFlexRayI2SMIL-STD-1553
3 Digit Voltmeter
DC
AC RMS
Quick Voltmeter measurements
Frequency Counter and Totalizer
Using the 48-bit totalizer, we can count the number of low frequency incidental signals.
Quick Demonstration
• Touch Navigation
• Color Grades
• Touch Panel/New Instruments
• Measurements
• Search/Mark
• Zone Trigger
• Record Mode
• FFT
• Serial Decode and Trigger
Thank You