User Manual
Table Of Contents
- toc
- Important safety information
- Compliance information
- Preface
- Installation
- Before Installation
- Operating Considerations
- Connecting Probes
- Securing the Oscilloscope
- Powering on the Oscilloscope
- Powering off the Oscilloscope
- Functional Check
- Compensating a TPP0250, TPP0500B or TPP1000 Passive Voltage Prob
- Compensating a non-TPP0250, non-TPP0500B or non-TPP1000 Passive
- Application Module Free Trial
- Installing an Application Module
- Upgrading Bandwidth
- Changing the Language of the User Interface or Keyboard
- Changing the Date and Time
- Signal Path Compensation
- Upgrading Firmware
- Connecting Your Oscilloscope to a Computer
- Connecting a USB Keyboard to Your Oscilloscope
- Get Acquainted with the Instrument
- Acquire the Signal
- Setting Up Analog Channels
- Using the Default Setup
- Using Autoset
- Acquisition Concepts
- Using FastAcq
- How the Analog Acquisition Modes Work
- Changing the Acquisition Mode, Record Length, and Delay Time
- Using Roll Mode
- Act on Event
- Setting Up a Serial or Parallel Bus
- Setting Up Digital Channels
- When and Why to Turn On MagniVu
- Using MagniVu
- Setting Up the RF Inputs
- Trigger Setup
- Display Waveform or Trace Data
- Adding and Removing a Waveform
- Setting the Display Style and Persistence
- Setting Waveform Intensity
- Scaling and Positioning a Waveform
- Setting Input Parameters
- Positioning and Labeling Bus Signals
- Positioning, Scaling, and Grouping Digital Channels
- Viewing Digital Channels
- Annotating the Screen
- Viewing the Trigger Frequency
- Displaying the Frequency Domain Menu
- Analyze Waveform or Trace Data
- Using Markers in the Frequency Domain
- Taking Automatic Measurements in the Time Domain
- Selecting Automatic Measurements in the Time Domain
- Customizing an Automatic Measurement in the Time Domain
- Taking Automatic Measurements in the Frequency Domain
- Taking Digital Voltmeter Measurements
- Taking Manual Measurements with Cursors
- Setting Up a Histogram
- Using Math Waveforms
- Using FFT
- Using Advanced Math
- Using Spectrum Math
- Using Reference Waveforms and Traces
- Using Wave Inspector to Manage Long Record Length Waveforms
- Auto-magnify
- Limit and Mask Testing
- Making Video Tests
- Making Automated Power Measurements
- Save and Recall Information
- Use the Arbitrary Function Generator
- Use the Application Modules
- Appendix A: Warranted Specifications
- Appendix B: TPP0250, TPP0500B and TPP1000: 250€MHz, 500€MHz and
- Appendix C: P6316 General-Purpose Logic Probe Information
- Appendix D: OpenSSL License
Appendix A: Warr
anted Specifications
Table 2: Arbitrary Function Generator
Characteristi
c
Description
Sine and Ramp
Frequency
Accuracy
130 ppm (frequ
ency 10 kHz); 50 ppm (frequency > 10 kHz)
Square and Pulse Frequency
Accuracy
130 ppm (frequency 10 kHz); 50 ppm (frequency > 10 kHz)
Signal Amplitude Accuracy
+/–[ (1.5% of peak-to-peak amplitude setting) + (1.5% of absolute DC offset setting)
+1mV](freq
uency = 1 kHz)
DC Offset A
ccuracy
+/-[ (1.5%
of absolute offset setting) + 1 mV ]
Add 3 mV of uncertainty per 10 °C change from 25 °C ambient
Table 3: DVM/Counter
Characteristic Description
Voltage Accuracy
DC: +/- (2 mV + [((( 4 * (Vertical Scale Voltage)) / (Absolute Input Voltage)) + 1)% o f
Absolut
e Input Voltage] + (0.5% of Absolute Offset Voltage))
AC: ±2% (40 Hz to 1 kHz)
AC: +/-2% (20 H z to 10 kHz) (typical)
For AC me
asurements, the input channel vertical settings must allow the V
pp
input
signal to cover between 4 and 8 divisions.
Frequency Accuracy
10 ppm
Frequency Counter Maximum
Input Frequency
100 MHz for 100 MHz models.
150 MHz for all other models.
Table 4: Interfaces, Input and Output Ports
Char
acteristic
Desc
ription
Aux
iliary Output (Aux Out)
Sele
ctable Output: Main Trigger, Event, o r AFG
Main Trigger: H IGH to LOW transition indicates the trigger occurred.
Event Out: The instrument will output a negative edge during a specified trigger event
in a
test application.
A falling edge occurs when there is a specified event in a test application (i.e. the
waveform crosses the violation threshold in the limit / mask test application).
Ar
ising edge occurs when the trigger system begins waiting for the next test
application event.
AFG: The trigger output signal from the AFG.
MDO3000 Series Oscilloscopes User Manual 197