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4 Series MSO Specifications and Performance Verification
This document contains the specifications and performance verification procedures for MSO44, MSO46, MSO44B and MSO46B instruments.
This manual applies to:
MSO44, MSO46, MSO44B, MSO46B
- Manual Type: Performance Verification
- Part Number: 077154606
- Release Date:
- Revision: Rev D
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SPECIFICATIONS
- Analog channel input and vertical specification
- Timebase system
- Trigger system
- Serial Trigger specifications
- Digital acquisition system
- Digital volt meter (DVM)
- Trigger frequency counter
- Arbitrary Function Generator system
- Display system
- Processor system
- Input/Output port specifications
- Data storage specifications
- Power supply system
- Safety characteristics
- Environmental specifications
- Mechanical specifications
PERFORMANCE VERIFICATION PROCEDURES
- Test record
- Input Impedance test record
- DC Gain Accuracy test record
- DC Offset Accuracy test record
- Analog Bandwidth test record
- Random Noise High Res acquisition mode test record
- Long term sample rate through AFG DC offset accuracy test records
- Performance tests
- Prerequisites
- Self test
- Check input impedance
- Check DC gain accuracy
- Check DC offset accuracy
- Check analog bandwidth
- Check random noise
- Check long term sample rate
- Check digital threshold accuracy
- Check AUX Out output voltage levels
- Check DVM voltage accuracy (DC)
- Check DVM voltage accuracy (AC)
- Check trigger frequency accuracy and maximum input frequency
- Check AFG sine and ramp frequency accuracy
- Check AFG square and pulse frequency accuracy
- Check AFG signal amplitude accuracy
- Check AFG DC offset accuracy
Important safety information
This manual contains information and warnings that must be followed by the user for safe operation and to keep the product in a safe condition.
To safely perform service on this product, see the Service safety summary that follows the General safety summary.
General safety summary
Use the product only as specified. Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it. Carefully read all instructions. Retain these instructions for future reference.
This product shall be used in accordance with local and national codes.
For correct and safe operation of the product, it is essential that you follow generally accepted safety procedures in addition to the safety precautions specified in this manual.
The product is designed to be used by trained personnel only.
Only qualified personnel who are aware of the hazards involved should remove the cover for repair, maintenance, or adjustment.
Before use, always check the product with a known source to be sure it is operating correctly.
This product is not intended for detection of hazardous voltages.
Use personal protective equipment to prevent shock and arc blast injury where hazardous live conductors are exposed.
While using this product, you may need to access other parts of a larger system. Read the safety sections of the other component manuals for warnings and cautions related to operating the system.
When incorporating this equipment into a system, the safety of that system is the responsibility of the assembler of the system.
To avoid fire or personal injury
Use proper power cord
Use only the power cord specified for this product and certified for the country of use. Do not use the provided power cord for other products.
Ground the product
This product is grounded through the grounding conductor of the power cord. To avoid electric shock, the grounding conductor must be connected to earth ground. Before making connections to the input or output terminals of the product, ensure that the product is properly grounded. Do not disable the power cord grounding connection.
Power disconnect
The power cord disconnects the product from the power source. See instructions for the location. Do not position the equipment so that it is difficult to operate the power cord; it must remain accessible to the user at all times to allow for quick disconnection if needed.
Connect and disconnect properly
Do not connect or disconnect probes or test leads while they are connected to a voltage source.
Use only insulated voltage probes, test leads, and adapters supplied with the product, or indicated by Tektronix to be suitable for the product.
Observe all terminal ratings
To avoid fire or shock hazard, observe all rating and markings on the product. Consult the product manual for further ratings information before making connections to the product.
Do not exceed the Measurement Category (CAT) rating and voltage or current rating of the lowest rated individual component of a product, probe, or accessory. Use caution when using 1:1 test leads because the probe tip voltage is directly transmitted to the product.
Do not apply a potential to any terminal, including the common terminal, that exceeds the maximum rating of that terminal.
Do not float the common terminal above the rated voltage for that terminal.
The measurement terminals on this product are not rated for connection to Category III or IV circuits.
Do not operate without covers
Do not operate this product with covers or panels removed, or with the case open. Hazardous voltage exposure is possible.
Avoid exposed circuitry
Do not touch exposed connections and components when power is present.
Do not operate with suspected failures
If you suspect that there is damage to this product, have it inspected by qualified service personnel.
Disable the product if it is damaged. Do not use the product if it is damaged or operates incorrectly. If in doubt about safety of the product, turn it off and disconnect the power cord. Clearly mark the product to prevent its further operation.
Before use, inspect voltage probes, test leads, and accessories for mechanical damage and replace when damaged. Do not use probes or test leads if they are damaged, if there is exposed metal, or if a wear indicator shows.
Examine the exterior of the product before you use it. Look for cracks or missing pieces.
Use only specified replacement parts.
Do not operate in wet/damp conditions
Be aware that condensation may occur if a unit is moved from a cold to a warm environment.
Do not operate in an explosive atmosphere
Keep product surfaces clean and dry
Remove the input signals before you clean the product.
Provide proper ventilation
Refer to the installation instructions in the manual for details on installing the product so it has proper ventilation.
Slots and openings are provided for ventilation and should never be covered or otherwise obstructed. Do not push objects into any of the openings.
Provide a safe working environment
Always place the product in a location convenient for viewing the display and indicators.
Avoid improper or prolonged use of keyboards, pointers, and button pads. Improper or prolonged keyboard or pointer use may result in serious injury.
Be sure your work area meets applicable ergonomic standards. Consult with an ergonomics professional to avoid stress injuries.
Use care when lifting and carrying the product. This product is provided with a handle or handles for lifting and carrying.
Use only the Tektronix rackmount hardware specified for this product.
Probes and test leads
Before connecting probes or test leads, connect the power cord from the power connector to a properly grounded power outlet.
Keep fingers behind the protective barrier, protective finger guard, or tactile indicator on the probes. Remove all probes, test leads and accessories that are not in use.
Use only correct Measurement Category (CAT), voltage, temperature, altitude, and amperage rated probes, test leads, and adapters for any measurement.
Beware of high voltages
Understand the voltage ratings for the probe you are using and do not exceed those ratings. Two ratings are important to know and understand:
- The maximum measurement voltage from the probe tip to the probe reference lead.
- The maximum floating voltage from the probe reference lead to earth ground.
These two voltage ratings depend on the probe and your application. Refer to the Specifications section of the manual for more information.
WARNING:To prevent electrical shock, do not exceed the maximum measurement or maximum floating voltage for the oscilloscope input BNC connector, probe tip, or probe reference lead. |
Connect and disconnect properly
Connect the probe output to the measurement product before connecting the probe to the circuit under test. Connect the probe reference lead to the circuit under test before connecting the probe input. Disconnect the probe input and the probe reference lead from the circuit under test before disconnecting the probe from the measurement product.
De-energize the circuit under test before connecting or disconnecting the current probe.
Connect the probe reference lead to earth ground only.
Do not connect a current probe to any wire that carries voltages or frequencies above the current probe voltage rating.
Inspect the probe and accessories
Before each use, inspect probe and accessories for damage (cuts, tears, or defects in the probe body, accessories, or cable jacket). Do not use if damaged.
Service safety summary
The Service safety summary section contains additional information required to safely perform service on the product. Only qualified personnel should perform service procedures. Read this Service safety summary and the General safety summary before performing any service procedures.
To avoid electric shock
Do not touch exposed connections.
Do not service alone
Do not perform internal service or adjustments of this product unless another person capable of rendering first aid and resuscitation is present.
Disconnect power
To avoid electric shock, switch off the product power and disconnect the power cord from the mains power before removing any covers or panels, or opening the case for servicing.
Use care when servicing with power on
Dangerous voltages or currents may exist in this product. Disconnect power, remove battery (if applicable), and disconnect test leads before removing protective panels, soldering, or replacing components.
Verify safety after repair
Always recheck ground continuity and mains dielectric strength after performing a repair.
Terms in this manual
These terms may appear in this manual:
WARNING:Warning statements identify conditions or practices that could result in injury or loss of life. |
CAUTION:Caution statements identify conditions or practices that could result in damage to this product or other property. |
Terms on the product
These terms may appear on the product:
- DANGER indicates an injury hazard immediately accessible as you read the marking.
- WARNING indicates an injury hazard not immediately accessible as you read the marking.
- CAUTION indicates a hazard to property including the product.
Symbols on the product
| When this symbol is marked on the product, be sure to consult the manual to find out the nature of the potential hazards and any actions which have to be taken to avoid them. (This symbol may also be used to refer the user to ratings in the manual.) |
The following symbols(s) may appear on the product.
CAUTION: Refer to Manual | Protective Ground (Earth) Terminal | Chassis Ground | Standby | Functional Earth Terminal |
Specifications
This chapter contains specifications for the instrument. All specifications are typical unless noted as guaranteed. Typical specifications are provided for your convenience but are not guaranteed. Specifications that are marked with the ✔ symbol are guaranteed and checked in Performance Verification.
- The instrument must have been calibrated in an ambient temperature between 18 °C and 28 °C (64 °F and 82 °F).
- The instrument must be operating within the environmental limits described in these specifications.
- The instrument must be powered from a source that meets the specifications.
- The instrument must have been operating continuously for at least 20 minutes within the specified operating temperature range.
- You must perform the Signal path compensation procedure after the warmup period. See the Signal path compensation procedure for how to perform signal path compensation. If the ambient temperature changes more than 5 °C (9 °F), repeat the procedure.
- The measurement system is powered from a TekVPI compatible oscilloscope.
Warranted specifications describe guaranteed performance with tolerance limits or certain type-tested requirements.
Analog channel input and vertical specification
- Number of input channels
- 4 analog channel model: 4 BNC
- Input coupling
- DC, AC
- Input resistance selection
- 1 MΩ or 50 Ω
- ✔ Input impedance 1 MΩ DC coupled
- 1 MΩ ±1%
- Input capacitance 1 MΩ DC coupled, typical
- 13 pF ±1.5 pF
- ✔ Input impedance 50 Ω, DC coupled
- MSO44, MSO46: 50 Ω ±1% (VSWR ≤1.5:1, typical)
- Maximum input voltage, 1 MΩ
- 300 VRMS at the BNC
- Maximum input voltage, 50 Ω
- 5 VRMS, with peaks ≤ ±20 V (DF ≤6.25%)
- Number of Digitized Bits
- 8 bits at 6.25 GS/s
- Sensitivity range, coarse
-
- 1 MΩ
- 500 µV/div to 10 V/div in a 1-2-5 sequence
- 50 Ω
- 500 µV/div to 1 V/div in a 1-2-5 sequence
- Sensitivity range, fine
-
- 1 MΩ
- Allows continuous adjustment from 500 µV/div to 10 V/div
- 50 Ω
- Allows continuous adjustment from 500 µV/div to 1 V/div
- Sensitivity resolution, fine
- ≤1% of current setting
- ✔ DC gain accuracy
-
- Step Gain, 50 Ω
- ±1.0%, (±2.5% at 1 mV/div and 500 µV/div settings), de-rated at 0.100%/ °C above 30 °C
- Step Gain, 1 MΩ
- ±1.0%, (±2.0% at 1 mV/div and 500 µV/div settings), de-rated at 0.100%/ °C above 30 °C
- Variable gain
- ±1.5%, derated at 0.100%/ °C above 30 °C.
- Offset ranges, maximum
- Input signal cannot exceed maximum input voltage for the 50 Ω input path.
- Position range
- ±5 divisions
- ✔ DC Offset accuracy
- ±(0.010 X | offset - position | + DC balance)
- DC voltage measurement accuracy, Average acquisition mode
-
Measurement Type DC Accuracy (In Volts) Average of ≥ 16 waveforms ±((DC Gain Accuracy) * |reading - (offset - position)| + Offset Accuracy + 0.1 * V/div setting) Delta volts between any two averages of ≥ 16 waveforms acquired with the same oscilloscope setup and ambient conditions ±(DC Gain Accuracy * |reading| + 0.05 div) - Bandwidth selections
- 50 Ω: 20 MHz, 250 MHz, and the full bandwidth value of your model
- ✔ Analog bandwidth 50 Ω DC coupled
-
- 1.5 GHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 1 V/div DC - 1.50 GHz 500 µV/div - 995 µV/div DC - 250 MHz - 1 GHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 1 V/div DC - 1.00 GHz 500 µV/div - 995 µV/div DC - 250 MHz - 500 MHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 1 V/div DC - 500 MHz 500 µV/div - 995 µV/div DC - 250 MHz - 350 MHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 1 V/div DC - 350 MHz 500 µV/div - 995 µV/div DC - 250 MHz - 200 MHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 1 V/div DC - 200 MHz 500 µV/div - 995 µV/div DC - 200 MHz
- Analog bandwidth, 1 MΩ, typical
-
- All model bandwidths except 350 MHz, 200 MHz
-
The limits are for ambient temperature of ≤30 °C and the bandwidth selection set to FULL. Reduce the upper bandwidth frequency by 1% for each °C above 30 °C.
Volts/Div Setting Bandwidth 1 mV/div - 10 V/div DC - 500 MHz 500 µV/div - 995 µV/div DC - 250 MHz - 350 MHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 10 V/div DC - 350 MHz 500 µV/div - 995 µV/div DC - 250 MHz - 200 MHz models
-
Volts/Div Setting Bandwidth 1 mV/div - 10 V/div DC - 200 MHz 500 µV/div - 995 µV/div DC - 200 MHz
- Analog bandwidth with TPP0500, TPP1000 and TPP0250 probes, typical
- The limits are for ambient temperature of ≤30 °C and the bandwidth selection set to FULL. Reduce the upper bandwidth frequency by 1% for each °C above 30 °C.
Instrument Volts/Div Setting Bandwidth 1.5 GHz, 1 GHz 5 mV/div - 100 V/div DC - 1 GHz (TPP1000 Probe) 500 MHz 5 mV/div - 100 V/div DC - 500 MHz (TPP0500 Probe) 350 MHz 5 mV/div - 100 V/div DC - 350 MHz (TPP0500 Probe) 200 MHz 5 mV/div - 100 V/div DC - 200 MHz (TPP0250 Probe) - Lower frequency limit, AC coupled, typical
- <10 Hz when AC 1 MΩ coupled. The AC coupled lower frequency limits are reduced by a factor of 10 (<1 Hz) when 10X passive probes are used.
- Upper frequency limit, 250 MHz bandwidth limited, typical
- 250 MHz, ± 25%
- Upper frequency limit, 20 MHz bandwidth limited, typical
- 20 MHz, ± 25 %
- Calculated rise time, typical
-
Model 50 Ω TP1000 Probe TPP0500 Probe TPP0250 Probe 500 µV-1 V 5 mV-10 V 5 mV-10 V 5 mV-10 V 1.5 GHz 333ps 450ps 900ps 1.8ns 1 GHz 450ps 450ps 900ps 1.8ns 500 MHz 900ps 900ps 900ps 1.8ns 350 MHz 1.3ns 1.3ns 1.3ns 1.8ns 200 MHz 2.3ns 2.3ns 2.3ns 2.3ns - Peak Detect or Envelope mode pulse response, typical
- Minimum pulse width is >640 ps (6.25 GS/s)
- Effective bits (ENOB), typical
- Typical effective bits for a 9-division p-p sine-wave input, 50 mV/div, 50-Ω
- Sample mode, 50 Ω, 50 mV/div
-
Bandwidth Input frequency ENOB at 6.25 GS/s 1.5 GHz 10 MHz 6.80 1.5 GHz 300 MHz 6.80 1 GHz 10 MHz 7.10 1 GHz 300 MHz 7.10 500 MHz 10 MHz 7.40 500 MHz 150 MHz 7.40 350 MHz 10 MHz 7.60 350 MHz 100 MHz 7.60 250 MHz 10 MHz 7.60 250 MHz 100 MHz 7.60 200 MHz 10 MHz 7.60 200 MHz 100 MHz 7.60 20 MHz 10 MHz 7.70 - High Res mode, 50 Ω, 50 mV/div
-
Bandwidth Input frequency ENOB at 6.25 GS/s 1.5 GHz 10 MHz 7.10 1.5 GHz 300 MHz 7.10 1 GHz 10 MHz 7.60 1 GHz 300 MHz 7.60 500 MHz 10 MHz 7.90 500 MHz 150 MHz 7.90 350 MHz 10 MHz 8.20 350 MHz 100 MHz 8.20 250 MHz 10 MHz 8.20 250 MHz 100 MHz 8.20 200 MHz 10 MHz 8.20 200 MHz 100 MHz 8.20 20 MHz 10 MHz 8.90
- Random noise, Sample and High Res Acquisition modes, 50 Ω and 1 MΩ, 6.25 Gs/s
-
- ✔ 1.5 GHz models, Sample mode (RMS), 50 Ω
-
V/div 1.5 GHz 1 mV/div 635 μV 2 mV/div 635 μV 5 mV/div 817 μV 10 mV/div 843 μV 20 mV/div 920 μV 50 mV/div 1.582 mV 100 mV/div 3.686 mV 1 V/div 23.753 mV - MSO44 and MSO46, Sample mode (RMS), 50 Ω, typical
-
V/div 1.5 GHz 1 GHz 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 490 μV 300 μV 220 μV 145 μV 120 μV 80 μV 2 mV/div 490 μV 350 μV 220 μV 150 μV 130 μV 80 μV 5 mV/div 630 μV 380 μV 230 μV 175 μV 160 μV 110 μV 10 mV/div 650 μV 400 μV 280 μV 220 μV 215 μV 155 μV 20 mV/div 710 μV 510 μV 410 μV 340 μV 340 μV 260 μV 50 mV/div 1.220 mV 980 μV 890 μV 760 μV 760 μV 630 μV 100 mV/div 2.84 mV 2.23 mV 1.93 mV 1.61 mV 1.61 mV 1.25 mV 1 V/div 18.3 mV 19.0 mV 17.3 mV 15.0 mV 15.0 mV 12.5 mV - MSO44B and MSO46B, Sample mode (RMS), 50 Ω, typical
-
V/div 1.5 GHz 1 GHz 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 520 μV 320 μV 210 μV 150 μV 120 μV 80 μV 2 mV/div 520 μV 350 μV 220 μV 150 μV 120 μV 80 μV 5 mV/div 620 μV 380 μV 230 μV 175 μV 160 μV 110 μV 10 mV/div 620 μV 400 μV 270 μV 220 μV 215 μV 180 μV 20 mV/div 720 μV 510 μV 410 μV 360 μV 370 μV 320 μV 50 mV/div 1.30 mV 1.05 mV 930 μV 880 μV 900 μV 700 μV 100 mV/div 3.00 mV 2.23 mV 1.93 mV 1.74 mV 1.78 mV 1.45 mV 1 V/div 21.0 mV 19.3 mV 18.1 mV 17.5 mV 17.6 mV 14.0 mV - ✔ All models except 1.5 GHz, High Res mode (RMS), 50 Ω
-
V/div 1 GHz 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 336 μV 259 μV 194 μV 161 μV 96 μV 2 mV/div 363 μV 259 μV 194 μV 161 μV 96 μV 5 mV/div 394 μV 304 μV 239 μV 174 μV 96 μV 10 mV/div 434 μV 356 μV 284 μV 206 μV 103 μV 20 mV/div 551 μV 466 μV 349 μV 298 μV 141 μV 50 mV/div 1.038 mV 1.038 mV 739 μV 596 μV 259 μV 100 mV/div 2.102 mV 1.596 mV 1.349 mV 1.349 mV 609 μV 1 V/div 16.874 mV 12.850mV 11.617 mV 11.617 mV 4.906 mV - MSO44 and MSO46, except 1.5 GHz, High Res mode (RMS), 50 Ω, typical
-
V/div 1 GHz 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 260 μV 200 μV 150 μV 125 μV 75 μV 2 mV/div 280 μV 200 μV 150 μV 125 μV 75 μV 5 mV/div 305 μV 235 μV 185 μV 135 μV 75 μV 10 mV/div 335 μV 275 μV 220 μV 160 μV 80 μV 20 mV/div 425 μV 360 μV 270 μV 230 μV 110 μV 50 mV/div 800 μV 800 μV 570 μV 460 μV 200 μV 100 mV/div 1.62 mV 1.23 mV 1.04 mV 1.04 mV 480 μV 1 V/div 13.0 mV 9.90 mV 8.95 mV 8.95 mV 3.78 mV - MSO44B and MSO46B, except 1.5 GHz, High Res mode (RMS), 50 Ω, typical
-
V/div 1 GHz 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 280 μV 210 μV 150 μV 125 μV 75 μV 2 mV/div 280 μV 210 μV 150 μV 125 μV 75 μV 5 mV/div 300 μV 230 μV 185 μV 135 μV 75 μV 10 mV/div 330 μV 260 μV 220 μV 160 μV 80 μV 20 mV/div 420 μV 350 μV 270 μV 230 μV 110 μV 50 mV/div 800 μV 780 μV 570 μV 460 μV 200 μV 100 mV/div 1.65 mV 1.29 mV 1.04 mV 1.04 mV 480 μV 1 V/div 13.0 mV 10.0 mV 8.95 mV 8.95 mV 3.78 mV - MSO44 and MSO46, Sample mode (RMS), 1 MΩ, typical
-
V/div 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 210 μV 140 μV 120 μV 78 μV 2 mV/div 210 μV 140 μV 120 μV 78 μV 5 mV/div 230 μV 160 μV 135 μV 96 μV 10 mV/div 270 μV 200 μV 190 μV 135 μV 20 mV/div 370 μV 300 μV 300 μV 240 μV 50 mV/div 760 μV 600 μV 650 μV 750 μV 100 mV/div 1.75 mV 1.350 mV 1.45 mV 1.22 mV 1 V/div 19.00 mV 15.25 mV 15.70 mV 11.20 mV - MSO44B and MSO46B, Sample mode (RMS), 1 MΩ, typical
-
V/div 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 220 μV 150 μV 120 μV 75 μV 2 mV/div 220 μV 150 μV 120 μV 75 μV 5 mV/div 230 μV 170 μV 135 μV 100 μV 10 mV/div 270 μV 210 μV 200 μV 170 μV 20 mV/div 370 μV 300 μV 300 μV 240 μV 50 mV/div 760 μV 600 μV 650 μV 750 μV 100 mV/div 1.75 mV 1.350 mV 1.45 mV 1.22 mV 1 V/div 19.00 mV 15.25 mV 15.70 mV 11.20 mV - MSO44 and MSO46, High Res mode (RMS), 1 MΩ, typical
-
V/div 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 200 μV 140 μV 120 μV 75 μV 2 mV/div 200 μV 140 μV 120 μV 75 μV 5 mV/div 210 μV 150 μV 130 μV 75 μV 10 mV/div 230 μV 160 μV 150 μV 80 μV 20 mV/div 280 μV 200 μV 200 μV 100 μV 50 mV/div 520 μV 370 μV 410 μV 180 μV 100 mV/div 1.24 mV 880 μV 930 μV 460 μV 1 V/div 14.3 mV 10.20 mV 10.30 mV 5.45 mV - MSO44B and MSO46B, High Res mode (RMS), 1 MΩ, typical
-
V/div 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 200 μV 150 μV 120 μV 70 μV 2 mV/div 210 μV 150 μV 120 μV 70 μV 5 mV/div 220 μV 160 μV 130 μV 70 μV 10 mV/div 230 μV 170 μV 150 μV 75 μV 20 mV/div 300 μV 230 μV 220 μV 100 μV 50 mV/div 550 μV 450 μV 450 μV 200 μV 100 mV/div 1.35 mV 1.00 mV 1.03 mV 480 μV 1 V/div 15.0 mV 11.5 mV 11.5 mV 5.80 mV - ✔ All models, High Res mode (RMS), 1 MΩ
-
V/div 500 MHz 350 MHz 250/200 MHz 20 MHz 1 mV/div 259 μV 181 μV 155 μV 96 μV 2 mV/div 259 μV 181 μV 155 μV 96 μV 5 mV/div 271 μV 194 μV 168 μV 96 μV 10 mV/div 298 μV 206 μV 194 μV 103 μV 20 mV/div 363 μV 259 μV 259 μV 129 μV 50 mV/div 674 μV 479 μV 531 μV 233 μV 100 mV/div 1.609 mV 1.141 mV 1.206 mV 596 μV 1 V/div 18.561 mV 13.239 mV 13.369 mV 7.074 mV - Delay between analog channels, full bandwidth, typical
- ≤ 100 ps for any two channels with input impedance set to 50 Ω, DC coupling with equal Volts/div or above 10 mV/div
- Deskew range
- MSO44, MSO46: -125 ns to +125 ns with a resolution of 40 ps
- Crosstalk (channel isolation), typical
- ≥ 200:1 up to the rated bandwidth for any two channels having equal Volts/div settings
- Total probe power
- TekVPI+ Compliant probe interfaces: (4 per MSO44, 6 per MSO46) and 1 TekVPI interface for Aux In
- Probe power per channel
-
Voltage Max Amperage Voltage Tolerance 5 V 60 mA ±10% 12 V 1.67 A (20 W maximum software limit) ±10% - TekVPI interconnect
- All analog channel inputs on the front panel conform to the TEKVPI specification.
Timebase system
- Sample rate
-
Max HW Capability Number of Channels 6.25 GS/s 1-6 - Interpolated waveform rate range
- 500 GS/sec, 250 GS/sec, 125 GS/sec, 62.5 GS/sec, 25 GS/sec, and 12.5 GS/sec
- Record length range
-
- Standard
- 1 k points to 31.25 M points in single sample increments
- Optional
- 62.5 M points
- Seconds/Division range
-
Model 1 K 10 K 100 K 1 M 10 M 31.25 M 62.5 M MSO44/MSO46 Standard 31.25 M 200 ps - 64 s 2 ns - 640 s 20 ns - 1000 s 200 ns - 1000 s 2 µs - 1000 s 6.25 µs - 1000 s N/A MSO44/MSO46 Option 62.5 M 200 ps - 64 s 2 ns - 640 s 20 ns - 1000 s 200 ns - 1000 s 2 µs - 1000 s 6.25 µs - 1000 s 12.5 µs - 1000 s MSO44B/MSO46B Standard 31.25 M 200 ps - 64 s 2 ns - 640 s 20 ns - 1000 s 200 ns - 1000 s 2 µs - 1000 s 6.25 µs - 1000 s N/A MSO44B/MSO46B Option 62.5 M 200 ps - 64 s 2 ns - 640 s 20 ns - 1000 s 200 ns - 1000 s 2 µs - 1000 s 6.25 µs - 1000 s 12.5 µs - 1000 s - Maximum triggered acquisition rate, typical
- Analog or digital channels: single channel [Analog or Digital 8-bit channel] on screen, measurements and math turned off. >20 wfm/sec
- Aperture uncertainty
-
≤ 0.450 fs + (10-11 * Measurement Duration)RMS, for measurements having duration ≤ 100 ms
- ✔ Timebase accuracy
- ±2.5 x 10-6
over any ≥1 ms time interval.
Description Specification Factory Tolerance ±5.0 x10-7 ; at calibration, 25 °C ambient, over any ≥1 ms interval. Temperature stability, typical ±5.0 x10-7 ; tested at operating temperatures. Crystal aging ±1.5 x 10-6 ; frequency tolerance change at 25 °C over a period of 1 year. - Delta-time measurement accuracy, nominal
- The formulas to calculate the peak-to-peak or rms nominal delta-time measurement accuracy (DTA) for a given instrument setting and input signal is as follows (assumes insignificant signal content above Nyquist frequency):
Where:
N = input-referred guaranteed noise limit (VRMS)
SR 1 = Slew Rate (1st Edge) around 1st point in measurement
SR 2 = Slew Rate (2nd Edge) around 2nd point in measurement
t p = delta-time measurement duration (sec)
TBA = timebase accuracy or Reference Frequency Error ±0.5 ppm
(Assumes insignificant error due to aliasing or over-drive.)
The term under the square root sign is the stability and is due to TIE (Time Interval Error). The errors due to this term occur throughout a single-shot measurement. The second term is due to both the absolute center-frequency accuracy and the center-frequency stability of the timebase and varies between multiple single-shot measurements over the observation interval (the amount of time from the first single-shot measurement to the final single-shot measurement).
Note:The formulas assume negligible errors due to measurement interpolation, and apply only when the interpolated sample rate is 25 GS/s or higher.
Trigger system
- Trigger bandwidth (edge, pulse, and logic)
- 1.5 GHz models, Edge = 1.5 GHz
- Edge-type trigger sensitivity, DC coupled, typical
-
Path Range Specification 1 MΩ path (all models) 0.5 mV/div to 0.99 mV/div 4.5 div from DC to instrument bandwidth ≥ 1 mV/div The greater of 5 mV or 0.7 div 50 Ω path, all models The greater of 5.6 mV or 0.7 div for frequencies between DC and 500 MHz or the instrument bandwidth (whichever is lower) The greater of 7 mV or 0.8 div for frequencies above 500 MHz (if applicable) - Trigger jitter, typical
- ≤ 7 psRMS
- Edge-type trigger sensitivity, not DC coupled, typical
-
Trigger Coupling Typical Sensitivity NOISE REJ 2.5 times the DC Coupled limits HF REJ 1.0 times the DC Coupled limits from DC to 50 kHz. Attenuates signals above 50 kHz. LF REJ 1.5 times the DC Coupled limits for frequencies above 50 kHz. Attenuates signals below 50 kHz. - Logic-type triggering, minimum logic or rearm time, typical
- trise is rise time of the instrument.
Triggering type Pulse width Rearm time Time skew needed for 100% and no triggering Logic 160 ps + trise 160 ps + trise >360 ps / <150 ps Time qualified logic 320 ps + trise 320 ps + trise >360 ps / <150 ps - Minimum clock pulse widths for setup/hold time violation trigger, typical
- trise is rise time of the instrument.
- Setup/hold violation trigger, setup and hold time ranges, typical
-
Feature Min Max Setup Time 0 ns 20 s Hold Time 0 ns 20 s Setup + Hold Time 320 ps 22 s - Pulse type trigger, minimum pulse, rearm time, transition time
-
Pulse class Minimum pulse width Minimum rearm time Runt 160 ps + trise 160 ps + trise Time-Qualified Runt 160 ps + trise 160 ps + trise Width 160 ps + trise 160 ps + trise Slew Rate (minimum transition time) 160 ps + trise 160 ps + trise - Transition time trigger, delta time range
- 160 ps to 20 s.
- Time range for glitch, pulse width, timeout, time-qualified runt, or time-qualified window triggering
- 160 ps to 20 s.
- Time accuracy for pulse, glitch, timeout, or width triggering
-
Time Range Accuracy 320 ps to 500 ns ±(160 ps + (Time-Base-Accuracy * Setting)) 520 ns to 10 s ±(160 ps + (Time-Base-Accuracy * Setting)) - B trigger after events, minimum pulse width and maximum event frequency, typical
- Minimum pulse width: 160 ps + trise
- B trigger, minimum time between arm and trigger, typical
- 320 ps
- B trigger after time, time range
- 160 ps to 20 seconds
- B trigger after events, event range
- 1 to 65,471
- Trigger level ranges
-
Source Range Any Channel ±5 divs from center of screen Aux In Trigger, typical ±8 V Line Fixed at about 50% of line voltage - Trigger holdoff range
- 0 ns to 20 seconds
Serial Trigger specifications
- Optional serial bus interface triggering
- Please refer to the Serial Triggering and Analysis Datasheet, located on the tek.com, for information on available serial triggering options and their triggering capabilities.
Digital acquisition system
- Digital channel maximum sample rate
- 6.25 GS/s
- Transition detect (digital peak detect)
- Displayed data at sample rates less than 6.25 GS/s (decimated data), that contains multiple transitions between sample points will be displayed with a bright white colored edge.
- Digital-To-Analog trigger skew
- 3 ns
- Digital to digital skew
- 3 ns from bit 0 of any TekVPI channel to bit 0 of any TekVPI channel.
- Digital skew within a FlexChannel
- MSO44, MSO46: <160 ps within any TekVPI channel
Digital volt meter (DVM)
- Measurement types
- DC, ACRMS+DC, ACRMS
- Voltage resolution
- 4 digits
- ✔ Voltage accuracy
-
- DC:
- ±((1.5% * |reading - offset - position|) + (0.5% * |(offset - position)|) + (0.1 * Volts/div))
- AC:
- MSO44, MSO46: ± 2% (40 Hz to 1 kHz) with no harmonic content outside 40 Hz to 1 kHz range
Trigger frequency counter
- ✔ Accuracy
- ±(1 count + time base accuracy * input frequency)
- ✔ Maximum input frequency
- 10 Hz to maximum bandwidth of the analog channel
- Resolution
- 8-digits
Arbitrary Function Generator system
- Function types
- Arbitrary, sine, square, pulse, ramp, triangle, DC level, Gaussian, Lorentz, exponential rise/fall, sin(x)/x, random noise, Haversine, Cardiac
- Amplitude range
- Values are peak-to-peak voltages
Waveform 50 Ω 1 MΩ Arbitrary 10 mV to 2.5 V 20 mV to 5 V Sine 10 mV to 2.5 V 20 mV to 5 V Square 10 mV to 2.5 V 20 mV to 5 V Pulse 10 mV to 2.5 V 20 mV to 5 V Ramp 10 mV to 2.5 V 20 mV to 5 V Triangle 10 mV to 2.5 V 20 mV to 5 V Gaussian 10 mV to 1.25 V 20 mV to 2.5 V Lorentz 10 mV to 1.2 V 20 mV to 2.4 V Exponential Rise 10 mV to 1.25 V 20 mV to 2.5 V Exponential Fall 10 mV to 1.25 V 20 mV to 2.5 V Sine(x)/x 10 mV to 1.5 V 20 mV to 3.0 V Random Noise 10 mV to 2.5 V 20 mV to 5 V Haversine 10 mV to 1.25 V 20 mV to 2.5 V Cardiac 10 mV to 2.5 V 20 mV to 5 V - Maximum sample rate
- 250 MS/s
- Arbitrary function record length
- 128 K Samples
- Sine waveform
-
- Frequency range
- 0.1 Hz to 50 MHz
- Frequency setting resolution
- 0.1 Hz
- Amplitude flatness, typical
- MSO44, MSO46: ±0.5 dB at 1 kHz
- Total harmonic distortion, typical
- MSO44, MSO46: 1% for amplitude ≥ 200 mVpp into 50 Ω load
- Spurious free dynamic range, typical
- MSO44, MSO46: 40 dB (Vpp ≥ 0.1 V); 30 dB (Vpp ≥ 0.02 V), 50 Ω load
- Square and pulse waveform
-
- Frequency range
- 0.1 Hz to 25 MHz
- Frequency setting resolution
- 0.1 Hz
- Duty cycle range
- 10% - 90% or 10 ns minimum pulse, whichever is larger
- Duty cycle resolution
- 0.1%
- Minimum pulse width, typical
- 10 ns. This is the minimum time for either on or off duration.
- Rise/Fall time, typical
- MSO44, MSO46: 5.5 ns, 10% - 90%
- Pulse width resolution
- 100 ps
- Overshoot, typical
- MSO44, MSO46: < 4 % for signal steps greater than 100 mVpp
- Asymmetry, typical
- ±1% ±5 ns, at 50% duty cycle
- Jitter, typical
- < 60 ps TIERMS, ≥ 100 mVpp amplitude, 40%-60% duty cycle
- Cardiac maximum frequency
- MSO44, MSO46: 1 MHz
- Ramp and triangle waveform
-
- Frequency range
- 0.1 Hz to 500 kHz
- Frequency setting resolution
- 0.1 Hz
- Variable symmetry
- 0% - 100%
- Symmetry resolution
- 0.1%
- DC level range
- ±2.5 V into Hi-Z
- Gaussian pulse, Haversine, and Lorentz pulse
-
- Maximum frequency
- 5 MHz
- Exponential rise fall maximum frequency
- 5 MHz
- Sin(x)/x
-
- Maximum frequency
- 2 MHz
- Random noise amplitude range
- 20 mVpp to 5 Vpp into Hi-Z
- ✔ Sine, ramp, square and pulse frequency accuracy
- 1.3 x 10-4 (frequency ≤10 kHz)
- Signal amplitude resolution
- 1 mV (Hi-Z)
- ✔ Signal amplitude accuracy
- ±[ (1.5% of peak-to-peak amplitude setting) + (1.5% of absolute DC offset setting) + 1 mV ] (frequency = 1 kHz)
- DC offset range
- ±2.5 V into Hi-Z
- DC offset resolution
- 1 mV (Hi-Z)
- ✔ DC offset accuracy
- ±[ (1.5% of absolute offset voltage setting) + 1 mV ]
Display system
- Display type
- MSO44, MSO46: Display area - 11.38 inches (289 mm) (H) x 6.51 inches (165 mm) (V), 13.3 inches (338 mm) diagonal, 6-bit RGB color, TFT liquid crystal display (LCD) with capacitive touch
- Resolution
- 1,920 horizontal × 1,080 vertical pixels
- Luminance, typical
- MSO44, MSO46: 400 cd/m2, (Minimum: 320 cd/m2 )
Processor system
- Host processor
- MSO44, MSO46: Texas Instruments AM5728
- Operating system
- Closed Linux
Input/Output port specifications
- Ethernet interface
- An 8-pin RJ-45 connector that supports 10/100/1000 Mb/s
- Video signal output
- A 29-pin HDMI connector
- USB interface (Host, Device ports)
- Front panel USB Host ports: Three USB 2.0 Hi-Speed ports
- Probe compensator signal output voltage and frequency, typical
-
- Output voltage amplitude:
- 2.5 V ±2% (nominally 0-2.5V)
- Output frequency:
- 1 kHz ±25%
- Output source impedance
- nominally 1kΩ
- Auxiliary output, AUX OUT, Trigger Out, Event, or Reference Clock Out
-
- Selectable output
- Acquisition Trigger Out
- Acquisition Trigger Out
- User selectable transition from HIGH to LOW, or LOW to HIGH, indicates the trigger occurred. The signal returns to its previous state after approximately 100 ns
- Acquisition trigger jitter
- 380 ps (peak-to-peak)
- Reference Clock Out
- Reference clock output tracks the acquisition system and can be referenced from either the internal clock reference or the external clock reference
- AFG Trigger Out
- The output frequency is dependent on the frequency of the AFG signal as shown in the following table:
AFG signal frequency AFT trigger frequency ≤ 4.9 MHz Signal frequency > 4.9 MHz to 14.7 MHz Signal frequency / 3 > 14.7 MHz to 24.5 MHz Signal frequency / 5 > 24.5 MHz to 34.3 MHz Signal frequency / 7 > 34.3 MHz to 44.1 MHz Signal frequency / 9 > 44.1 MHz to 50 MHz Signal frequency / 11 - AUX OUT Output Voltage
-
Characteristic Limits Vout (HI) ≥ 2.5 V open circuit; ≥ 1.0 V into a 50 Ω load to ground Vout (LO) ≤ 0.7 V into a load of ≤ 4 mA; ≤0.25 V into a 50 Ω load to ground
- External reference input
-
- Nominal input frequency
- 10 MHz
- Frequency Variation Tolerance
- 9.99996 MHz to 10.00004 MHz (±4.0 x 10-6)
- Sensitivity, typical
- Vin 1.5 Vp-p using a 50 Ω termination
- Maximum input signal
- 7 Vpp
- Impedance
- MSO44, MSO46: 1.2 K Ohms ±20% in parallel with 18 pf ±5 pf at 10 MHz
Data storage specifications
- Nonvolatile memory retention time, typical
- No time limit for front panel settings, saved waveforms, setups, product licensing, and calibration constants.
- Real-time clock
- A programmable clock providing time in years, months, days, hours, minutes, and seconds.
- MSO44 and MSO46 Nonvolatile memory capacity
-
- 32 GB Primary MMC
- Stores the operating system, application software and factory data. No user data
- 32 GB Secondary MMC
- Stores saved setups and waveforms, Ethernet settings, log files, user data and user settings
- 2 Kbit EEPROM
- Memory on the main board that stores the instrument serial number, instrument start up count, total uptime factory data, security option passwords, and user-settable security option passwords
- 1 Kbit EEPROM
- Memory on the main board that stores power management controller factory data
- 1 KB Flash Memory
- Memory on the main board that stores the SODIMM memory configuration data (SPD). Two to four pieces depending on model
- 32 KB Flash Memory
- Memory on the main board that stores microcontroller firmware. Two pieces
- 64 KB Flash Memory
- Memory on the main board that stores microcontroller firmware. Two pieces
- MSO44B and MSO46B Nonvolatile memory capacity
-
- eMMC 64G
- Stores host instrument Linux operating system, application software, and user data including waveforms and measurement results, and instrument settings
- NOR Flash 32 MB
- Stores host processor bootloader
- 2 Kbit EEPROM
- Stores factory data, maintenance data
- 1 Kbit EEPROM
- Stores power management controller factory data, maintenance data
- 1 Kbit EEPROM
- Stores the host processor memory configuration data (SPD)
- 1 KB Flash Memory
- Two to four pieces depending on model
- 32 KB Flash Memory
- Stores power management micro-controller firmware
- 32 KB FRAM Memory
- Stores host processor power sequencer micro-controller firmware
- 64 KB Flash Memory
- Stores analog front end micro-controller firmware
- 256 KB Flash Memory
- Stores front panel micro-controller firmware
- 64 MB Flash Memory
- Stores the FPGA configuration
- 64 MB Flash Memory
- Stores backup copy of the FPGA configuration
Power supply system
- Power
-
- Power consumption
- 400 Watts maximum
- Source voltage
- 100 - 240 V ±10% (50 Hz to 60 Hz)
- Source frequency
- 50 Hz to 60 Hz ±10%, at 100 - 240 V ±10%
- Fuse Rating
- 12.5 A, 250 Vac
Safety characteristics
- Safety certification
- US NRTL Listed - UL61010-1 and UL61010-2-030
- Pollution degree
- Pollution degree 2, indoor, dry location use only
- Electrical specification
- Measurement CAT II (300V)
Environmental specifications
- Temperature
-
- Operating
- +0 °C to +50 °C (32 °F to 122 °F)
- Non-operating
- MSO44, MSO46: -30 °C to +70 °C (-22 °F to 158 °F)
- Humidity
-
- Operating
- 5% to 90% relative humidity (% RH) at up to +40 °C
- Non-operating
- 5% to 90% relative humidity (% RH) at up to +40 °C
- Altitude
-
- Operating
- Up to 3,000 meters (9,843 feet)
- Non-operating
- Up to 12,000 meters (39,370 feet)
- Operating random vibration
- MSO44B, MSO46B: 0.31 GRMS, 5‑500 Hz, 10 minutes per axis, 3 axes (30 minutes total)
- Operating mechanical shock
- MSO44B, MSO46B: Half-sine mechanical shocks, 40 g peak amplitude, 11 msec duration, 3 drops in each direction of each axis (18 total)
Mechanical specifications
- Dimensions
-
- Height
- 11.299 in (286.99 mm) with feet folded in, handle to back
- Width
- 15.9 in (405 mm) from handle hub to handle hub
- Depth
- 6.1 in (155 mm) from back of feet to front of knobs, handle up
- Weight
- MSO44, MSO46: < 16.8 lbs (7.6 kg)
- Cooling
- The clearance requirement for adequate cooling is 2.0 in (50.8 mm) on the right side of the instrument (when viewed from the front) and on the rear of the instrument
- Rackmount
- Unit fits into rackmount configuration (7U)
- MSO44B and MSO46B Audible noise
- Audible noise (fan noise) produced by the instrument at ambient temperature (=28°C): = 47 dB
- Kensington lock
- Instrument includes a Kensington lock
Performance verification procedures
This chapter contains performance verification procedures for the specifications marked with the ✔ symbol. The following equipment, or a suitable equivalent, is required to complete these procedures.
The performance verification procedures verify the performance of your instrument. They do not adjust your instrument. If your instrument fails any of the performance verification tests, repeat the failing test, verifying that the test equipment and settings are correct. If the instrument continues to fail a test, contact Tektronix Customer Support for assistance.
These procedures cover all 4 Series MSO instruments. Completion of the performance verification procedure does not update the instrument time and date.
Print the test records on the following pages and use them to record the performance test results for your oscilloscope. Disregard checks and test records that do not apply to the specific model you are testing.
The following table lists the required equipment. You might need additional cables and adapters, depending on the actual test equipment you use.
Required equipment | Minimum requirements | Examples |
---|---|---|
DC voltage source | 3 mV to 4 V, ±0.1% accuracy | Fluke 9500B Oscilloscope Calibrator with a 9530 Output Module |
Leveled sine wave generator | 50 kHz to 2 GHz, ±4% amplitude accuracy | |
Time mark generator | 80 ms period, ±1.0 x 10-6 accuracy, rise time <50 ns | |
Logic probe | Low capacitance digital probe, 8 channels. | TLP058 probe |
BNC-to-0.1 inch pin adapter to connect the logic probe to the signal source. | BNC-to-0.1 inch pin adapter; female BNC to 2x16 .01 inch pin headers. | Tektronix adapter part number 878-1429-00; to connect the Fluke 9500B to the TLP058 probe. |
Digital multimeter (DMM) | 0.1% accuracy or better | Tektronix DMM4020 |
One 50 Ω terminator | Impedance 50 Ω; connectors: female BNC input, male BNC output | Tektronix part number 011-0049-02 |
One 50 Ω BNC cable | Male-to-male connectors | Tektronix part number 012-0057-01 |
Optical mouse | USB, PS2 | Tektronix part number 119-7054-00 |
RF vector signal generator | Maximum bandwidth of instrument | Tektronix TSG4100A |
Test record
Instrument information, self test record
Model | Serial # | Procedure performed by | Date |
---|---|---|---|
|
|
|
|
Test | Passed | Failed |
---|---|---|
Self Test |
|
|
Input Impedance test record
Input Impedance | ||||
---|---|---|---|---|
Performance checks | Vertical scale | Low limit | Test result | High limit |
All models | ||||
Channel 1 Input Impedance, 1 MΩ | 100 mV/div | 990 kΩ | 1.01 MΩ | |
Channel 1 Input Impedance, 50 Ω | 10 mV/div | 49.5 Ω | 50.5 Ω | |
100 mV/div | 49.5 Ω | 50.5 Ω | ||
Channel 2 Input Impedance, 1 MΩ | 100 mV/div | 990 kΩ | 1.01 MΩ | |
Channel 2 Input Impedance, 50 Ω | 10 mV/div | 49.5 Ω | 50.5 Ω | |
100 mV/div | 49.5 Ω | 50.5 Ω | ||
Channel 3 Input Impedance, 1 MΩ | 100 mV/div | 990 kΩ | 1.01 MΩ | |
Channel 3 Input Impedance, 50 Ω | 10 mV/div | 49.5 Ω | 50.5 Ω | |
100 mV/div | 49.5 Ω | 50.5 Ω | ||
Channel 4 Input Impedance, 1 MΩ | 100 mV/div | 990 kΩ | 1.01 MΩ | |
Channel 4, Input Impedance, 50 Ω | 10 mV/div | 49.5 Ω | 50.5 Ω | |
100 mV/div | 49.5 Ω | 50.5 Ω | ||
Input Impedance | ||||
Performance checks | Vertical scale | Low limit | Test result | High limit |
6 Channel Models | ||||
Channel 5 Input Impedance, 1 MΩ | 100 mV/div | 990 kΩ | 1.01 MΩ | |
Channel 5 Input Impedance, 50 Ω | 10 mV/div | 49.5 Ω | 50.5 Ω | |
100 mV/div | 49.5 Ω | 50.5 Ω | ||
Channel 6 Input Impedance, 1 MΩ | 100 mV/div | 990 kΩ | 1.01 MΩ | |
Channel 6 Input Impedance, 50 Ω | 10 mV/div | 49.5 Ω | 50.5 Ω | |
100 mV/div | 49.5 Ω | 50.5 Ω |
DC Gain Accuracy test record
DC Gain Accuracy | |||||
---|---|---|---|---|---|
Performance checks | Bandwidth | Vertical scale | Low limit | Test result | High limit |
All models | |||||
Channel 1 DC Gain Accuracy, 0 V offset, 0 V vertical position, 50 Ω | 20 MHz | 1 mV/div | -2.5% | 2.5% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 1 DC Gain Accuracy, 0 V offset, 0 V vertical position, 1 MΩ | 20 MHz | 1 mV/div | -2% | 2% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 2 DC Gain Accuracy, 0 V offset, 0 V vertical position,50 Ω | 20 MHz | 1 mV/div | -2.5% | 2.5% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 2 DC Gain Accuracy, 0 V offset, 0 V vertical position,1 MΩ | 20 MHz | 1 mV/div | -2% | 2% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 3 DC Gain Accuracy, 0 V offset, 0 V vertical position,50 Ω | 20 MHz | 1 mV/div | -2.5% | 2.5% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 3 DC Gain Accuracy, 0 V offset, 0 V vertical position,1 MΩ | 20 MHz | 1 mV/div | -2% | 2% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 4 DC Gain Accuracy, 0 V offset, 0 V vertical position,50 Ω | 20 MHz | 1 mV/div | -2.5% | 2.5% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 4 DC Gain Accuracy, 0 V offset, 0 V vertical position,1 MΩ | 20 MHz | 1 mV/div | -2% | 2% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
DC Gain Accuracy | |||||
Performance checks | Bandwidth | Vertical scale | Low limit | Test result | High limit |
6 channel model | |||||
Channel 5 DC Gain Accuracy, 0 V offset, 0 V vertical position, 50 Ω | 20 MHz | 1 mV/div | -2.5% | 2.5% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 5 DC Gain Accuracy, 0 V offset, 0 V vertical position, 1 MΩ | 20 MHz | 1 mV/div | -2% | 2% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 6 DC Gain Accuracy, 0 V offset, 0 V vertical position, 50 Ω | 20 MHz | 1 mV/div | -2.5% | 2.5% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% | ||
Channel 6 DC Gain Accuracy, 0 V offset, 0 V vertical position, 1 MΩ | 20 MHz | 1 mV/div | -2% | 2% | |
2 mV/div | -1% | 1% | |||
5 mV/div | -1% | 1% | |||
10 mV/div | -1% | 1% | |||
20 mV/div | -1% | 1% | |||
50 mV/div | -1% | 1% | |||
100 mV/div | -1% | 1% | |||
200 mV/div | -1% | 1% | |||
500 mV/div | -1% | 1% | |||
1 V/div | -1% | 1% | |||
250 MHz | 20 mV/div | -1% | 1% | ||
FULL | 20 mV/div | -1% | 1% |
DC Offset Accuracy test record
Use the vertical offset value for both the calibrator output and the oscilloscope offset setting.
Offset Accuracy | |||||
---|---|---|---|---|---|
Performance checks | Vertical scale | Vertical offset | Low limit | Test result | High limit |
All models | |||||
Channel 1 DC Offset Accuracy, 20 MHz BW, 50 Ω | 1 mV/div | 900 mV | 890.8 mV | 909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 5.0 V | 4.93 V | 5.07 V | ||
100 mV/div | -5.0 V | -5.07 V | -4.93 V | ||
Channel 1 DC Offset Accuracy, 20 MHz BW, 1 MΩ | 1 mV/div | 900 mV | 890.8 mV | -909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 9.0 V | 8.89 V | 9.11 V | ||
100 mV/div | -9.0 V | -9.11 V | -8.89 V | ||
500 mV/div | 9.0 V | 8.81 V | 9.19 V | ||
500 mV/div | -9.0 V | -9.19 V | -8.81 V | ||
1.01 V/div | 99.5 V | 98.303 V | 100.697 V | ||
1.01 V/div | -99.5 V | -100.697 V | -98.303 V | ||
5 V/div | 99.5 V | 97.505 V | 101.495 V | ||
5 V/div | -99.5 V | -101.495 V | -97.505 V | ||
Channel 2 DC Offset Accuracy, 20 MHz BW, 50 Ω | 1 mV/div | 900 mV | 890.8 mV | 909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 5.0 V | 4.93 V | 5.07 V | ||
100 mV/div | -5.0 V | -5.07 V | -4.93 V | ||
Channel 2 DC Offset Accuracy, 20 MHz BW, 1 MΩ | 1 mV/div | 900 mV | 890.8 mV | -909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 9.0 V | 8.89 V | 9.11 V | ||
100 mV/div | -9.0 V | -9.11 V | -8.89 V | ||
500 mV/div | 9.0 V | 8.81 V | 9.19 V | ||
500 mV/div | -9.0 V | -9.19 V | -8.81 V | ||
1.01 V/div | 99.5 V | 98.303 V | 100.697 V | ||
1.01 V/div | -99.5 V | -100.697 V | -98.303 V | ||
5 V/div | 99.5 V | 97.505 V | 101.495 V | ||
5 V/div | -99.5 V | -101.495 V | -97.505 V | ||
Channel 3 DC Offset Accuracy, 20 MHz BW, 50 Ω | 1 mV/div | 900 mV | 890.8 mV | 909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 5.0 V | 4.93 V | 5.07 V | ||
100 mV/div | -5.0 V | -5.07 V | -4.93 V | ||
Channel 3 DC Offset Accuracy, 20 MHz BW, 1 MΩ | 1 mV/div | 900 mV | 890.8 mV | -909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 9.0 V | 8.89 V | 9.11 V | ||
100 mV/div | -9.0 V | -9.11 V | -8.89 V | ||
500 mV/div | 9.0 V | 8.81 V | 9.19 V | ||
500 mV/div | -9.0 V | -9.19 V | -8.81 V | ||
1.01 V/div | 99.5 V | 98.303 V | 100.697 V | ||
1.01 V/div | -99.5 V | -100.697 V | -98.303 V | ||
5 V/div | 99.5 V | 97.505 V | 101.495 V | ||
5 V/div | -99.5 V | -101.495 V | -97.505 V | ||
Channel 4 DC Offset Accuracy, 20 MHz BW, 50 Ω | 1 mV/div | 900 mV | 890.8 mV | 909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 5.0 V | 4.93 V | 5.07 V | ||
100 mV/div | -5.0 V | -5.07 V | -4.93 V | ||
Channel 4 DC Offset Accuracy, 20 MHz BW, 1 MΩ | 1 mV/div | 900 mV | 890.8 mV | -909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 9.0 V | 8.89 V | 9.11 V | ||
100 mV/div | -9.0 V | -9.11 V | -8.89 V | ||
500 mV/div | 9.0 V | 8.81 V | 9.19 V | ||
500 mV/div | -9.0 V | -9.19 V | -8.81 V | ||
1.01 V/div | 99.5 V | 98.303 V | 100.697 V | ||
1.01 V/div | -99.5 V | -100.697 V | -98.303 V | ||
5 V/div | 99.5 V | 97.505 V | 101.495 V | ||
5 V/div | -99.5 V | -101.495 V | -97.505 V | ||
6 channel model | |||||
Channel 5 DC Offset Accuracy, 20 MHz BW, 50 Ω | 1 mV/div | 900 mV | 890.8 mV | 909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 5.0 V | 4.93 V | 5.07 V | ||
100 mV/div | -5.0 V | -5.07 V | -4.93 V | ||
Channel 5 DC Offset Accuracy, 20 MHz BW, 1 MΩ | 1 mV/div | 900 mV | 890.8 mV | -909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 9.0 V | 8.89 V | 9.11 V | ||
100 mV/div | -9.0 V | -9.11 V | -8.89 V | ||
500 mV/div | 9.0 V | 8.81 V | 9.19 V | ||
500 mV/div | -9.0 V | -9.19 V | -8.81 V | ||
1.01 V/div | 99.5 V | 98.303 V | 100.697 V | ||
1.01 V/div | -99.5 V | -100.697 V | -98.303 V | ||
5 V/div | 99.5 V | 97.505 V | 101.495 V | ||
5 V/div | -99.5 V | -101.495 V | -97.505 V | ||
Channel 6 DC Offset Accuracy, 20 MHz BW, 50 Ω | 1 mV/div | 900 mV | 890.8 mV | 909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 5.0 V | 4.93 V | 5.07 V | ||
100 mV/div | -5.0 V | -5.07 V | -4.93 V | ||
Channel 6 DC Offset Accuracy, 20 MHz BW, 1 MΩ | 1 mV/div | 900 mV | 890.8 mV | -909.2 mV | |
1 mV/div | -900 mV | -909.2 mV | -890.8 mV | ||
100 mV/div | 9.0 V | 8.89 V | 9.11 V | ||
100 mV/div | -9.0 V | -9.11 V | -8.89 V | ||
500 mV/div | 9.0 V | 8.81 V | 9.19 V | ||
500 mV/div | -9.0 V | -9.19 V | -8.81 V | ||
1.01 V/div | 99.5 V | 98.303 V | 100.697 V | ||
1.01 V/div | -99.5 V | -100.697 V | -98.303 V | ||
5 V/div | 99.5 V | 97.505 V | 101.495 V | ||
5 V/div | -99.5 V | -101.495 V | -97.505 V |
Analog Bandwidth test record
Analog Bandwidth performance checks | |||||||
---|---|---|---|---|---|---|---|
Bandwidth at Channel | Impedance | Vertical scale | Horizontal scale | Vin-pp | Vbw-pp | Limit | Test result Gain = Vbw-pp/Vin-pp |
All 1.5 GHz models | |||||||
Channel 1 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 1 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 2 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 2 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 3 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 3 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 4 | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | ||||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 4 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
All 6 channel 1.5 GHz models | |||||||
Channel 5 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 5 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 6 | 50 Ω | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 6 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 GHz models | |||||||
Channel 1 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 1 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 2 | 50 Ω | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 2 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 3 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 3 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 4 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 4 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 GHz MSO46 | |||||||
Channel 5 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 5 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 6 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 6 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
500 MHz models | |||||||
Channel 1 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 1 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 2 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 2 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 3 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 3 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 4 | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | ||||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 4 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
500 MHz models (MSO46) | |||||||
Channel 5 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 5 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 6 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 6 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
350 MHz models | |||||||
Channel 1 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 1 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 2 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 2 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 3 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 3 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 4 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 4 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Six channel models (MSO46) | |||||||
Channel 5 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 5 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 6 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 6 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
200 MHz | |||||||
Channel 1 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 1 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 2 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 2 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 3 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 3 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 4 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 4 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Six channel models (MSO46) | |||||||
Channel 5 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 5 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
Channel 6 | 50 Ω | 1 mV/div | 5 ns/div (Full BW) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (Full BW) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (Full BW) | ≥ 0.707 | |||||
Channel 6 | 1 MΩ, typical | 1 mV/div | 5 ns/div (500 MHz) | ≥ 0.707 | |||
2 mV/div | 2.5 ns/div (500 MHz) | ≥ 0.707 | |||||
5 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
10 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
50 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
100 mV/div | 1 ns/div (500 MHz) | ≥ 0.707 | |||||
1 V/div | 1 ns/div (500 MHz) | ≥ 0.707 |
Random Noise High Res acquisition mode test record
MSO44 and MSO46 Random Noise High Res acquisition mode test record
The following test record tables support 4 Series MSO models (MSO44 and MSO46).
Random Noise, Sample acquisition mode: MSO44 and MSO46 1.5 GHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
MSO44, MSO46 Channel 1 | 1 mV/div | Full | 0.259 | 0.635 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.259 | 0.635 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.271 | 0.817 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.843 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.363 | 0.92 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.674 | 1.582 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.609 | 3.686 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 18.561 | 23.753 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO44, MSO46 Channel 2 | 1 mV/div | Full | 0.259 | 0.635 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.259 | 0.635 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.271 | 0.817 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.843 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.363 | 0.92 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.674 | 1.582 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.609 | 3.686 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 18.561 | 23.753 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO44, MSO46 Channel 3 | 1 mV/div | Full | 0.259 | 0.635 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.259 | 0.635 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.271 | 0.817 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.843 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.363 | 0.92 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.674 | 1.582 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.609 | 3.686 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 18.561 | 23.753 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO44, MSO46 Channel 4 | 1 mV/div | Full | 0.259 | 0.635 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.259 | 0.635 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.271 | 0.817 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.843 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.363 | 0.92 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.674 | 1.582 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.609 | 3.686 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 18.561 | 23.753 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO46 Channel 5 | 1 mV/div | Full | 0.259 | 0.635 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.259 | 0.635 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.271 | 0.817 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.843 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.363 | 0.92 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.674 | 1.582 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.609 | 3.686 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 18.561 | 23.753 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO46 Channel 6 | 1 mV/div | Full | 0.259 | 0.635 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.259 | 0.635 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.271 | 0.817 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.843 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.363 | 0.92 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.674 | 1.582 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.609 | 3.686 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 18.561 | 23.753 | |||
250 MHz limit | ||||||
20 MHz |
Random Noise, High Res acquisition mode: MSO44 and MSO46 1 GHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
1 GHz models (all models) | ||||||
MSO44, MSO46 Channel 1 | 1 mV/div | Full | 0.259 | 0.336 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.394 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.434 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.551 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 2.102 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 16.874 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 2 | 1 mV/div | Full | 0.259 | 0.336 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.394 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.434 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.551 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 2.102 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 16.874 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 3 | 1 mV/div | Full | 0.259 | 0.336 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.394 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.434 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.551 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 2.102 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 16.874 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 4 | 1 mV/div | Full | 0.259 | 0.336 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.394 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.434 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.551 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 2.102 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 16.874 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
1 GHz models (6 channel model) | ||||||
MSO46 Channel 5 | 1 mV/div | Full | 0.259 | 0.336 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.394 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.434 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.551 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 2.102 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 16.874 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO46 Channel 6 | 1 mV/div | Full | 0.259 | 0.336 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.394 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.434 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.551 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 2.102 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 16.874 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 |
Random Noise, High Res acquisition mode: MSO44 and MSO46 500 MHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
500 MHz models (all models) | ||||||
MSO44, MSO46 Channel 1 | 1 mV/div | Full | 0.259 | 0.259 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.259 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.304 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.356 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.466 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 1.596 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 12.85 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 2 | 1 mV/div | Full | 0.259 | 0.259 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.259 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.304 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.356 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.466 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 1.596 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 12.85 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 3 | 1 mV/div | Full | 0.259 | 0.259 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.259 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.304 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.356 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.466 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 1.596 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 12.85 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 4 | 1 mV/div | Full | 0.259 | 0.259 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.259 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.304 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.356 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.466 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 1.596 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 12.85 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
500 MHz models (6 channel model) | ||||||
MSO46 Channel 5 | 1 mV/div | Full | 0.259 | 0.259 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.259 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.304 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.356 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.466 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 1.596 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 12.85 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO46 Channel 6 | 1 mV/div | Full | 0.259 | 0.259 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.259 | 0.259 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.271 | 0.304 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.356 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.363 | 0.466 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.674 | 1.038 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.609 | 1.596 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 18.561 | 12.85 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 |
Random Noise, High Res acquisition mode: MSO44 and MSO46 350 MHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
350 MHz models (all models) | ||||||
MSO44, MSO46 Channel 1 | 1 mV/div | Full | 0.181 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.181 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.194 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.206 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.259 | 0.349 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.479 | 0.139 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.141 | 1.349 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 13.239 | 11.617 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 2 | 1 mV/div | Full | 0.181 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.181 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.194 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.206 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.259 | 0.349 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.479 | 0.139 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.141 | 1.349 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 13.239 | 11.617 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 3 | 1 mV/div | Full | 0.181 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.181 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.194 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.206 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.259 | 0.349 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.479 | 0.139 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.141 | 1.349 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 13.239 | 11.617 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO44, MSO46 Channel 4 | 1 mV/div | Full | 0.181 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.181 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.194 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.206 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.259 | 0.349 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.479 | 0.139 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.141 | 1.349 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 13.239 | 11.617 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
350 MHz models (6 channel model) | ||||||
MSO46 Channel 5 | 1 mV/div | Full | 0.181 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.181 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.194 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.206 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.259 | 0.349 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.479 | 0.139 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.141 | 1.349 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 13.239 | 11.617 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 | ||||
MSO46 Channel 6 | 1 mV/div | Full | 0.181 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
2 mV/div | Full | 0.181 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.096 | 0.096 | ||||
5 mV/div | Full | 0.194 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.096 | 0.096 | ||||
10 mV/div | Full | 0.206 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.103 | 0.103 | ||||
20 mV/div | Full | 0.259 | 0.349 | |||
250 MHz limit | 0.259 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.479 | 0.139 | |||
250 MHz limit | 0.531 | 0.596 | ||||
20 MHz | 0.233 | 0.259 | ||||
100 mV/div | Full | 1.141 | 1.349 | |||
250 MHz limit | 1.206 | 1.349 | ||||
20 MHz | 0.596 | 0.609 | ||||
1 V/div | Full | 13.239 | 11.617 | |||
250 MHz limit | 13.369 | 11.617 | ||||
20 MHz | 7.074 | 4.906 |
MSO44B and MSO46B Random Noise High Res acquisition mode test record
The following test record tables support 4 Series B MSO models (MSO44B and MSO46B).
Random Noise, Sample acquisition mode: MSO44B and MSO46B 1.5 GHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
MSO44B, MSO46B Channel 1 | 1 mV/div | Full | 0.259 | 0.674 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.271 | 0.674 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.284 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.389 | 0.933 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.713 | 1.687 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.752 | 3.894 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 19.47 | 27.258 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO44B, MSO46B Channel 2 | 1 mV/div | Full | 0.259 | 0.674 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.271 | 0.674 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.284 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.389 | 0.933 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.713 | 1.687 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.752 | 3.894 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 19.47 | 27.258 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO44B, MSO46B Channel 3 | 1 mV/div | Full | 0.259 | 0.674 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.271 | 0.674 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.284 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.389 | 0.933 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.713 | 1.687 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.752 | 3.894 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 19.47 | 27.258 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO44B, MSO46B Channel 4 | 1 mV/div | Full | 0.259 | 0.674 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.271 | 0.674 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.284 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.389 | 0.933 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.713 | 1.687 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.752 | 3.894 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 19.47 | 27.258 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO46B Channel 5 | 1 mV/div | Full | 0.259 | 0.674 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.271 | 0.674 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.284 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.389 | 0.933 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.713 | 1.687 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.752 | 3.894 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 19.47 | 27.258 | |||
250 MHz limit | ||||||
20 MHz | ||||||
MSO46B Channel 6 | 1 mV/div | Full | 0.259 | 0.674 | ||
250 MHz limit | ||||||
20 MHz | ||||||
2 mV/div | Full | 0.271 | 0.674 | |||
250 MHz limit | ||||||
20 MHz | ||||||
5 mV/div | Full | 0.284 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
10 mV/div | Full | 0.298 | 0.804 | |||
250 MHz limit | ||||||
20 MHz | ||||||
20 mV/div | Full | 0.389 | 0.933 | |||
250 MHz limit | ||||||
20 MHz | ||||||
50 mV/div | Full | 0.713 | 1.687 | |||
250 MHz limit | ||||||
20 MHz | ||||||
100 mV/div | Full | 1.752 | 3.894 | |||
250 MHz limit | ||||||
20 MHz | ||||||
1 V/div | Full | 19.47 | 27.258 | |||
250 MHz limit | ||||||
20 MHz |
Random Noise, High Res acquisition mode: MSO44B and MSO46B 1 GHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) | |
1 GHz models (all models) | ||||||
MSO44B, MSO46B Channel 1 | 1 mV/div | Full | 0.259 | 0.363 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.389 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.427 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.544 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.038 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 2.141 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 16.874 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 2 | 1 mV/div | Full | 0.259 | 0.363 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.389 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.427 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.544 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.038 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 2.141 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 16.874 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 3 | 1 mV/div | Full | 0.259 | 0.363 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.389 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.427 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.544 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.038 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 2.141 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 16.874 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 4 | 1 mV/div | Full | 0.259 | 0.363 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.389 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.427 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.544 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.038 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 2.141 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 16.874 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
1 GHz models (6 channel model) | ||||||
MSO46B Channel 5 | 1 mV/div | Full | 0.259 | 0.363 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.389 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.427 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.544 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.038 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 2.141 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 16.874 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO46B Channel 6 | 1 mV/div | Full | 0.259 | 0.363 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.363 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.389 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.427 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.544 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.038 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 2.141 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 16.874 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 |
Random Noise, High Res acquisition mode: MSO44B and MSO46B 500 MHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
500 MHz models (all models) | ||||||
MSO44B, MSO46B Channel 1 | 1 mV/div | Full | 0.259 | 0.271 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.271 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.298 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.336 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.454 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.012 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 1.674 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 12.98 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 2 | 1 mV/div | Full | 0.259 | 0.271 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.271 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.298 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.336 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.454 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.012 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 1.674 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 12.98 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 3 | 1 mV/div | Full | 0.259 | 0.271 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.271 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.298 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.336 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.454 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.012 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 1.674 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 12.98 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 4 | 1 mV/div | Full | 0.259 | 0.271 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.271 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.298 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.336 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.454 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.012 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 1.674 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 12.98 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
500 MHz models (6 channel model) | ||||||
MSO46B Channel 5 | 1 mV/div | Full | 0.259 | 0.271 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.271 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.298 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.336 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.454 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.012 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 1.674 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 12.98 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO46B Channel 6 | 1 mV/div | Full | 0.259 | 0.271 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.271 | 0.271 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.284 | 0.298 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.298 | 0.336 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.389 | 0.454 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.713 | 1.012 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.752 | 1.674 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 19.47 | 12.98 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 |
Random Noise, High Res acquisition mode: MSO44B and MSO46B 350 MHz models | ||||||
---|---|---|---|---|---|---|
Performance Checks | 1 MΩ | 50 Ω | ||||
Channel | V/div | Bandwidth | Test result (mV) | High limit (mV) | Test result (mV) | High limit (mV) |
350 MHz models (all models) | ||||||
MSO44B, MSO46B Channel 1 | 1 mV/div | Full | 0.194 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.194 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.206 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.220 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.298 | 0.349 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.584 | 0.739 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.298 | 1.349 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 14.927 | 11.617 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 2 | 1 mV/div | Full | 0.194 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.194 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.206 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.220 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.298 | 0.349 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.584 | 0.739 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.298 | 1.349 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 14.927 | 11.617 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 3 | 1 mV/div | Full | 0.194 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.194 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.206 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.220 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.298 | 0.349 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.584 | 0.739 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.298 | 1.349 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 14.927 | 11.617 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO44B, MSO46B Channel 4 | 1 mV/div | Full | 0.194 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.194 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.206 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.220 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.298 | 0.349 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.584 | 0.739 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.298 | 1.349 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 14.927 | 11.617 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
350 MHz models (6 channel model) | ||||||
MSO46B Channel 5 | 1 mV/div | Full | 0.194 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.194 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.206 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.220 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.298 | 0.349 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.584 | 0.739 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.298 | 1.349 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 14.927 | 11.617 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 | ||||
MSO46B Channel 6 | 1 mV/div | Full | 0.194 | 0.194 | ||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
2 mV/div | Full | 0.194 | 0.194 | |||
250 MHz limit | 0.155 | 0.161 | ||||
20 MHz | 0.090 | 0.096 | ||||
5 mV/div | Full | 0.206 | 0.239 | |||
250 MHz limit | 0.168 | 0.174 | ||||
20 MHz | 0.090 | 0.096 | ||||
10 mV/div | Full | 0.220 | 0.284 | |||
250 MHz limit | 0.194 | 0.206 | ||||
20 MHz | 0.096 | 0.103 | ||||
20 mV/div | Full | 0.298 | 0.349 | |||
250 MHz limit | 0.284 | 0.298 | ||||
20 MHz | 0.129 | 0.141 | ||||
50 mV/div | Full | 0.584 | 0.739 | |||
250 MHz limit | 0.584 | 0.596 | ||||
20 MHz | 0.259 | 0.259 | ||||
100 mV/div | Full | 1.298 | 1.349 | |||
250 MHz limit | 1.336 | 1.349 | ||||
20 MHz | 0.622 | 0.609 | ||||
1 V/div | Full | 14.927 | 11.617 | |||
250 MHz limit | 14.927 | 11.617 | ||||
20 MHz | 7.528 | 4.906 |
Long term sample rate through AFG DC offset accuracy test records
Long Term Sample Rate | |||
---|---|---|---|
Performance checks | Low limit | Test result | High limit |
Long Term Sample Rate | -2 divisions | +2 divisions |
Digital Threshold Accuracy, typical | ||||||
---|---|---|---|---|---|---|
Performance checks: | ||||||
Digital channel | Threshold | Vs– | Vs+ | Low limit | Test result | High limit |
All models | ||||||
Channel 1 | ||||||
D0 | 0 V | -0.1 V | 0.1 V | |||
D1 | 0 V | -0.1 V | 0.1 V | |||
D2 | 0 V | -0.1 V | 0.1 V | |||
D3 | 0 V | -0.1 V | 0.1 V | |||
D4 | 0 V | -0.1 V | 0.1 V | |||
D5 | 0 V | -0.1 V | 0.1 V | |||
D6 | 0 V | -0.1 V | 0.1 V | |||
D7 | 0 V | -0.1 V | 0.1 V | |||
Channel 2 | ||||||
D0 | 0 V | -0.1 V | 0.1 V | |||
D1 | 0 V | -0.1 V | 0.1 V | |||
D2 | 0 V | -0.1 V | 0.1 V | |||
D3 | 0 V | -0.1 V | 0.1 V | |||
D4 | 0 V | -0.1 V | 0.1 V | |||
D5 | 0 V | -0.1 V | 0.1 V | |||
D6 | 0 V | -0.1 V | 0.1 V | |||
D7 | 0 V | -0.1 V | 0.1 V | |||
Channel 3 | ||||||
D0 | 0 V | -0.1 V | 0.1 V | |||
D1 | 0 V | -0.1 V | 0.1 V | |||
D2 | 0 V | -0.1 V | 0.1 V | |||
D3 | 0 V | -0.1 V | 0.1 V | |||
D4 | 0 V | -0.1 V | 0.1 V | |||
D5 | 0 V | -0.1 V | 0.1 V | |||
D6 | 0 V | -0.1 V | 0.1 V | |||
D7 | 0 V | -0.1 V | 0.1 V | |||
Channel 4 | ||||||
D0 | 0 V | -0.1 V | 0.1 V | |||
D1 | 0 V | -0.1 V | 0.1 V | |||
D2 | 0 V | -0.1 V | 0.1 V | |||
D3 | 0 V | -0.1 V | 0.1 V | |||
D4 | 0 V | -0.1 V | 0.1 V | |||
D5 | 0 V | -0.1 V | 0.1 V | |||
D6 | 0 V | -0.1 V | 0.1 V | |||
D7 | 0 V | -0.1 V | 0.1 V | |||
All 6 channel models | ||||||
Channel 5 | ||||||
D0 | 0 V | -0.1 V | 0.1 V | |||
D1 | 0 V | -0.1 V | 0.1 V | |||
D2 | 0 V | -0.1 V | 0.1 V | |||
D3 | 0 V | -0.1 V | 0.1 V | |||
D4 | 0 V | -0.1 V | 0.1 V | |||
D5 | 0 V | -0.1 V | 0.1 V | |||
D6 | 0 V | -0.1 V | 0.1 V | |||
D7 | 0 V | -0.1 V | 0.1 V | |||
Channel 6 | ||||||
D0 | 0 V | -0.1 V | 0.1 V | |||
D1 | 0 V | -0.1 V | 0.1 V | |||
D2 | 0 V | -0.1 V | 0.1 V | |||
D3 | 0 V | -0.1 V | 0.1 V | |||
D4 | 0 V | -0.1 V | 0.1 V | |||
D5 | 0 V | -0.1 V | 0.1 V | |||
D6 | 0 V | -0.1 V | 0.1 V | |||
D7 | 0 V | -0.1 V | 0.1 V |
AUX Out output voltage levels | ||||
---|---|---|---|---|
Performance checks | Vout | Low limit | Test result | High limit |
Output levels, 1 MΩ input impedance | Max | ≥ 2.5 V | n/a | |
Min | n/a | ≤ 700 mV | ||
Output levels, 50 Ω Input Impedance, | Max | ≥ 1 V | n/a | |
Min | n/a | ≤ 250 mV |
DVM voltage accuracy (DC) | |||||
---|---|---|---|---|---|
Channel 1 | |||||
Vertical Scale | Input Voltage | Offset Voltage | Low limit | Test result | High limit |
1 | –5 | –5 | -5.125 | -4.875 | |
0.5 | –2 | –2 | -2.06 | -1.94 | |
0.5 | –1 | –0.5 | -1.06 | -0.94 | |
0.2 | –0.5 | –0.5 | -0.5225 | -0.4775 | |
0.01 | 0.002 | 0 | 0.00097 | 0.00303 | |
0.2 | 0.5 | 0.5 | 0.4775 | 0.5225 | |
0.5 | 1 | 0.5 | 0.94 | 1.06 | |
0.5 | 2 | 2 | 1.94 | 2.06 | |
1 | 5 | 5 | 4.875 | 5.125 | |
Channel 2 | |||||
Vertical Scale | Input Voltage | Offset Voltage | Low limit | Test result | High limit |
1 | –5 | –5 | -5.125 | -4.875 | |
0.5 | –2 | –2 | -2.06 | -1.94 | |
0.5 | –1 | –0.5 | -1.06 | -0.94 | |
0.2 | –0.5 | –0.5 | -0.5225 | -0.4775 | |
0.01 | 0.002 | 0 | 0.00097 | 0.00303 | |
0.2 | 0.5 | 0.5 | 0.4775 | 0.5225 | |
0.5 | 1 | 0.5 | 0.94 | 1.06 | |
0.5 | 2 | 2 | 1.94 | 2.06 | |
1 | 5 | 5 | 4.875 | 5.125 | |
Channel 3 | |||||
Vertical Scale | Input Voltage | Offset Voltage | Low limit | Test result | High limit |
1 | -5 | -5 | -5.125 | -4.875 | |
0.5 | -2 | -2 | -2.06 | -1.94 | |
0.5 | -1 | -0.5 | -1.06 | -0.94 | |
0.2 | -0.5 | -0.5 | -0.5225 | -0.4775 | |
0.01 | 0.002 | 0 | 0.00097 | 0.00303 | |
0.2 | 0.5 | 0.5 | 0.4775 | 0.5225 | |
0.5 | 1 | 0.5 | 0.94 | 1.06 | |
0.5 | 2 | 2 | 1.94 | 2.06 | |
1 | 5 | 5 | 4.875 | 5.125 | |
Channel 4 | |||||
Vertical Scale | Input Voltage | Offset Voltage | Low limit | Test result | High limit |
1 | -5 | -5 | -5.125 | -4.875 | |
0.5 | -2 | -2 | -2.06 | -1.94 | |
0.5 | –1 | -0.5 | -1.06 | -0.94 | |
0.2 | -0.5 | -0.5 | -0.5225 | -0.4775 | |
0.01 | 0.002 | 0 | 0.00097 | 0.00303 | |
0.2 | 0.5 | 0.5 | 0.4775 | 0.5225 | |
0.5 | 1 | 0.5 | 0.94 | 1.06 | |
0.5 | 2 | 2 | 1.94 | 2.06 | |
1 | 5 | 5 | 4.875 | 5.125 | |
DVM voltage accuracy (DC) | |||||
6 channel model | |||||
Channel 5 | |||||
Vertical Scale | Input Voltage | Offset Voltage | Low limit | Test result | High limit |
1 | -5 | -5 | -5.125 | -4.875 | |
0.5 | -2 | -2 | -2.06 | -1.94 | |
0.5 | -1 | -0.5 | -1.06 | -0.94 | |
0.2 | -0.5 | -0.5 | -0.5225 | -0.4775 | |
0.01 | 0.002 | 0 | 0.00097 | 0.00303 | |
0.2 | 0.5 | 0.5 | 0.4775 | 0.5225 | |
0.5 | 1 | 0.5 | 0.94 | 1.06 | |
0.5 | 2 | 2 | 1.94 | 2.06 | |
1 | 5 | 5 | 4.875 | 5.125 | |
Channel 6 | |||||
Vertical Scale | Input Voltage | Offset Voltage | Low limit | Test result | High limit |
1 | -5 | -5 | -5.125 | -4.875 | |
0.5 | -2 | -2 | -2.06 | -1.94 | |
0.5 | -1 | -0.5 | -1.06 | -0.94 | |
0.2 | -0.5 | -0.5 | -0.5225 | -0.4775 | |
0.01 | 0.002 | 0 | 0.00097 | 0.00303 | |
0.2 | 0.5 | 0.5 | 0.4775 | 0.5225 | |
0.5 | 1 | 0.5 | 0.94 | 1.06 | |
0.5 | 2 | 2 | 1.94 | 2.06 | |
1 | 5 | 5 | 4.875 | 5.125 |
DVM voltage accuracy (AC) | ||||
---|---|---|---|---|
All models | ||||
Channel 1 | ||||
Vertical Scale | Input Signal | Low limit | Test result | High limit |
5 mV | 20 mVpp at 1 kHz | 9.800 mV | 10.200 mV | |
10 mV | 50 mVpp at 1 kHz | 24.5 mV | 25.500 mV | |
100 mV | 0.5 Vpp at 1 kHz | 245.000 mV | 255.000 mV | |
200 mV | 1 Vpp at 1 kHz | 490.000 mV | 510.000 mV | |
1 V | 5 Vpp at 1 kHz | 2450.0 mV | 2550.0 mV | |
Channel 2 | ||||
Vertical Scale | Input Signal | Low limit | Test result | High limit |
5 mV | 20 mVpp at 1 kHz | 9.800 mV | 10.200 mV | |
10 mV | 50 mVpp at 1 kHz | 24.5 mV | 25.500 mV | |
100 mV | 0.5 Vpp at 1 kHz | 245.000 mV | 255.000 mV | |
200 mV | 1 Vpp at 1 kHz | 490.000 mV | 510.000 mV | |
1 V | 5 Vpp at 1 kHz | 2450.0 mV | 2550.0 mV | |
Channel 3 | ||||
Vertical Scale | Input Signal | Low limit | Test result | High limit |
5 mV | 20 mVpp at 1 kHz | 9.800 mV | 10.200 mV | |
10 mV | 50 mVpp at 1 kHz | 24.5 mV | 25.500 mV | |
100 mV | 0.5 Vpp at 1 kHz | 245.000 mV | 255.000 mV | |
200 mV | 1 Vpp at 1 kHz | 490.000 mV | 510.000 mV | |
1 V | 5 Vpp at 1 kHz | 2450.0 mV | 2550.0 mV | |
Channel 4 | ||||
Vertical Scale | Input Signal | Low limit | Test result | High limit |
5 mV | 20 mVpp at 1 kHz | 9.800 mV | 10.200 mV | |
10 mV | 50 mVpp at 1 kHz | 24.5 mV | 25.500 mV | |
100 mV | 0.5 Vpp at 1 kHz | 245.000 mV | 255.000 mV | |
200 mV | 1 Vpp at 1 kHz | 490.000 mV | 510.000 mV | |
1 V | 5 Vpp at 1 kHz | 2450.0 mV | 2550.0 mV | |
6 channel model | ||||
Channel 5 | ||||
Vertical Scale | Input Signal | Low limit | Test result | High limit |
5 mV | 20 mVpp at 1 kHz | 9.800 mV | 10.200 mV | |
10 mV | 50 mVpp at 1 kHz | 24.5 mV | 25.500 mV | |
100 mV | 0.5 Vpp at 1 kHz | 245.000 mV | 255.000 mV | |
200 mV | 1 Vpp at 1 kHz | 490.000 mV | 510.000 mV | |
1 V | 5 Vpp at 1 kHz | 2450.0 mV | 2550.0 mV | |
Channel 6 | ||||
Vertical Scale | Input Signal | Low limit | Test result | High limit |
5 mV | 20 mVpp at 1 kHz | 9.800 mV | 10.200 mV | |
10 mV | 50 mVpp at 1 kHz | 24.5 mV | 25.500 mV | |
100 mV | 0.5 Vpp at 1 kHz | 245.000 mV | 255.000 mV | |
200 mV | 1 Vpp at 1 kHz | 490.000 mV | 510.000 mV | |
1 V | 5 Vpp at 1 kHz | 2450.0 mV | 2550.0 mV |
Trigger frequency accuracy and trigger frequency counter maximum input frequency | ||||
---|---|---|---|---|
All models | ||||
Channel 1 | Hz | Low limit | Test result | High limit |
100 Hz | 99.99974 Hz | 100.00026 Hz | ||
1 kHz | 999.9974 Hz | 1.0000026 KHz | ||
10 kHz | 9.999974 KHz | 10.000026 kHz | ||
100 kHz | 99.99974 kHz | 100.00026 kHz | ||
1 MHz | 999.9974 kHz | 1.0000026 MHz | ||
10 MHz | 9.999974 MHz | 10.000026 MHz | ||
100 MHz | 99.99974 MHz | 100.00026 MHz | ||
1 GHz (1 GHz models only) | 999.9974 MHz | 1.0000026 GHz | ||
1.5 GHz (1.5 GHz models only) | 1.499994 GHz | 1.5000051 GHz | ||
Channel 2 | Hz | Low limit | Test result | High limit |
100 Hz | 99.99974 Hz | 100.00026 Hz | ||
1 kHz | 999.9974 Hz | 1.0000026 KHz | ||
10 kHz | 9.999974 KHz | 10.000026 kHz | ||
100 kHz | 99.99974 kHz | 100.00026 kHz | ||
1 MHz | 999.9974 kHz | 1.0000026 MHz | ||
10 MHz | 9.999974 MHz | 10.000026 MHz | ||
100 MHz | 99.99974 MHz | 100.00026 MHz | ||
1 GHz (1 GHz models only) | 999.9974 MHz | 1.0000026 GHz | ||
1.5 GHz (1.5 GHz models only) | 1.499994 GHz | 1.5000051 GHz | ||
Channel 3 | Hz | Low limit | Test result | High limit |
100 Hz | 99.99974 Hz | 100.00026 Hz | ||
1 kHz | 999.9974 Hz | 1.0000026 KHz | ||
10 kHz | 9.999974 KHz | 10.000026 kHz | ||
100 kHz | 99.99974 kHz | 100.00026 kHz | ||
1 MHz | 999.9974 kHz | 1.0000026 MHz | ||
10 MHz | 9.999974 MHz | 10.000026 MHz | ||
100 MHz | 99.99974 MHz | 100.00026 MHz | ||
1 GHz (1 GHz models only) | 999.9974 MHz | 1.0000026 GHz | ||
1.5 GHz (1.5 GHz models only) | 1.499994 GHz | 1.5000051 GHz | ||
Channel 4 | Hz | Low limit | Test result | High limit |
100 Hz | 99.99974 Hz | 100.00026 Hz | ||
1 kHz | 999.9974 Hz | 1.0000026 KHz | ||
10 kHz | 9.999974 KHz | 10.000026 kHz | ||
100 kHz | 99.99974 kHz | 100.00026 kHz | ||
1 MHz | 999.9974 kHz | 1.0000026 MHz | ||
10 MHz | 9.999974 MHz | 10.000026 MHz | ||
100 MHz | 99.99974 MHz | 100.00026 MHz | ||
1 GHz (1 GHz models only) | 999.9974 MHz | 1.0000026 GHz | ||
1.5 GHz (1.5 GHz models only) | 1.499994 GHz | 1.5000051 GHz | ||
Trigger frequency accuracy and trigger frequency counter maximum input frequency | ||||
6 channel model | ||||
Channel 5 | Hz | Low limit | Test result | High limit |
100 Hz | 99.99974 Hz | 100.00026 Hz | ||
1 kHz | 999.9974 Hz | 1.0000026 KHz | ||
10 kHz | 9.999974 KHz | 10.000026 kHz | ||
100 kHz | 99.99974 kHz | 100.00026 kHz | ||
1 MHz | 999.9974 kHz | 1.0000026 MHz | ||
10 MHz | 9.999974 MHz | 10.000026 MHz | ||
100 MHz | 99.99974 MHz | 100.00026 MHz | ||
1 GHz (1 GHz models only) | 999.9974 MHz | 1.0000026 GHz | ||
1.5 GHz (1.5 GHz models only) | 1.499994 GHz | 1.5000051 GHz | ||
Channel 6 | Hz | Low limit | Test result | High limit |
100 Hz | 99.99974 Hz | 100.00026 Hz | ||
1 kHz | 999.9974 Hz | 1.0000026 KHz | ||
10 kHz | 9.999974 KHz | 10.000026 kHz | ||
100 kHz | 99.99974 kHz | 100.00026 kHz | ||
1 MHz | 999.9974 kHz | 1.0000026 MHz | ||
10 MHz | 9.999974 MHz | 10.000026 MHz | ||
100 MHz | 99.99974 MHz | 100.00026 MHz | ||
1 GHz (1 GHz models only) | 999.9974 MHz | 1.0000026 GHz | ||
1.5 GHz (1.5 GHz models only) | 1.499994 GHz | 1.5000051 GHz |
AFG sine and ramp frequency accuracy | ||||
---|---|---|---|---|
Performance checks | ||||
Waveform type | Minimum | Test result | Maximum | |
Sine | 0.999950 MHz | 1.000050 MHz | ||
Ramp | 499.975 kHz | 500.025 kHz |
AFG square and pulse frequency accuracy | ||||
---|---|---|---|---|
Performance checks | ||||
Waveform type | Minimum | Test result | Maximum | |
Sine | 0.999950 MHz | 1.000050 MHz | ||
Pulse | 0.999950 MHz | 1.000050 MHz |
AFG signal amplitude accuracy | ||||
---|---|---|---|---|
Performance checks | ||||
Amplitude | Minimum | Test result | Maximum | |
30.0 mVPP | 28.55 mVPP | 31.45 mVPP | ||
300.0 mVPP | 294.5 mVPP | 305.5 mVPP | ||
800.0 mVPP | 787.0 mVPP | 813.0 mVPP | ||
1.500 VPP | 1.4765 VPP | 1.5235 VPP | ||
2.000 VPP | 1.9690 VPP | 2.0310 VPP | ||
2.500 VPP | 2.4615 VPP | 2.5385 VPP |
AFG DC offset accuracy | ||||
---|---|---|---|---|
Performance checks | ||||
Offset | Minimum | Test result | Maximum | |
1.25 V | 1.23025 Vdc | 1.26975 Vdc | ||
0 V | -0.001 Vdc | +0.001 Vdc | ||
-1.25 V | -1.26975 | -1.23025 Vdc |
Performance tests
This section contains a collection of manual procedures for checking that the instrument performs as warranted. They check all the characteristics that are designated as checked in Specifications. (The characteristics that are checked appear with a ✔ in Specifications).
Prerequisites
The tests in this section comprise an extensive, valid confirmation of performance and functionality when the following requirements are met:
- The instrument must be in its normal operating configuration (no covers removed).
- You must have performed and passed the procedures under Self Test. (See Self test on page 167.)
- A signal-path compensation must have been done within the recommended calibration interval and at a temperature within ±5 ºC (±9 ºF) of the present operating temperature. (If the temperature was within the limits just stated at the time you did the prerequisite Self Test, consider this prerequisite met). A signal-path compensation must have been done at an ambient humidity within 25% of the current ambient humidity and after having been at that humidity for at least 4 hours.
- The instrument must have been last adjusted at an ambient temperature between +18 ºC and +28 ºC (+64 ºF and +82 ºF), must have been operating for a warm-up period of at least 20 minutes, and must be operating at an ambient temperature as listed in the specifications. The warm-up requirement is usually met in the course of meeting the Self Test prerequisites listed above.
- The instrument must be powered from a source maintaining voltage and frequency within the limits described in the Specifications section.
- The instrument must be in an environment with temperature, altitude, humidity, and vibration within the operating limits described in the Specifications section.
Self test
This procedure verifies that the instrument passes the internal diagnostics and performs signal path compensation. No test equipment or hookups are required.
Equipment required | Prerequisites |
---|---|
None | Power on the instrument and allow a 20 minute warm-up period before performing this procedure. |
- Run the System Diagnostics (may take a few minutes).
- Disconnect all probes and/or cables from the oscilloscope inputs.
- Tap Utility > Self Test. This displays the Self Test configuration menu.
- Tap the Run Self Test button.
- The internal diagnostics perform an exhaustive verification of proper instrument function. This verification may take several minutes. When the verification is finished, the status of each self test is shown in the menu.
- Verify that the status of all tests is passed.
- Tap anywhere outside the menu to exit the menu.
- Run the signal-path compensation routine (may take 5 to 15 minutes per channel).
- Tap Utility > Calibration. This displays the Calibration configuration menu.
- Tap the Run SPC button to start the routine.
- Signal-path compensation may take 5 to 15 minutes to run per channel.
- Verify that the SPC Status is Passed.
- Return to regular service: Tap anywhere outside the menu to exit the Calibration menu.
The self test procedures are completed. If any of the above tests failed, run the tests again. If there are still failures, contact Tektronix Customer Support.
Note:You cannot run the remaining performance tests until the self tests pass and the SPC has successfully run.
|
Check input impedance
This test checks the input impedance on all channels.
- Connect the output of the oscilloscope calibrator (for example, Fluke 9500) to the oscilloscope channel 1 input, as shown in the following illustration. WARNING:Be sure to set the generator to Off or 0 volts before connecting, disconnecting, and/or moving the test hookup during the performance of this procedure. The generator is capable of providing dangerous voltages.Note:Impedance measuring equipment that produces a voltage across the channel that exceeds the measurement range of the instrument may report erroneous impedance results. A measurement voltage exceeds the measurement range of the instrument when the resulting trace is not visible on the graticule.
- Set the calibrator to measure 1 MΩ impedance.
- Tap File > Default Setup.
-
Test 1 MΩ input impedance.
- Tap the channel 1 button on the Settings bar.
- Double tap the Ch 1 badge to open its menu.
- Set Termination to 1 MΩ.
- Set the Vertical Scale to the value to test in the test record (first value is 10 mV/div).
- Use the calibrator to measure the input impedance of the oscilloscope and enter the value in the test record.
- Repeat steps 4.d and 5 for all vertical scale settings in the test record for the channel.
- Test 50 Ω input impedance as follows:
- Repeat the procedures for all remaining channels.
- Turn the calibrator output Off.
- Move the calibrator connection to the next channel to test.
- Double-tap the channel badge of the channel that you have finished testing and set Display to Off.
- Tap the channel button on the Settings bar of the next channel to test.
- Starting from step 2, repeat the procedures until all channels have been tested.
Check DC gain accuracy
This test checks the DC gain accuracy.
- Connect the oscilloscope to a calibrated DC voltage source. If you are using the Fluke 9500 calibrator, connect the calibrator head to the oscilloscope channel to test.
WARNING:Set the generator output to Off or 0 volts before connecting, disconnecting, and/or moving the test hookup during the performance of this procedure. The generator is capable of providing dangerous voltages. - Tap File > Default Setup.
- Double-tap the Acquisition badge and set Acquisition Mode to Average.
- Set the Number of Waveforms to 16.
- Tap outside the menu to close the menu.
- Double-tap the Trigger badge and set the trigger Source to AC line.
- Tap outside the menu to close it.
- Add the
Mean measurement to the Results bar:
- Tap the Add New... Measure button to open the Add Measurements menu.
- Set the Source to Ch 1.
- In the Amplitude Measurements panel, double-tap the Mean button to add the Mean measurement badge to the Results bar.
- Tap outside the menu to close it.
- Double-tap the Mean results badge.
- Tap Show Statistics in Badge.
- Tap FILTER/LIMIT RESULTS to open the panel.
- Tap Limit Measurement Population to toggle it to On.
- Tap outside the menu to close it.
- Tap the channel button of the channel to test, to add the channel badge to the Settings bar.
- Double tap the channel to test badge to open its menu and set the channel settings:
- Set Vertical Scale to 1 mV/div.
- Set Termination to 50 Ω.
- Tap Bandwidth Limit and set to 20 MHz.
- Tap outside the menu to close it.
- Record the negative-measured and positive-measured mean readings in the Expected gain worksheet as follows:
- On the calibrator, set the DC Voltage Source to the Vnegative value as listed in the 1 mV row of the worksheet.
- Double-tap the Acquisition badge and tap Clear to reset the measurement statistics.
- Enter the Mean reading in the worksheet as Vnegative-measured.
- On the calibrator, set the DC Voltage Source to Vpositive value as listed in the 1 mV row of the worksheet.
- Double-tap the Acquisition badge (if not open) and tap Clear.
- Enter the Mean reading in the worksheet as Vpositive-measured.
Table 1. Expected gain worksheet Oscilloscope vertical scale setting VdiffExpected Vnegative Vpositive Vnegative-measured Vpositive-measured Vdiff Test result (Gain accuracy) 1 mV/div 7 mV
-3.5 mV
+3.5 mV
2 mV/div 14 mV
-7 mV
+7 mV
5 mV/div 35 mV
-17.5 mV
+17.5 mV
10 mV/div 70 mV
-35 mV
+35 mV
20 mV/div 140 mV
-70 mV
+70 mV
50 mV/div 350 mV
-175 mV
+175 mV
100 mV/div 700 mV
-350 mV
+350 mV
200 mV/div 1400 mV
-700 mV
+700 mV
500 mV/div 3500 mV
-1750 mV
+1750 mV
1.0 V/div 7000 mV
-3500 mV
+3500 mV
20 mV/div at 250 MHz 140 mV
-70 mV
+70 mV
20 mV/div at Full BW 140 mV
-70 mV
+ 70 mV
- Calculate Gain Accuracy as follows:
- Calculate
V
diff
as follows:
V diff = | V negative-measured - V positive-measured |
- Enter V diff in the worksheet.
- Calculate
Gain Accuracy as follows:
Gain Accuracy = ((V diff - V diffExpected )/V diffExpected ) × 100%
- Enter the Gain Accuracy value in the worksheet and in the test record.
- Calculate
V
diff
as follows:
- Repeat steps 16 through 18 for all vertical scale settings in the work sheet and the test record.
- Repeat tests at 1 MΩ impedance as follows:
-
Repeat the procedure for all remaining channels:
- Set the calibrator to 0 volts and 50 Ω output impedance.
- Move the calibrator output to the next channel input to be tested.
- Double-tap the channel badge of the channel that you have finished testing and set Display to Off.
- Double-tap the Mean measurement badge.
- Tap the Configure panel.
- Tap the Source 1 field and select the next channel to test.
-
Starting from step16, set the values from the test record for the channel under test, and repeat the above steps until all channels have been tested.
- Touch outside a menu to close the menu.
Check DC offset accuracy
This test checks the offset accuracy at 50 Ω and 1 MΩ input impedance.
- Connect the oscilloscope to a calibrated DC voltage source. If you are using the Fluke 9500B calibrator as the DC voltage source, connect the calibrator head to the oscilloscope channel 1.
WARNING:Set the generator output to Off or 0 volts before connecting, disconnecting, or moving the test hookup during the performance of this procedure. The generator is capable of providing dangerous voltages. - Tap File > Default Setup.
- Double-tap the Acquisition badge and set Acquisition Mode to Average.
- Set the Number of Waveforms to 16.
- Tap outside the menu to close the menu.
- Double-tap the Trigger badge and set the trigger Source to AC line.
- Add the Mean measurement to the Results bar:
- Tap the Add New... Measure button to open the Add Measurements menu.
- Set the Source to Ch 1.
- In the Amplitude Measurements panel, double-tap the Mean button to add the Mean measurement badge to the Results bar.
- Tap outside the menu to close it.
- Double-tap the Mean results badge.
- Tap Show Statistics in Badge.
- Tap FILTER/LIMIT RESULTS to open the panel.
- Tap Limit Measurement Population to toggle it to On.
- Tap outside the menu to close it.
- Tap the channel button on the Settings bar to add the channel under test to the Settings bar.
- Double-tap the channel under test badge to open its configuration menu and change the vertical settings:
- Set Vertical Scale to 1 mV/div.
- Set Offset to 900 mV.
- Set Position to 0 by tapping Set to 0.
- Set Termination to 50 Ω.
- Tap Bandwidth Limit and set to 20 MHz.
- Tap outside the menu to close it.
- Set the calibrator output to +900 mV, as shown in the test record, and turn the calibrator output On.
- Enter the Mean measurement value in the test record.
- Double-tap the channel under test badge to open its configuration menu and change the Offset to -900 mV.
- Set the calibrator output to -900 mV, as shown in the test record.
- Enter the Mean measurement value in the test record.
- Repeat step 15 through 20, changing the channel vertical settings and the calibrator output as listed in the test record for the channel under test.
- Repeat the channel tests at 1 MΩ impedance.
- Set the calibrator output to Off or 0 volts.
- Change the calibrator impedance to 1 MΩ and voltage to +900 mV.
- Turn the calibrator output On.
- Repeat steps 15 through 20, changing the channel Termination to 1 MΩ and the vertical Offset value and the calibrator output as listed in the 1 MΩ test record for the channel under test.
- Repeat the procedure for all remaining channels.
- Double-tap the Mean measurement badge.
- Tap the Configure panel.
- Tap the Source 1 field and select the next channel to test.
- Set the calibrator to 0 volts and 50 Ω output impedance.
- Move the calibrator output to the next channel input to test.
- Double-tap the channel badge of the channel that you have finished testing and set Display to Off.
- Tap the channel button on the oscilloscope Settings bar of the next channel to test.
- Starting from step 2 , repeat the procedure until all channels have been tested.
Check analog bandwidth
This test checks the bandwidth at 50 Ω and 1 MΩ terminations for each channel. The typical bandwidth at 1 M Ω termination is checked on the products as a functional check.
- Connect the output of the calibrated leveled sine wave generator to the oscilloscope channel 1 input as shown in the following illustration.
WARNING:Set the generator to off or 0 volts before connecting, disconnecting, and/or moving the test hookup during the performance of this procedure. The generator is capable of providing dangerous voltages. - Tap File > Default Setup to reset the instrument and add the channel 1 badge and signal to the display.
- Add the peak-to-peak measurement.
- Tap the Add New. Measure button.
- Set the Source to the channel under test.
- In the Amplitude Measurements panel, double-tap the Peak-to-Peak measurement button to add the measurement badge to the Results bar.
- Tap outside the menu to close it.
- Double-tap the Peak-to-Peak results badge.
- Tap Show Statistics in Badge.
- Tap FILTER/LIMIT RESULTS to open the panel.
- Tap Limit Measurement Population to toggle it to On.
- Tap outside the menu to close it.
- Set the channel under test settings:
- Double-tap the badge of the channel under test to open its configuration menu.
- Set Vertical Scale to 1 mV/div.
- Set Termination to 50 Ω.
- Tap outside the menu to close it.
- Adjust the leveled sine wave signal source to display a waveform of 8 vertical divisions at the selected vertical scale with a set frequency of 10 MHz. For example, at 5 mV/div, use a ≥40 mVp-p signal; at 2 mV/div, use a ≥16 mVp-p signal. Note:At some V/div settings, the generator may not provide 8 vertical divisions of signal. Set the generator output to obtain as many vertical divisions of signal as possible.
- Double-tap the Horizontal badge in the Settings bar.
- Set the Horizontal Scale to 1 ms/division.
- Tap outside the menu to close it.
- Record the Peak-to-Peak measurement in the V in-pp entry of the test record.
- Double-tap the Horizontal badge in the Settings bar.
- Set the Horizontal Scale to 4 ns/division .
- Adjust the signal source to the maximum bandwidth frequency for the bandwidth and model being tested.
- Record the peak-to-peak measurement.
- Record the Peak-to-Peak measurement at the new frequency in the V bw-pp entry of the test record.
- Use the values of V
bw-pp and V
in-pp recorded in the test record, and the following equation, to calculate the Gain at bandwidth: Gain = Vbw-pp / Vin-pp.
To pass the performance measurement test, Gain should be ≥ 0.707. Enter Gain in the test record.
-
Repeat steps 4 through 14 for all combinations of Vertical Scale settings listed in the test record.
- Repeat the tests at 1 MΩ impedance.
- Repeat the test for all remaining channels.
- Set the calibrator to 0 volts and 50 Ω output impedance.
- Move the calibrator output to the next channel input to be tested.
- Double-tap the channel badge of the channel that you have finished testing and set Display to Off.
- Tap the channel button on the oscilloscope Settings bar of the next channel to test.
- Double-tap the Peak-to-Peak measurement badge.
- Tap the Configure panel.
- Tap the Source 1 field and select the next channel to test.
- Starting from step 4, repeat the procedure until all channels have been tested.
Check random noise
This test checks random noise at 1 M Ω and 50 Ω for each channel, in HiRes acquisition mode. You do not need to connect any test equipment to the oscilloscope for this test.
- Disconnect everything from the oscilloscope inputs.
- Tap File > Default Setup.
- Turn on HiRes Mode except for 1.5`GHz instruments. 1.5`GHz instruments must be tested in Sample mode.
- Add the AC RMS measurement:
- Tap the Add New... Measure button.
- Set the Source to the channel being tested.
- In the Amplitude Measurements panel, double-tap the AC RMS measurement button to add the measurement badge to the Results bar.
- Tap outside the menu to close it.
- Double-tap the AC RMS measurement badge and tap Show Statistics in Badge to display statistics in the measurement badge.
- Tap the Filter / Limit Results panel.
- Turn on Limit Measurement Population.
- Set the limit to 100.
- Tap outside the menu to close it.
- Set up the Horizontal mode:
- Double-tap the Horizontal setting badge.
- Set Horizontal Mode to Manual.
- Set the Sample Rate to 6.25 GS/s.
- Set the Record Length to 2 Mpts.
- Tap outside the menu to close it.
- Double-tap the Channel badge of the channel being tested.
- Set the Vertical Scale value to 1 mV.
- Check 1 M Ω termination.
- In the Channel badge menu, tap 1 M Ω termination.
- Tap the Bandwidth Limit field and select the highest frequency listed.
- Set the channel Position value to 340 mdivs.
- Once the measurement count (N) in the AC RMS measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Set the channel vertical Position value to 360 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Average the two values and record the result in the 1 mV/div > Full row of the 1 MΩ column of the Test Result record.
- In the channel badge menu, tap the Bandwidth Limit field and select 250 MHz.
- Set the channel vertical Position value to 340 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Set the channel vertical Position value to 360 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Average the two values and record the result in the 1 mV/div > 250MHz limit row of the 1 MΩ column of the Test Result record.
- Tap the Bandwidth Limit field and select 20 MHz.
- Set the channel vertical Position value to 340 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Set the channel vertical Position value to 360 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Average the two values and record the result in the 1 mV/div > 20MHz limit row of the 1 MΩ column of the Test Result record.
- Check 50 Ω termination.
- In the Channel badge, set Termination to 50 Ω.
- Tap the Bandwidth Limit field and select the highest frequency listed.
- Set the channel vertical Position value to 340 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Set the channel vertical Position value to 360 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Average the two values and record the result in the 1 mV/div > Full row of the 50 Ω column of the Test Result record.
- Tap the Bandwidth Limit field and select 250 MHz.
- Set the channel vertical Position value to 340 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Set the channel vertical Position value to 360 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Average the two values and record the result in the 1 mV/div > 250MHz limit row of the 50 Ω column of the Test Result record.
- Tap the Bandwidth Limit field and select 20 MHz.
- Set the channel vertical Position value to 340 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Set the channel vertical Position value to 360 mdivs.
- Once the measurement count (N) in the measurement badge reaches 100, record the AC RMS Mean value (the µ readout).
- Average the two values and record the result in the 1 mV/div > 20MHz limit row of the 50 Ω column of the Test Result record.
- Repeat 1 MΩ and 50 Ω tests at all V/div settings for the current channel.
- Repeat all tests for the remaining input channels.
- Double-tap the AC RMS measurement badge.
- Tap the Configure panel.
- Tap the Source 1 field and select the next channel to test.
- Double-tap the channel badge of the channel that you have finished testing and set Display to Off.
- Tap the channel button on the oscilloscope Settings bar of the next channel to test.
- Double-tap the channel badge for the channel being tested.
- Starting at step 7, repeat these procedures for each input channel.
Check long term sample rate
This test checks the sample rate and delay time accuracy (time base).
- Connect the output of a time mark generator to the oscilloscope channel 1 input using a 50 Ω cable, as shown in the following illustration.
WARNING:Set the generator output to off or 0 volts before connecting, disconnecting, and/or moving the test hookup during the performance of this procedure. The generator is capable of providing dangerous voltages. - Set the time mark generator period to 80 ms. Use a time mark waveform with a fast rising edge.
- If it is adjustable, set the time mark amplitude to approximately 2 VP-P.
- Tap File > Default Setup.
- Tap the channel 1 button on the Settings bar.
- Double-tap the Channel 1 badge to open its Configuration menu.
- Set Termination to 50 Ω.
- Set Vertical Scale to 500 mV.
- Set the Position value to center the time mark signal on the screen.
- Tap outside the menu area to close it.
- Double-tap the Horizontal settings badge.
- Set the Horizontal Scale to 100 ns/div.
- Tap outside the menu area to close it.
- Double-tap the Trigger settings badge.
- Set Source to the channel being tested.
- Set the Level as necessary for a triggered display.
- Tap outside the menu area to close it.
- Double-tap the Horizontal settings badge.
- Adjust the Position value to move the trigger point to the center of the screen.
- Turn Delay to On and set Position to 80 ms.
- Set the Horizontal Scale to 100 ns/div.
- Observe where the rising edge of the marker crosses the center horizontal graticule line. The rising edge should cross within ±2 divisions of the vertical center graticule. Enter the deviation in the test record. Note:A 2.5 x 10-6 time base error is 2 divisions of displacement.
Check digital threshold accuracy
This test checks the threshold accuracy of the TLP058 logic probe digital channels D0-D7 at 0 V and 25 °C, for all oscilloscope input channels.
Note:Threshold Accuracy is a function of the logic probe only. It is a typical specification. The Threshold Accuracy test checks the typical logic probe performance, and may be considered a functional check of the oscilloscope digital input.
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- Connect a TLP058 digital probe to channel 1.
- Connect the DC voltage source to digital channel D0. WARNING:Set the generator output to Off or 0 volts before connecting, disconnecting, or moving the test hookup during the performance of this procedure. The generator is capable of providing dangerous voltages.
If you are using the Fluke 9500 calibrator as the DC voltage source, connect the calibrator head to the digital channel D0, using the BNC-to-0.1 inch pin adapter listed in the Required equipment table. Be sure to connect channel D0 to both the corresponding signal pin and to a ground pin on the adapter.
- Tap File > Default Setup. This resets the instrument and adds the channel 1 badge and signal to the display.
- Display the digital channels and set the thresholds.
- Double-tap the badge of the channel under test on the Settings bar.
- Double-tap the Threshold field at the bottom of the menu and set the value to 0 V.
- Tap Set All Thresholds. All thresholds are now set for the 0 V threshold check.
- Tap outside the menu to close it.
- Double-tap the Horizontal badge in the Settings bar.
- Set the Horizontal Scale to 10 ns/div.
- Tap outside the menu to close it.
- Set the calibrator DC voltage output (Vs) to -400 mV.
- Wait 1 second. Verify that the logic level is low on D0.
- Increment Vs by +10 mV. Wait 1 second and check the logic level of the channel D0 signal display.
If the signal level is a logic low or is alternating between high and low, continue to increment Vs by +10 mV, wait 1 second, and check the logic level until the logic state is a steady high.
- Record this Vs value as Vs- for D0 of the test record.
- Double-tap the Trigger badge and set the Slope to Falling edge.
- Set the DC voltage source (Vs) to +400 mV.
- Wait 1 second. Verify that the logic level is high.
- Decrement Vs by -10 mV. Wait 1 second and check the logic level of the channel D0 signal display.
If the signal level is a logic high or is alternating between high and low, continue to decrement Vs by -10 mV, wait 1 second, and check the logic level until the logic state is a steady low.
- Record this Vs value as Vs+ for D0 of the test record.
- Find the average using this formula: VsAvg = (Vs- + Vs+)/2.
- Record the average as the test result for D0 in the test record. The test result should be between the low and high limits.
- Repeat the procedure for all remaining digital channels.
- Repeat the procedure for all remaining input channels.
- Move the TLP058 digital probe from channel 1 to channel 2.
- Set the generator output to 0 volts and Off.
- Repeat steps starting at 2 for the channel being tested (channel 2, channel 3, and so on).
Check AUX Out output voltage levels
This test checks the output voltage levels from the AUX Out connector.
- Use a 50 Ω cable to connect the AUX Out signal from the rear of the instrument to the channel 1 input of the same instrument, as shown in the following illustration.
- Tap File > Default Setup. This resets the instrument and adds the channel 1 badge and signal to the display.
- Double-tap the badge of the channel 1 badge to open its configuration menu.
- Set the Vertical Scale to 1 V/div.
- Tap outside the menu to close it.
- Double-tap the Horizontal badge in the Settings bar.
- Set the Horizontal Scale to 400 ns/div.
- Tap outside the menu to close it.
- Record the Maximum and Minimum measurements at 1 MΩ termination.
- Tap the Add New... Measure button.
- In the Amplitude Measurements panel, set the Source to Ch 1.
- Double-tap the Maximum button to add the measurement badge to the Results bar.
- Double-tap the Minimum button to add the measurement badge to the Results bar.
- Tap outside the menu to close it.
- Double-tap the Maximum results badge.
- Tap Show Statistics in Badge.
- Tap FILTER/LIMIT RESULTS to open the panel.
- Tap Limit Measurement Population to toggle it to On.
- Tap outside the menu to close it.
- Double-tap the Minimum results badge.
- Tap Show Statistics in Badge.
- Tap FILTER/LIMIT RESULTS to open the panel.
- Tap Limit Measurement Population to toggle it to On.
- Tap outside the menu to close it.
- Enter the Maximum and Minimum measurement readings in the 1 MΩ row of the test record.
- Record the Maximum and Minimum measurements at 50 Ω termination.
- Double-tap the Ch 1 badge to open its configuration menu.
- Set Termination to 50 Ω.
- Tap outside the menu to close it.
- Enter the Maximum and Minimum measurement readings in the 50 Ω row of the test record.
Check DVM voltage accuracy (DC)
This test checks the DC voltage accuracy of the Digital Volt Meter (DVM) option. The DVM option is available for free when you register the instrument at tek.com.
Procedure
Check DVM voltage accuracy (AC)
This test checks the AC voltage accuracy of the Digital Volt Meter (DVM) option. The DVM option is available for free when you register the instrument at tek.com.
Procedure
Check trigger frequency accuracy and maximum input frequency
This test checks trigger frequency counter accuracy. The trigger frequency counter is part of the free DVM and trigger frequency option that is available when you register the instrument at tek.com.
Procedure
Check AFG sine and ramp frequency accuracy
This test verifies the frequency accuracy of the arbitrary function generator. All output frequencies are derived from a single internally generated frequency. Only one frequency point of channel 1 is required to be checked.
- Connect a 50 Ω cable from the AFG Out connector to the frequency counter input as shown in the following figure.
- Tap File > Default Setup to set the instrument to the factory default settings.
- Tap the AFG button to open the AFG menu.
- Set the arbitrary function generator output as follows:
Select menu Setting Output On Waveform Type Sine Frequency 1.000000 MHz Amplitude 1.00 VPP - Turn on the frequency counter:
- Double-tap the Trigger badge to open its menu.
- Set the Source field to the input channel being tested.
- Tap the Set to 50% button to obtain a stable display.
- Tap the Mode & Holdoff panel to open the Mode & Holdoff configuration menu
- In the Mode & Holdoff menu, set the Trigger Frequency Counter to On. The trigger frequency readout is at the bottom of the Trigger badge.
- Tap outside the menu to close it.
- Check that the reading of the frequency counter is between 0.999950 MHz and 1.000050 MHz. Enter the value in the Test record.
- Set the arbitrary function generator output as follows:
Select menu Setting Waveform Type Ramp Frequency 500 kHz - Check that reading of the frequency counter is between 499.975 kHz and 500.025 kHz. Enter the value in the Test record.
Check AFG square and pulse frequency accuracy
This test verifies the frequency accuracy of the arbitrary function generator. All output frequencies are derived from a single internally generated frequency. Only one frequency point of channel 1 is required to be checked.
- Connect the arbitrary function generator to the frequency counter as shown in the following figure.
- Tap File > Default Setup to set the instrument to the factory default settings.
- Tap the AFG button to open the AFG menu.
- Set the arbitrary function generator as follows:
Select menu Setting Waveform Type Square Frequency 1.000000 MHz Amplitude 1.00 VPP Output On - Turn on the frequency counter:
- Double-tap the Trigger badge to open its menu.
- Set the Source field to the input channel being tested.
- Tap the Set to 50% button to obtain a stable display.
- Tap the Mode & Holdoff panel to open the Mode & Holdoff configuration menu
- In the Mode & Holdoff menu, set the Trigger Frequency Counter to On. The trigger frequency readout is at the bottom of the Trigger badge.
- Tap outside the menu to close it.
- Check that the frequency counter readout is between 0.999950 MHz and 1.00005 MHz. Enter the value in the Test record.
- Set up the arbitrary function generator as follows:
Select menu Setting Waveform Type Pulse - Check that reading of the frequency counter is between 0.999950 MHz and 1.000050 MHz. Enter the value in the Test record.
Check AFG signal amplitude accuracy
This test verifies the amplitude accuracy of the arbitrary function generator. All output amplitudes are derived from a combination of attenuators and 3 dB variable gain. Some amplitude points are checked. This test uses a 50 Ω terminator. It is necessary to know the accuracy of the 50 Ω terminator in advance of this amplitude test. This accuracy is used as a calibration factor.
- Connect the 50 Ω terminator to the DMM as shown in the following figure and measure the resistance value.
- Calculate the 50 Ω calibration factor (CF) from the reading value and record as follows:
Table 1. CF (Calibration Factor) = 1.414 × ((50 / Measurement Ω) + 1) Measurement (reading of the DMM) Calculated CF Examples:- For a measurement of 50.50 Ω, CF = 1.414 ( 50 / 50.50 + 1) = 2.814.
- For a measurement of 49.62 Ω, CF = 1.414 ( 50 / 49.62 + 1) = 2.839.
- Connect the arbitrary function generator output to the DMM as shown in the following figure. Be sure to connect the 50 Ω terminator to the AFG Out connector.
- Tap the AFG button and set up the arbitrary function generator output as follows:
Select menu Setting Waveform Type Sine Frequency 1.000000 kHz Amplitude 30 mVPP Load Impedance 50 Ω Output On - Measure the AC RMS voltage readout on the DMM.
- Multiply the DMM voltage by the calculated CF to get the corrected peak to peak voltage. Enter the resulting value in the Measurement field in the following table.
- Change the AFG output amplitude to the next value in the table.
- Repeat steps 5 through 7 for each amplitude value. Check that the peak to peak voltages are within the limits in the table below. Enter the values in the test record.
Waveform Type Frequency Amplitude Measurement Range Sine 1.000 kHz 30.0 mVPP 28.55 mVPP - 31.45 mVPP Sine 1.000 kHz 300.0 mVPP 294.5 mVPP - 305.5 mVPP Sine 1.000 kHz 800.0 mVPP 787.0 mVPP - 813.0 mVPP Sine 1.000 kHz 1.500 VPP 1.4765 VPP - 1.5235 VPP Sine 1.000 kHz 2.000 VPP 1.969 VPP - 2.031 VPP Sine 1.000 kHz 2.500 VPP 2.4615 VPP - 2.5385 VPP
Check AFG DC offset accuracy
This test verifies the DC offset accuracy of the arbitrary function generator. This test uses a 50 Ω terminator. It is necessary to know the accuracy of the 50 Ω terminator in advance of this test. This accuracy is used as a calibration factor.
- Connect the 50 Ω terminator to the DMM as shown in the following figure and measure the resistance value.
- Calculate the 50 Ω calibration factor (CF) from the reading value and record as follows:
Table 1. CF (Calibration Factor) = 0.5 × (( 50 / Measurement Ω) + 1) Measurement (reading of the DMM) Calculated CF
Examples:- For a measurement of 50.50 Ω, CF = 0.5 ( 50 / 50.50 + 1) = 0.9951.
- For a measurement of 49.62 Ω, CF = 0.5 ( 50 / 49.62 + 1) = 1.0038.
- Connect the arbitrary function generator output to the DMM as shown in the following figure. Be sure to connect the 50 Ω terminator to the arbitrary function generator AFG Output connector.
- Tap the AFG button and set up the arbitrary function generator as follows:
Select menu Setting Waveform Type DC Offset + 1.25 V Output On - Measure the voltage readout on the DMM.
- Multiply the DMM voltage by the calculated CF to get the corrected offset voltage. Enter the resulting value in the Measurement field in the following table.
Function Offset Measurement Range DC + 1.25 Vdc Vdc 1.23025 Vdc to 1.26975 Vdc DC 0.000 Vdc Vdc - 0.001 Vdc to + 0.001 Vdc DC - 1.25 Vdc Vdc -1.26975 Vdc to -1.23025 Vdc - Change the AFG output amplitude to the next value in the table, measure the voltage readout on the DMM, multiply the DMM readout by the calculated CF to get the corrected offset voltage, and enter the resulting value in the Measurement field in the table.
- Verify that the corrected offset measurements are within the range.
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