Tektronix MDO3104, MDO3102, MDO3054, MDO3052, MDO3034 Performance Verification

x

MDO3000 Series
Mixed Domain Oscilloscopes
Specifications and Performance Verification

ZZZ

Technical Reference

*P077097900*

077-0979-00

xx

MDO3000 Series
Mixed Domain Oscilloscopes
Specifications and Performance Verification

ZZZ

Technical Reference

Revision H June 2020

www.tek.com

077-0979-00

Copyright © Tektronix. All rights reserved. Licensed software products are owned by Tektronix or its subsidiaries or suppliers, and are
protected by na

tional copyright laws and international treaty provisions.

Tektronix pro
previously published material. Specifications and price change privileges reserved.

TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.

ducts are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes that in all

Contacting Tektronix

Tektronix, Inc.
14150 SW Karl Braun Drive
P.O. Box 500
Beaverton, OR 97077
USA

For p roduct information, sales, service, and technical support:

In North America, call 1-800-833-9200.
Worldwide, visit www.tek.com to find contacts in your area.

Table of Contents

General safety summary ....... . . . . . . ...... . . . . . . . ........ . . . . . ........ . . . . . . ........ . . . . . ........ . . . . . . ........ . . . . . ........ . . . . . . . . . iii

Specifications .......................................................................................................................... 1

Analog Channel Input And Vertical Specifications.............................................................................. 1

Digital Channel Acquisition System Specifications............................................................................ 10

Horizontal And Acquisition System Specifications............................................................................. 11

Sample Rate Range ..... . . . . . . . ....... . . . . . . ........ . . . . . . ....... . . . . . . ........ . . . . . . ....... . . . . . . ........ . . . . . . ....... . . . . . . .. 13

Trigger Specifications ........................................................................................................... 17

Display Specifications........................................................................................................... 24

Input/Output Port Specifications................................................................................................ 24

Power Source Specifications................................................................................................... 25

Data Storage Specifications.................................................................................................... 25

Environmental Specifications................................................................................................... 25

Mechanical Specifications ...................................................................................................... 26

P6316 Digital Probe Input Characteristics . . .......... . . . . . . . . . . . ............ . . . . . . . . . . . ............ . . . . . . . . . . ............ . . . . . 26

RF Input Specifications ......................................................................................................... 27

Arbitrary Function Generator Features ....... . . . . . . ....... . . . . . . . ...... . . . . . . ........ . . . . . . ...... . . . . . . . ........ . . . . . ........ . . 30

Arbitrary Function Generator Characteristics . . . . . ........ . . . . . . . ........ . . . . . . . ........ . . . . . . . ........ . . . . . . . . ......... . . . . . . . 31

Digital Voltmeter/Counter . . . ........ . . . . . . ........ . . . . . . . ........ . . . . . ......... . . . . . ....... . . . . . . . . ........ . . . . . . ........ . . . . . . . 32

Performance Verification ............................................................................................................. 33

Upgrade the Firmware ......................................................................................................... 34

Test Record ..................................................................................................................... 35

Input Termination Tests... . . . . . . . ......... . . . . . . ....... . . . . . . ....... . . . . . . . ......... . . . . . . ....... . . . . . . ....... . . . . . . . ...... 36

DC Balance Tests.......................................................................................................... 38

Analog Bandwidth Tests, 50  ............................................................................................ 44

DC GainAccuracy Tests .................................................................................................. 45

DC Offset Accuracy Tests................................................................................................. 47

Sample Rateand Delay Time Accuracy.................................................................................. 49

Random Noise, Sample Acquisition Mode Tests....... . . . . . ....... . . . . . . ....... . . . . . . ........ . . . . . ........ . . . . . . ...... . . 50

Delta Time Measurement Accuracy Tests (MDO301X and MDO302X models) . . . . . ...... . . . . . . ...... . . . . . . ...... . . . . . 52

Delta Time Measurement Accuracy Tests (MD

a Time Measurement Accuracy Tests (MDO310X models) . ........ . . . . . ........ . . . . . . ...... . . . . . . ...... . . . . . . ..... 60

Delt

Digital Threshold Accuracy Tests (with MDO3MSO option) ............................................................. 66

Displayed Average Noise Level Tests (DANL) ........................................................................... 67

Residual Spurious Response Tests. . . . ........ . . . . . . ....... . . . . . . ....... . . . . . . . ....... . . . . . . ....... . . . . . . . ....... . . . . . . . . 67

Level Measurement UncertaintyTests.................................................................................... 68

Functional check with a TPA-N-PRE Preamp Attached . . . . ....... . . . . . . ....... . . . . . . ........ . . . . . ........ . . . . . . ...... . . 68

Displayed Average Noise Level (DANL) with a TPA-N-PRE Preamp Attached......................................... 69

Auxiliary (Trigger) Output Tests . . . . ....... . . . . . . ........ . . . . . . ....... . . . . . . ........ . . . . . . ....... . . . . . . ....... . . . . . . . ...... 69

AFG Sine and Ramp Frequency Accuracy Tests ...... . . . . . ....... . . . . . . . ...... . . . . . . ........ . . . . . . ...... . . . . . . . ........ 69

AFG Square and P ulse Frequency Accuracy Tests. . ....... . . . . . . . ...... . . . . . . . ........ . . . . . ....... . . . . . . . ...... . . . . . . .. 70

AFG Signal Amplitude Accuracy Tests . . . . ....... . . . . . . . ........ . . . . . . ....... . . . . . . ......... . . . . . . ........ . . . . . . ......... 70

AFG DC OffsetAccuracy Tests ........................................................................................... 70

Table of Content

O303X and MDO305X models) . ...... . . . . . . . ...... . . . . . . ........ . . . . . . 56

s

MDO3000 Series Specifications and Performance Verification i

Table of Content

s

DVM Voltage Accuracy Tests (DC) ....................................................................................... 71

DVM Voltage Acc

DVM Frequency Accuracy Tests and Maximum Input Frequency . . ........ . . . . . ....... . . . . . . ........ . . . . . ........ . . . . . . 74

Performance Verification Procedures . . . ....... . . . . . . ........ . . . . . . ....... . . . . . . ........ . . . . . . ...... . . . . . . . ........ . . . . . ....... 75

Self Tests — Sy

Check Input Termination, DC Coupled (Resistance)... . . . . . . . ...... . . . . . . ........ . . . . . ...... . . . . . . . ...... . . . . . . ....... . . 77

Check DC Balance ........................................................................................................ 78

Check Analog

Check DC Gain Accuracy ................................................................................................. 83

Check Long-term Sample Rate and Delay Time Accuracy ... . . . . . . ........ . . . . . . ...... . . . . . . . ...... . . . . . . ........ . . . . . . 89

Check Rando

Check Delta TimeMeasurement Accuracy............................................................................... 91

Check Digital Threshold Accuracy (with MDO3MSO option) ............................................................ 93

Check Disp

Check Residual Spurious Response . . ....... . . . . . ........ . . . . . ....... . . . . . ...... . . . . . . . ....... . . . . . ...... . . . . . . . ....... . 99

Check LevelMeasurementUncertainty ................................................................................ 101

Function

Check Displayed Average Noise Level (DANL) with a TPA-N-PRE Attached: . . ...... . . . . . . ...... . . . . . . ....... . . . . . . 108

Check Auxiliary Output.................................................................................................. 113

Check AFG

Check AFG Square and Pulse Frequency Accuracy . . . ...... . . . . . . ...... . . . . . . ...... . . . . . . ........ . . . . . ...... . . . . . . .. 115

Check AFG Signal Amplitude Accuracy . . ........ . . . . . ...... . . . . . . ........ . . . . . . ...... . . . . . . ...... . . . . . . ...... . . . . . . ... 116

Check AF

Check DVM Voltage Accuracy(DC) .................................................................................... 118

Check DVM Voltage Accuracy(AC) .................................................................................... 120

Check D

al Check of the MDO3000 with a TPA-N-PRE Attached to its RF Input . ........ . . . . . ........ . . . . . . ...... . . . 105

VM Frequency Accuracy and Maximum Input Frequency . . . . ........ . . . . . . ........ . . . . . ........ . . . . . . ...... 121

uracy Tests (AC)........................................................................................ 73

stem Diagnostics and Signal Path C ompensation..... . . . . . . . ...... . . . . . . . ........ . . . . . . ........ . . . . . .. 75

Bandwidth, 50 ........................................................................................... 80

m Noise, Sample Acquisition Mode........................................................................ 90

layed AverageNoise Level (DANL) .......................................................................... 96

Sine and Ramp Frequency . . . . . ........ . . . . ........ . . . . ........ . . . . . ....... . . . . . ....... . . . . . ...... . . . . . ... 114

G DC Offset Accuracy ........................................................................................ 117

ii MDO3000 Series Specifications and Performance Verification

General safety s

ummary

General safet

Review the following safety precautions to avoid injury a nd prevent damage to this product or any products connected to it.

To avoid potential hazards, use this product only as s pecified.

Only qualified personnel should perform service procedures.

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.

To avoid fire or personal injury

Use p roper power cord. Use only the power cord specified for this product and certified for the country of use.

Connect and disconnect properly. Do not connect or disconnect probes or test leads while they are connected

to a voltag

Connect a

probe.

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 m aking connections to the input or output
termina

Observe

product manual for further ratings information before making connections to the product.

e source.

nd disconnect properly.

ls of the product, ensure that the product is properly grounded.

all terminal ratings.

y summary

De-energize the circuit under test before connecting or disconnecting the current

To avoid fire or shock hazard, observe all ratings and markings on the product. Consult the

Connect the probe reference lead to earth ground only.

Do not apply a potential to any terminal, including the common terminal, that exceeds the maximum rating of that terminal.

Power disconnect. The power cord disconnects the product from the power source. Do not block the power cord; it

must remain accessible to the user at all times.

Do not operate without covers. Do not operate this product with covers or panels removed.

Do not operate with suspected failures. If you suspect that there is damage to this product, have it inspected by

fied service personnel.

quali

exposed circuitry.

Avoid

Do not touch exposed connections and components when power is present.

Do not operate in wet/damp conditions.

Do not operate in an explosive atmosphere.

Keep product surfaces clean and dry.

vide proper ventilation.

Pro

proper ventilation.

Refer to the manual's installation instructions for details on installing the product so it has

MDO3000 Series Specifications and Performance Verification iii

General safety s

Termsinthismanual

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.

Symbols and terms on the product

These terms may appear on the product:

DANGER indicates an injury hazard immediately accessible as you read the m arking.

WARNING indicates an injury hazard not immediately accessible as you read the marking.

CAUTION indicates a hazard to property including the product.

The following symbol(s) may appear on the product:

ummary

iv MDO3000 Series Specifications and Performance Verification

Specifications

Specification

This chapter contains specifications for the MDO3000 Series oscilloscopes. All specifications are guaranteed unless noted
as "typical." Typical specifications are provided for your convenience but are not guaranteed. Specifications that are marked
with the

All specifications apply to all MDO3000 models unless noted otherwise. To meet specifications, two conditions must
first be met:

The o sc illos cope must have been operating continuously for twenty minutes within the operating temperature range
specified.

You must perform the S ignal Path Compensation (SPC) operation described in this manual prior to evaluating
specifications. (See page 75.) If the operating temperature changes by more than 10 °C (18 °F), you must perform
the SPC operation again.

s

symbol have associated procedures listed in the Performance Verification section.

Analog Channel Input And Vertical Specifications

Table 1: Analog channel input and vertical specifications

Characteristic Description

Number of input channels

MDO3104, MDO3054, MDO3034, MDO3024,
MDO3014

MDO3102, MDO3052, MDO3032, MDO3022,
MDO3012

4 analog, digitized simultaneously

2 analog, digitized simultaneously

Input coupling

Input termination selection

Input termination,

1M, DC coupled

DC, AC

1M,50,or75.
The 7 5  setting is not available on MDO310X instruments.

1M,±1%

MDO3000 Series Specifications and Performance Verification 1

Specifications

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Input termination,

50 , DC coupl

ed

(See page 77.)

Input termination,

75 , DC coupled

age 77.)

(See p

Maximum input voltage
(50  and 75 )

50 ,±1%

For instruments with 1 GHz bandwidth

VSWR  1.5:1 from DC to 1 GHz, typical

(includes MDO310X models as well as
MDO305X/303X/302X/301X models with 1 GHz
upgrade):

For instruments with 500 MHz bandwidth
(includes MDO305X models as well as

VSWR  1.5:1 from DC to 500 MHz,

typical
MDO303X/302X/301X models with 500 MHz
upgrade):

For instruments with 350 MHz bandwidth
(includes MDO303X models as well as

VSWR  1.5:1 from DC to 350 MHz,

typical
MDO302X/301X models with 350 MHz upgrade):

For instruments with 200 MHz bandwidth
(includes MDO302X models as well as

VSWR  1.5:1 from DC to 200 MHz,

typical
MDO301X models with 200 MHz upgrade):

For instruments with 100 MHz bandwidth
(MDO301X models):

VSWR  1.5:1 from DC to 100 MHz,

typical

75 ,±1%

VSWR  1.3:1fromDCto30MHz,typical

VSWR  1.5:1 from 30 MHz to 60 MHz, typical

with peaks  ±20 V, (DF<=6.25%)

5V

RMS

There is an over-voltage trip circuit, intended to protect against overloads that might damage
termination resistors. A sufficiently large impulse can cause damage regardless of the over-voltage
protection circuitry, due to the finite time required to detect the over-voltage condition and respond
to it.

Maximum input voltage
(1 M)

The m aximum input voltage at the BNC, 300 V

Installation Category II.

RMS

.

De-rate at 20 dB/decade between 4.5 MHz and 45 MHz, De-rate 14 db between 45 MHz and
450 MHz. Above 450 MHz, 5 V

RMS

.

Maximum peak input voltage at the BNC, ±424 V

2 MDO3000 Series Specifications and Performance Verification

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Specifications

DC balance

(See page 78.)

Delay between channels,
full bandwidth, typical

Deskew range –125 ns to +125 ns

Crosstalk (channel
isolation), typical

TekVPI Interface The probe interface allows installing, powering, compensating, and controlling a wide range of

0.2 div with the input DC-50 coupled and 50  terminated

0.25 div at 2 mV/div with the input DC-50  coupled and 50  terminated

0.5 div at 1 mV/div with the input DC-50  coupled and 50  terminated

0.2 div with the input DC-75  coupled and 75  terminated

0.25 div at 2 mV/div with the input DC-75  coupled and 75  terminated

0.5 div at 1 mV/div with input DC-75  coupled and 75  terminated

0.2 div with the input DC-1 M coupled and 50  terminated

0.3 div at 1 mV/div w ith the input DC-1 M coupled and 50  terminated

All the above specifications are increased by 0.01 divisions per °C above 40 °C.

 100 ps between any two channels w ith input termination set to 50 , DC coupling
 100 ps between any two channels w ith input termination set to 75 , DC coupling

Note: all settings in the instrument can be manually time aligned using the Probe Deskew function

100 MHz >100 MHz

1M

50 

75 

probes offering a variety of features.

The interface is available on CH1-CH4 front panel inputs. Aux In is available on the front of
two-channel instrument only and is fully VPI compliant. Four-channel instruments have no Aux In
input.

100:1 30:1

100:1 30:1

100:1 30:1

Number of digitized bits

Sensitivity range (fine) Allows continuous adjustment from 1 mV/div to 10 V/div, 1 M

Sensitivity resolution
(fine), typical

Position range ±5 divisions

MDO3000 Series Specifications and Performance Verification 3

8bits

Displayed vertically with 25 digitization levels (DL) per division, 10.24 divisions dynamic range

"DL" is the abbreviation for "digitization level." A DL is the smallest voltage level change that can
be resolved by an 8-bit A-D Converter. This value is also known as the LSB (least significant bit).

1M: 1 mV/div to 10 V/div in a 1-2-5 sequenceSensitivity range (coarse)

50  and
75 :

Allows continuous adjustment from 1 mV/div to 1 V/div, 75 
Allows continuous adjustment from 1 mV/div to 1 V/div, 50 

 1% of current setting

1 m V/div to 1 V/div in a 1-2-5 sequence

Specifications

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Analog bandwidth,

50  input ter
(See page 80.)

Analog bandwidth, 75 
input termination, typical

mination

The limits stated below 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
Bandwidth

1.00 GHz DC to 1.0 GHz DC to 500 MHz DC to 350 MHz DC to 150 MHz

500 MHz

350 MHz

200 MHz

100 MHz

The limits stated below 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
Bandwidth

500 MHz,
350 MHz,
and 200 MHz

100 MHz

10 mV/div to
1V/div

DC to 500 MHz DC to 350 MHz DC to 150 MHz

DC to 350 MHz DC to 350 MHz DC to 150 MHz

DC to 200 MHz DC to 150 MHz

DC to 100 MHz

10 mV/div to
1V/div

DC to 200 MHz DC to 140 MHz DC to 100 MHz

DC to 100 MHz

5 m V/div to

9.98 mV/div

5 m V/div to

9.98 mV/div

Vertical Scale Setting

2 mV/div to

4.98 mV/div

Vertical Scale Setting

2 mV/div to

4.98 mV/div

1 mV/div to

1.99 mV/div

1 mV/div to

1.99 mV/div

Analog bandwidth, 1 M
input termination. The
Analog Bandwidth when
the instrument is DC-1M
coupled, typical

The limits stated below 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
Bandwidth

1GHz,
500 MHz, or
350 MHz

200 MHz

100 MHz

Vertical Scale Setting

2mV/divto
10 V/div

DC to 350 MHz DC to 150 MHz

DC to 200 MHz DC to 150 MHz

DC to 100 MHz

1 m V/div to

1.99 mV/div

4 MDO3000 Series Specifications and Performance Verification

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Specifications

Analog Bandwidth, 1 M
with Standard Probe,
typical

Calculated rise time,
typical

The limits stated below 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
Bandwidth

1 G Hz DC to 1.00 GHz DC to 400 MHz DC to 250 MHz DC to 150 MHz

500 MHz

350 MHz

200 MHz

100 MHz

The formula is calculated by measuring –3 dB bandw idth of the oscilloscope. The formula accounts
for the rise time contribution of the oscilloscope independent of the rise time of the signal source.

All values in the above table are in pS. 1 GHz BW models assume the TPP1000 probe. 500 MHz
and 350 MHz models assume the TPP0500B probe. 200 MHz and 100 MHz models assume
the TPP0250 probe.

Instrument
Bandwidth

1GHz

Vertical Scale Setting

100 mV/div to
100 V/div

DC to 500 MHz DC to 400 MHz DC to 250 MHz DC to 150 MHz

DC to 350 MHz DC to 250 MHz DC to 150 MHz

DC to 200 MHz DC to 150 MHz

DC to 100 MHz

1 mV/div to

1.99 mV/div

2,666 ps 1,333 ps 800 ps 400 ps

50 mV/div to

99.8 mV/div

Vertical Scale Setting (50 )

2 m V/div to

4.98 mV/div

20 mV/div to

49.8 mV/div

5mV/divto

9.98 mV/div

10 mV/div to

19.9 mV/div

10 mV/div to 1 V/div

Analog bandwidth limit
filter selections

500 MHz 2,666 ps 1,333 ps 800 ps 800 ps

350 MHz 2,666 ps 1,333 ps 1,143 ps 1,143 ps

200 MHz 2,666 ps 2,000 ps 2,000 ps 2,000 ps

100 MHz 4,000 ps 4,000 ps 4,000 ps 4,000 ps

Instrument
Bandwidth

1GHz

500 MHz 2,666 ps 1,600 ps 1,000 ps 800 ps

350 MHz 2,666 ps 1,600 ps 1,143 ps 1,143 ps

200 MHz 2,666 ps 2,000 ps 2,000 ps 2,000 ps

100 MHz 4,000 ps 4,000 ps 4,000 ps 4,000 ps

For instruments w ith 1 GHz, 500 MHz or 350 MHz analog bandwidth: 20 MHz, 250 MHz, and Full

For instruments with 200 MHz and 100 MHz analog bandwidth: 20 MHz and Full

10 mV to

19.9 m V

2,666 ps 1,600 ps 1,000 ps 400 ps

Vertical Scale Setting (TPPXXX0 probe)

20 mV to 49.8 mV 50 mV to 99.8 mV 100 mV to 100 V

MDO3000 Series Specifications and Performance Verification 5

Specifications

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Lower frequency limit, AC
coupled, typical

Upper frequency limit,
250 MHz bandwidth limit
filter, typical

Upper frequency limit,
20 MHz bandwidth limit
filter, typical

DC gain accuracy

(See pag

DC voltage
measurement accuracy

e 83.)

Sample
acquisition mode,
typical

< 10 Hz when AC to 1 M coupled

The AC coupled lower frequency limits are reduced by a factor of 10 when 10X passive probes
are used.

250 MHz, +25%, and –25% (all models, except 100 MHz and 200 MHz)

20 MHz, ±25% (all models)

±2.5% for 1 mV/Div, derated at 0.100%/°C above 30 °C

±2.0% for 2 mV/Div, derated at 0.100%/°C above 30 °C

±1.5% for 5 mV/Div and above, derated at 0.100%/°C above 30 °C

±3.0% Variable Gain, derated at 0.100%/°C above 30 °C

Measurement type

Any sample

Delta volts between any two
samples acquired with the
same oscilloscope setup and
ambient conditions

DC Accuracy (in volts)

±[DC gain accuracy X | reading – (offset – position) |
+ Offset Accuracy +0.15 div + 0.6 mV]

±[DC gain accuracy X | reading | + 0.15 div + 1.2 mV]

Average
acquisition mode

NOTE. Offset, position, and the constant offset term must be converted to volts by multiplying by

the appropriate volts/div term.

Average of  16 waveforms ±[DC gain accuracy X | reading – (offset – position) |

+ Offset Accuracy + 0.1 div]

Delta volts between any two
averages of  16 waveforms
acquired with the same
oscilloscope setup and ambient
conditions

NOTE. Offset, position, and the constant offset term must be converted to volts by multiplying by

the appropriate volts/div term.

NOTE. The basic accuracy specification applies directly to any sample and to the following

measurements: High, Low, Max, Min, Mean, Cycle Mean, RMS, and Cycle RMS. The delta volt
accuracy specification applies to subtractive calculations involving two of these measurements.

The delta volts (difference voltage) accuracy specification applies directly to the following
measurements: Positive Overshoot, Negative Overshoot, P eak-P eak, and Amplitude.

±[DC gain accuracy X | reading | + 0.05 div]

6 MDO3000 Series Specifications and Performance Verification

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Specifications

Offset ranges

Offset accuracy

(See page 87.)

Offset rangeVolts/div

setting

1 mV/div to

1MΩ input 50 Ω and 75 Ω input

±1 V ±1 V

50 mV/div

50.5 mV/div

±0.5 V ±0.5 V

to

99.5 mV/div

100 mV/div

±10 V ±5 V
to
500 mV/div

505 mV/div

±5 V ±5 V
to
995 mV/div

1 V/div to

±100 V ±5 V
10 V/div

1

NOTE. The i nput signal cannot exceed the maximum input voltage for the 50 Ω and 75 Ω input

paths. Refer to the Maximum input voltage specifications (earlier in this table) for more information.

±[0.005 X | offset - position | + DC Balance]

NOTE. Both the position and constant offset term must be converted to volts by multiplying by the

appropriate volts/div term.

Random noise,

sample acquisition mode,

 termination setting

50

50, RMS, unit in m V

(See page 90.) MDO31xx MDO305x MDO303x MDO302x MDO301x

1 mV, Full BW 0.21 0.2 0.2 0.2 0.19

mV, Full BW

2

.33

0

.27

0

.25

0

.23

0

.21

0

5 mV, Full BW 0.55 0.36 0.36 0.3 0.3

10 mV, Full BW 0.7 0.5 0.5 0.45 0.45

20 mV, Full BW 1 0.9 0.9 0.9 0.9

50 mV, Full BW 3 2.75 2.75 2.75 2.25

100 mV, Full BW 4.5 4.15 4.15 4.15 4.15

200 mV, Full BW 9 8.15 8.15 8.15 8.15

500 mV, Full BW 21 20 20 20 20

1V,FullBW 40 40 40 40 40

MDO3000 Series Specifications and Performance Verification 7

Specifications

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

1 mV, 250 MHzBW0.21 0.2 0.2

——

2 mV, 250 MHzBW0.25 0.23 0.23

5 mV, 250 MHzBW0.35 0.3 0.3

10 mV, 250 MHzBW0.5 0.5 0.5

20 mV, 250 MHzBW11 1

50 mV, 250 MHzBW2.75 2.75 2.75

100 mV, 250 MHzBW4.15 4.15 4.15

200 mV, 250 MHzBW10 10 10

500 mV, 250 MHzBW20 20 20

1 V, 250 MHz BW 40 40 40

1 mV, 20 MHz BW 0.12 0.12 0.12 0.12 0.12

2 mV, 20 MHz BW 0.15 0.15 0.15 0.15 0.15

5 mV, 20 MHz BW 0.25 0.25 0.25 0.25 0.25

——

——

——

——

——

——

——

——

——

10 mV, 20 MHzBW0.45 0.4 0.4 0.4 0.4

20 mV, 20 MHzBW0.8 0.75 0.75 0.75 0.75

50 mV, 20 MHzBW2.1 2.1 2.1 2.1 2.1

100 mV, 20 MHzBW4.1 4.1 4.1 4.1 4.1

200 mV, 20 MHzBW88 8 8 8

500 mV, 20 MHzBW20 20 20 20 20

1 V, 20 MHz BW 40 40 40 40 40

8 MDO3000 Series Specifications and Performance Verification

Table 1: Analog channel input and vertical specifications (cont.)

Characteristic Description

Specifications

Random noise, sample

Typical, 50,RMS

acquisition mode, 50 
termination setting, typical MDO31xx MDO 305x MDO303x MDO302x MDO301x

1 mV, Full BW 0.179 0.178 0.169 0.178 0.162

100 mV, Full BW 2.4 2.05 1.98 1.94 1.88

1 V, Full BW 24.67 20.99 20.03 19.41 18.8

1

For 50  and 75 path, 1 V/div is the maximum vertical setting.

MDO3000 Series Specifications and Performance Verification 9

Specifications

Digital Channel Acquisition System Specifications

Table 2: Digital channel acquisition system specifications

Characterist

Threshold voltage range –15 V to +25 V

Digital channel timing resolution

Threshold accuracy (See page 93.)

Minimum detectable pulse 2.0 ns

Channel to channel skew (typical)

ic

Description

Minimum: 2 ns

Minimum: 121.2 ps for MagniVu memory

± [100 mV + 3%

Using MagniVu memory. Specified at the input to the P6316 probe with all
eight ground inputs connected to the user's ground. Use of lead sets, grabber
clips, ground extenders, or other connection accessories may compromise this
specification.

500 ps

Digital Channel to Digital Channel only

This is the propagation path skew, and ignores skew contributions due to
bandpass distortion, threshold inaccuracies (see Threshold Accuracy), and
sample binning (see Digital Channel Timing Resolution).

for the main memory

of threshold setting after calibration], after valid S PC

10 MDO3000 Series Specifications and Performance Verification

Horizontal And Acquisition System Specifications

Table 3: Horizontal and acquisition system specifications

Specifications

Characterist

Long-term sample rate and delay

ic

Description

±10 ppm over any  1 ms time i nterval

time accuracy (See page 89.)

Seconds/division range MDO30XX models: 1 ns/div to 1000 sec/div

MDO310X models: 400 ps/div to 1000 sec/div

Peak detect or
envelope mode pulse response, typical

Instrument Minimum pulse width

Models at 1 GHz BW

>1.5ns

Models at 500 MHz BW > 2.0 ns

Models at 350 MHz BW > 3.0 ns

Models at 200 MHz BW > 5.0 ns

Models at 100 MHz BW > 7.0 ns

Sample-rate range See Sample Rate Range detail table. (See page 13.)

Record length range 1K, 10K, 100K, 1M, 5M, 10M

Maximum triggered acquisition rate 1 and 2 channels 3 and 4 channels

Bandwidth FastAcq

1GHz

> 280,000

DPO

> 80,000 wfm/sec > 230,000 wfm/sec > 50,000 wfm/sec

FastAcq

wfm/sec

<1GHz

> 230,000

> 50,000 wfm/sec > 230,000 wfm/sec > 50,000 wfm/sec

wfm/sec

Aperture uncertainty, typical
(also called “sample rate jitter”)

 (5ps+1×10

Record duration = (Record Length) / (Sample Rate)

-6

X record duration)

, for records having duration  1 minute

RMS

DPO

Number of waveforms for average
acquisition mode

Delta time measurement accuracy

e page 91.)

(Se

2 to 512 waveforms

Default of 16 waveforms

The formula to calculate delta-time measurement accuracy (DTA) for a given
instrument setting and input signal is given below (assumes insignificant signal
content above Nyquist).

SR1=SlewRate(1stEdge) around the 1stpoint in the measurement

SR

=SlewRate(2ndEdge) around the 2ndpoint in the measurement

2

N = input-referred noise (volts

, refer to the Random Noise, Sample acquisition

rms

mode specification)

t

=1/(SampleRate)

sr

TBA = timebase accuracy (refer to the Long-term sample rate and delay time
accuracy specification above)

t

= delta-time measurement duration

p

RD = ( Record Length) / (Sample Rate)

MDO3000 Series Specifications and Performance Verification 11

Specifications

Table 3: Horizontal and acquisition system specifications (cont.)

Assumes that error due to aliasing is insignificant.

The term under the square-root sign is the stability, and is related to the TIE
(Time Int
measurement. The second term is a result of both the absolute center-frequency
accuracy and the center-frequency stability of the timebase, and varies between
multiple
from the first single-shot measurement to the final single-shot measurement).

erval Error). The errors from this term occur throughout a single-shot

single-shot measurements over the observation interval (the amount of time

12 MDO3000 Series Specifications and Performance Verification

Sample Rate Range

Table 4: Sample r ate range
(MDO310X with 3 or 4 channels enabled or all other MDO3000 with 1, 2, 3, or 4 channels enabled)

Characteristic Description

Specifications

Sample rate
range
(Analog
Channels)

Time­/Div

1ns

2ns

4ns

10 ns

20 ns

40 ns

80 ns

100 ns

200 ns

400 ns

800 n

1 s

2 s

s

4 

8 s

10 s

10 M record 5 M record 1 M record 100 K record 10 K record 1 K record

2.5 GS/s

2.5 GS/s

2.5 GS/s

2.5 GS/s

2.5 GS/s

2.5 GS/s

2.5 GS/s

/s

2.5 GS

2.5 GS/s 250 MS/s

s

GS/s

2.5

2.5 GS/s 500 MS/s 50 MS/s

2.5 GS/s 250 MS/s 25 MS/s

.25 GS/s

1

2.5 GS/s 100 MS/s 10 MS/s

1.25 GS/s

1.25 GS/s

/s

500 MS

MS/s

100

0 s

2

40 s

80 s

100 s

200 s

400 s

800 s

2.5 GS/s 500 MS/s 50 MS/s 5 MS/s

2.5 GS/s 250 MS/s 25 MS/s 2.5 MS/s

1.25 GS/s

2.5 GS/s 100 MS/s 10 MS/s 1 MS/s

2.5 GS/s 500 MS/s 50 MS/s 5 MS/s 500 KS/s

2.5 GS/s 1.25 GS/s 250 MS/s 25 MS/s 2.5 MS/s 250 KS/s

1.25 GS/s 625 MS/s

MDO3000 Series Specifications and Performance Verification 13

Specifications

Table 4: Sample rate range (MDO310X with 3 or 4 channels enabled or all other MDO3000 with 1, 2, 3, or 4
channels enabled) (cont.)

Characteris

Sample rate
range (Anal
Channels)
(Cont.)

tic

og

Description

Time­/Div

1ms

2ms

4ms

10 ms

20 ms

40 ms

100 ms

200 ms

400 ms

1s

2s

4s

s

10

20 s

40 s

10 M record 5 M record 1 M record 100 K record 10 K record 1 K record

100 MS/s 10 MS/s 1 MS/s 100 KS/s

500 MS/s 250 MS /s 50 MS /s 5 MS/s 500 KS/s 50 KS/s

250 MS/s 125 MS /s 25 MS /s 2.5 MS/s 250 KS/s 25 KS/s

100 MS/s 50 MS/s 10 MS/s 1 MS/s 100 KS/s 10 KS/s

50 MS/s 25 MS/s 5 MS/s 500 KS/s 50 KS/s 5 KS/s

25 MS/s 12.5 MS/s 2.5 MS/s 250 KS/s 25 KS/s 2.5 KS/s

10 MS/s 5 MS/s 1 MS/s 100 KS/s 10 KS/s 1 KS/s

250

5 KS/s

2

/s

KS/s

5MS/s 2.5MS

2.5 MS/s 1.25 MS/s 250 KS/s 25 KS/s 2.5 KS/s 250 S/s

1 M S/s 500 KS/s 100 KS/s 10 KS/s 1 KS/s 100 S/s

KS/s

500

250 KS/s 125 KS/s 25 KS/s 2.5 KS/s 250 S/s 25 S/s

100 KS/s 50 KS/s 10 KS/s 1 KS/s 100 S/s 10 S/s

0KS/s

5

25 KS /s 12.5 KS/s 2.5 KS/s 250 S/s 25 S/s 2.5 S/s

500 KS

S/s

50 K

KS/s

5

/s

50 KS/

5KS

00 S/s

5

s

/s

5 KS/s 500 S/

S/s

500

0S/s

5

50 S

S/s

5

s

/s

100 s

200 s

400 s

1000 s

10 KS/s 5 KS/s 1 KS/s 100 S/s 10 S/s

5 KS/s 2.5 KS/s 500 S/s 50 S/s 5 S/s

2.5 KS/s 1.25 KS/s 250 S/s 25 S/s 2.5 S/s

1 KS/s 500 S/s 100 S/s 10 S/s

14 MDO3000 Series Specifications and Performance Verification

Table 5: Sample rate range, (MDO310X models with 1 or 2 channels enabled)

Characteristic Description

Specifications

Sample rate
range
(Analog
Channels)

Time­/Div

400 ps

1ns

2ns

4ns

10 ns

20 ns

40 ns

100 ns

200 ns

400 ns

1 s

2 s

4 s

s

10 

20 s

40 s

10 M record 5 M record 1 M record 100 K record 10 K record 1 K record

5GS/s

5GS/s

5GS/s

5GS/s

5GS/s

5GS/s

5 GS/s 2.5 GS/s

5GS/s 1GS/s

5GS/s 500MS/

5 GS/s 2.5 GS/s 250 MS/s

5 GS/s 1 GS/s 100 MS/s

s

5GS/

5 GS/s 2.5 GS /s 250 MS/s 25 MS/s

5 GS/s 1 G S/s 100 MS/s 10 MS/s

S/s

5G

5 GS/s 2.5 GS/s 250 MS/s 25 MS/s 2.5 MS/s

0MS/s

50

500 M

MS/s

50

S/s

50 MS

5M

s

/s

S/s

00 s

1

200 s

400 s

5 GS/s 1 GS/s 100 MS/s 10 MS/s 1 MS/s

GS/s

5

2.5 GS/s 1.25 GS/s 250 MS/s 25 MS/s 2.5 MS/s 250 KS/s

.5 GS/s

2

00 MS/s

5

0MS/s

5

5

MS/s

00 KS/s

5

MDO3000 Series Specifications and Performance Verification 15

Specifications

Table 5: Sample rate range, (MDO310X models with 1 or 2 channels enabled) (cont.)

Characteristic Description

Sample rate
range (Analog
Channels)
(Cont.)

Time­/Div

1ms

2ms

4ms

10 ms

20 ms

40 ms

100 ms

200 ms

400 ms

1s

2s

4s

10 s

20 s

40 s

100 s

10 M record 5 M record 1 M record 100 K record 10 K record 1 K record

1 G S/s 500 MS/s 100 MS/s 10 MS/s 1 MS/s 100 KS/s

500 MS/s 250 MS /s 50 MS /s 5 MS/s 500 KS/s 50 KS/s

250 MS/s 125 MS /s 25 MS /s 2.5 MS/s 250 KS/s 25 KS/s

100 MS/s 50 MS/s 10 MS/s 1 MS/s 100 KS/s 10 KS/s

50 MS/s 25 MS/s 5 MS/s 500 KS/s 50 KS/s 5 KS/s

25 MS/s 12.5 MS/s 2.5 MS/s 250 KS/s 25 KS/s 2.5 KS/s

10 MS/s 5 MS/s 1 MS/s 100 KS/s 10 KS/s 1 KS/s

5 M S/s 2.5 MS/s 500 KS/s 50 KS/s 5 KS/s 500 S/s

2.5 MS/s 1.25 MS/s 250 KS/s 25 KS/s 2.5 KS/s 250 S/s

1 M S/s 500 KS/s 100 KS/s 10 KS/s 1 KS/s 100 S/s

500 KS/s 250 KS/s 50 KS/s 5 KS/s 500 S/s 50 S/s

250 KS/s 125 KS/s 25 KS/s 2.5 KS/s 250 S/s 25 S/s

100 KS/s 50 KS/s 10 KS/s 1 KS/s 100 S/s 10 S/s

50 KS/s 25 KS/s 5 KS/s 500 S/s 50 S/s 5 S/s

25 KS /s 12.5 KS/s 2.5 KS/s 250 S/s 25 S/s 2.5 S/s

10 KS/s 5 KS/s 1 KS/s 100 S/s 10 S/s

200 s

400 s

1000 s

5 KS/s 2.5 KS/s 500 S/s 50 S/s 5 S/s

2.5 KS/s 1.25 KS/s 250 S/s 25 S/s 2.5 S/s

1 KS/s 500 S/s 100 S/s 10 S/s

16 MDO3000 Series Specifications and Performance Verification

Trigger Specifications

Table 6: Trigger specifications

Characteristic Description

Specifications

Trigger level ranges

Trigger level
accuracy, DC
coupled, typical

Lowest frequency
for "Set Level to
50%" function,
typical

Trigger holdoff
range

Source Sensitivity

Any input channel

Aux In (External)

Line Not applicable

The line trigger level is fixed at about 50% of the line voltage.

This specification applies to logic and pulse thresholds.

For signals having rise and fall times  10 ns, the limits are as follows:

Source

Any channel ±0.20 divisions

Aux In (external trigger) ±(10% of setting + 25 mV)

Line Not applicable

45 Hz

20 ns minimum to 8 seconds maximum

±8 divisions from center of screen,
±8 divisions from 0 V when vertical LF reject trigger coupling
is selected

±8 V

Range

Trigger sensitivity

Edge trigger,

DC coupled,
typical

Edge trigger,

not DC coupled,
typical

Trigger Source Sensitivity

Any analog
channel

Aux in
(External)

Line Not applicable

Trigger
Coupling

AC 1.5 times the DC Coupled limits for frequencies above 10 Hz.

NOISE REJ 2.5 times the DC-coupled limits

HF REJ

LF REJ

1 mV/div to 4.98 m V/div: 0.75 div from DC to 50 MHz, increasing
to 1.3 div at instrument bandwidth.

 5 m V/div: 0.40 divisions from DC to 50 MHz, increasing to
1 div at instrument bandwidth

200 mV from DC to 50 MHz, increasing to 500 mV at 200 MHz

Typical Sensitivity

Attenuates signals below 10 Hz

1.5 times the DC-coupled limit from DC to 50 kHz.

Attenuates signals above 50 kHz

1.5 times the DC-coupled limits for frequencies above 50 kHz.

Attenuates signals below 50 kHz

MDO3000 Series Specifications and Performance Verification 17

Specifications

Table 6 : Trigger specifications (cont.)

Characteristic Description

Aux In (External
trigger)

Logic (pattern) trigger, DC coupled,
typical:

Trigger using a logic qualifier,

DC coupled, typical:

Delay-by-events sequence trigger,

DC coupled, typical:

Runt trigger, typical:

Pulse-width and glitch trigger, typical:

Video trigger,
typical

The limits for both delayed and main trigger are as follows:

Source Typical Sensitivity

Any analog
input channel

Aux In
(External)

Maximum input voltage:

1.0 division from DC to maximum bandwidth

1.0 division from DC to maximum bandwidth

1.0 division from DC to maximum bandwidth

1.0 division from DC to maximum bandwidth

1.0 division, from DC to Max Bandwidth.

0.6 to 2.5 divisions of video sync tip

Video not supported through Aux In (External) input

At front panel connector, 300 V

Derate at 20 dB/decade above 3 MHz to 30 V

, Installation Category II;

RMS

at 30 MHz,

RMS

10 dB/decade above 30 MHz

Based upon sinusoidal or DC input signal. Excursion above
300 V should be less than 100 ms duration and the duty factor
is limited to < 44%. RMS signal level must be limited to 300 V.
If these values are exceeded, damage to the instrument may
result.

Edge, Pulse,
and Logic trigger
bandwidth, typical

Time accuracy
for Pulse-width
triggering

Bandwidth, typical: > 250 MHz

For instruments with 1 GHz bandwidth (includes MDO310X models
as well as MDO305X/303X/302X/301X models with 500 MHz upgrade):

For instruments with 500 MHz bandwidth (includes MDO305X models
as well as MDO303X/302X/301X models with 500 MHz upgrade):

For instruments with 350 MHz bandwidth (includes MDO303X models
as well as MDO302X/301X models with 350 MHz upgrade):

For instruments with 200 MHz bandwidth (includes MDO302X models
as well as MDO301X models with 200 MHz upgrade):

For instruments with 100 MHz bandwidth (MDO301X models):

Time range Accuracy

1 ns to 500 ns

520 ns to 8 s

±(20% of setting + 0.5 ns)

±(0.01% of setting + 100 ns)

1GHz

500 MHz

500 MHz

200 MHz

200 MHz

18 MDO3000 Series Specifications and Performance Verification

Table 6: Trigger specifications (cont.)

Characteristic Description

Specifications

Video trigger
formats and field
rates

Logic trigger,
minimum logic or
re-arm time , typical

Setup/hold time
violation trigger

Minimum clock
pulse widths,
typical

Setup and hold
time ranges

Triggers from negative sync composite video, field 1 or field 2 for interlaced systems, any field, specific
line, or any line for interlaced or non-interlaced systems. Supported systems include NTSC, PAL,
SECAM.

Standard Video formats are: Trigger on 480p/60, 576p/50, 720p/30, 720p/50, 720p/60, 875i/60,
1080i/50, 1080i/60, 1080p/24, 1080p/24sF, 1080p/25, 1080p/30, 1080p/50, 1080p/60, and custom
bi-level and tri-level sync video standards.

For all vertical settings, the minimums are:

Trigger type Minimum pulse

width

Minimum re-arm
time

Minimum time
between channels

1

Logic Not applicable 2 ns 2 ns

Time Qualified Logic

4ns 2ns 2ns

For all vertical settings, the minimum clock pulse widths are:

Clock Active

2

User hold time + 2.5 ns

Clock Inactive

3

2ns

2

The limits are as follows;

Feature Min Max

Setup time

Hold time

4

4

Setup + Hold time

–0.5 ns 1.024 ms

1 ns 1.024 ms

4

0.5 ns 2.048 ms

Minimum pulse
width and
rearm time

NOTE. Input coupling on clock and data channels must be the same.

Trigger type Minimum pulse

Minimum rearm time

width

Glitch

Pulse-width

4ns

4ns

2 ns + 5% of glitch width setting

2 ns + 5% of width upper limit setting

NOTE. For the pulse-width trigger class, pulse-width refers to the width of the

pulse being measured. The rearm time refers to the time between pulses.

4ns 2nsRunt

NOTE. For the runt trigger class, pulse width refers to the width of the pulse being

measured. The rearm time refers to the time between pulses.

Time-qualified runt

Slew rate

4ns

4ns

8.5 ns + 5% of width setting

8.5 ns + 5% of delta time setting

NOTE. For the slew rate trigger class, pulse width refers to the delta time being

measured. The rearm time refers to the time it takes the signal to cross the two
trigger thresholds again.

MDO3000 Series Specifications and Performance Verification 19

Specifications

Table 6 : Trigger specifications (cont.)

Characteristic Description

Rise/fall time trigger,
delta time range

Glitch, pulse-width,
or time-qualified runt
trigger,
time range

B trigger
(A/B sequence
trigger), time range

Standard serial bus
interface triggers

I2C

(Requires an
MDO3EMBD
app. module)

4 ns to 8 seconds

4 ns to 8 seconds

Trigger after events, minimum pulse width, typical:

Trigger after events, maximum event frequency, typical:

5

1 / (2 X Rated Instrument Bandwidth)

5

[Rated Instrument Bandwidth] or
500 MHz, whichever is lower

Minimum time between arm and trigger 8 ns

B trigger after time, time range:

B trigger after events, event range:

8nsto8s

1 to 4,000,000

Maximum serial trigger bits: 128 bits

Address Triggering:

7 and 10 bit user specified address, as well as General Call,
START byte, HS-mode, EEPROM, and CBUS

Data Trigger:

1 to 5 bytes of user specified data

Trigger On: Start

Repeated Start

Stop, Missing Ack

Address

Data

Address and Data

SPI

(Requires an
MDO3EMBD
app. module)

Maximum Data R ate:

Data Trigger:

10 Mb/s

1 to 16 bytes of user specified data

Trigger On: SS Active

MOSI

MISO

MOSI and MISO

Maximum Data R ate:

10 Mb/s

20 MDO3000 Series Specifications and Performance Verification

Table 6: Trigger specifications (cont.)

Characteristic Description

Specifications

RS-232/422/
485/UART

(Requires a
MDO3COMP
app. module)

CAN

(Requires an
MDO3AUTO
app. module)

Data Trigger: Tx Data, Rx Data

Trigger On: Tx Start Bit

Rx Start Bit

Tx End of Packet

Rx End of Packet

Tx Data

Rx Data

Tx Parity Error

Rx Parity Error

Maximum Data Rate:

Data Trigger:

Trigger On: Start of Frame

10 Mb/s

1 to 8 bytes of user specified data, including qualifiers of equal
to (=), not equal to (<>), less than (<), greater than (>), less than
or equal to (<=), greater than or equal to (>=)

Type of Frame

Identifier, Data

Identifier and Data

End of Frame

Missing Ack

Bit Stuffing Error

LIN

(Requires a
MDO3AUTO
app. module)

Frame Type:

Identifier: Standard (11 bit) and Extended (29 bit) identifiers

Maximum Data Rate:

Data Trigger:

Trigger On : Sync

Maximum Data Rate:

Data, Remote, Error, Overload

1Mb/s

1 to 8 Bytes of user-specified data, including qualifiers of equal
to (=), not equal to (<>), less than (<), greater than (>), less than
or equal to (<=), greater than or equal to (>=)

Identifier

Data

Identifier & Data

Wakeup Frame

Sleep Frame

Error

1 M b/s (by LIN definition, 20 kbit/s)

MDO3000 Series Specifications and Performance Verification 21

Specifications

Table 6 : Trigger specifications (cont.)

Characteristic Description

FlexRay

(Requires a
MDO3FLEX
app. module)

MIL-STD-1553

(Requires a
MDO3AERO
app. module)

Indicator Bits

Identifier Trigger 11 bits of user-specified data, equal to (=),not equal to <>, less

Cycle Count Trigger 6 bits of user-specified data, equal to (<=), greater than or equal

Header Fields Trigger

Data Trigger

End Of Frame User-chosen types Static, Dynamic (DTS), and All.

Error

Trigger on

Trigger on:

Normal Frame, Payload Frame, Null Frame, Sync Frame,
Startup Frame

than (<), greater than (>), less than or equal to (<=), greater
than or equal to (>=), Inside Range, Outside Range.

to (>=), Inside Range, Outside Range.

40 bits of user-specified data comprising Indicator Bits, Identifier,
Payload Length, Header CRC, and Cycle Count, equal to (=).

1 – 16 Bytes of user-specified data, with 0 to 253, or “don’t care”
bytes of data offset, including qualifiers of equal to (=), not equal
to <>, less than (<), greater than (>), less than or equal to (<=),
greater than or equal to (>=), Inside Range, Outside Range.

Header CRC, Trailer CRC, Null Frame-static, Null
Frame-dynamic, Sync Frame, Startup frame

Start of Frame, Indicator Bits, Identifier, Cycle Count, Header
Fields, Data, Identifier & Data, End of Frame, or Error

Sync

Word Type (Command, Status, Data)

Command Word (set the followi ng individually: RT Address
(trigger when equal to (=), not equal to <>, less than (<), greater
than (>), less than or equal to (<=), greater than or equal to (>=),
inside range, outside range), T/R, Sub-Address/Mode, Data
Word Count/Mode Code, And Parity)

Status Word (set the following individually: RT address (trigger
when equal to (=), not equal to <>, less than (<), greater than
(>), less than or equal to (<=), greater than or equal to (>=),
inside range, outside range), message error, instrumentation,
service request bit, broadcast command received, busy,
subsystem flag, dynamic bus control acceptance (DBCA),
terminal flag, and parity)

Data Word (user-specified 16-bit data value)

Error (Sync, Parity, Manchester, Non-Contiguous Data
Idle Time (minimum time selectable from 4 s to 100 s;

maximum time selectable from 12 s to 100 s; trigger on <
minimum, > maximum, inside range, outside range)

Maximum Data R ate:

22 MDO3000 Series Specifications and Performance Verification

Up to 1 Mb/s (for automated decoding of bus)