xx
MSO4000B and DPO4000B Series
Digital Phosphor Oscilloscopes
ZZZ
Specifications and Performance Verification
Technical Reference
*P077050903*
077-0509-03
xx
MSO4000B and DPO4000B Series
Digital Phosphor Oscilloscopes
ZZZ
Specifications and Performance Verification
Technical Reference
Revision B
This document supports firmware version 1.00 and above for
both MSO4000B Series instruments and DPO4000B Series
instruments.
Warning
The servicing instructions are for use by qualified personnel
only. To avoid personal injury, do not perform any servicing
unless you are qualified to do so. Refer to all safety summaries
prior to performing service.
www.tek.com
077-0509-03
Copyright © Tektronix. All rights reserved. Licensed software products are owned by Tektronix or its subsidiaries
or suppliers, and are protected by national copyright laws and international treaty provisions.
Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication
supersedes that in all previously published material. Specifications and price change privileges reserved.
TEKTRONIX and TEK are registered trademarks of Tektronix, Inc.
Contacting Tektronix
Tektronix, Inc.
14150 SW Karl Braun Drive
P.O . Bo x 50 0
Beaverto
USA
For product information, sales, service, and technical support:
n, OR 97077
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 .............................. ........................... 2
Horizontal
Trigger Specifications .................... .................................. ................................ .. 12
Digital Acquisition Specifications, MSO4000B Series................................................... 18
P6616 Digital Probe Specifications......................................................................... 19
Display Specifications........................ ................................ ................................ 20
Input/Output Port Specifications ...................... ................................ ...................... 21
Data Sto
Power Source Specifications ................ .................................. .............................. 23
Environmental Specifications ............................................................................... 24
Mechanical Specifications ................................................................................... 25
Performance Verification ......... ................................ ................................ ................ 27
Test Record ........................ ................................ ................................ ............ 28
ormance Verification Procedures......................... ................................ .............. 54
Perf
Self Test................................................................................................... 55
Check Input Impedance (Resistance) .................................................................. 56
Check DC Balance....................................................................................... 57
Check DC Gain Accuracy............................................................................... 59
Check Offset Accuracy.................................................................................. 63
Ch
Check Random Noise, Sample Acquisition Mode . ... . ... . ... . ... . ... . ... . ... . .... .... . . ... . ... . ... . 69
Check Sample Rate and Delay Time Accuracy................................... .................... 71
Check Delta Time Measurement Accuracy ......................... ................................ .. 73
Check Digital Threshold Accuracy (MSO4000B Only)................................... .......... 75
Check Trigger Out ................. ................................ ................................ ...... 79
and Acquisition System Specifications.................................... ..................... 9
rage Specifications........................................ ................................ .......... 23
eck Analog Bandwidth............................................................................... 66
MSO4000B and DPO4000B Series Specifications and Performance Verification i
Table of Contents
List of Tables
Table 1: Analog channel input and vertical specifications.... .................................. ............... 2
Table 2: Hor
Table 3: Delta-Time measurement accuracy formula ....................... .................................. 11
Table 4: Trigger specifications................................................................................... 12
Table 5: Digital acquisition specifications, MSO4000B Series .............................................. 18
Table 6: P6616 digital probe specifications..................................................................... 19
Table 7: Display specifications................................................................................... 20
Table 8: I
Table9:Datastoragespecifications ............................................................................. 23
Table 10: Power source specifications .. ................................ ................................ ........ 23
Table 11: Environmental specifications......................................................................... 24
Table 12: Mechanical specifications............................................................................. 25
Table 13: Required equipment ................................................................................... 27
Table
Table 15: Maximum bandwidth frequency worksheet ........................................................ 67
izontal and acquisition system specifications...................... ............................... 9
nput/Output port specifications ....................................................................... 21
14: Gain expected worksheet ....... .................................. ................................ .... 61
ii MSO4000B and DPO4000B Series Specifications and Performance Verification
General safety summary
General safet
To avoid fire or personal
injury
y summary
Review the fo
this product or any products connected to it.
To avoid potential hazards, use this product only as specified.
Only qualified personnel should perform service procedures.
Use proper 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 voltage source.
Connect and disconnect properly. De-energize the circuit under test before
connecting or disconnecting the current 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 making connections to the input or output
terminals of the product, ensure that the product is properly grounded.
Observe all terminal ratings. To avoid fire or shock hazard, observe all ratings
and markings on the product. Consult the product manual for further ratings
information before making connections to the product.
llowing safety precautions to avoid injury and prevent damage to
Connect the p robe 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 qualified service personnel.
Avoid exposed circuitry. 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.
Provide proper ventilation. Refer to the manual's installation instructions for details
on installing the product so it has proper ventilation.
MSO4000B and DPO4000B Series Specifications and Performance Verification iii
General safety summary
Termsinthismanual
Symbols and terms on the
product
These terms may
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.
These terms may appear on the product:
DANGER in
the marking.
WAR NI NG
read the marking.
CAUTIO
The following symbol(s) may appear on the product:
appear in this manual:
dicates an injury hazard immediately accessible as you read
indicates an injury hazard not immediately accessible as you
N indicates a hazard to property including the product.
iv MSO4000B and DPO4000B Series Specifications and Performance Verification
Specifications
This chapter contains specifications for the MSO4000B and the DPO4000B series
oscilloscopes. All specifications are guaranteed unless noted as "typical."
Typica l s pe c
Specifications that are marked with the
ifications are provided for your convenience but are not guaranteed.
symbol are checked in Performance
Ver ification.
All specifications apply to all MSO4000B and DPO4000B models unless noted
otherwise. To meet specifications, two conditions must first be met:
The oscilloscope must have been operating continuously for twenty minutes
within the specified operating temperature range. (See Table 11 on page 24.)
You must perform the Signal Path Compensation (SPC) operation described
instep2oftheSelf Test before evaluating specifications. (See page 55, Self
Test.) If the operating temperature changes by more than 10 °C (18 °F), you
must perform the SPC operation again.
Model Bandwi
00B models:
MSO40
104B
MSO4
104B-L
MSO4
4102B
MSO
4102B-L
MSO
O4000B models:
DP
O4104B
DP
PO4104B-L1GHz
D
DPO4102B 1 GHz
DPO4102B-L 1 GHz
DPO4054B
DPO4034B
DPO4014B
1GHz
1GHz
z
1GH
z
1GH
Hz
1G
500 MHz 4
350 MHz 4
100 MHz 4
dth
Analog
Channe
4
4
2
2
4
4
2
2
Sample
Rate
ls
(1 ch)
s
5GS/
s
5GS/
/s
5GS
/s
5GS
S/s
5G
GS/s
5
5GS/s 5GS/s
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 2.5 GS/s
2.5 GS/s 2.5 GS/s 2.5 GS/s
Sample
Rate
(2 ch)
s
5GS/
s
5GS/
/s
5GS
GS/s
2.5
S/s
5G
GS/s
5
Sample
Rate
(4 ch)
s
5GS/
S/s
2.5 G
–
–
S/s
5G
.5 GS/s
2
–
–
Record
Length
(1 ch)
20M 20M 20M
5M 5M 5M
20M 20M
5M 5M
20M 20M 20M
5M 5M 5M
20M 20M
5M 5M
20M 20M 20M
20M 20M 20M
20M 20M 20M
Record
Length
(2 ch)
Record
Length
(4 ch)
–
–
–
–
MSO4000B and DPO4000B Series Specifications and Performance Verification 1
Specifications
Analog Channe
Table 1: Ana
Characteristic Description
Number of input
channels
Input coupling
Input resistance
selection
Input impedance,
DC coupled
ut Capacitance,
Inp
1M DC coupled
ximum input
Ma
voltage
DC Balance
log channel input and vertical specifications
l Input and Vertical Specifications
MSO/DPO4XX4B, MSO/DPO4XX4B-L: Four analog channels, digitized simultaneously
MSO/DPO4102B, MSO/DP O4102B-L Two analog channels, digitized simultaneously
DC or AC
1M or 50
1M 1M ±1%
50
13 pF ± 2 pF
1M 300 V
50 5V
0.1 div with the input DC 50 coupled and 50 terminated
0.2 div at 1 mV/div with the input DC 50 coupled and 50 terminated
0.2 div with the input DC 1 M coupled and 50 terminated
The following table shows the analog channel input and vertical specifications for
the MSO4000B Series and the DPO4000B Series oscilloscopes.
50 ±1%
MSO4104B,
DPO410
MSO4104B-L
DPO4104B-L
MSO41
DPO4102B-L
MSO4102B
DPO41
DPO4
DPO4
DPO
Installation Category II
F
10 dB/decade above 1 MHz
For 100 mV/div, derate at 20 dB/decade above 3 MHz to 30 V
1
Maximum peak input voltage at the BNC, ±425 V
Overvoltage trip is intended to protect against overloads that might damage
termination resistors. A sufficiently large impulse might cause damage
regardless of the overvoltage protection circuitry because of the finite time
required to detect and respond.
4B,
02B-L
02B
054B
034B
4014B
at the BNC with peaks ±425 V
RMS
or <100 mV/div, derate at 20 dB/decade above 100 kHz to 30 V
0 dB/decade above 30 MHz
with peaks ±20 V (Duty Factor 6.25%)
RMS
VSWR 1.5:1 from DC to 1 GHz, typical
1.5:1 from DC to 500 MHz, typical
VSWR
1.5:1 from DC to 350 MHz, typical
VSWR
R 1.5:1 from DC to 100 MHz, typical
VSW
RMS
RMS
at 1 MHz,
at 30 MHz,
2 MSO4000B and DPO4000B Series Specifications and Performance Veri fication
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Number of digitized
bits
(coarse)
Sensitivity range (fine)
Sensitivity resolution
(fine), typical
in accuracy
DC ga
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 least significant bit (LSB).
1MΩ 1 mV/div to 10 V/div in a 1-2-5 sequenceSensitivity range
50 Ω 1 mV/div to 1 V/div in a 1-2-5 sequence
1MΩ
50 Ω
1% of current setting
For 50 Ω,1MΩ, TPP0500, and TPP1000 path:
±1.5%, derated at 0.100%/°C above 30 °C
±2.0%, derated at 0.100%/°C above 30 °C, 1 mV/Div setting
±3.0% variable gain, derated at 0.100%/°C above 30 °C
1 mV/div to 5 V/div <–50% to >+50% of selected setting
10 V/div <–50% to 0%
Allows continuous adjustment from 1 mV/div to 10 V/div
1 mV/div to 500 mV/div <–50% to >+50% of selected setting
1 V/div <–50% to 0%
Allows continuous adjustment from 1 mV/div to 1 V/div
Specifications
Offset ranges,
minimum
Position range ±5 divisions
Offset accuracy
Volts/div setting
1 mV/div to 50 m V/div
50.5 mV/div to 99.5 mV/div
100 mV/div to 500 mV/div
505 mV/div to 995 mV/div
1 V/div to 5 V/div
5.05 V/div to 10 V/div
For 50 path, 1 V/div is the maximum vertical setting.
The input signal cannot exceed Max Input Voltage for the 50 input path. Refer to the Max Input Voltage
specification for more information.
±[0.005 × | offset – position | + DC Balance]
Both the position and constant offset term must be converted to volts by multiplying by the appropriate
volts/div term.
Offset range
1M input 50 input
±1 V ±1 V
±0.5 V ±0.5 V
±10 V ±10 V
±5 V ±5 V
±100 V ±5 V
±50 V Not applicable
MSO4000B and DPO4000B Series Specifications and Performance Verification 3
Specifications
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Number of Waveforms
for Average
Acquisition Mode
DC voltage
measurement
accuracy
Average acquisition
mode
DC voltage
measurement
accuracy
Sample acquisition
mode, typical
Analog bandwidth
selections
2to512waveforms
Default of 16 waveforms
Measurement type
Average of 16 waveforms ±[DC Gain Accuracy × | reading – (offset -
Delta Volts between any two averages of 16
waveforms acquired with the same oscilloscope
setup and ambient conditions
Offset, position, and the constant offset term must be converted to volts by multiplying by the appropriate
volts/div term.
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, Pk-Pk, and Amplitude.
Measurement type
Any sample
Delta volts between any two samples acquired
with the same oscilloscope setup and ambient
conditions
Offset, position, and the constant offset term must be converted to volts by multiplying by the appropriate
volts/div term.
DPO4104X, DPO4054B, DPO4034B: 20 MHz, 250 MHz, and Full
DPO4014B: 20 MHz and Full
DC Accuracy (in Volts)
position) | + offset accuracy + 0.1 division ]
Refer to DC Gain Accuracy for temperature
derating information.
±[DC gain accuracy × | reading | + 0.05 div]
Refer to DC Gain Accuracy for temperature
derating information.
DC Accuracy (in volts)
±[DC gain accuracy × | reading – (offset –
position) | + Offset Accuracy + 0.15 div + 0.6 mV]
Refer to DC Gain Accuracy for temperature
derating information.
±[DC gain accuracy × | reading | + 0.15 div +
1.2 mV]
Refer to DC Gain Accuracy for temperature
derating information.
4 MSO4000B and DPO4000B Series Specifications and Performance Veri fication
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Analog bandw
50 , DC coupled
idth,
These 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
Specifications
Analog bandwidth,
1M, DC coupled,
typical
Instrument
MSO4104B,
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
DPO4054B
DPO4010B 1 mV/div — 1 V/div DC to 100 MHz
These 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
MSO4104B,
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
MSO4054B,
DPO4054B
DPO4034B 5 mV/div — 10 V/div DC to 350 MHz
DPO4014B 1 mV/div — 1.99 mV/div DC to 100 MHz
The DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, MSO4102B, and DPO4102B
models have separate 50 and 1 M analog paths, so the 1 M path is not checked when the 50 path
is checked in the performance test procedure. All other models have only one analog path, so they are
fully tested with the 50 termination.
Volts/Div setting
5 mV/div — 1 V/div DC to 1.00 GHz
2 mV/div — 4.98 mV/div DC to 350 MHz
1 mV/div — 1.99 mV/div DC to 175 MHz
5 mV/div — 1 V/div DC to 500 MHz
2 mV/div — 4.98 mV/div DC to 350 MHz
1 mV/div — 1.99 mV/div DC to 175 MHz
2 mV/div — 1 V/div DC to 350 MHzDPO4034B
1 mV/div — 1.99 mV/div DC to 175 MHz
Volts/Div setting
5 mV/div — 10 V/div DC to 500 MHz
2 mV/div — 4.98 mV/div DC to 350 MHz
1 mV/div — 1.99 mV/div DC to 175 MHz
5 mV/div — 10 V/div DC to 500 MHz
2 mV/div — 4.98 mV/div DC to 350 MHz
1 mV/div — 1.99 mV/div DC to 175 MHz
2 mV/div — 4.98 mV/div DC to 175 MHz
1 mV/div — 1.99 mV/div DC to 175 MHz
Bandwidth
Bandwidth
MSO4000B and DPO4000B Series Specifications and Performance Verification 5
Specifications
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Analog bandwidth with
TPP0500 or TPP1000
probe, typical
Lower frequency limit,
AC coupled, typical
Upper frequency limit,
250 MHz bandwidth
limited, typical
Upper frequency limit,
20 MHz bandwidth
limited, typical
These 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
MSO4104B,
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
DPO4054B
DPO4034B
DPO4014B 10 mV/div — 100 V/div DC to 100 MHz
< 10 Hz when AC, 1 M coupled
The AC coupled lower frequency limits are reduced by a factor of 10 when 10X passive probes are used.
250 MHz, ±20%
Not available on the DPO4014B
20 MHz, ±20%
Volts/Div setting
50 mV/div — 100 V/div DC to 1 GHz (TPP1000
20 mV/div — 49.8 mV/div DC to 350 MHz
10 mV/div — 19.9 mV/div DC to 175 MHz
50 mV/div — 100 V/div DC to 500 MHz
20 mV/div — 49.8 mV/div DC to 350 MHz
10 mV/div — 19.9 mV/div DC to 175 MHz
50 mV/div — 100 V/div DC to 350 MHz
20 mV/div — 49.8 mV/div DC to 350 MHz
10 mV/div — 19.9 mV/div DC to 175 MHz
Bandwidth
probe)
DC to 500 MHz
(TPP0500 probe)
6 MSO4000B and DPO4000B Series Specifications and Performance Veri fication
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Calculated rise time at
0.350/BW = t
,typical
r
Calculated rise time at
0.350/BW = t
,typical
r
The formula is calculated by measuring -3 dB bandwidth of the oscilloscope. The formula accounts for the
rise time contribution of the oscilloscope independent of the rise time of the signal source.
Instrument
50
1 mV/div to
1.99 mV/div
MSO4104B,
2 ns 1 ns 350 ps
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
DPO4054B
DPO4034B
DPO4014B
2 ns 1 ns 700 ps
2ns 1ns 1ns
3.5 ns 3.5 ns 3.5 ns
Instrument TPP1000 probe
10 mV/div to
19.9 mV/div
MSO4104B,
2 ns 1 ns 350 ps
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
DPO4054B
DPO4034B
DPO4014B
2 ns 1 ns 700 ps
2ns 1ns 1ns
3.5 ns 3.5 ns 3.5 ns
Instrument TPP0500 probe
10 mV/div to
19.9 mV/div
MSO4104B,
2 ns 1 ns 700 ps
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
DPO4054B
DPO4034B
DPO4014B
2 ns 1 ns 700 ps
2ns 1ns 1ns
3.5 ns 3.5 ns 3.5 ns
50
2 mV/div to
4.99 mV/div
TPP1000 probe
20 mV/div to
49.8 mV/div
TPP0500 probe
20 mV/div to
49.8 mV/div
Specifications
50
5 m V/div to 1 V/div
TPP1000 probe
50 mV/div to 10 V/div
TPP0500 probe
50 mV/div to 10 V/div
MSO4000B and DPO4000B Series Specifications and Performance Verification 7
Specifications
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Peak Detect or
Envelope mode pulse
response, typical
Random N
Sample Acquisition
Mode
Delay between
channels, full
bandwidth, typical
Deskew range
oise,
Instrument (Sample rate maximum)
MSO4104B, DPO4104B, , MSO4102B, DPO4102B
MSO4104B-L DPO4104B-L, ( 2 channels
enabled)
MSO4102B-L, DPO4102B-L, (1 channel enabled)
DPO4054B, DPO 4034B, DPO4014B
DPO4104B-L , ( 3 channels enabled)
MSO/DPO4102B-L, (2 channels enabled)
Instrument Bandwidth limit
MSO4104B,
DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L,
MSO4102B,
DPO4102B
DPO4054B
DPO4034B
DPO4014B
100 ps between any two channels w ith input impedance set to 50 , DC coupling, with equal volts/division
setting or above 10 mV/div
All settings in the instrument can be manually time aligned using the Probe Deskew function from –125 ns
to +125 ns with a resolution of 20 ps
–125 ns to +125 ns with a resolution of 20 ps
Full bandwidth
250 MHz bandwidth
20 MHz bandwidth
Full bandwidth
250 MHz bandwidth
20 MHz bandwidth
Full bandwidth
250 MHz bandwidth
20 MHz bandwidth
Full bandwidth
20 MHz bandwidth
Minimum pulse width
>800 ps (5 GS/s)
>1.6 ns (2.5 GS/s)
RMS noise (mV)
1M 50
(300 V + 8.0% of
Volts/div setting)
(100 V + 5.0% of
Volts/div setting)
(100 V + 5.0% of
Volts/div setting)
(130 V + 8.0% of
Volts/div setting)
(100 V + 6.0% of
Volts/div setting)
(100 V + 4.0% of
Volts/div setting)
(130 V + 8.0% of
Volts/div setting)
(100 V + 6.0% of
Volts/div setting)
(100 V + 4.0% of
Volts/div setting)
(130 V + 8.0% of
Volts/div setting)
(100 V + 4.0% of
Volts/div setting)
(75 V + 6.0% of
Volts/div setting)
(50 V + 4.0% of
Volts/div setting)
(50 V + 4.0% of
Volts/div setting)
(130 V + 8.0% of
Volts/div setting)
(100 V + 6.0% of
Volts/div setting)
(100 V + 4.0% of
Volts/div setting)
(130 V + 8.0% of
Volts/div setting)
(100 V + 6.0% of
Volts/div setting)
(100 V + 4.0% of
Volts/div setting)
(130 V + 8.0% of
Volts/div setting)
(100 V + 4.0% of
Volts/div setting)
8 MSO4000B and DPO4000B Series Specifications and Performance Veri fication
Specifications
Table 1: Analog channel input and vertical specifications (cont.)
Characteristic Description
Crosstalk (channel
isolation), typical
TekVPI Interface The probe interface allows installing, powering, compensating, and controlling a wide range of probes
Total probe power
Probe power per
channel
100:1 at 100 MHz and 30:1 at >100 MHz up to the rated bandwidth for any two channels having
equal Volts/Div settings
offering a variety of features.
The interface is available o n all front panel inputs including Aux In. Aux In only provides 1 M input
impedance and does not offer 50 as the other input channels do.
Five Tek VPI-compliant probe interfaces (one per channel)
50 W maximum internal probe power
Voltage Max A mperage Voltage Tolerance
5V
12 V
50 mA (250 mW) ±5%
2 A (24 W) ±10%
Horizontal and Acquisition System Specifications
The following table shows the horizontal and acquisitions system specifications
for the MSO4000B Series and the DPO4000B Series oscilloscopes.
Table 2: Horizontal and acquisition system specifications
Characteristic Description
MSO4104B, DPO4104B,
MSO4104B-L, DPO4104B-L,
MSO4102B-L, DPO4102B-L,
MSO4102B, D PO4102B
DPO4054B,
DPO4034B
DPO4014B
Record Length Range Non-L models: 20 M, 10 M, 5 M, 1 M, 100 k, 10 k, 1 k
L models: 5 M, 1 M, 100 k, 10 k, 1 k
Seconds/Division r ange
Maximum triggered acquisition rate
Instrument 1 k 10 k 100 k – 20 M
MSO4104B, DPO4104B,
MSO4102B-L, DPO4102B-L,
MSO4102B, D PO4102B
MSO4104B-L, DPO4104B-L (2
channels enabled)
DPO4054B,
DPO4034B
DPO4014B
MSO4104B-L, DPO4104B-L (4
channels enabled)
> 50,000 wfm/s
5 GS/s — 2.5 S/sSample-rate range
2.5 GS/s —2.5 S/s
400 ps – 40 s 400 ps –
1 ns – 40 s 1 ns – 400 s 1 ns – 1,000 s
400 ps – 1,000 s
400 s
MSO4000B and DPO4000B Series Specifications and Performance Verification 9
Specifications
Table 2: Horizontal and acquisition system specifications (cont.)
Characteristic Description
Aperture Uncertainty
Long-term s
ample rate and
delay time accuracy
(3 ps + 0.1 ppm × record duration)
±5 ppm over any 1mstimeinterval
, for records having 1 minute duration
RMS
10 MSO4000B and DPO4000B Series Specifications and Performance Verification
Table 2: Horizontal and acquisition system specifications (cont.)
Characteristic Description
Delta-time m
accuracy
easurement
The formula to calculate the delta-time measurement accuracy (DTA) for a given instrument
setting and input signal is given in the following table. (See Table 3.) The formula assumes
insignificant signal content above Nyquist and insignificant error due to aliasing. The
abbreviations used in the formula are as follows:
SR
= slew rate around 1st point in measurement (1stedge)
1
= slew rate around 2nd point in measurement (2ndedge)
SR
2
N =input-referred noise (V
)(RefertoRandom Noise and Sample Acquisition Mode
RMS
specifications.)
TBA = time base accuracy (5 ppm) (Refer to Long-term Sample Rate and Delay Time
Accuracy specifications.)
= delta-time measurement duration (sec)
t
p
RD = (record length)/(sample rate)
= 1/(sample rate)
t
sr
assume edge shape that results from Gaussian filter response
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 time
base 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).
Specifications
3: Delta-Time measurement accuracy formula
Table
The terms used in these formulas are defined under Delta-time measurement accuracy, in the preceding table. (See Table 2.)
MSO4000B and DPO4000B Series Specifications and Performance Verification 11
Specifications
Trigger Speci
fications
The following table shows the trigger specifications for the MSO4000B Series
and the DPO4000B Series oscilloscopes.
Table 4: Tri
Characteristic Description
Aux In (External) trigger input
impedance, typical
Aux In (External) trigger maximum
input vol
Aux In (External) trigger bandwidth,
typical
Trigger bandwidth, Edge, typical
ger bandwidth, Pulse and Logic,
Trig
typical
gger specifications
tage
1M ±1%inparallelwith13pF±2pF
The maximum input voltage at the BNC 300 V
tion Category II
Installa
Derate at 20 dB/decade above 3 MHz to 30 V
250 MHz ±20%
MSO4104B, DPO4104B,
MSO4104
DPO4104B-L,
MSO4102B-L,
DPO410
DPO4102B
DPO4054B
DPO4034B
DPO4014B
MSO4104B, DPO4104B,
MSO4104B-L,
DPO
MSO4102B-L,
DPO4102B-L, MSO4102B,
DPO
DP
PO4034B
D
PO4014B
D
B-L,
2B-L, MSO4102B,
4104B-L,
4102B
O4054B
1GHz
500 MH
350 MH
Hz
100 M
1GHz
500 MHz
350 MHz
100 MHz
RMS
at 30 MHz, 10 dB/decade above 30 MHz.
RMS
z
z
12 MSO4000B and DPO4000B Series Specifications and Performance Verification
Table 4: Trigger specifications (cont.)
Characteristic Description
Edge-type trigger sensitivity, DC
coupled, typical
Trigger jitter, typical
Edge-type trigger sensitivity, not DC
coupled, typical
Video-type trigger formats and field
rates
Video-type trigger sensitivity, typical
Models Trigger
MSO4104B, DPO4104B,
MSO4104B-L,
DPO4104B-L,
MSO4102B-L,
DPO4102B-L, MSO4102B,
DPO4102B
DPO4054B
DPO4034B
DPO4014B
All models Any input
All models Aux in
All models Line Fixed
10 ps
RMS
100 ps
RMS
Trigger Coupling Typical Sensitivity
AC Coupling 1 div for frequencies above 45 Hz.
NOISE REJ 2.5 times the DC-coupled limits
HF REJ
LF REJ
Triggers from negative sync composite video, field 1 or field 2 for interlaced systems, on any
field, specific line, or any line for interlaced or non-interlaced systems. Supported systems
include NTSC, PAL, and SECAM.
Delayed and main trigger
Source Sensitivity
Any analog input channel
Aux In (External) Video not supported through Aux In (External) input
Source
Any input
channel
Any input
channel
channel
(External)
for edge-type trigger
for non edge-type trigger modes
Attenuates signals below 45 Hz.
1.0 times the DC-coupled limits 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
0.6 to 2.5 divisions of video sync tip
Specifications
Sensitivity
50 path:
0.40 div from DC to 50 M Hz, increasing to
1 div at oscilloscope bandwidth
50 path:
1 mV/div to 4.98 mV/div – 0.75 div from
DC to 50 MHz, increasing to 1.3 div at
oscilloscope bandwidth.
5 mV/div – 0.40 div from DC to 50 MHz,
increasing to 1 div at oscilloscope
bandwidth.
1M path:
1 mV/div to 4.98 mV/div – 0.75 div from
DC to 50 MHz, increasing to 1.3 div at
oscilloscope bandwidth.
5 mV/div – 0.40 div from DC to 50 MHz,
increasing to 1 div at oscilloscope
bandwidth.
200 mV from DC to 50 MHz, increasing to
500 mV at 250 MHz
MSO4000B and DPO4000B Series Specifications and Performance Verification 13
Specifications
Table 4: Trigger specifications (cont.)
Characteristic Description
Lowest frequency for successful
operation of "Set Level to 50%"
function, typical
Logic-type or logic qualified trigger
or events-delay sensitivities, DC
coupled, typical
Pulse-type runt trigger sensitivities,
typical
Pulse-type trigger width and glitch
sensitivities, typical
Logic-type triggering, minimum logic
or rearm time, typical
Minimum clock pulse widths for
setup/hold time violation trigger,
typical
Setup/hold violation trigger, setup
and hold time ranges
45 Hz
1.0 division from DC to maximum bandwidth
1.0 division from DC to maximum bandwidth
1.0 division
For all vertical settings, the minimums are:
Trigger type Pulse width Re-arm time Time between channels
Logic Not applicable 2 ns 1 ns
Time Qualified Logic
For logic, time between channels refers to the length of time a logic state derived from more
than one channel must exist to be recognized. For events, the time is the minimum time
between a main and delayed event that will be recognized if more than one channel is used.
For all vertical settings, the minimums are:
Clock active Clock inactive
User hold time + 2.5 ns 2 ns
An active pulse width is the width of the clock pulse from its active edge (as defined in the
Clock Edge lower-bezel menu item) to its inactive edge. An inactive pulse width is the width
of the pulse from its inactive edge to its active edge.
The U ser hold time is the number selected by the user.
Feature Min Max
Setup time
Hold time 1 ns 1.0 ms
Setup + Hold time
Input coupling on clock and data channels must be the same.
For Setup time, positive numbers mean a data transition before the clock.
For Hold time, positive numbers mean a data transition after the clock edge.
Setup + Hold time is the algebraic sum of the Setup Time and Hold Time that you
programmed.
4ns 2ns 1ns
–0.5 ns 1.0 ms
0.5 ns 2.0 ms
14 MSO4000B and DPO4000B Series Specifications and Performance Verification
Table 4: Trigger specifications (cont.)
Specifications
Pulse type trigger, minimum pulse,
rearm time, transition time
Transition time trigger, delta time
range
Time range for glitch, pulse width,
timeout, time-qualified runt, or
time-qualified window triggering
Time Accuracy for Pulse, Glitch,
Timeout, or Width Triggering
B trigger after events, minimum
pulse width and maximum event
frequency, typical
B trigger, minimum time between
arm and trigger, typical
B trigger after time, time range
B trigger after events, event range
Trigger level ranges
Pulse class Minimum
pulse width
Glitch
Runt 4 ns 2 ns
Time-qualified runt
Width 4 ns
Slew rate (transition time)
For the trigger class width and the trigger class runt, the pulse width refers to the width of the
pulse being measured. The rearm time refers to the time between pulses.
For the trigger class slew rate, the 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.
4nsto8s
4nsto8s
Time Range Accuracy
1 ns to 500 ns
520 ns to 1 s
4 ns, 500 MHz
4ns
For trigger after time, this is the time between the end of the time period and the B trigger
event.
For trigger after events, this is the time between the last A trigger event and the first B trigger
event.
4 ns to 8 seconds
1 to 4,000,000
Source
Any input channel
Aux In (External)
Line Not applicable
Line trigger level is fixed at about 50% of the line voltage.
This specification applies to logic and pulse thresholds.
4ns
4ns
4ns
±(20% of setting + 0.5 ns)
±(0.01% of setting + 100 ns)
Minimum rearm time
2 ns + 5% of glitch width setting
8.5 n s + 5% of width setting
2 ns + 5% of width upper limit setting
8.5 ns + 5% of delta time setting
Range
±8 divisions from center of screen
±8 divisions from 0 V when vertical LF reject
trigger coupling is selected
±8 V
MSO4000B and DPO4000B Series Specifications and Performance Verification 15
Specifications
Table 4: Trigger specifications (cont.)
Trigger level accuracy, DC coupled,
typical
Trigger holdoff range
Maximum serial trigger bits 128 bits
Standard serial bus interface triggering
I2C Address Triggering: 7 and 10 bit user specified address, as well as General Call, START
SPI Data Trigger: 1 to 16 bytes of user-specified data
CAN Data Trigger: 1 to 8 bytes of user-specified data, including qualifiers of equal to (=), not equal
LIN
For signals having rise and fall times 10 ns.
Source
Any input channel ±0.20 div
Aux In (External) ±(10% of setting + 25 mV)
Line Not applicable
20 ns minimum to 8 s maximum
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, or Address and Data
Maximum Data Rate: 10 Mbps
Trigger On: SS Active, MOSI, MISO, or MOSI & MISO
Maximum Data Rate: 50 Mbps
to (<>), less than (<), greater than (>), less than or equal to (<=), greater than or equal to (>=)
Trigger On: Start of Frame, Type of Frame, Identifier, Data, Identifier and Data, End of
Frame, Missing Ack, or Bit Stuffing Errors
Frame Type: Data, Remote, Error, Overload
Identifier: Standard (11 bit) and Extended (29 bit) identifiers
Maximum Data Rate: 1 Mbps
Identifier Trigger: 6 bits of user-specified data, equal to (=)
Data Trigger: 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 (>=), inside range, or outside range
Error: Sync, Identifier Parity, Checksum
Trigger On: Sync, Identifier, Data, Identifier & D ata, Wakeup Frame, Sleep Frame, or Error
Maximum Data Rate: 100 kbps
Range
16 MSO4000B and DPO4000B Series Specifications and Performance Verification
Table 4: Trigger specifications (cont.)
Specifications
FlexRay
I2S Data Trigger: 32 bits of user-specified data in a left word, right word, or either, including
Left Justified Data Trigger: 32 bits of user-specified data in a left word, right word, or either, including
Right Justified Data Trigger: 32 bits of user-specified data in a left word, right word, or either, including
TDM
RS-232
MIL-STD-1553 Trigger on: Sync, Word Type, Parity Error
Indicator bits: Normal Frame, Payload Frame, Null Frame, Sync Frame, Startup Frame
Identifier Trigger: 11 bits of user-specified data, equal to (=), not equal to (<>), less than (<),
greater than (>), less than or equal to (<=), greater than or equal to (>=), Inside R ange, or
Outside Range
Cycle Count Trigger: 6 bits of user-specified data, equal to (=)
Header Fields Trigger: 40 bits of user-specified data comprising Indicator Bits, Identifier,
Payload Length, Header CRC, Cycle Count, or equal to (=)
Data Trigger: 1 to 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
End Of Frame: User-chosen types Static, Dynamic (DTS), and All
Error: Header CRC, Trailer CRC, Null Frame-static, Null Frame-dynamic, Sync Frame,
Startup Frame
Trigger On: Start of Frame, Indicator Bits, Identifier, Cycle Count, Header Fields, Data,
Identifier & Data, End of Frame, or Error
Maximum Data Rate: 100 Mbps
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
Trigger on: Word Select, Data
Maximum Data Rate: 12.5 Mbps
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
Trigger on: Word Select, Data
Maximum Data Rate: 12.5 Mbps
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
Trigger on: Word Select, Data
Maximum Data Rate: 12.5 Mbps
Data Trigger: 32 bits of user-specified data in a channel 0-7, 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
Trigger on: Frame Sync, Data
Maximum Data Rate: 25 Mbps
Bit Rate: 50 bps to 10 Mbps
Data Bits: 7, 8, or 9
Parity: None, Odd, or Even
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
End of Packet: 00 (NUL), OA (LF), OD (CR), 20 (SP), FF
MSO4000B and DPO4000B Series Specifications and Performance Verification 17
Specifications
Table 4: Trigger specifications (cont.)
USB Data Rates Supported: HS: 480 Mbps, Full: 12 Mbps, Low: 1.5 Mbps
Trigger On: Sync, Reset, Suspend, Resume, End of Packet, Token (Address) Packet, Data
Packet, Handshake Packet, Special Packet, Error
NOTE. HIGH SPEED support available only on MSO4104B, DPO4104B, MSO4104B-L,
DPO4104B-L, MSO4102B-L, DPO4102B-L, MSO4102B, and DPO4102B models.
Ethernet
Bit Rate: 10BASE-T, 10 Mbps; 100BASE-TX, 100 Mbps
Trigger On: Start Frame Delimiter (SFD), MAC Address, MAC Length/Type, IP Header, TCP
Header, TCP/IPv4/MAC Client Data, End of Packet, Idle, FCS (CRC) Error, MAC Q-Tag
control Information.
Digital Acquisition Specifications, MSO4000B Series
The following table shows the digital acquisition specifications for the MSO4000B
Series oscilloscopes.
Table 5: Digital acquisition specifications, MSO4000B Series
Characteristic Description
Threshold voltage range -40 V to +40 V
Digital channel timing resolution
c threshold accuracy
Logi
Minimum detectable pulse width,
typical
2 ns main memory, 60.6 ps for MagniVu memory
±(100 mV + 3% of threshold setting after calibration)
Requires valid SPC, as described in step 2 of the Self Test. (See page 55, Self Test.)
1ns
Using MagniVu memory. Requires the use of 342-1140-00 ground clip on each channel.
18 MSO4000B and DPO4000B Series Specifications and Performance Verification
Specifications
P6616 Digital
Probe Specifications
The following table shows the P6616 Digital Probe specifications.
Table 6: P6616 digital probe specifications
Characteristic Description
Number of channels
Input resistance, typical
Input capacitance, typical 3.0 pF
Minimum input signal swing, typical 400 mV
Maximum input signal swing, typical
Maximum Input Toggle Rate 500 MHz
Absolute maximum input, typical
Channel-to-channel skew, typical
16 digital inputs
100 k to ground
Measured at the podlet input. Requires the use of 342-1140-00 ground clip on each
channel
p-p
Requires the use of 342-1140-00 ground clip on each channel
30 V
for fin 200 MHz (centered around the DC threshold voltage) at the P6616
p-p
probe tip.
10 V
for fin>200 MHz (centered around the D C threshold voltage) at the P6616
p-p
probe tip.
Failure to meet this input signal requirement will compromise the AC performance of the
digital channel. It might also damage the input circuitry. See the Absolute maximum
input voltage specification.
Maximum frequency sine wave input (at the minimum signal swing amplitude) that can
accurately be reproduced as a logic square wave.
Requires the use of a 342-1140-00 ground clip on each channel.
Higher toggle rates can be achieved with higher amplitudes.
±42 V peak at the P6616 input (not at the instrument input)
Probe input voltages beyond this limit could permanently damage the instrument and
the P6616 probe.
200 ps
Digital channel to digital channel only.
This is the propagation path skew and ignores skew contributions due to threshold
inaccuracies (see Threshold accuracy) and sample binning (see Digital channel timing
resolution). Factory calibration/deskew is required to achieve this number.
MSO4000B and DPO4000B Series Specifications and Performance Verification 19
Specifications
Display Speci
fications
The following table shows the display speci fications for the MSO4000B Series
and DPO4000B Series oscilloscopes.
Table 7: Dis
Characteristic Description
Display typ
Display resolution
Luminance, typical
Waveform display color scale The TFT display can support up to 262,144 colors. A subset of these colors are used for the
play specifications
e
Display area: 210.4 mm (8.28 in) (H) x 157.8 mm (6.21 in) (V), 264 mm (10.4 in) diagonal,
6-bit RGB full color, XGA (1024 x 768) TFT liquid crystal display (LCD).
1024 X 768 XGA display resolution
400 cd/m
oscillo
2
scope display, all of which are fixed colors and not changeable by the user.
20 MSO4000B and DPO4000B Series Specifications and Performance Verification
Specifications
Input/Output
Port Specifications
The following table shows the input/output port specifications for the MSO4000B
Series and DPO4000B Series oscilloscopes.
Table 8: Input/Output port specifications
Characteristic Description
Ethernet interface Standard on all models: 10/100/1000 Mbps
GPIB interface Available as an optional accessory (TEK-USB-488 GPIB to USB Adapter), which connects
to the USB Device and USB Host port.
The control interface is incorporated into the instrument user interface.
Video signal output
USB interface 4 USB host connectors (2.0 HS), two on the instrument front and two on the rear.
Probe compensator output voltage
and frequency, typical
Auxiliary output (AUX OUT)
Main Trigger or
Reference C lock or
Event
A15-pin D-sub VGA connector.
1 U SB device connector (2.0 HS), on the instrument rear panel.
All are standard on all models.
Output Voltage
Default: 0-2.5 V amplitude ± 2% (Source Impedance of 1K)
TPPXX00 Cal Mode: 0-2.5 V amplitude ± 5% (Source Impedance of 25)
Frequency
1 kHz ± 25%
You can set the auxiliary output (the rear-panel AUX OUT port) to Main Trigger or Reference
Clock or Event by pushing the Utility front-panel button and turning Multipurpose knob a
to select Ext. Signals. Then push the bottom-menu AUX OUT button and the desired
side-menu button.
Main Trigger: A HIGH to LOW transition indicates that the trigger occurred.
Reference Clock: Outputs the 10 MHz oscilloscope reference clock.
Event: Outputs a pulse when a certain event happens, such as a mask-limit event.
Trigger output logic levels
Limits
2.5 V open circuit
1.0Vintoa50 load to ground
0.25 V into a 50 load to ground
External Reference nominal input
frequency
External Reference input frequency
variation tolerance, typical
External Reference input sensitivity,
typical
Characteristic
Vout (HI)
Vout (LO) 0.7 V into a load of 4mA
10 MHz
You must select either the internal reference (default) or 10 MHz external.
9.9 MHz to 10.1 MHz
You must run SPC, described in step 2 of the Self Test, whenever the external reference is
more than 0.2% (2000 ppm) different than the nominal reference frequency or reference
at which SPC was last run. (See page 55, Self Test.) The time base changes in
correspondence to the fluctuations in the external reference.
1.5 V
for input frequencies between 9.9 MHz and 10.1 MHz
p-p
MSO4000B and DPO4000B Series Specifications and Performance Verification 21
Specifications
Table 8: Input/Output port specifications (cont.)
Characteristic Description
External Reference input maximum
input signal
External Reference input impedance,
typical
7V
p-p
Rin=1.5k ±20%inparallelwith15pF±5pFat10MHz
22 MSO4000B and DPO4000B Series Specifications and Performance Verification
Specifications
Data Storage S
pecifications
The following table shows the data storage specifications for the MSO4000B
Series and DPO4000B Series oscilloscopes.
Table 9: Dat
Characteristic Description
Nonvolatil
typical
Real-time clock A programmable clock providing time in years, months, days, hours, minutes, and seconds
a storage specifications
e memory retention time,
No time limit for front-panel settings, saved waveforms, setups, and calibration constants.
5 M, 10 M, and 20 M records saved as Reference waveforms are not saved in the nonvolatile
memory and
they will not be saved across a power cycle.
Power Source Specifications
The foll
Series and DPO4000B Series oscilloscopes.
Table 10: Power source specifications
Characteristic Description
Source voltage 100 V to 240 V ±10%
Source frequency (85 to 264 V) 45 Hz to 66 Hz
Fuse rating
owing table shows the power source specifications for the MSO4000B
V to 132 V) 360 Hz to 440 Hz
(100
AH, 250 VAC
T6.3
The fuse cannot be replaced by the user.
MSO4000B and DPO4000B Series Specifications and Performance Verification 23
Specifications
Environmenta
lSpecifications
The following table shows the environmental specifications for the MSO4000B
Series and DPO4000B Series oscilloscopes.
Table 11: En
Characteristic Description
Temperatur
Humidity
e
Altitud
Pollution Degree Pollution Degree 2, indoor use only
vironmental specifications
e
Operating: 0 °C to +50 °C (32 °F to +122 °F)
Nonoperating: -20 °C to +60 °C (-4 °F to +140 °F)
Operating:
High: 40 °
Low: 0 °C to 40 °C (32 °F to 104 °F), 10% to 90% relative humidity
Nonoperating:
High: 40 °
Low: 0 °C to 40 °C (32 °F to 104 °F), 5% to 90% relative humidity,
Operating: 3,000 m (9,843 ft)
Nonoperating: 9,144 m (30,000 ft)
C to 50 °C (104 °F to 122 °F), 10% to 60% relative humidity
C to 60 °C (104 °F to 140 °F), 5% to 60% relative humidity
24 MSO4000B and DPO4000B Series Specifications and Performance Verification
Specifications
Mechanical Sp
ecifications
The following table shows the mechanical specifications for the MSO4000B
Series and DPO4000B Series oscilloscopes.
Table 12: Me
Characteristic Description
Dimensions
t
Weigh
chanical specifications
Benchtop configuration (oscilloscope only)
Requirements that follow are nominal and unboxed
Height:
9.0 in (229 mm) feet folded in, handle folded down
9.8 in (249 mm) feet folded out, handle folded down
11. 5 in (2
12.3 in (312 mm) feet folded out, handled folded up
Width:
17.3in(4
Depth:
5.8 in (147 mm) from back of feet to front of knobs
6.1in(1
9.8 in (249 mm) from handle to front of knobs (handle folded to backside of unit)
Box Dimensions:
Height
Width: 15.6 in (396 mm)
Length: 22.2 in (564 mm)
Rackmo
Requirements that follow are nominal and unboxed (5U rack sizes):
Height: 8.6 in ( 218 mm)
Width
Depth: 15.1 in (384 mm), from outside of handle to back of slide
Benchtop configuration (oscilloscope only)
Requirements that follow are nominal:
11. 0
18.8 lbs (8.5 kg), instrument with rackmount, without front cover
23.6 lbs (10.7 kg), when packaged for domestic shipment (without rackmount)
92 mm) feet folded in, handle folded up
39 mm) from handle hub to handle hub
55 mm) from back of feet to front of front cover
: 15.7 in (399 mm)
unt configuration
: 19.2 in (488 mm), from outside of handle to outside of handle
lbs (5.0 kg), stand-alone instrument, without front cover.
arance Requirements
Cle
(0 in), top
0mm
0 in (0 mm), bottom, on feet, with flip stands down
2 in (50.8 mm), left side (facing the front of the instrument)
n (0 mm), right side (facing the front of the instrument)
0i
2 in (50.8 mm), rear (where the power cord is plugged in)
MSO4000B and DPO4000B Series Specifications and Performance Verification 25
Specifications
26 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
This chapter contains performance verification procedures for the specifications
marked with the
required to c
omplete these procedures.
Table 13: Required equipment
Description Minimum requirements Examples
DC voltage source 3 mV to 4 V, ±0.1% accuracy
Leveled sine wave generator
Time mark generator 80 ms period, ±1 ppm accuracy, rise time
Logic Probe Low capacitance digital probe, 16
BNC-to-0.1 inch pin adapter to connect
the logic probe to the signal source.
Digital Multimeter (DMM) 0.1% accuracy or better
One 50 terminator Impedance 50 ; connectors: female
One 50 BNC cable
One BNC dust cap
50 kHz to 1000 MHz, ±4% amplitude
accuracy
<50ns
channels.
BNC-to-0.1 inch pin adapter; female BNC
to 2x16 .01 inch pin headers.
BNC input, male BNC output
Male-to-male connectors Tektronix part number 012-0057-01
Male, non-shorting Pasternack PE6014
symbol. The following equipment, or a suitable equivalent, is
Fluke 9500 Oscilloscope Calibrator with a
9510 Output Module
P6616 probe; standard accessory
shipped with MSO4000B Series
oscilloscopes.
Tektronix adapter part number
679-6240-00; to connect the Fluke
9500 to the P6616 probe.
Tektronix part number 011-0049-02
You might need additional cables and adapters, depending on the actual test
equipment you use.
These procedures cover all MSO4000B and DPO4000B models. Please disregard
checks that do not apply to the specific model you are testing.
Print the test record on the following pages and use it to record the performance
test results for your oscilloscope.
OTE. Completion of the performance verification procedure does not update
N
the stored time a nd date of the latest successful adjustment. The date and time
are updated only when the adjustment procedures in the service manual are
successfully completed.
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, you should perform the factory adjustment
procedures as described in the Tektronix MSO4000B and DPO4000B Series
Service Manual. This manual is available at www.tektronix.com/manuals.
MSO4000B and DPO4000B Series Specifications and Performance Verification 27
Performance Verification
Test Record
Model Serial Procedure performed by Date
Test Passed Failed
Self Test
Input Impedance
Performance checks Vertical scale Low limit Test result High limit
All models for channels 1 and 2
10 mV/div 990 k 1.01 MChannel 1 Input
Impedance, 1 M
Impedance, 50
Impedance, 1 M
Impedance, 50
All four-channel models for channels 3 and 4
(MSO4XX4B, MSO4XX4B-L, DPO4XX4B, DPO4XX4B-L)
Impedance, 1 M
Impedance, 50
Impedance, 1 M
Impedance, 50
100 mV/div 990 k 1.01 M
10 mV/div 49.5 50.5 Channel 1 Input
100 mV/div 49.5 50.5
10 mV/div 990 k 1.01 MChannel 2 Input
100 mV/div 990 k 1.01 M
10 mV/div 49.5 50.5 Channel 2 Input
100 mV/div 49.5 50.5
10 mV/div 990 k 1.01 MChannel 3 Input
100 mV/div 990 k 1.01 M
10 mV/div 49.5 50.5 Channel 3 Input
100 mV/div 49.5 50.5
10 mV/div 990 k 1.01 MChannel 4 Input
100 mV/div 990 k 1.01 M
10 mV/div 49.5 50.5 Channel 4, Input
100 mV/div 49.5 50.5
28 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
DC Balance
All models for channels 1 and 2
Performance checks Vertical scale Low limit Test result High limit
Channel 1 DC Balance,
50 ,20MHzBW
Channel 1 DC Balance,
20 MHz BW
1M,
Channel 1 DC Balance,
50 , 250 MHz BW
Channel 1 DC Balance,
1M, 250 MHz BW
Channel 1 DC Balance,
50 ,FullBW
Channel 1 DC Balance,
1M,FullBW
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
49.8 mV/div
50 mV/div
100 mV/div
200 mV/div
500 mV/div
1V/div
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
100 mV/div
500 mV/div
1V/div
10 V/div
20 mV/div
20 mV/div
20 mV/div
20 mV/div
-0.2 mV 0.2 mV
-0.2 mV 0.2 mV
-0.5 mV 0.5 mV
-1 mV 1 mV
-2 mV 2 mV
-4.98 mV 4.98 mV
-5 mV 5 mV
-10mV 10mV
-20mV 20mV
-50mV 50mV
-100 mV 100 mV
-0.2 mV 0.2 mV
-0.4 mV 0.4 mV
-1 mV 1 mV
-2 mV 2 mV
-4 mV 4 mV
-20mV 20mV
-100 mV 100 mV
-200 mV 200 mV
-2 V 2 V
-2 mV 2 mV
-4 mV 4 mV
-2 mV 2 mV
-4 mV 4 mV
MSO4000B and DPO4000B Series Specifications and Performance Verification 29
Performance Verification
DC Balance
All models for channels 1 and 2
Performance checks Vertical scale Low limit Test result High limit
Channel 2 DC Balance,
50 ,20MHzBW
Channel 2 DC Balance,
20 MHz BW
1M,
Channel 2 DC Balance,
50 , 250 MHz BW
Channel 2 DC Balance,
1M, 250 MHz BW
Channel 2 DC Balance,
50 ,FullBW
Channel 2 DC Balance,
1M,FullBW
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
49.8 mV/div
50 mV/div
100 mV/div
200 mV/div
500 mV/div
1V/div
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
100 mV/div
500 mV/div
1V/div
10 V/div
20 mV/div
20 mV/div
20 mV/div
20 mV/div
-0.2 mV 0.2 mV
-0.2 mV 0.2 mV
-0.5 mV 0.5 mV
-1 mV 1 mV
-2 mV 2 mV
-4.98 mV 4.98 mV
-5 mV 5 mV
-10mV 10mV
-20mV 20mV
-50mV 50mV
-100 mV 100 mV
-0.2 mV 0.2 mV
-0.4 mV 0.4 mV
-1 mV 1 mV
-2 mV 2 mV
-4 mV 4 mV
-20mV 20mV
-100 mV 100 mV
-200 mV 200 mV
-2 V 2 V
-2 mV 2 mV
-4 mV 4 mV
-2 mV 2 mV
-4 mV 4 mV
30 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
DC Balance
All four-channel models for channels 3 and 4
Performance checks Vertical scale Low limit Test result High limit
Channel 3 DC Balance,
50 ,20MHzBW
Channel 3 DC Balance,
20 MHz BW
1M,
Channel 3 DC Balance,
50 , 250 MHz BW
Channel 3 DC Balance,
1M, 250 MHz BW
Channel 3 DC Balance,
50 ,FullBW
Channel 3 DC Balance,
1M,FullBW
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
49.8 mV/div
50 mV/div
100 mV/div
200 mV/div
500 mV/div
1V/div
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
100 mV/div
500 mV/div
1V/div
10 V/div
20 mV/div
20 mV/div
20 mV/div
20 mV/div
-0.2 mV 0.2 mV
-0.2 mV 0.2 mV
-0.5 mV 0.5 mV
-1 mV 1 mV
-2 mV 2 mV
-4.98 mV 4.98 mV
-5 mV 5 mV
-10mV 10mV
-20mV 20mV
-50mV 50mV
-100 mV 100 mV
-0.2 mV 0.2 mV
-0.4 mV 0.4 mV
-1 mV 1 mV
-2 mV 2 mV
-4 mV 4 mV
-20mV 20mV
-100 mV 100 mV
-200 mV 200 mV
-2 V 2 V
-2 mV 2 mV
-4 mV 4 mV
-2 mV 2 mV
-4 mV 4 mV
MSO4000B and DPO4000B Series Specifications and Performance Verification 31
Performance Verification
DC Balance
All four-channel models for channels 3 and 4
Performance checks Vertical scale Low limit Test result High limit
Channel 4 DC Balance,
50 ,20MHzBW
Channel 4 DC Balance,
20 MHz BW
1M,
Channel 4 DC Balance,
50 , 250 MHz BW
Channel 4 DC Balance,
1M, 250 MHz BW
Channel 4 DC Balance,
50 ,FullBW
Channel 4 DC Balance,
1M,FullBW
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
49.8 mV/div
50 mV/div
100 mV/div
200 mV/div
500 mV/div
1V/div
1 mV/div
2 mV/div
5 mV/div
10 mV/div
20 mV/div
100 mV/div
500 mV/div
1V/div
10 V/div
20 mV/div
20 mV/div
20 mV/div
20 mV/div
-0.2 mV 0.2 mV
-0.2 mV 0.2 mV
-0.5 mV 0.5 mV
-1 mV 1 mV
-2 mV 2 mV
-4.98 mV 4.98 mV
-5 mV 5 mV
-10mV 10mV
-20mV 20mV
-50mV 50mV
-100 mV 100 mV
-0.2 mV 0.2 mV
-0.4 mV 0.4 mV
-1 mV 1 mV
-2 mV 2 mV
-4 mV 4 mV
-20mV 20mV
-100 mV 100 mV
-200 mV 200 mV
-2 V 2 V
-2 mV 2 mV
-4 mV 4 mV
-2 mV 2 mV
-4 mV 4 mV
32 MSO4000B and DPO4000B Series Specifications and Performance Verification
DC Gain Accuracy (50 Ω)
All 1 GHz models for channels 1 and 2
(MSO4104B, DP
Performance c
Channel 1
DC Gain Accuracy,
0 V offset, 0 V vertical
position, 5
nnel 2
Cha
DC Gain Accuracy,
0 V offset, 0 V vertical
sition, 50
po
O4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, MSO4102B, and DPO4102B)
hecks
0
Bandwidth Vertical scal
20 MHz
250 MHz
Full
20 MHz
250 MHz
Full
Performance Verification
e
1 mV/div -2.0% 2.0%
2 mV/div -1.5% 1.5%
5 mV/div -1.5% 1.5%
10 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
49.8 mV/d
50 mV/di
100 mV/
200 mV/
500 mV
1V/di
20 mV
20 mV
1mV
2m
5m
0mV/div
1
0mV/div
2
49.8 mV/div -3.0% 3.0%
50 mV/div -1.5% 1.5%
100 mV/div -1.5% 1.5%
200 mV/div -1.5% 1.5%
500 mV/div -1.5% 1.5%
1 V/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
iv
v
div
div
/div
v
/div
/div
/div
V/div
V/div
Low limit Test result High limit
-3.0% 3.0%
-1.5% 1.5%
-1.5% 1.5%
-1.5% 1.5%
-1.5% 1.5%
-1.5% 1.5%
%
-1.5
-1.5
-2.
.5%
-1
.5%
-1
1.5%
-
1.5%
-
%
0%
1.5%
1.5%
2.0
5%
1.
5%
1.
.5%
1
.5%
1
%
MSO4000B and DPO4000B Series Specifications and Performance Verification 33
Performance Verification
DC Gain Accuracy (50 Ω)
All four-channel, 1 GHz models for channels 3 and 4
(MSO4104B, DP
Performance c
Channel 3
DC Ga in Accuracy,
0 V offset, 0 V vertical
position, 5
nnel 4
Cha
DC Ga in Accuracy,
0 V offset, 0 V vertical
sition, 50
po
O4104B, MSO4104B-L, D PO 4104B-L)
hecks
0
Bandwidth Vertical scal
20 MHz
250 MHz
Full
20 MHz
250 MHz
Full
1 mV/div -2.0% 2.0%
2 mV/div -1.5% 1.5%
5 mV/div -1.5% 1.5%
10 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
49.8 mV/d
50 mV/di
100 mV/
200 mV/
500 mV
1V/di
20 mV
20 mV
1mV
2m
5m
1
2
49.8 m V/div -3.0% 3.0%
50 mV/div -1.5% 1.5%
100 mV/div -1.5% 1.5%
200 mV/div -1.5% 1.5%
500 mV/div -1.5% 1.5%
1 V/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
div
div
/div
v
/div
/div
/div
V/div
V/div
0 mV/div
0 mV/div
e
iv
v
Low limit Test result High limit
-3.0% 3.0%
-1.5% 1.5%
-1.5% 1.5%
-1.5% 1.5%
-1.5% 1.5%
-1.5% 1.5%
%
-1.5
-1.5
-2.
.5%
-1
.5%
-1
1.5%
-
1.5%
-
%
0%
1.5%
1.5%
2.0
5%
1.
5%
1.
.5%
1
.5%
1
%
34 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
DC Gain Accuracy (1 MΩ)
All models for channels 1 and 2
Performance checks Bandwidth Vertical scale Low limit Test result High limit
Channel 1
DC Gain Accur
0 V offset, 0 V vertical
position, 1 M
Channel 2
Gain Accuracy,
DC
0 V offset, 0 V vertical
position, 1 M
acy,
20 MHz
250 MHz
FULL
20 MHz
250 MHz
FULL
1 mV/div -2.0% 2.0%
2 mV/div -1.5% 1.5%
5 mV/div -1.5% 1.5%
10 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
50 mV/div -1.5% 1.5%
63.5 mV/div -3.0% 3.0%
100 mV/div -1.5% 1.5%
200 mV/div -1.5% 1.5%
500 mV/div -1.5% 1.5%
1 V/div -1.5% 1.5%
5 V/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
1 mV/div -2.0% 2.0%
2 mV/div -1.5% 1.5%
5 mV/div -1.5% 1.5%
10 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
50 mV/div -1.5% 1.5%
63.5 mV/div -3.0% 3.0%
100 mV/div -1.5% 1.5%
200 mV/div -1.5% 1.5%
500 mV/div -1.5% 1.5%
1 V/div -1.5% 1.5%
5 V/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
MSO4000B and DPO4000B Series Specifications and Performance Verification 35
Performance Verification
DC Gain Accuracy (1 MΩ)
All four-channel models for channels 3 and 4
Performance checks Bandwidth Vertical scale Low limit Test result High limit
Channel 3
DC Gain Accur
0 V offset, 0 V vertical
position, 1 M
Channel 4
Gain Accuracy,
DC
0 V offset, 0 V vertical
position, 1 M
acy,
20 MHz
250 MHz
FULL
20 MHz
250 MHz
FULL
1 mV/div -2.0% 2.0%
2 mV/div -1.5% 1.5%
5 mV/div -1.5% 1.5%
10 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
50 mV/div -1.5% 1.5%
63.5 mV/div -3.0% 3.0%
100 mV/div -1.5% 1.5%
200 mV/div -1.5% 1.5%
500 mV/div -1.5% 1.5%
1 V/div -1.5% 1.5%
5 V/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
1 mV/div -2.0% 2.0%
2 mV/div -1.5% 1.5%
5 mV/div -1.5% 1.5%
10 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
50 mV/div -1.5% 1.5%
63.5 mV/div -3.0% 3.0%
100 mV/div -1.5% 1.5%
200 mV/div -1.5% 1.5%
500 mV/div -1.5% 1.5%
1 V/div -1.5% 1.5%
5 V/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
20 mV/div -1.5% 1.5%
36 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
DC Offset Accuracy
All models for
Performance checks Vertical scale Vertical offset
Channel 1
DC Offset Accuracy,
20 MHz BW, 50
1 GHz models only
Channel 1
DC Offset Accuracy,
20 MHz BW, 1
All models
Channel 2
DC Offset Accuracy,
20 MHz BW
1 GHz models only
Channel 2
DC Offset Accuracy,
20 MHz BW, 1 M
All models
1
Use this value for both the calibrator output and the oscilloscope offset setting.
2
Due to system architecture differences between MSO/DPO4000B oscilloscope models, if the bandwidth of your model is less than 1 GHz, do not use the 50
termination setting on the oscilloscope to test offset accuracy. In order to test offset accuracy at the 50 termination setting for models less than 1 GHz, instead
usethe1M termination setting only. For 1 GHz models, test the DC offset accuracy at both the 50 terminationsettingandthe1M termination setting.
channels 1 and 2, except as noted below
1 mV/div
1 mV/div
100 mV/div
2
100 mV/div
1 mV/div
1 mV/div
M
100 mV/div
100 mV/div
500 mV/div
500 mV/div
1.01 V/div
1.01 V/div
5V/div
5V/div
1 mV/div
1 mV/div
,50
2
100 mV/div
100 mV/div
1 mV/div
1 mV/div
100 mV/div
100 mV/div
500 mV/div
500 mV/div
1.01 V/div
1.01 V/div
5V/div
5V/div
1
Low limit Test result
High limit
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
5.0 V 4.965 V 5.035 V
-5.0 V -5.035 V -4.965 V
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
9.0 V 8.935 V 9.065 V
- 9.0V -9.065 V -8.935 V
9.0 V 8.855 V 9.145 V
- 9.0V -9.145 V -8.855 V
99.5 V 98.80 V 100.2 V
-99.5 V -100.2 V -98.80 V
99.5 V 98.00 V 101.0 V
-99.5 V -101.0 V -98.00 V
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 m
V
-895.3 m
5.0 V 4.965 V 5.035 V
-5.0 V -5.035 V -4.965 V
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
9.0 V 8.935 V 9.065 V
-9.0 V -9.065 V -8.935 V
9.0 V 8.855 V 9.145 V
- 9.0V -9.145 V -8.855 V
99.5 V 98.80 V 100.2 V
-99.5 V -100.2 V -98.80 V
99.5 V 98.00 V 101.0 V
-99.5 V -101.0 V -98.00 V
V
MSO4000B and DPO4000B Series Specifications and Performance Verification 37
Performance Verification
DC Offset Accuracy
All four-chan
Performance checks Vertical scale Vertical offset
Channel 3
DC Offset Accuracy,
20 MHz BW, 50
All four-channel 1 G Hz
models
Channel 3
DC Offset Accuracy,
20 MHz BW, 1 M
All four-channel models
Channel 4
DC Offset Accuracy,
20 MHz BW, 50
All four-channel 1 G Hz
models
Channel 4
DC Offset Accuracy,
20 MHz BW, 1 M
All four-channel models
1
Use this value for both the calibrator output and the oscilloscope offset setting.
2
Due to system architecture differences between MSO/DPO4000B oscilloscope models, if the bandwidth of your model is less than 1 GHz, do not use the 50
term
usethe1M termination setting only. For 1 GHz models, test the DC offset accuracy at both the 50 termination setting and the 1 M termination setting.
nel models for channels 3 and 4, except as noted below
1
1 mV/div
1 mV/div
100 mV/div
100 mV/div
2
1 mV/div
1 mV/div
100 mV/div
100 mV/div
500 mV/div
500 mV/div
1.01 V/div
1.01 V/div
5V/div
5V/div
1 mV/div
1 mV/div
100 mV/div
100 mV/div
2
1 mV/div
1 mV/div
100 mV/div
100 mV/div
500 mV/div
500 mV/div
1.01 V/div
1.01 V/div
5V/div
5V/div
ination setting on the oscilloscope to test offset accuracy. In order to test offset accuracy at the 50 termination setting for models less than 1 GHz, instead
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
5.0 V 4.965 V 5.035 V
-5.0 V -5.035 V -4.965 V
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
9.0 V 8.935 V 9.065 V
-9.0 V -9.065 V -8.935 V
9.0 V 8.855 V 9.145 V
- 9.0V -9.145 V -8.855 V
99.5 V 98.80 V 100.2 V
-99.5 V -100.2 V -98.80 V
99.5 V 98.00 V 101.0 V
-99.5 V -101.0 V -98.00 V
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
5.0 V 4.965 V 5.035 V
-5.0 V -5.035 V -4.965 V
900 mV 895.3 mV 904.7 mV
-900 mV -904.7 mV -895.3 mV
9.0 V 8.935 V 9.065 V
-9.0 V -9.065 V -8.935 V
9.0 V 8.855 V 9.145 V
- 9.0V -9.145 V -8.855 V
99.5 V 98.80 V 100.2 V
-99.5 V -100.2 V -98.80 V
99.5 V 98.00 V 101.0 V
-99.5 V -101.0 V -98.00 V
Low limit Test result
High limit
Sample Rate and Delay Time Accuracy
Performance checks Low limit Test result High limit
-1 divisions +1 divisions
38 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Analog Bandwid
Performance c
th
hecks
Bandwidth
at Channel Impedance
All Models
Channel 1 50
Vertical
scale
Horizontal
scale V
1 mV/div 4 ns/div
(175 MHz)
2 mV/div 2 ns/div
(350 MHz)
5 mV/div 1 ns/div
(Full BW)
10 mV/div 1 ns/div
(Full BW)
50 mV/div 1 ns/div
(Full BW)
100 mV/div 1 ns/div
(Full B
v
1V/di
1ns/d
(Full BW)
W)
iv
in-pp
V
bw-pp
Limit
0.707
0.707
0.707
0.707
0.707
0.707
0.707
Test result
Gain =
V
bw-pp/Vin-pp
MSO4000B and DPO4000B Series Specifications and Performance Verification 39
Performance Verification
Analog Bandwid
Performance c
th
hecks
Bandwidth
at Channel Impedance
All Models
Channel 2 50
Vertical
scale
Horizontal
scale V
1 mV/div 4 ns/div
(175 MHz)
2 mV/div 2 ns/div
(350 MHz)
5 mV/div 1 ns/div
(Full BW)
10 mV/div 1 ns/div
(Full BW)
50 mV/div 1 ns/div
(Full BW)
100 mV/div 1 ns/div
(Full B
v
1V/di
1ns/d
(Full BW)
W)
iv
in-pp
V
bw-pp
Limit
0.707
0.707
0.707
0.707
0.707
0.707
0.707
Test result
Gain =
V
bw-pp/Vin-pp
40 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Analog Bandwid
Performance c
Bandwidth
at Channel Impedance
th
hecks
Vertical
scale
All four-channel models for channels 3 and 4
Channel 3 50
1 mV/div 4 ns/div
2 mV/div 2 ns/div
5 mV/div 1 ns/div
10 mV/div 1 ns/div
50 mV/div 1 ns/div
100 mV /
div
1V/div 1 ns/div
Horizontal
scale V
(175 MHz)
(350 MHz)
(Full BW)
(Full BW)
(Full BW
1ns/di
)
v
(Full BW)
(Full BW)
in-pp
V
bw-pp
Limit
0.707
0.707
0.707
0.707
0.707
0.707
0.70
Test result
Gain =
V
bw-pp/Vin-pp
7
MSO4000B and DPO4000B Series Specifications and Performance Verification 41
Performance Verification
Analog Bandwid
Performance c
th
hecks
Bandwidth
at Channel Impedance
All four-channel models
Channel 4 50
Vertical
scale
Horizontal
scale V
1 mV/div 4 ns/div
(175 MHz)
2 mV/div 2 ns/div
(350 MHz)
5 mV/div 1 ns/div
(Full BW)
10 mV/div 1 ns/div
(Full BW)
50 mV/div 1 ns/div
(Full BW
100 mV/
div
1ns/di
(Full BW)
1V/div 1ns/div
(Full BW)
Test result
Gain =
in-pp
V
bw-pp
Limit
V
bw-pp/Vin-pp
0.707
0.707
0.707
0.707
0.707
)
v
0.707
0.70
7
42 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Random Noise, Sample Acquisition Mode
Vertical sensitivity = 100 mV/div
Performance checks 1 MΩ 50 Ω
Bandwidth Test result (mV) High limit (mV) Test result (mV) High limit (mV)
All 1 GHz models
(MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, M SO4102B, and DPO4102B)
Channel 1
Channel 2
All four-channel and 1 GHz models
(MSO410
Channe
Chann
All <
(DPO4054B, DPO4034B, DPO4014B)
Channel 1
Ch
Channel 3
Channel 4
4B, DPO4104B, MSO4104B-L, and DPO4104B-L)
l3
el 4
1GHzmodels
annel 2
Full 8.30 6.08
imit
limit
mit
it
5.10 4.05
5.10 4.05
5.10 4.05
5.10 4.05
3
8.1
6.10 6.10
10
4.
6.10 6.10
6.10 6.10
6.10 6.10
250 MHz lim
20 MHz limit 5.10 4.05
Full 8.30 6.08
250 MHz li
20 MHz limit 5.10 4.05
Full 8.30 6.08
250 MHz limit 5.10 4.05
20 MHz l
Full 8.30 6.08
250 MHz limit 5.10 4.05
20 MHz
l
Ful
250 MHz limit
cept
(ex
DPO4014B)
MHz limit
20
Full 8.13 8.13
250 MHz limit
(except
PO4014B)
D
20 MHz limit 4.10 4.10
Full 8.13 8.13
250 MHz limit
(except
DPO4014B)
20 MHz limit 4.10 4.10
Full 8.13 8.13
250 MHz limit
(except
DPO4014B)
20 MHz limit 4.10 4.10
8.1
4.
3
10
MSO4000B and DPO4000B Series Specifications and Performance Verification 43
Performance Verification
DeltaTimeMeas
Performance c
All 1 GHz model
urement Accuracy
hecks
s
(MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, MSO4102B, and DPO4102B)
Channel 1
MSO/DPO = 4 ns/Div, Source freq = 240 MHz
MSO/DPO V/Div Source V
5mV 40mV 118ps
100 mV 800 mV 117 ps
500 mV 4 V 117 ps
1 V 4 V 122 ps
MSO/DPO
= 40 ns/Div, Source freq = 24 MHz
1 mV 8 mV 464 ps
5 mV 40 mV 276 ps
100 mV 800 mV 234 ps
500 mV 4 V 232 ps
1 V 4 V 417 ps
pp
Test result High limit
MSO/DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 4.50
5mV 40mV 2.52ns
100 mV 800 mV 2.05 ns
mV
500
1 V 4 V 4.01 ns
4V 2.0
ns
3ns
MSO/DPO = 4 μs/Div, Source freq = 240 kHz
1mV 8mV 45.0ns
V
5m
100 mV 800 mV 20.5 ns
500 mV 4 V 20.3 ns
V
1
mV
40
V
4
25
0.1 ns
4
.2 ns
MSO/DPO = 40 μs/Div, Source freq = 24 kHz
1 mV 8 mV 450 ns
5 mV 40 mV 252 ns
100 mV 800 mV 205 ns
500 mV 4 V 203 ns
1 V 4 V 401 ns
MSO/DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 4.50 s
5mV 40mV 2.52s
100 mV 800 mV 2.05 s
500 mV 4 V 2.03 s
1 V 4 V 4.01 s
44 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Delta Time Meas
All 1 GHz model
urement Accuracy
s
(MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, M SO4102B, and DPO4102B)
Channel 2
MSO/DPO = 4 ns/Div, Source freq = 240 MHz
MSO/DPO V/Div Source V
5mV 40mV 118ps
100 mV 800 mV 117 ps
500 mV 4 V 117 ps
1 V 4 V 122 ps
MSO/DPO =
1 mV 8 mV 464 ps
5 mV 40 mV 276 ps
100 mV 800 mV 234 ps
500 mV 4 V 232 ps
1 V 4 V 417 ps
40 ns/Div, Source freq = 24 MHz
pp
Test result High limit
MSO/DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 4.50 n
5mV 40mV 2.52ns
100 mV 800 mV 2.05 ns
V
500 m
1 V 4 V 4.01 ns
4 V 2.03
s
ns
MSO/DPO = 4 μs/Div, Source freq = 240 kHz
1 mV 8 mV 45.0 ns
V
5m
100 mV 800 mV 20.5 ns
500 mV 4 V 20.3 ns
V
1
SO/DPO = 40 μs/Div, Source freq = 24 kHz
M
1 mV 8 mV 450 ns
5 mV 40 mV 252 ns
100 mV 800 mV 205 ns
500 mV 4 V 203 ns
1 V 4 V 401 ns
mV
40
V
4
.2 ns
25
0.1 ns
4
MSO/DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 4.50 s
5mV 40mV 2.52s
100 mV 800 mV 2.05 s
500 mV 4 V 2.03 s
1 V 4 V 4.01 s
MSO4000B and DPO4000B Series Specifications and Performance Verification 45
Performance Verification
DeltaTimeMeas
All four-chan
urement Accuracy
nel and 1 GHz models
(MSO4104B, DPO4104B, MSO4104B-L, D PO 4104B-L)
Channel 3
MSO/DPO = 4 ns/Div, Source freq = 240 MHz
MSO/DPO V/Div Source V
5mV 40mV 118ps
100 mV 800 mV 117 ps
500 mV 4 V 117 ps
1 V 4 V 122 ps
MSO/DPO =
1 mV 8 mV 464 ps
5 mV 40 mV 276 ps
100 mV 800 mV 234 ps
500 mV 4 V 232 ps
1 V 4 V 417 ps
40 ns/Div, Source freq = 24 MHz
pp
Test result High limit
MSO/DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 4.50 n
5mV 40mV 2.52ns
100 mV 800 mV 2.05 ns
V
500 m
1 V 4 V 4.01 ns
4 V 2.03
MSO/DPO = 4 μs/Div, Source freq = 240 kHz
1mV 8mV 45.0ns
V
5m
100 mV 800 mV 20.5 ns
500 mV 4 V 20.3 ns
V
1
SO/DPO = 40 μs/Div, Source freq = 24 kHz
M
1 mV 8 mV 450 ns
5 mV 40 mV 252 ns
100 mV 800 mV 205 ns
500 mV 4 V 203 ns
1 V 4 V 401 ns
mV
40
V
4
MSO/DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 4.50 s
5mV 40mV 2.52s
100 mV 800 mV 2.05 s
500 mV 4 V 2.03 s
1 V 4 V 4.01 s
25
0.1 ns
4
s
ns
.2 ns
46 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Delta Time Meas
All four-chan
urement Accuracy
nel and 1 GHz models
(MSO4104B, DPO4104B, MSO4104B-L, and DPO4104B-L)
Channel 4
MSO/DPO = 4 ns/Div, Source freq = 240 MHz
MSO/DPO V/Div Source V
5mV 40mV 118ps
100 mV 800 mV 117 ps
500 mV 4 V 117 ps
1 V 4 V 122 ps
MSO/DPO =
1 mV 8 mV 464 ps
5 mV 40 mV 276 ps
100 mV 800 mV 234 ps
500 mV 4 V 232 ps
1 V 4 V 417 ps
40 ns/Div, Source freq = 24 MHz
pp
Test result High limit
MSO/DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 4.50 n
5mV 40mV 2.52ns
100 mV 800 mV 2.05 ns
V
500 m
1 V 4 V 4.01 ns
4 V 2.03
MSO/DPO = 4 μs/Div, Source freq = 240 kHz
1 mV 8 mV 45.0 ns
V
5m
100 mV 800 mV 20.5 ns
500 mV 4 V 20.3 ns
V
1
SO/DPO = 40 μs/Div, Source freq = 24 kHz
M
1 mV 8 mV 450 ns
5 mV 40 mV 252 ns
100 mV 800 mV 205 ns
500 mV 4 V 203 ns
1 V 4 V 401 ns
mV
40
V
4
MSO/DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 4.50 s
5mV 40mV 2.52s
100 mV 800 mV 2.05 s
500 mV 4 V 2.03 s
1 V 4 V 4.01 s
.2 ns
25
0.1 ns
4
s
ns
MSO4000B and DPO4000B Series Specifications and Performance Verification 47
Performance Verification
DeltaTimeMeas
All <1 GHz mode
urement Accuracy
ls
(DPO4054B, DPO4034B, DPO4014B)
Channel 1
DPO = 4 ns/Div, Source freq = 240 MHz (except for DPO4014B)
DPO V/Div Sou rce V
5 mV 40 mV 234 ps
100 mV 800 mV 233 ps
500 mV 4 V 233 ps
1 V 4 V 237 ps
DPO = 40 ns
1 mV 8 mV 736 ps
5 mV 40 mV 423 ps
100 mV 800 mV 357 ps
500 mV 4 V 354 ps
1 V 4 V 581 ps
/Div, Source freq = 24 MHz
pp
Test result High limit
DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 6.99 n
5mV 40mV 3.54ns
100 mV 800 mV 2.73 ns
V
500 m
1 V 4 V 5.34 ns
4 V 2.69
DPO = 4 μs/Div, Source freq = 240 kHz
1mV 8mV 69.9ns
V
5m
100 mV 800 mV 27.3 ns
500 mV 4 V 26.9 ns
V
1
PO = 40 μs/Div, Source freq = 24 kHz
D
1 mV 8 mV 699 ns
5 mV 40 mV 354 ns
100 mV 800 mV 273 ns
500 mV 4 V 269 ns
1 V 4 V 534 ns
mV
40
V
4
DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 6.99 s
5mV 40mV 3.54s
100 mV 800 mV 2.73 s
500 mV 4 V 2.69 s
1 V 4 V 5.34 s
35
3.4 ns
5
s
ns
.4 ns
48 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Delta Time Meas
All <1 GHz mode
urement Accuracy
ls
(DPO4054B, DPO4034B, DPO4014B)
Channel 2
DPO = 4 ns/Div, Source freq = 240 MHz (except DPO4014B)
DPO V/Div Source V
5 mV 40 mV 234 ps
100 mV 800 mV 233 ps
500 mV 4 V 233 ps
1 V 4 V 237 ps
DPO = 40 ns
1 mV 8 mV 736 ps
5 mV 40 mV 423 ps
100 mV 800 mV 357 ps
500 mV 4 V 354 ps
1 V 4 V 581 ps
/Div, Source freq = 24 MHz
pp
Test result High limit
DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 6.99 n
5mV 40mV 3.54ns
100 mV 800 mV 2.73 ns
V
500 m
1 V 4 V 5.34 ns
4 V 2.69
DPO = 4 μs/Div, Source freq = 240 kHz
1 mV 8 mV 69.9 ns
V
5m
100 mV 800 mV 27.3 ns
500 mV 4 V 26.9 ns
V
1
PO = 40 μs/Div, Source freq = 24 kHz
D
1 mV 8 mV 699 ns
5 mV 40 mV 354 ns
100 mV 800 mV 273 ns
500 mV 4 V 269 ns
1 V 4 V 534 ns
mV
40
V
4
DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 6.99 s
5mV 40mV 3.54s
100 mV 800 mV 2.73 s
500 mV 4 V 2.69 s
1 V 4 V 5.34 s
.4 ns
35
3.4 ns
5
s
ns
MSO4000B and DPO4000B Series Specifications and Performance Verification 49
Performance Verification
DeltaTimeMeas
All four-chan
urement Accuracy
nel and <1 GHz models
(DPO4054B, DPO4034B, DPO4014B)
Channel 3
DPO = 4 ns/Div, Source freq = 240 MHz (except DPO4014B)
DPO V/Div Sou rce V
5 mV 40 mV 234 ps
100 mV 800 mV 233 ps
500 mV 4 V 233 ps
1 V 4 V 237 ps
DPO = 40 ns
1 mV 8 mV 736 ps
5 mV 40 mV 423 ps
100 mV 800 mV 357 ps
500 mV 4 V 354 ps
1 V 4 V 581 ps
/Div, Source freq = 24 MHz
pp
Test result High limit
DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 6.99 n
5mV 40mV 3.54ns
100 mV 800 mV 2.73 ns
V
500 m
1 V 4 V 5.34 ns
4 V 2.69
DPO = 4 μs/Div, Source freq = 240 kHz
1mV 8mV 69.9ns
V
5m
100 mV 800 mV 27.3 ns
500 mV 4 V 26.9 ns
V
1
PO = 40 μs/Div, Source freq = 24 kHz
D
1 mV 8 mV 699 ns
5 mV 40 mV 354 ns
100 mV 800 mV 273 ns
500 mV 4 V 269 ns
1 V 4 V 534 ns
mV
40
V
4
DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 6.99 s
5mV 40mV 3.54s
100 mV 800 mV 2.73 s
500 mV 4 V 2.69 s
1 V 4 V 5.34 s
35
3.4 ns
5
s
ns
.4 ns
50 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Delta Time Meas
All four-chan
urement Accuracy
nel and <1 GHz models
(DPO4054B, DPO4034B, DPO4014B)
Channel 4
DPO = 4 ns/Div, Source freq = 240 MHz (except DPO4014B)
DPO V/Div Source V
5 mV 40 mV 234 ps
100 mV 800 mV 233 ps
500 mV 4 V 233 ps
1 V 4 V 237 ps
DPO = 40 ns
1 mV 8 mV 736 ps
5 mV 40 mV 423 ps
100 mV 800 mV 357 ps
500 mV 4 V 354 ps
1 V 4 V 581 ps
/Div, Source freq = 24 MHz
pp
Test result High limit
DPO = 400 ns/Div, Source freq = 2.4 MHz
1 mV 8 mV 6.99 n
5mV 40mV 3.54ns
100 mV 800 mV 2.73 ns
V
500 m
1 V 4 V 5.34 ns
4 V 2.69
DPO = 4 μs/Div, Source freq = 240 kHz
1 mV 8 mV 69.9 ns
V
5m
100 mV 800 mV 27.3 ns
500 mV 4 V 26.9 ns
V
1
PO = 40 μs/Div, Source freq = 24 kHz
D
1 mV 8 mV 699 ns
5 mV 40 mV 354 ns
100 mV 800 mV 273 ns
500 mV 4 V 269 ns
1 V 4 V 534 ns
mV
40
V
4
DPO = 400 μs/Div, Source freq = 2.4 kHz
1 mV 8 mV 6.99 s
5mV 40mV 3.54s
100 mV 800 mV 2.73 s
500 mV 4 V 2.69 s
1 V 4 V 5.34 s
.4 ns
35
3.4 ns
5
s
ns
MSO4000B and DPO4000B Series Specifications and Performance Verification 51
Performance Verification
Digital Threshold Accuracy, MSO4000B series only
Performance checks:
Digital
channel Threshold V
0 V -0.1 V 0.1 VD0
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD1
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD2
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD3
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD4
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD5
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD6
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD7
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD8
4 V 3.78 V 4.22 V
0V -0.1
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD10
4V 3.7
0 V -0.1 V 0.1 VD11
4 V 3.78 V 4.22 V
D1
2
0V -0
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD13
V
4
0 V -0.1 V 0.1 VD14
4 V 3.78 V 4.22 V
0 V -0.1 V 0.1 VD15
4 V 3.78 V 4.22 V
slow
V
shigh
Low limit Test result High limit
.78 V
3
V
8V
.1 V
0.1 VD9
4.2
1V
0.
.22 V
4
2V
52 MSO4000B and DPO4000B Series Specifications and Performance Verification
Trigger Out (AUX OUT)
Performance checks
Trigger Output
Trigger Output
High 1 M
Low 1 M
High 50
Low 50
Performance Verification
Low limit Test result High limit
2.5 V
–
1.0 V
–
–
0.7 V
–
0.25 V
MSO4000B and DPO4000B Series Specifications and Performance Verification 53
Performance Verification
Performance V
erification Procedures
The Performance Verification Procedures consist of a self test and several check
steps, which check the instrument's performance to specifications. The following
three condit
1. The oscilloscope must have been operating continuously for twenty (20)
minutes in a
temperature and humidity.
2. You mu s t p e
in step 2 of the Self Test before evaluating specifications. (Seepage55,Self
Tes t .) If the operating temperature changes by more than 10 °C (18 °F), you
must perform the SPC operation again.
3. You must connect the oscilloscope and the test equipment to the same AC
power circuit. Connect the oscilloscope and test instruments to a common
power strip if you are unsure of the AC power circuit distribution. Connecting
the oscilloscope and test instruments to separate AC power circuits can
result
performance verification procedure.
The ti
WARNING. Some procedures use hazardous voltages. To prevent electrical
shock, always set voltage source outputs to 0 V before making or changing any
interconnections.
ions must be met before performing these procedures:
n environment that meets the operating range specifications for
rform the Signal Path Compensation (SPC) operation described
in offset voltages between the equipment, which can invalidate the
me required to complete the entire procedure is approximately one hour.
54 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Self Test
This procedure
passes its internal self tests. No test equipment or hookups are required.
1. Run the System
a. Disconnect everything from the oscilloscope inputs.
b. Push the front-panel Default Setup button.
c. Push the Utility menu button.
d. Push the Utility Page lower-bezel button.
e. Turn the Multipurpose a knob to select Self Test.
f. Push the S
menu will be set to Loop 1 Times.
g. Push the
h. Wait. The internal diagnostics perform an exhaustive verification of
proper
i. Verify that the s tatus of all tests on the readout is Pass.
j. Push the Menu Off button twice to clear the dialog box and Self Test
menu.
uses internal routines to verify that the oscilloscope functions and
Diagnostics (may take several minutes):
elf Test lower-bezel button. The Loop X Times side-bezel
OK Run Self Test side-bezel button.
instrument function. This verification may take several minutes.
2. Run the signal path compensation routine (may take 5 to 15 minutes):
a. Push the front-panel Default Setup button.
b. Push the Utility menu button.
c. Push the Utility Page lower-bezel button.
rn the Multipurpose a knob to select Calibration.
d. Tu
e. Push the Signal Path lower-bezel button.
f. Push the OK-Compensate Signal Paths side bezel button.
g. When the signal path compensation is complete, push the Menu Off
button twice to clear the dialog box and Self Test menu.
h. Check the lower-bezel Signal Path button to verify that the status is Pass.
MSO4000B and DPO4000B Series Specifications and Performance Verifi
cation 55
Performance Verification
Check Input Impedance
(Resistance)
This test check
1. Connect the output of the oscilloscope calibrator (for example, Fluke 9500) to
the oscillosc
WARNING.
set the generator to off or 0 volts before connecting, disconnecting, and/or moving
the test hookup during the performance of this procedure.
2. Push the front-panel Default Setup button.
3. Set the
s the Input Impedance.
ope channel 1 input, as shown below.
The generator is capable of providing dangerous voltages. Be sure to
impedance to 1 MΩ as follows:
a. Push the channel 1 button.
b. Set the Termination (input impedance) to 1MΩ.
4. Set the Vertical Scale to 10 mV/division.
5. Measure the input resistance of the oscilloscope with the calibrator. Record
this value in the test record.
6. Repeat steps 4 and 5 for each vertical scale setting in the test record.
7. Repeat the tests at 50 Ω as follows:
t the calibrator impedance to 50 Ω.
a. Se
b. Set the Termination (input impedance) to 50 Ω.
c. Repeat steps 4 through d.
8. Repeat the procedure for all remaining channels as follows:
a. Push the front-panel channel button to deselect the channel that you
already tested.
b. Connect the calibrator to the input for the next channel to be tested.
c. Starting from step 3, repeat the procedure for each channel.
56 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check DC Balance
This test check
than a 50Ω terminator) to the oscilloscope to perform this check.
1. Attach a 50 Ω te
2. Push the front-panel Default Setup button.
3. Set the input impedance to 50 Ω as follows:
a. Push the channel 1 button.
b. Set the Termination (input impedance) to 50 Ω.
4. Setthebandwidthto20MHz:
a. Push the l
b. Push the side-bezel button for 20 MHz.
5. Set the Horizontal Scale to 1msper division.
6. Set the Acquisition mode to Average as follows:
a. Push the front-panel Acquire button.
b. Push the Av e r a ge side bezel button.
c. Ensur
s the DC balance. Y ou do not need to connect any equipment (other
rminator to the oscilloscope channel 1 input.
ower-bezel Bandwidth button.
e that the number of averages is 16.
7. Set the trigger source to AC line as follows:
a. Push the Trigger Menu front-panel button.
b. Select the AC Line trigger source with the Multipurpose a knob.
8. Set the Vertical Scale to 1mVper division.
9. Select the mean measurement (if not already selected) as follows:
sh the front-panel Wave Inspector Measure button.
a. Pu
b. Push the Add Measurement lower bezel button.
c. Use the Multipurpose b knob to select the Mean measurement.
d. Push the OK Add Measurement side-bezel button.
e. View the Mean
10. Enter the mean value as the test result in the test record.
11. Repeat steps 8 through 10 for each vertical scale setting in the test record.
12. Push the channel 1 button and then repeat steps 4 thorough 11 for each
bandwidth setting.
measurement value in the display.
MSO4000B and DPO4000B Series Specifications and Performance Verification 57
Performance Verification
13. Repeat the test
a. Push the front-panel channel 1 button.
b. Set the Termination (input impedance) to 1M Ω.
c. Repeat steps 4 through 12.
14. Repeat the procedure for all remaining channels as follows:
a. Deselect the channel that you already tested.
b. Move the 50
c. Starting from step 3, repeat the procedure for each channel.
sat1MΩ impedance as follows:
Ω terminator to the next channel input to be tested.
58 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check DC Gain Accuracy
This test check
1. Connect the oscilloscope to a DC voltage source. If using the Fluke 9500
calibrator, c
WAR N ING.
set the generator to off or 0 volts before connecting, disconnecting, and/or moving
the test hookup during the performance of this procedure.
2. Push the front-panel Default Setup button. The Termination (input
impedance) is set to 1 MΩ and channel 1 input is selected.
s the DC gain accuracy.
onnect the calibrator head to the oscilloscope channel to test.
The generator is capable of providing dangerous voltages. Be sure to
NOTE. 50 Ω termination testing (steps 4 through 11) is required only for
MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L,
DPO4102B-L, MSO4102B, and DPO4102B models.
1MΩ termination testing (step 14 ) is required for all models.
3. For MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L,
DPO4102B-L, MSO4102B, and DPO4102B models, perform steps 4
through 14. For other models, go to step 14 now.
4. Select 50 Ω input impedance as follows:
a. Set the calibrator to 50 Ω output impedance.
b. Push the channel 1 button.
c. Set the Termination (input impedance) to 50 Ω.
5. Set the bandwidth to 20 MHz as follows:
a. Push the lower-bezel Bandwidth button.
b. Push the 20 MHz side-bezel button to select the bandwidth.
MSO4000B and DPO4000B Series Specifications and Performance Verification 59
Performance Verification
6. Set the Acquisi
tionmodetoAverageasfollows:
a. Push the front-panel Acquire button.
b. Push the Mode lower-bezel button (if it is not already selected), and then
push the Aver a g e side bezel button.
c. Ensure that the number o f averages is 16.
7. Select the Mean measurement as follows:
a. Push the front-panel Wave Inspector Measure button.
b. Push the Add Measurement lower-bezel button (if it is not already
selected).
c. Use the Multipurpose b knob to select the Mean measurement.
d. Push the
OK Add Measurement side-bezel button.
8. Set the trigger source to AC line as follows:
a. Push the Trigger Menu buttononthefrontpanel.
b. Push the Source lower-bezel button.
c. Turn the Multipurpose a knob to select the AC Line as the trigger source.
9. Set the Vertical Scale to 1 mV/division.
10. Reco
rd the negative-measured and positive-measured mean readings in the
worksheet as follows:
a. Set
the DC Voltage Source to V
negative
.
b. Push the front-panel Wave Inspector Measure button.
c. Push the More lower-bezel button.
d. Push Reset Statistics in the side-bezel menu.
e. Enter the mean reading i n the worksheet as V
f. Set the DC Voltage Source to V
ush Reset Statistics in the side-bezel menu again.
g.P
positive-measured
h. Enter the mean reading in the worksheet as V
negative-measured
positive-measured
.(SeeTable14.)
60 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Table 14: Gain e
Vertical
Termination
All 1 GHz models
(MSO4104B, D
50
All Models
1M
Scale V
PO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, MSO4102B, and DPO4102B)
1 mV/div
2 mV/div
5 mV 45 mV -22.5 mV +22.5 mV
10 mV 90 mV -45 mV +45 mV
20 mV 180 mV -90 mV +90 mV
49.8 mV 448.2 mV -224.1 mV +224.1 mV
50 mV 450 mV -225 mV +225 mV
100 mV 900 mV -450 mV +450 mV
200 mV 1800 mV -900 mV +900 mV
500 mV 4900 mV -2450 mV +2450 mV
1 V 9000 mV -4500 m
1 mV/div
2 mV/div
5 mV 45 mV -22.5 mV +22.5 mV
10 mV 90 mV -45 m
20 mV 180 mV -90 mV +90 mV
50 mV 450 mV -225 mV +225 mV
63.
100 mV 900 mV -450 mV +450 mV
200 mV 1800 mV -900 mV +900 mV
50
1 V 9000 mV -4500 mV +4500 mV
5 V 45 V -22.5 V +22.5 V
xpected worksheet
diffExpected
9 mV -4.5 mV +4.5 mV
18 mV -9 mV +9 mV
9 mV -4.5 mV +4.5 mV
18 mV -9 mV +9 mV
5mV
0mV
571
49
.5 mV
00 mV
V
negative
5.75 mV
-28
450 mV
-2
DC Gain
V
positive
V
+4500 m
V
+45 m
5.75 mV
+28
450 mV
+2
V
negative-measuredVpositive-measuredVdiff
V
V
Accuracy
11. Record Gain Accuracy:
a. Calculate V
=|V
V
diff
b. Enter V
as follows:
diff
negative-measured
in the worksheet. (See Table 14.)
diff
- V
positive-measured
|
c. Calculate Gain Accuracy as follows:
Gain Accuracy =((V
diff
- V
diffExpected
)/ V
diffExpected
) * 100%
d. Enter Gain Accuracy in the worksheet and in the test record.
12. Repeat steps 9 through 11 for each vertical scale setting in the test record.
MSO4000B and DPO4000B Series Specifications and Performance Verification 61
Performance Verification
13. Repeat the proc
a. Push the front-panel button to deselect the channel that you have already
tested.
b. Move the DC voltage source connection to the next channel input to be
tested.
c. Starting from step 9, repeat the procedure for each channel.
NOTE. 1MΩ t
14. For all models, repeat tests at 1 MΩ impedance as follows:
a. Set the calibrator to 1 MΩ output.
b. Push the front-panel channel 1 button.
c. Set the Termination to 1MΩ.
d. Repeat steps 9 through 13.
edure for all remaining channels as follows:
esting is required for all models.
62 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check Offset Accuracy
This test check
1. Connect the oscilloscope to a DC voltage source. If you are using the Fluke
9500 calibrat
oscilloscope channel 1.
WAR N ING. The generator is capable of providing dangerous voltages. 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.
2. Push the front-panel Default Setup button.
s the offset accuracy.
or as the DC voltage source, connect the calibrator head to the
3. Set the Acquisition mode to Average as follows:
a. Push t
b. Push the Mode lower-bezel button (if not already selected).
c. Push the Average side bezel button.
d. Ensure that the number of averages is set to 16.
4. Set the trigger source to AC line as follows:
a. Push the Trigger Menu front-panel button.
b. Pu
c. Turn the Multipurpose a knob to select the AC Line as the trigger source.
5. Set the Horizontal Scale to 1.00 ms per division.
6. Set the Bandwidth to 20 MHz as follows:
a. Push the channel 1 button.
b. Push the lower-bezel Bandwidth button.
c. Push the side-bezel button to set the bandwidth to 20 MHz.
he front-panel Acquire button.
sh the Source lower-bezel button.
MSO4000B and DPO4000B Series Specifications and Performance Verification 63
Performance Verification
7. Check that the v
a. Push the lower-bezel More button to select Position.
b. In the side-bezel button, check that the Vertical Position is set to 0divs.
c. If it is not 0 divs, turn the Vertical Position knob to set the position to 0.
8. If you are testing a < 1 GHz model (DPO4014B, DPO4034B or DPO4054B),
go to step 14. Otherwise, select the 50 Ω impedance as follows:
a. Set the calibrator to 50 Ω output impedance (50 Ω source impedance).
b. Push the channel 1 button.
c. Set the Te
9. Set the vertical Scale to 1mVper division.
10. Set the offset as follows:
a. Set the calibrator to 900 mV vertical offset.
b. Push the lower-bezel More button to select Offset.
c. Use the Multipurpose a knob to set the Vertical Offset to 900 mV,as
showninthetestrecord.
ertical position is set to 0 divs as follows:
rmination to 50 Ω.
11. Select the Mean measurement (if not already selected) as follows:
a. Push
b. Push the Add Measurement lower-bezel button.
c. Use the Multipurpose b knob to select the Mean measurement.
d. Push the OK Add Measurement side-bezel button.
12. View the mean value in the measurement pane at the b ottom of the display
and enter it as the test result in the test record.
13. Repeat step 12 for each vertical scale and offset setting combination shown
in the test record.
14. Repeat the tests at 1 MΩ impedance as follows:
a. Change the calibrator impedance to 1 MΩ
b. Push the front-panel channel 1 button.
the front-panel Wave Inspector Measure button.
.
64 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
c. Set the Te r min a
d. Repeat steps 9 through 13.
15. Repeat the procedure for all remaining channels as follows:
a. Push the front-panel button to deselect the channel that you have already
tested.
b. Move the DC voltage source connection to the next channel input to be
tested.
c. Starting from step 6, repeat the procedure for each channel.
tion (input impedance) to 1MΩ.
MSO4000B and DPO4000B Series Specifications and Performance Verification 65
Performance Verification
Check Analog Bandwidth
This test check
s the bandwidth at 50 Ω for each channel.
1. Connect the output of the leveled sine wave generator (for example, Fluke
9500) to the oscilloscope channel 1 input as shown in the following
illustration.
WARNING. The generator is capable of providing dangerous voltages. 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.
2. Push the front-panel Default Setup button.
3. Select 50 Ω impedance as follows:
a. Set the calibrator to 50 Ω output impedance and to generate a sine wave.
b. Push the front-panel channel 1 button.
c. Set the Termination (input impedance) to 50 Ω.
4. Set the Acquisition mode to Sample as follows:
a. Push the front-panel Acquire button.
b. Push the Mode lower-bezel button (if not already selected).
c. Push the Sample side bezel button.
5. Set the Vertical Scale to 1mVper division.
6. Adjust the signal source to at least 8 vertical divisions at t he selected vertical
scale with a set frequency of 50 kHz. For example, at 5 mV/div, use a
≥40 mV
≥8mV
signal, at 2 mV/div, use a ≥16 mV
p-p
signal. Useasinewaveforthesignalsource.
p-p
signal, and at 1 mV/div, use a
p-p
7. Set the Horizontal Scale to 10 μs per division.
8. Record the peak-to-peak measurement:
a. Push the front-panel Wave Inspector Measure button.
b. Use the Multipurpose b knob to select the Peak-to-Peak measurement.
66 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
c. Push the OK Add M
d. This will provide a mean V
e. Enter this val
ue in the test record.
easurement side-bezel button.
of the signal. Call this value V
p-p
in-pp
.
9. Set the Horizontal Scale to 4nsper division.
10. Adjust the s
ignal source to the maximum bandwidth frequency for the
bandwidth and model desired, as shown in the following worksheet.
11. Record the peak-to-peak measurement as follows:
a. View the mean V
of the signal. Call this value V
p-p
bw-pp
.
b. Enter this value in the test record.
NOTE. For more information on the contents of this worksheet, refer to the
bandwid
th specifications. (See Table 1 on page 2.)
Table 15: Maximum bandwidth frequency worksheet
All 1 GHz Models
(MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L,
MSO4102B, and DPO4102B)
Impedance Vertical Scale Maximum bandwidth
50
500 MHz model
(DPO4054B)
50
350 MHz model
(DPO4034B)
50
100 MHz model
(DPO4014B)
50 ,1M 1 mV/div — 1 V/div
1
For MSO4104B, DPO4104B, MSO4104B-L, DPO4104B-L, MSO4102B-L, DPO4102B-L, MSO4102B, and
DPO4102B models bandwidth verification, use 500 MHz, rather than 1 GHz, on the 5 mV/div vertical scale.
5 mV/div — 1 V/div 1 GHz
2 mV/div — 4.98 mV/div
1 mV/div — 1.99 mV/div
2 mV/div — 4.98 mV/div
1 mV/div — 1.99 mV/div
5 mV/div — 1 V/div
2 mV/div — 4.98 mV/div
1 mV/div — 1.99 mV/div
2 mV/div — 1 V/div
1 mV/div — 1.99 mV/div
350 MHz
175 MHz
350 MHz
175 MHz
500 MHz
350 MHz
175 MHz
350 MHz
175 MHz
100 MHz
12. Use the values of V
bw-pp
and V
that you entered in the test record to calculate
in-pp
the Gain at bandwidth with the following equation:
MSO4000B and DPO4000B Series Specifications and Performance Verification 67
Performance Verification
Gain = V
bw-pp
/ V
in-pp
To pass the performance measurement test, Gain should be ≥ 0.707. Enter
Gain in the tes
t record.
13. Repeat steps 5 through 1 2 for all combinations of Vertical Scale and
Horizontal
Scale settings listed in the test record.
14. Repeat the procedure for all remaining channels as follows:
a. Push the front-panel button to deselect the channel that you have already
tested.
b. Move the calibrator connection to the next channel input to be tested.
c. Starting from step 3, repeat the procedure for each input channel.
68 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check Random Noise,
Sample Acquisition Mode
This test check
s random noise. You do not need to connect any test equipment to
the oscilloscope for this test.
1. Disconnect everything from the oscilloscope inputs.
2. Place the BNC dust cap on the channel to be tested.
3. Push the front-panel Default Setup button.
4. Set Gating to Off as follows:
a. Push the front-panel Wave Inspector Measure button.
b. Push the bottom-bezel More buttontoselectGating.
c. Push the s ide-bezel Off (Full Record) button.
5. Select the RMS measurement as follows:
a. Push the bottom-bezel Add Measurement button.
b. Use the Multipurpose b knob to select the RMS measurement.
c. Push the side-bezel OK Add Measurement button.
6. Reset statistics as follows:
a. Push the bottom-bezel More buttontoselectStatisti
cs.
b. Push the side-bezel Reset Statistics button.
7. Read and make a note of the RMS Mean value. This is the Sampled Mean
Val ue ( S MV ).
8. Set the Acquisition mode to Average as follows:
a. Push the front-panel Acquire button.
b. Push the bottom-bezel Mode button to display the Acquisition Mode
menu (if it is not already selected).
c. Push the side-bezel Average button.
d. Ensure that the number of averages is set to 16.
9. Reset statistics as follows:
a. Push the front-panel Wave Inspector Measure button.
b. Push the bottom-bezel More button to select Statistics (if it is not already
selected).
c. Push the side-bezel Reset Statistics button.
10. Read and make a note of the RMS Mean value. This is the Averaged Mean
Val ue ( A MV ).
11.
Calculate the RMS noise using the formula: RMS noise = sqrt(SMV2–
2
AMV
). Enter the calculated RMS noise in the test record.
MSO4000B and DPO4000B Series Specifications and Performance Verification 69
Performance Verification
12. Set the Acquisi
a. Push the front-panel Acquire button.
b. Push the Mode lower-bezel button (if it is not already selected).
c. Push the Sample side bezel button.
13. Repeat the tests at 50 Ω as follows:
a. Push the front-panel channel 1 button.
b. Set the Te r
c. Push the front-panel Wave Inspector Measure button, and repeat steps 6
through 1
14. Repeat the te sts at 250 MHz bandwidth as follows:
a. Push the front-panel channel 1 button.
b. Set the Termination (input impedance) to 1MΩ.
c. Push the bottom-bezel Bandwidth button.
d. Push the side-bezel 250 MHz button.
e. Push t
tion mode to Sample as follows:
mination (input impedance) to 50 Ω.
2.
he front-panel Waveform Inspector Measure button.
f. Repeat steps 6 through 13.
15. Repeat the tests at 20 MHz bandwidth as follows:
a. Push the front-panel channel 1 button.
b. Set the Termination (input impedance) to 1MΩ.
c. Push the bottom-bezel Bandwidth button.
sh the side-bezel 20 MHz button.
d. Pu
e. Push the front-panel Waveform Inspector Measure button.
f. Repeat steps 6 through 13.
16. Repeat the procedure for all remaining channels as follows:
a. Push the front-panel button to deselect the channel that you have already
tested.
b. Place the BNC dust c ap on the next channel to be tested.
c. Starting from step 4, repeat the procedure for each input channel.
70 MSO4000B and DPO4000B Series Specifications and Performance Verifi
cation
Performance Verification
Check Sample Rate and
Delay Time Accuracy
This test check
s the sample rate and delay time accuracy (time base).
1. 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.
WAR N ING. The generator is capable of providing dangerous voltages. 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.
2. Set the time mark generator period to 80 ms. Use a time mark waveform
with a fast rising edge.
3. Push the front-panel Default Setup button.
4. Set the impedance to 50 Ω as follows:
a. Push the front-panel channel 1 button.
b. Set the Termination to 50 Ω.
5. If it is adjustable, set the time mark amplitude to approximately 1V
p-p
.
6. Set the Vertical Scale to 500 mV per division.
7. Set the Horizontal Scale to 20 ms per division.
8. Adjust the Vertical Position knob to center the time mark signal on the screen.
9. Adjust the Trigger Level as necessary for a triggered display.
10. Adjust the Horizontal Position to move the trigger location to the center of
the screen (50%).
11. Set the delay to 80 ms as follows:
a. Push the front-panel Acquire button.
b. Push the lower-bezel Delay button to turn delay on (if it is not already on).
c. Turn the Horizontal Position knob clockwise to set the delay to exactly
80 ms.
MSO4000B and DPO4000B Series Specifications and Performance Verification 71
Performance Verification
12. Set the Horizon
13. Compare the rising edge of the marker with the center horizontal graticule
line. The risi
the deviation in the test record.
NOTE. One division of displacement from graticule center corresponds to a
5ppmtimebaseerror.
tal Scale to 400 ns/div.
ng edge should be within ±1 divisions of center graticule. Enter
72 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check Delta Time
Measurement Accuracy
This test check
instrument setting and input signal.
Connect a 50 Ω c
as shown in the following illustration.
WAR N ING. The generator is capable of providing dangerous voltages. 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.
2. Push the oscilloscope front-panel Default Setup button.
s the Delta-time measurement accuracy (DTA) for a given
oaxial cable from the signal source to the oscilloscope channel 1,
3. Select 50 Ω impedance as follows:
a. Set the sine wave generator output impedance to 50 Ω.
b. Push
c. Set the Termination (input impedance) to 50 Ω.
4. Set the trigger source to channel 1 as follows:
a. Push the Trigger Menu button.
b. Push the Source lower-bezel button (if not already selected).
c. Use the Multipurpose a button to select channel 1 (if not already
5. Set the Mean & St Dev Samples to 100 as follows:
a.P
b. Push the bottom-bezel Add Measurement button.
c. Use the Multipurpose b knob to select the Burst Width measurement.
d. Push the side-bezel OK Add Measurement button.
the channel 1 button to display the channel 1 menu.
selected).
ush the Wave Inspector Measure button.
MSO4000B and DPO4000B Series Specifications and Performance Verification 73
Performance Verification
e. Push the bottom
f. Use the Multipurpose a knob to set the Mean & Std Dev Samples to
100,asshowni
6. Set the signal source to 240 MHz and 40 mV as shown in the test record.
NOTE. To p ro
zero crossing does not occur at the beginning or end of the record.
7. Set the Hor
8. Set the Vertical Scale to 5mVper division.
9. Record the Std Dev value as follows:
a. Push the side-bezel Reset Statistics button.
b. Push the Menu Off button to remove the side-bezel menu.
c. Wa it five or 10 seconds for the oscilloscope to acquire all of the samples.
d. Verify
e. Enter the reading in the test record.
vide consistent results, set the signal source frequency such that the
izontal Scale to 4nsper division.
that the Std Dev is less than the upper limit shown in the test record.
-bezel More button to select Statistics.
n the side menu.
10. Repeat steps 6 through 9 for each setting combination shown in the test record.
11. Repeat the procedure for all remaining channels as follows:
a. Push the front-panel button to deselect the channel that you have already
tested.
b. Connect the signal source to the input for the next channel to be teste d.
c. Repeat the procedure from step 3 until all channels have been tested.
74 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check Digital T hreshold
Accuracy (MSO400 0B
Only)
For the MSO4000
digital channels. This procedure applies to digital channels D0 through D15, and
to channel threshold values of 0 V and +4 V.
1. Connect the P6616 digital probe to the MSO4000B Series instrument, as
shown in the following illustration:
a. Connect the DC voltage source to the digital channel D0.
b. 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. (See
Table 1 3 o
c. Connect channel D0 to both the corresponding signal pin and to a ground
pinonth
B series only, this test checks the threshold accuracy of the
npage27.)
e adapter.
WAR N ING. The generator is capable of providing dangerous voltages. Be sure to
the generator to off or 0 volts before connecting, disconnecting, and/or moving
set
the test hookup during the performance of this procedure.
rn on the digital channels as follows:
2. Tu
a. Push the front-panel D15-D0 button.
b. Push the D15-D0 On/Off lower-bezel button.
c. Push the Tur n On D 7 - D0 and the Turn On D15 - D8 side-bezel buttons
to turn these channels On.
d. Ensure that the side-bezel Display selection is On.
e. The instrument will display the 16 digital channels.
MSO4000B and DPO4000B Series Specifications and Performance Verification 75
Performance Verification
3. Set the channel
threshold to 0 V as follows:
a. Push the Thresholds lower-bezel button (if not already selected).
b. Turn the Multipurpose a knob to select channel D0.
c. Turn the Multipurpose b knob and set the value to 0.00 V (0 V/div), using
thecoarseandfine settings of the knob as necessary to set the exact value.
4. Push the Menu Off button and then set the Horizontal Scale to 4μs per
division.
5. Set the Trigger source as follows:
a. Push the front-panel Trigger Menu button.
b. Push the Source lower-bezel button (if not already selected).
c. Turn the
Multipurpose a knob to select channel D0.
6. Set the DC voltage source (Vs) to -400 mV. Wait 3 seconds. Check the logic
f the channel D0 signal d isplay. If it is at a static logic high, change the
level o
DC voltage source Vs to -500 mV.
7. Incre
ment Vs by +10 mV. Wait 3 seconds and check the logic level of the
channel D0 signal display. If it is a static logic high, record the Vs value
as in the 0 V row of the test record.
If the signal level is a logic low or is alternating between high and low, repeat
this step (increment Vs by 10 mV, wait 3 seconds, and check for a static logic
high) until a value for V
is found.
s-
8. Click the lower-bezel Slope button to change the slope to Falling.
9. Set the DC voltage source (Vs) to +400 mV. Wait 3 seconds. Check the logic
levelofthechannelD0signaldisplay.
If it is at a static logic low, change the DC voltage source Vs to +500 mV.
educe Vs by -10 mV. Wait 3 seconds and check the logic level of the channel
10.R
D0 signal display. If it is a static logic low, record the Vs value as V
s+
in the
0 V row of the test record.
If the signal level is a logic high or is alternating between high and low, repeat
this step (decrement Vs by 10 mV, wait 3 seconds, and check for a static logic
low) until a value for V
11. Find the average using this formula: V
is found.
s+
=(Vs-+Vs+)/2. Record the average
sAvg
as the test result in the test record.
Compare the test result to the limits. If the result is between the limits,
continue with the procedure to test the channel at the +4 V threshold value.
76 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
12. Set the channel
threshold to +4 V as follows:
a. Push the front-panel D15-D0 button.
b. Push the Thresholds lower-bezel button.
c. Turn the Multipurpose a knob to select channel D0.
d. Push the Fine front-panelbuttontoturnoffthefine adjustment.
e. Turn the Multipurpose b knob and set the value near 4.00 V (4 V/div).
f. Push the Fi
ne buttontoturnthefine adjustme nt on again.
g. Turn the Multipurpose b knob and set the value to exactly 4.00 V
(4 V/div)
.
13. Set the DC voltage source (Vs) to +4.4 V. Wait 3 seconds. Check the logic
level of
the channel D0 signal display.
14. Decrement Vs by -10 mV. Wait 3 seconds and check the logic level of the
channe
V
If the
l D0 signal display. If it is a static logic low, record the Vs value as
in the 4 V row of the test record.
s+
signal level is a logic high or is alternating between high and low, repeat
this step (decrement Vs by 10 mV, wait 3 seconds, and check for a static logic
low) until a value for V
is found.
s+
15. Push the front-panel Tr i gg e r Me n u button.
16. Clic
kthelower-bezelSlope button to change the slope to Rising.
17. Set the DC voltage source (Vs) to +3.6 V. Wait 3 seconds. Check the logic
el of the channel D0 signal display.
lev
If the signal level is a static logic high, change the DC voltage source Vs to
.5 V.
+3
18. Increment Vs by +10 mV. Wait 3 seconds and check the logic level of the
hannel D0 signal display. If it is a static logic high, record the Vs value as
c
V
in the 4 V row of the test record.
s-
If the signal level is a logic low or is alternating between high and low, repeat
this step (increment Vs by 10 mV, wait 3 seconds, a nd check for a static logic
high) until a value for V
19. Find the average using this formula: V
is found.
s-
=(Vs-+Vs+)/2. Record the average
sAvg
as the test result in the test record.
MSO4000B and DPO4000B Series Specifications and Performance Verification 77
Performance Verification
Compare the tes
channel passes t he test.
20. Repeat the pro
a. Push the D15–D0 button.
b. Move the DC voltage source connection, including the ground lead, to the
next digital channel to be tested.
c. Starting from step 3, repeat the procedure until all 16 digital channels
have been tested.
t result to the limits. If the result is between the limits, the
cedure for all remaining digital channels as follows:
78 MSO4000B and DPO4000B Series Specifications and Performance Verification
Performance Verification
Check Trigger Out
This test check
1. Connect the rear-panel AUX OUT port to the channel 1 input using a 50 Ω
cable, as show
2. Push the front-panel Default Setup button. This sets AUX OUT to Main
Trigger.
3. Set the Ve rtical Scale to 1Vper division.
4. Record t
a. Push the front-panel Wave Inspector Measure button.
b. Push the Add Measurement lower-bezel button.
s the main trigger output.
n in the following illustration.
he Low and High measurements at 1 MΩ as follows:
c. Use the Multipurpose b knob to select the Low measurement.
d. Push the OK Add Measurement side bezel button.
e. Enter the Low measurement reading in the test record.
f. Use t
g. Push the OK Add Measurement side bezel button.
h. Enter the High measurement reading in the test record.
5. Record the Low and High measurements at 50 Ω as follows:
a. Push the front-panel channel 1 button.
b. Set the Termination (input impedance) to 50 Ω.
c.R
This completes t he performance verific ation procedures.
he Multipurpose b knobtoselecttheHigh measurement.
epeat step 4.
MSO4000B and DPO4000B Series Specifications and Performance Verification 79
Loading...