MSO70000/C, DSA70000B/C,
DPO70000B/C, DPO7000,
MSO5000, and DPO5000
Series Oscilloscopes
ZZZ
Specifications and Performance Verification
Technical Reference
*P077006305*
077-0063-05
xx
MSO70000/C, DSA70000B/C,
DPO70000B/C, DPO7000,
MSO5000, and DPO5000
Series Oscilloscopes
ZZZ
Specifications and Performance Verification
Technical Reference
Revision A
This document applies to firmware version 5.2.0 and above.
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.
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.
Pinpoint, TekLink, and RT-Eye are registered trademarks of Tektronix, Inc.
Contacting Tektronix
Tektronix, Inc.
14150 SW Karl Braun Drive
P.O . Bo x 500
Beaverton, OR 97077
USA
For product information, sales, service, and technical support:
In North America, call 1-800-833-9200.
World wi d e, visi t www.tektronix.com to find contacts in your area.
Warranty
Tektronix warrants that this product will be free from defects in materials and workmanship for a period of one (1)
year from the date of shipment. If any such product proves defective during this warranty period, Tektronix, at its
option, either will repair the defective product without charge for parts and labor, or will provide a replacement
in exchange for the defective product. Parts, modules and replacement products used by Tektronix for warranty
work may be n
the property of Tektronix.
ew or reconditioned to like new performance. All replaced parts, modules and products become
In order to o
the warranty period and make suitable arrangements for the performance of service. Customer shall be responsible
for packaging and shipping the defective product to the service center designated by Tektronix, with shipping
charges prepaid. Tektronix shall pay for the return of the product to Customer if the shipment is to a location w ithin
the country in which the Tektronix service center is located. Customer shall be responsible for paying all shipping
charges, duties, taxes, and any other charges for products returned to any other locations.
This warranty shall not apply to any defect, failure or damage caused by improper use or improper or inadequate
maintenance and care. Tektronix shall not be obligated to furnish service under this warranty a) to repair damage
result
b) to repair damage resulting from improper use or connection to incompatible equipment; c) to repair any damage
or malfunction caused by the use of non-Tektronix supplies; or d) to service a product that has been modified or
integrated with other products when the effect of such modification or integration increases the time or difficulty
of servicing the product.
THIS WARRANTY IS GIVEN BY TEKTRONIX WITH RESPECT TO THE PRODUCT IN LIEU OF ANY
OTHER WARRANTIES, EXPRESS OR IMPLIED. TEKTRONIX AND ITS VENDORS DISCLAIM ANY
IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
TRONIX’ RESPONSIBILITY TO REPAIR OR REPLACE DEFECTIVE PRODUCTS IS THE SOLE
TEK
AND EXCLUSIVE REMEDY PROVIDED TO THE CUSTOMER FOR BREACH OF THIS WARRANTY.
TEKTRONIX AND ITS VENDORS WILL NOT BE LIABLE FOR ANY INDIRECT, SPECIAL, INCIDENTAL,
OR CONSEQUENTIAL DAMAGES IRRESPECTIVE OF WHETHER TEKTRONIX OR THE VENDOR HAS
ADVANCE NOTICE OF THE POSSIBILITY OF SUCH DAMAGES.
[W2 – 15AUG04]
btain service under this warranty, Customer must notify Tektronix of the defect before the expiration of
ing from attempts by personnel other than Tektronix representatives to install, repair or service the product;
Table of Contents
General Safety Summary .........................................................................................vi
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and
DPO7000 Series)
Review the fo
this product or any products connected to it.
To avoid potential hazards, use this product only as s pecified.
Only qualified personnel should perform service procedures.
While using this product, you may need to access other parts of a larger system.
Read the safety sections of the other component manuals for warnings and
cautions related to operating the system.
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.
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.
llowing safety precautions to avoid injury and prevent damage to
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.
The inputs are not rated for connection to mains or Category II, III, or IV circuits.
Connect the probe reference lead to eart
Power disconnect. The power cord disconnects the product from the power source.
Donotblockthepowercord;itmustremain 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 per sonnel.
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.
h ground only.
viMSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
General Safety Summary
TermsinThisManual
Symbols and Terms on the
Product
These terms may
WAR N ING. 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.
viiiMSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series,
DSA/DPO70000B/C Series, and DPO7000
Series)
Specifications (MSO70000/C Series, DSA/DPO70000B/C
Series, and DPO7000 Series)
This chapter contains the specifications for the instrument. All specifications are
guaranteed unless labeled "typical." Typical specifications are provided for your
convenience but are not guaranteed. Specifications that are marked with the
symbol are checked in this manual. All specifications apply to all models unless
noted othe
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-1: Channel input and vertical specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series
models (cont.
)
Characteri
stic
Descriptio
n
Input resistance,
≥ 4 GHz models
100 mV FS to 995 mV FS:50 Ω ±1.5% at 25 ºC (77 ºF)
50 Ω ± 2% over 10 to 45 ºC (50 to 113 ºF), type tested
1 V FS to 5 V FS:50 Ω ±2.2 Ω over 10 to 45 ºC (50 to 113 ºF), type tested
Input impedance, DC coupled,
< 4 GHz models
1MΩ, DC coupled1 MΩ ±1%inparallelwith13pF±2pF
50 Ω, DC coupled50 Ω ±1%,typical
Maximum input voltage,
≥ 4 GHz models
<1 V
<5.0 V
for <1.0 V/Full Scale settings
RMS
for ≥ 1.0 V/Full Scale settings
RMS
Maximum input voltage,
< 4 GHz models
1MΩ – DC coupled,
1MΩ – AC coupled, or GND
coupled
150 V. Derate at 20 dB/decade to 9 V
above 200 kHz.
RMS
The maximum input voltage at the BNC, between center conductor and ground is 400 V peak.
The RMS voltage is limited to <150 V for arbitrary waveshapes including DC. The maximum
pulse width for impulses with peaks over 150 V i s 50 μs. Example: At 0 V to 400 V peak,
rectangular wave, the duty factor is 14%.
The maximum transient withstand voltage is ± 800 V peak.
50Ω5 V RMS, with peaks ≤ ±24V
Input VSWR, typical
≥ 4 GHz models
VSWR < 1 V/Full ScaleVSWR ≥ 1V/FullScale
Input Frequency
<2.5 GHz
<6 GHz
<14 GHz
<15 GHz
<20 GHz
1.25
1.5
2.1
2.5
3.2
1.2
1.2
1.5
1.5
1.9
Measured with a TekConnectSMA adapter and a network analyzer
< 4 GHz modelsfin<3.5 GHz
Number of digitized bits
Digitizer nonlinearity, typical
1–2MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-1: Channel input and vertical specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series
models (cont.
)
Characteri
Sensitivit
average acquisition mode,
≥ 4 GHz models
DC gain accuracy, sample or
average acquisition mode,
< 4 GHz models
accuracy,≥ 4 GHz models
stic
y range
≥ 4 GHz mode
<4GHzmod
< 4 GHz models, 1 MΩ1 mV/div to 10 V/division, in a 1-2-5 sequence
DC gain accuracy, sample or
tage measurement
DC vol
ge acquisition mode
Avera
( ≥16 averages)
Delta voltage measurement
ween any two averages
bet
of ≥16 waveforms acquired
under the same setup and
ient conditions
amb
ls, 50 Ω
els, 50 Ω
Descriptio
100mV/Ful
1 mV/div t
Fine adjustment available with ≥1% resolution
Fine adjustment available with ≥1% resolution
±2%
± 1.0% with 0 V net offset
Add 0.5% for ranges <2 mV/div
Add 1.5% x | net offset/Max offset | for ranges <5 mV/div
Add 0.5% x | net offset/Max offset | for ranges ≥ 5 mV/div
Add 0.5% for ranges ≥ 1V/divin1MΩ coupling and with net offset >10 V
Gain settingDC measurement accuracy
100 mV/FS to 995 mV/FS±[2% | reading - net offset | + 0.35% | net offset | +1.5 mV
1 V/FS to 5 V/FS±[2% | reading - net offset | + 0.35% | net offset | +7.5 mV
100
n
lScaleto5V/FullScale. Below 100 mV/Full Scale, Full Scale (FS) is software z oom.
±(DC Gain A ccuracy × | reading | + 0.15 division + 1.2 mV)
Convert offset, position and the constant offset term to volts by multiplying by the appropriate
volts/div.
Specification applies to any sample and to the High, Low, Max, Min, Mean, Cycle Mean, RMS,
and Cycle RMS measurements. Delta volts specification applies to subtractive calculations
involving two of these measurements. Delta volts specification applies to the Positive
Overshoot, Negative Overshoot, peak-peak, and amplitude measurements.
n
(in volts)
1–4MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-1: Channel input and vertical specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series
models (cont.
)
Characteri
Offset rang
≥ 4GHzmode
stic
e
Descriptio
ls
Offset is r
10 mV/div to 99.5 mV/div: Offset range = ±(0.5 V - (V/div setting × 5 div))
100 mV/div to 500 mV/div: Offset range = ±(2.5 V - (V/div setting × 5 div))
educed to allow for position control according to the following formulas:
±0.450 V
±0.440 V
±0.430 V
±0.420 V
±0.410 V
±0.4005 V
±0.400 V
±0.350 V
±0.300 V
±0.251 V
±0.250 V
±0.200 V
±0.150 V
±0.100 V
±0.050 V
±0.0025 V
±2.00 V
±1.90 V
±1.80 V
±1.70 V
±1.60 V
±1.50 V
±1.260 V
±1.250 V
±1.00 V
±0.50 V
±0.00 V
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-1: Channel input and vertical specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series
models (cont.
)
Characteri
Analog bandwidth, with P7313
active prob
≥ 4 GHz models
coupled,
<4 GHz models
Analog bandwidth, 1 MΩ DC
coupled,
< 4 G Hz models
stic
e,
Analog bandwidth, 50 Ω DC
ument
Instr
DPO7354
DPO7254
DPO7104
DPO7054
Descriptio
MSO/DSA/DP
MSO/DSA/DPO71604C
MSO/DSA/DPO71254CDC >11GHz, typical
MSO70804,DSA/DPO70804BDC >8 GHz, typical
MSO70604,DSA/DPO70604BDC >6 GHz, typical
MSO70404,DSA/DPO70404BDC >4 GHz, typical
Full bandwidth, operating a mbient of ≤ 30 °C (86 °F), derated by 1% for each °C above
30 °C (86 °F)
Note: T
4-division sine wave. Typical bandwidth when measured with an 8-division sine wave is 3 GHz.
SCALE range
10 mV/div to 1 V/divDC to 3.5 GHz, B W E on
5 mV/div to 9.99 mV/divDC to 2.0 GHz
2 mV/div to 4.99 mV/divDC to 500 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
10 mV/div to 1 V/divDC to 2.5 GHz
5 mV/div to 9.99 mV/divDC to 2.0 GHz
2 mV/div to 4.99 mV/divDC to 500 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
5 mV/div to 1 V/divDC to 1.0 GHz
2 mV/div to 4.99 mV/divDC to 500 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
5 mV/div to 1 V/divDC to 500 MHz
2 mV/div to 4.99 mV/divDC to 400 MHz, typical
1 mV/div to 1.99 mV/divDC to 200 MHz, typical
Full bandwidth, operating ambient temperature of ≤ 30 °C (86 °F), derated by 1% for each °C
above 30 °C (86 °F)
SCALE range
5 mV/div to 10 V/divDC to 500 MHz, typical
2 mV/div to 4.98 mV/divDC to 350 MHz, typical
1 mV/div to 1.99 mV/divDC to 175 MHz, typical
n
O72004C,
he DPO7354 is guaranteed 3.5 GHz bandwidth with BWE On and can be verified with a
DC >12.5 GHz
,typical
idth
Bandw
DC to 2.5 GHz, BWE off
Bandwidth
1–8MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-1: Channel input and vertical specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series
models (cont.
≥ 100 mV/divDC to 2.5 GHz
50 mV/div to 99.5 mV/divDC to 2.0 GHz
20 mV/div to 49.8 mV/divDC to 500 MHz
10 mV/div to 19.9 mV/divDC to 200 MHz
Full bandwidth, operating ambient of ≤ 30 °C (86 °F), derated by 1% for each °C above
30 °C (86 °F)
SCALE range
5 mV/div to 10 V/divDC to 500 MHz
2 mV/div to 4.98 mV/divDC to 300 MHz
1 mV/div to 1.99 mV/divDC to 175 MHz
20 MHz, 250 MHz, and Full
10 Hz when 1 MΩ, AC coupled. The limit is reduced by a factor of 10 when 10X, passive
obes are used.
pr
250 MHz
20 MHz
the temperature limit.
Step settings
100 mVFS, 200 mVFS, 500 m VFS, 1 VFS, and
2.5 VFS
± 0.5 dB from DC to 50% of nominal bandwidth.
± 1.5 dB from 50% to 80% of nominal bandwidth.
Non-step settings
± 1.0 dB from DC to 50% of nominal bandwidth
± 2.0 dB from 50% to 80% of nominal bandwidth.
n
dth, operating ambient of ≤ 30 °C (86 °F), derated by 1% for each °C above
Effective bits for a 450 mV sine wave input at the indicated frequency, sampled at
the given sample rate and BWE settings. All measurements are made at 50 mV/div
with a 20K record length.
≥20:1 above 2.5 GHz
≤ 100 ps between any two channels with the same scale and coupling settings.
≤ 50 ps delay change when enabling and disabling Channel Equalization (DSP matching).
≤ 100 ps between any two channels with the same scale and coupling settings with input
impedance set to 50Ω, DC coupling and scale set at or above 10 mV/div.
15.1
1.6
21 mV
0.
mV
mV
14.0
5mV
1.4
165 mV
0.
mV
13.2
8mV
1.3
141 mV
0.
mV
V
solation
I
≥ 120:1
≥ 80:1
≥ 50:1
≥ 25:1
1–32MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-1: Channel input and vertical specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series
models (cont.
Equivalent-time sample rate or
interpolated waveform rate range
≥ 4 GHz modelsUp to 5 TS/s and 0.2 ps trigger placement resolution
< 4 GHz modelsUp to 4 TS/s
Maximum record length, sample
mode,
≥ 4 GHz models
Number of channels acquired
All channels
All channels
Two channels
1
2
3or4
1
2
3or4
1
2
3or4
Equivalent-time acquisition can be enabled or disabled. When disabled, waveforms are
interpolated at the fastest time base settings.
The maximum record length depends on the installed record length options. Maximum record
length is less in serial trigger mode, hi-res mode, or when using the FIR filter.
Standard on M SO70000/C Series,
DSA70000B/C Series, and DPO70000B/C
Series
Option 2XL installed, standard on
DSA70000/B Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-2: Horizontal and acquisition system specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000
Series models
(cont.)
Characteri
Time base delay time range5 ns to 250 s
Internal time-base reference
frequency
accuracy
Aperture uncertainty, typical
stic
Long term sample rate
< 4 GHz models
≥ 4 GHz models
≥ 4 GHz models
<4 GHz models
Descriptio
10 MHz
Electronically adjustable over about ±5 ppm.
± 2.5 ppm initial accuracy. Aging < 1 ppm per year. Applies only when using the internal
reference.
± 1.5 ppm initial accuracy. Aging < 1 ppm per year. Applies only when using the internal
reference.
Measured at the maximum BWE enabled bandwidth.
Total:
<250 fs rms for record durations less than 10 μs
<350 fs rms for record durations less than 100 μs
<650 fs rms for record durations less than 1 ms
<15 parts/trillion for record durations less than 60 s
<2 ps peak-to-peak for record durations less than 10 μs
<3 ps peak-to-peak for record durations less than 100 μs
<4 ps peak-to-peak for record durations less than 1 ms
This assumes either internal reference, or external reference in low (stable) mode. For external
reference in high (tracking) mode, the input reference must be low noise, and the edge slew
rate must exceed 1.5 V/ns to achieve the above approximate jitter results. For the general
case, external reference in high (tracking) mode, the specification is:
<250 fs rms for record durations less than 2 μs
You can approach the performance of internal reference using a clean reference signal with
input slew rate exceeding 1.5 V/ns. This is most easily achieved either with a square wave
meeting that slew rate or using a 100 MHz sine wave (≈2V
possible performance in synchronous sampling applications.
Total:
<1 ps rms for record durations less than 10 μs.
<2.5 ps rms for record durations less than 30 ms.
<65 parts/trillion for record durations less than 10 s.
n
). This is required for the best
p-p
1–36MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-2: Horizontal and acquisition system specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000
Series models
(cont.)
Characteri
Jitter nois
stic
e floor, typical,
≥ 4 GHz models
Descriptio
Applies to t
n
ime periods as long as 10.0 μs. Typicaljitter noise floor is measured at the
MSO70404, DSA70404B, DPO70404B
Calculate the jitter noise floor (JNF) for a given instrument setting using the following formula:
FS = full-scale setting (volts)
nal amplitude as a fraction of full-scale
A=sig
= 10 - 90% displayed (or measured) rise time (seconds)
Timebase jitter with External
Reference, typical,
≥4 GHz models
Total:
<1.0 ps rms for record durations less than 10 μs
<2.5 ps rms for record durations less than 30 ms
<65 parts/trillion for record durations less than 10 s
=< 3 ps
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-2: Horizontal and acquisition system specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000
Series models
(cont.)
Characteri
stic
Delta time measurement
accuracy,≥
4 GHz models
Descriptio
The formula
n
to calculate the maximum delta-time measurement accuracy (DTA
) for a given
max
instrument setting and input signal is given below (assumes insignificant signal content above
Nyquist and insignificant error due to aliasing, overdrive recovery and overdrive interpolation):
SR
1
SR
2
= 1.3 for instrument bandwidth ≤9 GHz; 1.5 for instrument bandwidth ≥10 GHz
F
N
=typ
N
typ
ate around 1st point in measurement (1
=slewr
= slew rate around 2nd point in measurement (2ndedge)
ical input-referred noise spec (volts rms)
st
edge)
TBA = timebase accuracy (1.5 ppm)
= delta-time measurement (seconds)
t
reading
Peak-pe
ak based on statistical accumulation of 1000 waveforms.
RMS is guaranteed regardless of data-gathering duration.
The term under the square-root sign is the stability and is due to time interval error (TIE). The
errors due tothis term occur throughout a single-shot measurement. The second term is due to
both the absolute center-frequenc y accuracy and the center-frequency stability of the timebase
and varies between multiple single-shot measurements over the observation interval (the
amount of time from the first single-shot measurement to the final single-shot measurement).
The observation interval may not exceed 1 year.
Test frequency = 0.621 × bandwidth. Testamplitude = 80% full scale.
For sign
sin(x)/x, acquired at 10 mV/div or greater. The displayed risetime/sample interval must be
greater than 1.4 but less than 4. Extra error will occur for two channel measurements due to
channe
waveforms.
Single shot, sample or HiRes, full bandwidth(0.06/sample rate + 2.5 ppm x | reading |)
Average Mode, ≥100 averages, full
bandwidth selected.
vertical settings from 10 mV/div to 1 V/div at the input connector)
A runt event occurs at the end of the runt whether or not the runt was time qualified. Logic
qualified runt triggers require that the logic condition be true during the entire duration of the
runt plus some minimum amount of time after the runt event occurred.
A runt event occurs at the end of the runt whether or not the runt was time qualified. Logic
qualified runt triggers require that the logic condition be true during the entire duration of the
runt plus some minimum amount of time after the runt event occurred.
Minimum pulse
time
360 ps450 psN.A.N.A.
Runt width +
150 ps
Runt width +
330 ps
15% x FS from DC to 1 GHz, not violating the minimum timing requirements for each type (for
vertical settings from 10 mV/div to 1 V/div at input connector)
1.0 division from DCto 1 GHz(for vertical settings from 10 mV/div to1 V/div atinput connector)
Minimum rearm
time
Minimum rearm
time
Minimum rearm
time
250 ps160 ps-16 ps
250 ps160 ps175 ps
Setup time
Setup time
Setup time
Hold time
Hold time
Hold time
1–44MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-3: Trigger specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series models (cont.)
Logic and state trigger, minimum
timing requirements, typical
<4 GHz m odels
Logic type
State type
Time qualified logic type
Video-type trigger formats and field
rates,
<4 GHz m odels
Minimum duration of logic state: 100 ps (10 GB/s). The minimum duration of the logic pattern
includes delay m ismatch between channels.
Minimum pulse widthRearm time
100 ps (10 GB/s)
500 ps500 ps
300 ps500 ps
Triggers from negative sync composite video, field 1 or field 2 for interlaced systems, any
field, specific line, or any line for interlaced or non-interlaced systems. Supported systems
include NTSC, PAL,SECAM, and HDTV 1080/24sF,1080p/25, 1080i/50, 1080i/60, 1080p/24,
720p/60, 480p/60.
Timeout event occurs after the signal has stayed in some state the minimum amount of time.
Setup and hold times are how long before and after the timeout event the logic level must
remain valid i n order to generate a trigger.
Minimum pulse
width
N.A.300 ps + pulse
Timeout event occurs after the signal has stayed in some state the minimum amount of time.
Setup and hold times are how long before and after the timeout event the logic level must
remain valid i n order to generate a trigger.
Logic qualified transition type
Transitiontrigger,delta time range1 ns to 1 s
Setup/Hold violation trigger, setup
and hold time ranges
Setup time
Hold time-1 ns102 ns
Setup + hold time
Setup/hold time violation trigger,
minimumclockpulsewidths,typical
≥ 4 GHz models
< 4 GHz models
190 ps300 ps-20 ps0ps
The transition trigger event occurs at the end of the transition. The logic condition must be
valid at the moment the transition event occursminus the setup time plus the hold time. Rearm
time is the time below the lower threshold and the time above the upper threshold. Neither
time can be violated.
Minimum pulse
width
0 ps500 ps50 ps50 ps
The transition trigger event occurs at the end of the transition. The logic condition must be
valid at the m oment the transition event occurs minus the setup time plus the hold time.
Minimum pulse
width
330 ps225 ps225 ps175 ps
MinimumMaximum
-100 ns100 ns
500 ps
Minimum time from active clock edge to
inactive edge
Hold times ≥ 0: Hold time + 550 ps
Hold times <0: Hold time + 1.6 ns
Hold times ≥ 0: Hold time + 500 ps
Hold times <0: Hold time + 1.5 ns
Minimum rearm
time
Minimum rearm
time
Minimum rearm
time
Setup time
Setup time
Setup time
Minimum time from inactive clock edge to
active edge
500 ps
500 ps
500 ps
Hold time
Hold time
Hold time
1–46MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-3: Trigger specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series models (cont.)
Pattern and State trigger, minimum
timing requirements, typical,
≥ 4 GHz models
Pattern type150 ps200 psN.A.N.A.
Time qualified pattern type
State type1.7 GHz
B trigger after events, minimum
timing requirements, typical,
≥ 4 GHz models
< 4 GHz models
B trigger after events, event
counter range
≥ 4 GHz models
< 4 GHz models
B trigger after time, time delay
range
≥ 4 GHz models
< 4 GHz models
Variable A event trigger holdoff
range
Lowest frequency for successful
Set Level to 50%, typical
Trigger Jitter (RMS)
≥4 GHz models100fs using enhanced Trigger placement. 1.0 ps RMS (typical) for low frequency, fast rise
<4 GHz models1.5 ps RMS (typical)
The transition trigger event occurs at the end of the transition. Thelogic condition must be
valid at the m oment the transition event occurs minus the setup time plus the hold time.
Minimum pulse
width
150 ps300 psN.A.N.A.
Minimum pulse
width
140 ps
Minimum pulse widthMinimum time between channels
200 ps1 ns
1 to 2,000,000,000
1 to 10,000,000
3.2nsto3Ms
5nsto250s
250 ns to 12 s + random holdoff
20 psRMS + 1.25% Unit interval RMS for repeating 0011data patterns. (Transitiondensity of 50%).
Jitter increases by 1.4 every time the transition density is reduced by half.
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-5: Digital acquisition specifications (MSO70000/C Series) (cont.)
CharacteristicDescription
Low speed serial trigger threshold
accuracy,typical
Low speed serial trigger threshold
range
Maximum low speed serial trigger
toggle rate
Maximum digital acquisition sample
rate
Maximumrecord length, sample mode
Standard12.5 G S/s or less 10,000,000 points (all channels)
Option 2XL installed12.5 GS/s or less 20,000,000 points (all channels)
Option 5XL installed12.5 GS/s or less 50,000,000 points (all channels)
Option 10XL installed12.5 GS/s or less 125,000,000 points (all channels)
Option 20XL installed12.5 GS/s or less 250,000,000 points (all channels)
±(3% of setting ±125 mV) relative to the probe tip input
+20 mV/°C from the operating temperature at which SPC was run
-2 to +4.5 V with DI probe
-1.5 to +4 V with GP probe
2
C: 3.4 MHz
I
SPI: 4.25 MHz
12.5 GS/s
The maximum record length depends on the number of active channels and the installed
record length options. Themaximum record length is less in serial trigger mode, hi-res
mode, or when using the FIR filter.
Table 1-6: Input/output port specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series models
racteristic
Cha
Auxiliary Trigger input
aracteristics and range
ch
GHz models
≥4
4 GHz models
<
Auxiliary Output logic polarity and
functionality
typical
CH3 output voltage, typical
< 4 G Hz models
Serial data output baud rate range,
≥ 4 GHz models
High speed serial clock output
frequency range,
≥ 4 GHz models
cription
Des
Ω, ±5 V (DC plus peak AC)
50
0 Ω, ± 5%; maximum input voltage ± 5 V (DC + peak AC)
5
1MΩ, ±5%, 150 V CAT1. Derate at 20 dB/decade to 9 V RMS above 200 kHz
Default output is A trigger low true (a negative edge when the A trigger event occurs). You
can also program the output to A trigger high true, B trigger low o r high true, disabled, force
high, and force low.
V
high
out
≥2.5Vinto1MΩ load,
≥1.0 V into 50 Ω load to ground
low (true)Auxiliary Output logic levels,
V
out
≤0.7Vinto1MΩ load
≤0.25 V into 50 Ω load to ground
50 mV/div ± 20% into a 1 MΩ load
25 mV/div ±20% into a 50 Ω load
Fbaud < 1250 MB. Output swing of 1010 repeating pattern at this baud will be at least 200 mV
into 50 Ω.
Peak-to-peak output swing at 625 MHz is at least 200 mV p-p into 50 Ω. Higher frequencies
are further attenuated by approximately 6 dB per octave above 625 MHz.
Use AC or DC coupled 50 Ω termination; AC coupling the clock provides about 10% more
amplitude.
1–52MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-6: Input/output port specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series models (cont.)
CharacteristicDescription
High speed serial data and clock
output voltages, typical,
≥ 4 GHz models
High speed serial data output
latency,typical,
≥ 4 GHz models
Probe Compensation output
step amplitude and offset
≥ 4 GHz models440 mV ± 22% into a 50 Ω load (Vol= -0.2 V to 0 V,Voh = 0.2 V to 0.4 V, typical)
Voh = -1.0 V
Vol = -1.7 V
Assumes a load impedance greater than 1 kΩ.(50Ω source termination.)
If a 50 Ω or 75 Ω load is used, either use a DC blocking capacitor in series with the signal or
reference the termination toabout -1.3 V. Thesignal amplitude willbe correspondingly reduced.
11ns ± 4 ns, plus 35.5 clock cycles
810 mV ± 2
1 V ± 1.5%
Add 0.05% /°C for temperatures greater than or less than 25 °C
300
in series with the deskew fixture to minimize HF aberrations.
≤1nsat2V,intoa50Ω load to ground.
deskew a probe, use a 50 Ω terminator in series with the deskew fixtur e to minimize HF
To
aberrations.
≤ ± 1% after the first 500 ns following the square wave transition. To deskew a probe, use a
50 Ω terminator in series with the deskew fixture to minimize HF aberrations.
5psRMS
2%intoa10kΩ load, (Vol = -0.4 V to 0 V,Voh = 0.4 V to 0.8 V)
into a ≥ 100 kΩ load (Vol = -1.0 V,Voh= 0 V typical)
ps (10% to 90%) directly into an input channel. Todeskew a probe, use a 50 Ω terminator
Running SPC is required whenever the external reference is more than 0.1% (1000 ppm)
different from the nominal reference frequency or reference at which SPC was last run.
< 4 GHz m odels: 9.8 MHz to 10.2 MHz
≥ 4 GHz models: 10 MHz
< 4 GHz models: 10MHz available at AUXOUT
> 750 mV peak-peak into 50 Ω
> 1.5 V peak-peak into 1 M Ω (internally A C coupled).
V
high
out
≥2.5 V into open circuit,
≥1.0 V into 50 Ω load to ground
low (true)< 4 GHz models
V
out
≤0.7Vwith≤4mAsink,
≤0.25 V into 50 Ω load to ground
1–54MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-6: Input/output port specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series models (cont.)
CharacteristicDescription
Input and output ports
Scope XGA Video port,
DSA70000B, DPO70000B,
and DPO7000 models
VGA Video output port,
DSA70000B, DPO70000B,
and DPO7000 models
DVI-I Video port,
MSO70000/C and
DSA/DPO70000C models
Parallel port (IEEE 1284),
DSA/DPO70000B and
DPO7000 models
Passive eSATA Port,
MSO70000/C and
DSA/DPO70000C models
Serial port,
DSA/DPO70000B, and
DPO7000 models
COM1 and COM2 serial
ports, MSO70000/C and
DSA/DPO70000C models
Keyboard and Mouse ports
LAN port
External audio ports
USB portsFourside or rear panel and 1 front panel USB 2.0 connectors
GPIB portIEEE488.2 standard interface, listener or controller
15 pin D-sub female connector
15 pin D-Sub female connector
A female Digital Visual Interface (DVI-I) compatible port
25 pin D-Sub connector, supports the following modes:
standard (output only)
bidirectional (PS-2 compatible)
bidirectional enhanced parallel port (IEEE 1284 standard, mode 1 or mode 2, v 1.7)
bidirectional high-speed extended capabilities port (ECP)
Instrument must be powered down to make connection
9 pin D-Sub COM1 port, uses NS16C550-compatible UARTS, transfer speeds up to 115.2kb/s
9 pin D-Sub ports, use NS16C550-compatible UARTS, transfer speeds up to 115.2 kb/s
PS-2 compatible, instrument must be powered down to make connection
RJ-45 connector, supports 10 base-T, 100 base-T, and Gigabit Ethernet
External audio jacks for microphone input and line output
Specifications (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Table 1-10: Env
CharacteristicDescription
Temperature, < 4 GHz models
operating
Nonoperati
Temperature, ≥ 4 GHz models
operating
Nonoperating
Humidity,< 4 GHz models
operati
Nonoperating
Humidity, ≥ 4 GHz models
Humidity,operating
Nonoperating
Altitude
< 4 GHz m odels: operatingUp to 3,000 meters (9,843 feet)
onoperating
N
≥ 4 GHz models: operatingUp to 3,000 meters (9,843 feet), derate maximum operating temperature by 1 °C per
Nonoperating
ironmental specifications, all MSO70000/C, DSA/DPO70000B/C, and DPO7000 Series models
+5 °C to +45 °C (41 °F to +113°F), with noncondensing conditions
ng
ng
-40 °C to +71 °C (-40 °F to +160 °F), with 15 °C/hour maximum gradient, w ithout disk media
installed in disk drives
+5 °C to +45 °C (41 °F to +113 °F), with 11 °C per hour maximum gradient, noncondensing,
derated 1 °
-20°Cto+
installed in disk drives
8% to 80% relative humidity with a maximum wet-bulb temperature of +29 ºC (84 °F) at or
below +45 ºC (113 °F), noncondensing
Upper l
5% to 9
below +60 ºC (140 ºF), noncondensing
Upper limit derated to 20% relative humidity at +60 ºC (+140 °F)
8% to 80% relative humidity at up to +32 °C (+90 °F)
5% to
and is limited by a maximum wet-bulb temperature of +29.4 °C (+85 °F) (derates relative
humidity to 32% at +45 °C (+113 °F)
5% to 95% relative humidity at up to +30 °C (+86 °F),
5% t
and is limited by a maximum wet-bulb temperature of +29.4 °C (+85 °F) (derates relative
humidity to 11%at +60 °C (+140 °F))
Up to 12,192 meters (40,000 feet)
300 meters (984.25 feet) above 1500 meters (4921.25feet) altitude
Up to 12,000 meters (39,370 feet)
C per 300 meters (984.25 feet) above 1500 meters (4921.25 feet) altitude
60 °C (-4 °F to +140 °F), with 20 °C/hour maximum gradient, without disk media
imit derated to 30% relative humidity at +45 ºC (+113°F)
0% relative humidity with a maximum wet-bulb temperature of +29 ºC (84 °F) at or
45% relative humidity above +32 °C (+90 °F) up to +45 °C (+113 °F), noncondensing,
o 45% relative humidity above +30 °C (+86 °F), up to +60 °C (+140 °F), noncondensing,
1–58MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO/DPO5000 Series)
Specifications (MSO/DPO5000 Series)
This chapter contains specifications for the MSO5000 and DPO5000 series
oscilloscopes. A ll specifications are guaranteed unless noted as "typical."
Typica l spec
Specifications that are marked with the
Ver ification.
All specifications apply to all MSO5000 and DPO5000 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 operating temperature range specified.
You must perform the Signal Path Compensation (SPC) operation before
evaluating the instrument’s performance to the specifications. (See page 4-26,
Self Test.) If the operating temperature changes by m ore than 10 °C (18 °F),
perform the SPC operation again.
Table 2-1: Analog channel input and vertical specification
CharacteristicDescription
Number of input
channels
Input coupling
Input resistance
selection
ut
Inp
impedance, DC
coupled
Input
Capacitance,
1MΩ DC coupled
4 analog channels, digitized simultaneously
DC or AC
1MΩ or 50 Ω
250 kΩ selectable for performance verification.
1MΩ1MΩ ±1%
50 Ω
13 pF ± 2 pF
50 Ω ±1%
MSO5204,
DPO5204
MSO5104,
DPO5104
MSO5054,
DPO5054
MSO5034,
DPO5034
ifications are provided for your convenience but are not guaranteed.
Table 2-1: Analog channel input and vertical specification (cont.)
CharacteristicDescription
Maximum input
voltage
DC Balance
Number of
digitized bits
(coarse)
Sensitivity range
(fine)
Sensitivity
resolution (fine),
typical
DC gain
accuracy
1MΩ300 V
with peaks ≤±425 V at the BNC
RMS
Installation Category II
For <100 mV/div, derate at 20 dB/decade above 100 kHz to 30 V
10 dB/decade above 1 MHz
For ≥100 mV/div, derate at 20 dB/decade above 3 MHz to 30 V
10 dB/decade above 30 MHz
50 Ω5V
with peaks ≤±20 V (DF ≤ 6.25%)
RMS
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.
0.1 div with the input DC 50 Ω coupled and 50 Ω terminated
0.2 div at 1 mV/div with the input DC 50 Ω coupled and 50 Ω terminated
0.2 div with the input DC 1 MΩ coupled and 50 Ω terminated
8bits
Displayed vertically with 25 digitization levels (DL) per division, 10.24 divisions dynamic range.
"DL" is the abbreviation for "digitization level." A DL is the smallest voltage level change that can be resolved by
an 8-bit A-D Converter. This value is also known as the LSB (least significant bit).
1MΩ1 mV/div to 10 V/div in a 1-2-5 sequenceSensitivity range
50 Ω1mV/div to 1 V/div in a 1-2-5 sequence
1 mV/div to 5 V/div<–50% to >+50% of selected setting1MΩ
10 V/div<–50% to 0%
50 Ω
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 10 V/div
≤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
at 1 MHz,
RMS
at 30 MHz,
RMS
Allows continuous adjustment from
1 mV/div to 1 V/div
2–2MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Table 2-1: Analog channel input and vertical specification (cont.)
CharacteristicDescription
Offset ranges,
minimum
1 mV/div to 50 mV/div
50.5 mV/div to 99.5 mV/div
100 mV/div to 500 mV/div
505 mV/div to 995 mV/div
1V/divto5V/div
5.05 V/div to 10 V/div
For 50 Ω path, 1 V/div is the maximum vertical setting.
The input signal cannot exceed Max Input Voltage for the 50 Ω input path. Refer to the Max Input Voltage
specification for more information.
Position range±5 divisions
Offset
accuracy
Number of
Waveforms
for Average
Acquisition Mode
DC voltage
measurement
accuracy
Average
acquisition
mode
±[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.
2 to 10,000 waveforms
Default of 16 waveforms
Average of ≥ 16 waveforms±[DC Gain Accuracy × | reading – (offset - position) | + offset
Delta Volts between any two averages
of ≥16 waveforms a cquired with the
same oscilloscope setup and ambient
conditions
Note: Offset, position, and the constant offset term must be converted to volts by multiplying by the appropriate
volts/div term.
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, Peak-to-Peak, and Amplitude.
Offset rangeVolts/div setting
1MΩ input50 Ω input
±1 V±1 V
±0.5 V±0.5 V
±10 V±10 V
±5 V±5 V
±100 V±5 V
±50 VNot applicable
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.
Table 2-1: Analog channel input and vertical specification (cont.)
CharacteristicDescription
Sample
acquisition
mode,
typical
Analog
bandwidth
selections
Analog
dth, 50 Ω,
bandwi
DC coupled
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.
20 MHz, 250 MHz, and Full
Full bandwidth, with amplitude tolerance of -3 dB and operating temperatures of ≤30 °C (86 °F).
Reduce the bandwidth by 1% for each °C above 30 °C.
Instrument
MSO5204,
DPO5204
MSO5104,
DPO5104
MSO5054,
DPO5054
MSO5034,
DPO5034
SCALE range
10 mV/div — 1 V/divDC to 2.00 GHz
5 mV/div — 9.98 mV/divDC to 1.50 GHz
2 mV/div — 4.98 mV/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
5 mV/div — 1 V/divDC to 1.00 GHz
2 mV/div — 4.98 mV/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
5 mV/div — 1 V/divDC to 500 MHz
2 mV/div — 4.98 mV/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
2 mV/div — 1 V/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
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.
Bandwidth
2–4MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Table 2-1: Analog channel input and vertical specification (cont.)
CharacteristicDescription
Analog
bandwidth, 1 MΩ,
DC coupled
Analog
bandwidth with
TPP0500 and
TPP1000 probe,
typical
Lower frequency
limit, AC coupled,
typical
Full bandwidth, with amplitude tolerance of -3 dB and operating temperatures of ≤30 °C (86 °F).
Reduce the bandwidth by 1% for each °C above 30 °C.
Instrument
MSO5204,
DPO5204,
MSO5104,
DPO5104
MSO5054, typical
DPO5054, typical
MSO5034, typical
DPO5034, typical
The MSO/DPO5204 and MSO/DPO5104 models have separate 50 Ω and 1 MΩ analog paths, so they must
be tested at both settings. All other models have one anal og path, so the analog path is fully tested with the
50 Ω termination.
Full bandwidth, with amplitude tolerance of -3 dB and operating temperatures of ≤30 °C (86 °F). Reduce the
bandwidth by 1% for each °C above 30 °C.
Instrument
MSO5204,
DPO5204,
MSO5104,
DPO5104
MSO5054,
DPO5054
MSO5034,
DPO5034
< 10 Hz when AC, 1 MΩ coupled
The AC coupled lower frequency limits are reduced by a factor of 10 when 10X passive probes are used.
SCALE range
5 mV/div — 10 V/divDC to 500 MHz
2 mV/div — 4.98 mV/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
5 mV/div — 10 V/divDC to 500 MHz
2 mV/div — 4.98 mV/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
5 mV/div — 10 V/divDC to 350 MHz
2 mV/div — 4.98 mV/divDC to 350 MHz
1 mV/div — 1.99 mV/divDC to 175 MHz
SCALE range
50 mV/div — 100 V/divDC to 1 GHz (TPP1000 probe)
20 mV/div — 49.8 mV/divDC to 350 MHz
10 mV/div — 19.9 mV/divDC to 175 MHz
50 mV/div — 100 V/divDC to 500 MHz
20 mV/div — 49.8 mV/divDC to 350 MHz
10 mV/div — 19.9 mV/divDC to 175 MHz
50 mV/div — 100 V/divDC to 350 MHz
20 mV/div — 49.8 mV/divDC to 350 MHz
10 mV/div — 19.9 mV/divDC to 175 MHz
Table 2-1: Analog channel input and vertical specification (cont.)
CharacteristicDescription
Upper frequency
limit, 250 MHz
bandwidth
limited, typical
Upper frequency
limit, 20 MHz
bandwidth
limited, typical
Calculated rise
time, typical
250 MHz, ±20%
20 MHz, ±20%
Calculated Rise Time at 350/BW (MHz). 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.
Table 2-1: Analog channel input and vertical specification (cont.)
Delay between
channels, full
bandwidth,
typical
Deskew range
Crosstalk
(channel
isolation), typical
TekVPI InterfaceThe probe interface allows installing, powering, compensating, and controlling a wide range of probes offering a
Total probe
power
Probe power per
channel
≤100 ps between any two channels w ith input impedance set to 50 Ω, 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
≥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
variety of features.
The interface is available on all front panel inputs including Aux In. Aux In only provides 1 MΩ input impedance
and does not offer 50 Ω as the other input channels do.
Five TekVPI-compliant probe interfaces (one per channel)
12 W maximum internal probe power
Provision for 50 W external probe power from rear panel
VoltageMax AmperageVoltage Tolerance
5V
12 V
50 mA (250 mW)±5%
2 A (24 W)±10%
2–8MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Specifications (MSO/DPO5000 Series)
Table 2-2: Hori
CharacteristicDescription
Sample rate
Record length
Analog cha
Record Length
Digital channels
Seconds/Division range
Maximum update rate
Aperture Uncertainty
Long-term sample rate and
delay time accuracy
zontal and acquisition system specifications
InstrumentMaximum sampl
MSO5204, DPO5204,
MSO5104, DP
MSO5054, DPO5054,
MSO5034, D
nnels
OptionNumber of
Channels
Standard
Option 2RL
5RL
Option
Option 10RL
3 or 412.5 M12.5 M12.5 M12.5 M
1 or 225 M25 M12.5 M12.5M
3or425M25M25M25M
1or250M50M25M25M
3or450M50M50M50M
1 or 2125 M125 M50 M50 M
3 or 4125 M125 M125 M125 M
1 or 2250 M250 M125 M125 M
The record length ranges for a standard instrument are the same as for the analog channel
ification table (above).
spec
The record length ranges for an instrument with an option are the same as for the analog
channel specifications, up to 40M.
Record length
1 K10 K>10
200 ps – 40 s200 ps – 400 s200 ps – 1.00 ks
Maximum triggered acquisition rate: >250,000 wfm/s
≤(3 ps + 0.1 ppm × record duration)
±5 ppm over any ≥1mstimeinterval
Table 2-2: Horizontal and acquisition system specifications (cont.)
CharacteristicDescription
Delta-time m
accuracy
easurement
The formula to calculate the delta-time measurement accuracy (DTA
setting and input signal is given below (assumes insignificant signal content above Nyquist
and insignificant error due to aliasing):
= slew rate around 1st point in measurement (1stedge)
SR
1
SR
= slew rate around 2nd point in measurement (2ndedge)
2
N =input-referred noise (V
RMS
)
TBA = time base accuracy (5 ppm)
= delta-time measurement duration (seconds)
t
p
RD = (record length)/(sample rate)
= 1/(sample rate)
t
sr
assume edge shape that results from Gaussian filter response
) for a given instrument
max
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).
The observation interval may not exceed 1 year.
2–10MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO/DPO5000 Series)
Table 2-3: Trig
ger specifications
CharacteristicD escription
Aux In (External) trigger input
1MΩ ±1% in parallel with 13 pF ±2 pF
impedance, typical
Aux In (E xternal) trigger maximum
input volta
ge
The maximum input voltage at the BNC 300 V
Installati
on Category II
Derate at 20 dB/decade above 3 MHz to 30 V
Aux In (External) trigger bandwidth,
250 MHz ±20%
typical
Triggerbandwidth, Edge, typical
MSO5204, DPO52042 GHz
MSO5104, DPO51041 GHz
MSO5054, DPO5054
MSO5034, DPO5034
Triggerbandwidth, P ulse and Logic,
typical
MSO5204, DPO52041 GHz
MSO5104, DPO51041 GHz
MSO5054, DPO5054
MSO5034, DPO5034
Edge-type trigger sensitivity, DC
led, typical
coup
ModelsTrigger
MSO5204, DPO5204
5104, DPO5104
MSO
MSO5054, DPO5054
MSO5034, DPO5034
ll models
A
All modelsAux in
All modelsLineFixed
Trigger jitter
≤10 ps
≤100 ps
RMS
RMS
500 MHz
350 MHz
500 MHz
350 MHz
Source
Any input
channel
input
Any
channel
ny input
A
channel
(External)
for edge-type trigger
for non edge-type trigger modes
RMS
at 30 MHz, 10 dB/decade above 30 MHz.
RMS
Sensitivity
50 Ω path:
0 div from DC to 50 MHz, increasing to
0.4
1 div at oscilloscope bandwidth
50 Ω path:
1 mV/div to 4.98 mV/div – 0.75 div from
to 50 MHz, increasing to 1.3 div at
DC
oscilloscope bandwidth.
≥ 5 mV/div 0.040 div from DC to 50 MHz,
creasing to 1 div at oscilloscope
in
bandwidth.
1MΩ path:
1 mV/div to 4.98 mV/div – 0.75 div from
C to 50 MHz, increasing to 1.3 div at
D
oscilloscope bandwidth.
≥ 5 mV/div 0.040 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
Edge-type trigger sensitivity, not DC
coupled, typical
Video-type trigger formats and field
rates
Video-type trigger sensitivity,typical
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
Trigger CouplingTypical Sensitivity
AC Coupling1 div for frequencies above 45 H z.
NOISE REJ2.5 times the DC-coupled limits
HF REJ
LF REJ
Triggersfrom 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
SourceSensitivity
Any input channel
Aux In (External)Video not supported through Aux In (External) input
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 typePulse widthRe-arm
LogicNot applicable2 ns1 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
Clock activeClock inactive
User hold time + 2.5 ns2 ns
An active pulse width is the width of the clock pulse from its active edge to its inactive edge.
An inactive pulse width is the width of the pulse from its inactive edge to its active edge.
The User hold time is the number selected by the user.
Attenuates signals below 45 Hz.
1.0 times the DC-coupled limit from DC to 50 kHz.
Attenuates signals above 50 kHz
1.5 times the DC-coupled limits for frequencies above
50 kHz. Attenuates signals below 50 kHz
0.6 to 2.5 divisions of video sync tip
Time
time
4ns2ns1ns
between
channels
2–12MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Table 2-3: Trigger specifications (cont.)
CharacteristicD escription
Setup/hold violation trigger, setup
and hold time ranges
Pulse type trigger, minimum pulse,
rearm time, transition time
Transition time trigger, delta time
range
Timerange for glitch, width, timeout,
or time-qualified runt
Time Accuracy for 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
FeatureM inMax
Setup time
Hold time1 ns1.0 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 i s the algebraic sum of the Setup Time and Hold Time that you
programmed.
Pulse classMinimum
Glitch
Runt4 ns2 ns
Time-qualified runt
Width4 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 trigger class runt, pulse width refers to the width of the pulse being measured. Rearm
time refers to the time betw een puls e s.
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 RangeAccuracy
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 events
Specifications (MSO/DPO5000 Series)
–0.5 ns1.0 ms
0.5 ns2.0 ms
Minimum rearm time
pulse width
4ns
4ns
4ns
±(20% of setting + 0.5 ns)
±(0.01% of setting + 100 ns)
2 ns + 5% of glitch width setting
8.5 ns + 5% of width setting
2 ns + 5% of width upper limit setting
Trigger holdoff range
Maximum serial trigger bits128 bits
Standard serial bus interface triggering
I2CAddress Triggering: 7 and 10 bit user specified address, as well as General Call, START
SPIData Trigger: 1 to 16 bytes of user-specified data
RS-232
USBData Rates Supported: HS to 480 Mbs, Full to 12 Mbs, Low to 1.5 Mbs
Source
Any input channel
Aux In (External)
LineNot applicable
Line trigger level is fixed at about 50% of the line voltage.
This specification applies to logic and pulse thresholds.
Source
Any input channel±0.20 div
Aux In (External)±(10%of setting + 25 mV)
LineNot applicable
For signals having rise and fall times ≥10 ns.
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 and MISO
Maximum Data Rate: 10 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 ofPacket, Rx End of Packet, Tx Data, Rx Data,
Tx Parity Error, or Rx Parity Error
End of Packet: 00 (NUL), 0A (LF), 0D ( CR), 20 (SP), FF
Trigger On: Sync, Reset, Suspend, Resume, End of Packet, Token(Address) Packet, Data
Packet, Handshake Packet, Special Packet, Error
Range
±8 divisions from center of screen
±8 divisions from 0 V when vertical LF
reject trigger coupling is s elected
±8 V
Range
2–14MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO/DPO5000 Series)
Table 2-4: Digi
tal acquisition specifications, MSO5000 Series
CharacteristicDescription
Threshold vol
Digital channel timing resolution
Logic threshold accuracy
tage range
-40 V to +40 V
2nsmainmemo
±(100 mV + 3%
Requires valid SPC. (See page 4-26, Self Test.)
Minimum det
ectable pulse width
1ns
Using MagniVu memory. Requires the use of 342-1140-00ground clip per channel.
Table 2-5: P6616 Digital Probe specifications
CharacteristicDescription
Number of channels
Input resistance, Typical
Input capacitance, Typical3.0 pF
Minimum input signal swing400 mV
Maximum input signal swing
Maximum Input ToggleRate500 MHz
Absolute maximum input voltage
Channel-to-channel skew
16 digital inputs
100 kΩ to ground
Measured at the podlet input. Requires the use of 342-1140-00ground clip per channel
p-p
Requires the use of 342-1140-00ground clip per channel
for fin≤ 200 MHz (centered around the DC threshold voltage) at the P6616
30 V
p-p
probe tip.
10 V
for fin>200 MHz (centered around the DC 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. Itmight also damage the input circuitry. See the Absolute maximum
input voltage specification.
Maximum frequency sine w ave input that can accurately be reproduced as a logic
square wave.
Requires the use of a 342-1140-00 ground clip on each channel.
This is the maximum frequency at the minimum swing amplitude. 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.
Display area: 210.4 mm (8.28 in) (H) x 157.8 mm (6.21in) (V), 264 mm (10.4 in) diagonal,
6-bit RGB full color,XGA (1024 x 768) TFT liquid crystal display (LCD).
Display resolution
Luminance, Typical
1024 X 768 XGA display resolution
400 cd/m
2
Waveform display color scaleThe TFT display can support up to 262,144 colors. A subset of these colors are used for the
oscillosc
ope display, all of which are fixed colors and not changeable by the user.
Table 2-7: Input/Output port specifications
CharacteristicDescription
Ethernet interfaceStandard on all models: 10/100/1000 Mbps
GPIB interfaceAvailable as an optional accessory that connects to the USB Device and USB Host ports
with the TEK-USB -488 GPIB to USB Adapter
The control interface is incorporated into the instrument user interface.
Video signal output
USB interface1 USB device connector (2.0 Full Speed), on the instrument rear panel.
Probe compensator output voltage
and frequency, typical
Auxiliary output (AUX OUT)
Trigger Out or
erence Clock Out
Ref
External Reference nominal input
frequency
External Reference input frequency
variation tolerance
External Reference input sensitivityVin 1.5V
External Reference input maximum
input signal
External Reference input impedanceRin = 1.5 kΩ ±20%inparallelwith15pF±5pFat10MHz
A 15 pin D-sub, VGA-type connector, supporting a minimum resolution range of 640X480
to 1280X1024.
6 USB host connectors (2.0 HS), two on the instrument front and four on the rear.
Output voltage0 V to 2.5 V ±1% behind 1 kΩ ±2%
Frequency
1 kHz ±25%
You can set the Auxiliary output to Trigger Out or Reference Clock Out.
Reference Clock Out: Outputs the 10 MHz oscilloscope reference clock.
TriggerOut: A H IGH to LOW transition indicates that the trigger occurred.
Trigger output logic levels
Characteristic
Vout (HI)
Limits
≥2.5 V open circuit
≥1.0Vintoa50Ω load to groundVout (LO)≤0.7 V into a load of ≤4mA
≤0.25 V into a 50 Ω load to ground
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 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 4-26, Self Test.) The time base changes in correspondence to the fluctuations in the
external reference.
for input frequencies between 9.9 MHz and 10.1 MHz
p-p
7V
p-p
2–16MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Specifications (MSO/DPO5000 Series)
Table 2-7: Input/Output port specifications (cont.)
CharacteristicDescription
Keyboard and Mouse ports
External audio ports
PS-2 compatible, instrument must be powered down to make connection
External audio jacks for microphone input and line output
Table 2-8: Data storage specifications
CharacteristicDescription
Nonvolatile memory retention time,
typical
Real-time clockA programmable clock providing time in years, months, days, hours, minutes, and seconds
Hard dis
kdrive
No time limit for front-panel settings, saved waveforms, setups, and calibration constants
The 2.5-inch SATA hard disk drive capacity is ≥160 GB. Waveforms and setups are stored
on the hard disk.
Table 2-9: Power source specifications
CharacteristicDescription
Source voltage100 V to 240 V ±10%
Source frequency(85 to 264 V) 45 Hz to 66 Hz
(100 V to 132 V) 360 Hz to 440 Hz
Fuse ratingT6.3AH, 250 Vac
The fuse cannot be replaced by the user.
Table 2-10: Environmental specifications
CharacteristicDescription
Temperature
Humidity
Altitude
Operating: +5 °C to +50 °C (32 °F to +122 °F)
noperating: -20 °C to +60 °C (-4 °F to +140 °F)
No
perating:
O
8% to 90% relative humidity with a maximum wet bulb temperature of 29 °C at or below
+50 °C (upper limit derates to 20.6% relative humidity at +50 °C). Non-condensing.
onoperating:
N
5% to 98% relative humidity with a maximum wet bulb temperature of 40 °C at or below
+60 °C (upper limit derates to 29.8% relative humidity at +60 °C). Non-condensing.
Operating: 3,000 m (9,843 ft)
Nonoperating: 9,144 m (30,000 ft)
9.8 in (249 mm) Feet Folded out, handle folded down
13.5 in (343 mm) Feet Folded in, handle folded up
14.0 in (356
Width:
17.3 in (439 mm) from handle hub to handle hub.
Depth:
8.0 in (203 mm) from back of feet to front of knobs.
8.9 in (226 mm) from back of feet to front of front cover
8.5in(216
Box Dimensions:
Height: 19
Width: 18.0 in (457 mm)
Length: 22.6 in (574 mm)
Rackmoun
Height: 8.6 in ( 218mm)
Width: 19.2 in (488 mm) from outside of handle to outside of handle.
Depth: 1
14.9 lbs
22.2 lbs (10.0 kg), instrument with rackmount, without front cover
27.5 lbs (12.5kg), when packaged for domestic shipment, without rackmount
Botto
Left side: 2 in (50.8 mm)
Right side: 0 in (0 mm)
Rear:
FanChas
laminate, circuit boards are constructed of glass laminate.
mm) Feet Folded out, handle folded up
mm) from handle back to front of knobs.
.6 in (498 mm)
tconfiguration (5U Rack Sizes)
5.1 in (384 mm) from outside of handle to back of slide.
(6.8 kg), standalone instrument, without front cover
m:0in(0mm),onfeet,withflip stands down
2in(50.8mm)
forced air circulation with no air filter.
sis parts are constructed of aluminum alloy, front panel is constructed of plastic
) Feet folded in, handle folded down
2–18MSO70000/C, DSA70000B/C, DPO7000B/C, DPO7000, MSO5000, DPO5000 Series
Performance Verification (MSO70000/C
Series, D SA/DPO70000B/C Series, and
DPO7000 Series)
Performance Verification (MSO70000/C Series,
DSA/DPO70000B/C Series, and DPO7000 Series)
Two types of Performance Verification procedures can b e performed on these
products: Brief Procedures and Performance Tests. You may not need to perform
all of these procedures, depending on what you want to accomplish.
If you are not familiar with operating this instrument, read the instrument user
manual or explore the online help.
To rapidly confirm that the instrument functions and was adjusted properly,
perform only the brief procedures under Self Tests.
Advantages. These procedures are quick to do, require no external equipment
or signal sources, and perform extensive functional and accuracy testing to
provide high confidence that the instrument will perform properly. They can
be used a
To further check functionality, first do the Self Tests just mentioned; then do
the bri
Advantages. These procedures require minimal additional time to perform,
requi
procedures more completely test the internal hardware of the instrument.
They can be used to quickly determine if the instrument is suitable for putting
into service, such as when it is first received.
s a quick check before making a series of important measurements.
ef procedures under Functional Tests.
re no additional equipment other than cables and adapters, and these
If more extensive confirmation o f performance is desired, perform
the Performance Tests after performing the Functional and Self Tests
mentioned above. (See page 3-18, Performance Tests (MSO70000/C Series,DSA/DPO70000B/C Series, and DPO7000 Series).)
Advantages. These procedures add direct checking of the warranted
specifications that are marked with the
Performance Verification (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Conventions
Throughout these procedures the following conventions apply:
Each test procedure uses the following general format:
Title of Test
Equipment Required
Prerequis
Procedure
Each procedure consists of as many steps, substeps, and subparts as required
to do the test. Steps, substeps, and subparts are sequenced as follows:
1. First Step
a. First Substep
b. Secon
2. Second Step
In steps and substeps, the lead-in statement in italics instructs you what to do,
while the instructions that follow tell you how to do it, as in the example
below:
step
Initialize the instrument: Push the front-panel Default Setup button.
STOP.TheSTOP notation at the left is accompanied by information you must
read to do the procedure properly.
ites
First Subpart
Second Subpart
dSubstep
The term "toolbar" refers to a row of buttons at the top of the display. The
term "menu bar" refers to a row of menus at the top of the display. You can
witch between toolbar and menu bar o perating modes by using the menu at
s
the top right of the toolbar or menu bar. (See Figure 3-1.)
Item numbers in the equipment required lists refer to the equipment. (See
Table 3-2 on page 3-19.)
3–2MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
Performance Verification (MSO70000/C Series, DSA/DPO70000B/C Series, a nd DPO7000 Series)
Figure 3-1: Toolbar and menu bar (< 4 GHz models shown)
The procedures assume you have connected a mouse to the instrument so you
can click on the screen controls. If you have not connected a mouse, you can
use the touch screen to operate the screen controls.
Brief Procedures (MSO70000/C Series, DSA/DPO70000B/C Series, and DPO7000 Series)
Brief Procedu
res (MSO70000/C Series, DSA/DPO70000B/C
Series, and DPO7000 Series)
The Self Tests use internal routines to confirm basic functionality and proper
adjustment. No test equipment is required to do these test procedures.
The Functional Tests utilize the probe-compensation output at the front panel as a
test-signal source for further verifying that the instrument functions properly. A
BNC cable a
required to do these test procedures.
Self Tests
This procedure u ses internal routines to verify that the instrument functions and
was adjusted properly. No test equipment or hookups are required.
Equipment requiredPrerequisites
NonePower on the instrument and allow a
nd an adaptor or a probe, depending on your instrument model are
20 minute warm-up before doing this
ure.
proced
1. Verify that internal diagnostics pass: Do the following substeps to verify
passing of internal diagnostics.
a. Display the System diagnostics menu:
e instrument is in toolbar mode, put the instrument into menu bar
If th
mode.
ldowntheUtilities menu and select Instrument Diagnostics. . . .
Pul
This displays the diagnostics control window.
n the System Diagnostics:
b. Ru
First disconnect any input signals from all four channels.
Click the Run button in the diagnostics control window.
c. Wait: The internal diagnostics do an exhaustive verification of proper
instrument function. This verification may take several minutes. When the
verification is finished, the resulting status will appear in the diagnostics
control window.
d. Verify that no failures are found and reported on-screen. All tests should
pass.
3–4MSO70000/C, DSA70000B/C, DPO7000B/C, D PO7000, MSO5000, DPO5000 Series
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