F,RGM TEKTPCJNIX,
- -
. . .--...
INC. FSD
__.-*. . .
6. 25. 1991
13: 49
p. 2
TEK 1 INTI~OFFICE
TO
FnOM
SU13.K:T
John Martin
Frank
GfDEP permit request
Gray, SO-PAT
In
reeponse to the request to grant perrniasion to
Government Industry Exchange
Tektronix
Tektronix,
of
such documents to any
in the Metrology
operator,
Xnc. hereby
Data Interchange Data Base of
that all copies of the original work
copyright notice and
in the original, together
permit3eionaa
This permission has been approved by the Intellectual
lropsrt Committea OF Tsktronbc,
be prov
ded
‘i
to GIDEP to provide the requested permission.
COMMUNICATION .
94-540
Pro ram
~lervice and
grants such pm-mission
GIDEP
ownership
with
P
nstruction manuals,
user that is a full participant
statement exactly a-& it appears
the Legend "Reproduded with
and a copy or this memo may
(CPDEI?) to reproduce
include the entire
. . .
>n ' t:
Juno 25, 1991
for distribution
GIDEP provided
.
the
geG&d-a
Group Pa&t: Counml
Vertical Deflection System
Display Modes-CH 1, CH 2, CH 3.
CH 4, Add (CH 1 c CH 2), Invert
Cl-l 2. Alternating and Chopped display-switching for all channels, and
20 MHz Bandwidth limiting.
Channel 1 and Channel 2
Deflection Factor Range-2 mV/div
to 5 Vidiv in a I-2-5 sequence of 11
SSep5.
Deflection Factor Basic Accuracy-
*2%. Measured at any VOLTSIDIV
setting with a four- or five-division
signal centered on screen.
AV Basic Accuracy- + (1.25% of
reading + 0.03 division + signal
aberrations). Measured with cursors
anywhere on the graticule.
Basic accuracies a ply for tem-
peratures from + 15”C?to +35”C.
Add 2 1% of readina for tem-
peratures from - 15’C to + ISC and
from +35”C to +55”C, Add I 1% of
readin
used.
ing when inverted,
AV Range- e-8 times the VOLTS/
DIV setting.
Variable Range-Continuously variable between VOLTSiDlV settings.
Extends deflection factor to b12.5
Vldiv.
Frequency Response ( - 3 dB BW)
-350 MHz for temperatures from
- 15C to +35”C. 300 MHz for temperatures from +35”C to +55”C.
Measured with standard accessotv
probe or internal 50 II termination.’
AC Coupled Lower - 3 dB Frequeny-IO Hz or less. 1 Hz or less
with standard accessory probe.
Step Response--41 ns rise time,
calculated from: t, = .350/BW.
Channel Isolation->lOO:l artenualion of deselected channel at 100
MHZ. &O:l at 350 MHz. Measured
with an eight-division input signal
and equal VOLTSiDlV settings on
both channels from 2mV/div to 500
mVidiv
when 50 R input cou
dd * 1% of Channel
8
ling is
read-
f
Displayed Channel 2 Delay with
Respect to Channel 1 -Adjustable
from at least -500 ns through at
least i 500 ns.
1 MR Input Characteristics-l Ma
20.5% shunted by 15 pF t2 pF
Maximum Input Voltage: 400 V (dc
+ peak ac): 800 V
or less. For DC-, A c!
coupled signals.
50 fi Input Characteristics-50 n
~1%.VSWR:~1.3:l,fromdcto300
MHz. ~1.51, from 300 MHz to350
MHz. Maximum Input Volta e: 5 V
rms, averaged for 1 s: i 50 5
Cascaded Operation-Channel 2
vertical signal output coupled to
Channel 1 input via 50 fl RG-58CIU
coaxial cable, both inputs at 50 fi
DC, and both VOLTSiDlV settings at
2 mV, Bandwidth (- 3 dB): DC to 50
MHz or greater. Deflection Factor:
400 PVidiv ? 10%.
CMRR (Add Mode with Channel 2
Invert@-At least 20~1 at 50 MHz.
For eight-division or less commonmode signals and with VAR VOLTS/
DIV control adjusted for best CMRR
at 50 kHr in any VOLTSIDIV setting.
Channel 3 and Channel 4
Deflection Factor-Settings: 100
mV/div and 500 mV/div. Accuracy:
r lO%,
Frequency Response ( - 3 dB BW)
-350 MHz for temperatures from
- 15°C to + 35C. 300 MHz for temperatures from + 35OC to + 55°C.
Measured with standard accessory
probe.
Step Response--i ns. Rise time
calculated from: t, = .35O/BW.
Channel Isolation->50:1 attenua-
tion of deselected channel at 100
MHz. Measured with an eight-
division input signal.
Signal Delay Between Channel 1 and
Either Channel 3 or Channel 4-
* 0.5 ns. Measured at 50% points.
Input R and C (IM ii)-1 Ml1 i 1%
shunted by 15 pF i3 pF, direct cou-
pled. MaxImum Input Voltage: 400 V
(dc + peak ac); 800 V p-p ac at IO
kHz or less,
-p ac at IO kHz
-, and Ground-
peak,
All Channels
Low-frequency Linearity-O.1 divi-
sion or less compression or expansion of a two-division. center-screen
signal when positioned anywhere
within the graticule area.
Bandwidth Limiter-Reduces up er
3-dB bandpass to a limit of 13 M
to 24 MHz.
Vertical Signal Delay-At least 30 ns
of sweep is displayed before trig
IO ns of the sween is disolaved
before triggering event ii displayed
with 5 nsidiv SEC/DIV setting.
Chop Mode Switching Rate-2.5
MHr 20.2% for sweep speeds
ranging from 20 kLs/div to 2 psidiv.
1 MHz ?0.2% for all other sweep
speeds. The complete display cycle
rate equals the Chop mode switching rate divided by the number of
channels displayed, including ADD,
if displayed. Chop switching rate is
modulated sli htly to minimize wave-
signals.
Trigger Sensitivity from CH 1 or CH 2
Source-DC: 0,35 division. Noise
Reject: 1.2 div, HF Re’ect: 0,5 div,
from dc to 30 kHz. L
AC: 0.35 div. Above 50 MHz, triqqering signal requirement increases?0
1.0 div at 350 MHz and 1.5 div at
500 MHz for DC, HF Reject, and AC
couplin and increases to 3.0 div at
350 IvIA and 4.5 div at 500 MHz for
Noise Reject coupling.
Trigger Sensitivity from Channel 3 or
Channel 4 Source-One-half the
values for Channel 1 or Channel 2
source.
Trigger Sensitivity from MultipleChannel Composite Source-Add
1 .O division to the single-channelsource values.
Maximum P-P Signal Rejected by
Noise Reject Coupling within Vertical
Bandwidth-Channel 1 or Channel 2
Source: 20.4 division for VOLTSiDlV
settings of 10 mVldiv and higher.
Maximum noise amplitude rejected
1 ” form breaks w en vlewjng repetitive
fJ Reject: 0.5 div
HP z
is reduced at 2 mV/div and 5 mV/div
switch settings. Channel 3 or
Channel 4 Source: ~0.2 division.
Jitter--~100 ps with five divisions of
350 MHz at 500 psidiv sweep
speed.
Level Range-Channel I or Channel
2 Source: + 18 times the VOLTSiDlV
setting. Channel 3 or Channel 4
Source: 29 times the VOLTS/DIV
setting.
Level Readout Basic Accuracy
(Channel 1 or Channel 2 Source)-
2 [3% of setting +3% of p-p signal
+0.2 division +
attenuation factor J, for triggering
signals with transItIon times greater
0.5 mV x probe
I
than 20 ns, with DC coupling.
Level Readout Basic Accuracy (CH 3
or CH 4 Source)- i [3% of setting
+ 4% of p-p signal + 0.1 division +
(0.5 mV x probe attenuation factor)], for triggering signals with transition times greater than 20 ns. with
dc coupling.
Basic accuracies ap ly from + 15°C
to +35”C. For -15
4 to +15”Cand
+ 35°C to + 55’C: Add 1% of setting
f (1.5 mV x probe attenuation fac-
tor). With 50 0 Input Coupling: Add
2 1% of setting. With Channel 2
Inverted: Add k 1% of seaing. With
Noise Reject Trigger Coupling: Add
2 0.6 division for Channel 1 or Channel 2 source: add kO.3 division for
Channel 3 or Channel 4 source.
Ini
Maximum Triggering Sic
A SEWDIV AUGER”’
Setting
<lOInS
1omsto
50 ms
b50 ms ,200 ms
Horlwntal Deflection System
-._r_,
Modes-A (main sweep), A
>20 ms
:d limes A
SECIDIV
INTENsified. ALTernate A
al Period-
Auto Mode
NO ms
>,.3timesn
SECIDIV
>800 ms
i
Intensified
(horizontal) deflection:
A-Sweep Time Base Range-500
msidiv to 5 nsidiv in a l-2-5
sequence of 25 steps. X10 magnification extends fastest sweep rate to
rnr, ^_ /^I:.
Table
1
+b.3% of full scale) +b.3% of full scale)
+(0.3% of time interval
+ 0.1% of full scale)
+ (0.5% of time interval
+ 0.1% of full scale)
~(0.3% of delav settina - 05% of delav settino
.z I Lursors t
For A SEC/DIV settings ot 200 ms and 500 ms, add + 0.5% ot time Interval o
delay setting to preceding specifications.
a Intervals are measured on center horizontal graticule line. and 0.6% of lull scale is 0,06
division.
d Delay is from A-sweep trigger point to start of Bswaep.
* Disregard first division after sweep starts (first 1% otthe total 100~division sweep).
B-Sweep Time Base Range-50
ms/div to 5 ns/div in a l-2-5
sequence of 22 steps. X10 magnification extends fastest sweep rate to
500 psidiv.
Variable Timing Control-
Continuously variable and calibrated
between SECiDlV switch settings.
Extends slow& A-swea
speed to
1.5 s/div, Affects the AS CiDlV set- f
ting with the A display mode; affects
the B SEC/DIV settina with INTEN.
ALT, and E modes. VLR sets one kg-
nal c cle to five divisions for RATIO
and 8 HASE measurements with
cursors.
K&e;p Timing Accuracy-See
B-Sweep Timing Accuracy-Add
Sweep Delay Range-0,to 9.95
times the A EC/D V setting. for settings from 500 ms/div to 10 ns/div.
For A SECiDlV settings faster than 50
ps. the A-sweep tri
gering event is
observable on the il -sweep with a
minimum-delay setting.
Delay Jitter-Within 0.01% (one part
or less in 10,000) of maximum available delay, plus 100 ps.
POSITION Control Range-Start of
the 1 msidiv sweep can be positioned from right of graticule center
to at least 10 divisions left of graticula
center. Some portion of the sweep
is always visible with X10 magnification off.
X-Y Operation
iO.3% of time Interval to the A-
Swee Timing Accuracy specifica-
tions or Sweep and
At
Using P
Cursors.
Variable Timing Accuracy-Add 2%
of time interval to Timing Accuracy
specifications for Sweep when the
VAR control is out of detent.
At
Readout Resolution-Either IO ps
or 0.025% of full scale, whichever is
greater,
at Ran
the SE e
e--With Cursors: + IO times
/DlV setting. With sweep
delay: +9.95 times the A SECiDlY
setting.
X-Axis Deflection-Factor Range,
Accuracv, Variable Ranae. and lnuut
Chara&fstics-Sam&& Chantiel 1,
X-Axis Bandwidth-DC to 3 MHz.
Phase Difference Between X and Y
,-i+in” nlf
X-Axis Low-Frequency Linearity-
0.2 division or less compression or
expansion of a two-division, centerscreen signal when positioned within
the graticule area.
3
r
1
I
Signal Outputs
Cursor Position Range-AV: At least
the center 7.6 vertical divisions.
At: At least the center 9.6 horizontal
divisions.
Graticule-Size: 68 mm x 85 mm.
Markings: 8 major divisions vertically
and 10 major divisions horizontally,
with auxiliary markings.
Trace Rotation Range-Adequate to
align trace with center horizontal
graticule line.
Standard Phosphor-GH (P31).
Visual Writin
Illumination If
(typical room Ii ht : a4 div/ns at
maxtmum INT Ii N ITYcontrol setting.
No more than five bright spots will be
visible at maximum INTENSITY oontro settin none with visible halo.
Additiona brrght spots may be visi-
ble after displaying a high-intensity
trace. These spots will extinguish
when INTENSITY control is set to
minimum.
Photographic Writing Speed->10
div/ns with C-30 series camera and
IS0 3000 film, without prefogging. A
single-shot trace of instrument rise
time at 500 psidiv is recorded with
high contrast at f1.9.
Display Intensity Limitation-Display
intensrty is automatically reduced
and eventually extinguished after
periods of no front-panel control
activity The time elapsed before
intenstty reduction is shortened by
high intensity settin sand high dutyfactor/sweep-spee ItrIgger-rate 8-
combinations. Operating any switch
or the INTENSITY control restores
the selected intensity setting.
Z-Axis
Sensitivity-Dc to 2 MHz: Positive
vOltage decreases intensity: + 2 V
blanks a maximum-intensity trace.
2 MHz to 20 MHz: +2 V modulates a
normal-intensity trace.
Input Resistance-9 kfi + 10%.
Maximum Input Vola e- ? 25 V
peak; 25 V ac p-p at ? 0 kHr or less.
Speed-With 20 fi-cd
ormal to CRT Face
Be
CALIBRATOR-With A SEC/DIV
switch set to 1 msidiv. Voltage into 1
MR. Load: 400 mV 2 1%. Voltage into
50 C.Load: 200 mV ~1.5%. ShortCircuit Load Current: 8 mA 2 1.5%.
Repetition Period and Accuracy: Two
times the A SEC/DIV setting for settin s from 100 ns/div to 100 msidiv,
J. 1% during the sweep time or
with SGL SEQ trigger mode.
CH 2 SIGNAL OUT-Voltage: 20
mV/div +lO% into 1 Ma. 10 mV/div
+ 10% into 50 a. C&et: 2 10 mV
into 50 a, after dc balancing within
t5”C of operating temperature.
A GATE OUT and B GATE OUT-
Voltage: 2.4 V to 5 V positivepulse, starting at 0 V to 400 m &
Drive: Su plies 400 ~.LA during HI
state; stn s 2 mA during Co state. I?
Power Source
Nominal Voltage Ran es-115 V: 90
Vto132V.230V:180 to250V. %
Frequency-48 Hz to 440 Hz.
Fuse Ratin -Either 2 A 250 V
AGCI3AG fast-blow or 1’6 A 250 V
5 x 20 mm, Quick-acting. Each fuse’
type requtres a different cap.
Maximum Power Consumption-120
W (180 VA), for a fully optioned
instrument.
Primary Circuit Dielectric Voltage
Withstand Test-1500 V rms, 60 Hz,
for IO s without breakdown.
Primax Grounding-Type test
to 0.1 maxrmum. Routrne test to
check grounding continuity between
chassis ground and protective earth
ground.
Weight--With Accessories and
Pouch: IO:9 kg (24.0 lb). Without
Accessories and Pouch: 9.7 kg
(21.3 lb).
Shipping Weight-14.6 kg (32.1 lb).
Height--With Feet and Accessories
Pouch: 190 mm (7.5 in). Without
Accessories Pouch: 165 mm (6.5 in).
oing
Depth--With Front Cover: 467 mm
(18.4 in). With Handle Extended: 533
mm (21.0 in).
Cooling-Forced-air circulation.
Construction-Sheet aluminum-alloy
chassis: plastic laminate front panel:
glass-laminate circuit boards.
Envimnmentsl Charactsristics
Environmental requirements qualify
the electrical and mechanical specifications. When not rack mounted,
the instrument meets the environ-
mental requirements of MILT-28800C for Type Ill, Class 3, Style
C equipment, with humidity and
temperature requirements defined
in paragraphs3.9.2.2, 3.9.2.3.
and 3.9.2.4.
Temperature-Operating: - 15°C to
+55”C. Nonooeratino: - 62°C to
+85’C. -
Altitude-Operating: To 4500 m
(15,000 ft). Maximum 0 erating tem-
perature decreases l’C?for each
~~o~~IOft)abo~1500m
5000 ft). Nonoperatrng: To 15,250 m
Humidity (Operating and Noncperat-
trig)-Stored at 95 b relative humtd-
iky for five cycles (120 hr) from
+30X to +6O”C, with operttion
yr&ry checks at +30 C and
Vibration (Operating)-15 minutes
alon
each of,three axes at a total
dis p
acement 0.025 inch p-p
55 Rz), with frequency varied \
Hz to 55 Hz in one-mtnute sweeps.
Hold 10 minutes at each major reso
nance, or if none exist, hold 10
minutes at 55 Hz. Total test time is
75 minutes.
Shock (Operating and Nonoperating)
-50 g, half sine, Il.ms duration,
three shocks on each face, for a total
of 18 shooks.
4 g at
rom 10
3
Transit Drop-12.inch drop on
each comer and each face per MILT-288OOC para 3.9.5.2 and para
4.5.5.4.2, for instrument not in shipping package
Bench Handling-Per MILSTD.810C, Method 516.2, Procedure
V (MIL-T-28800C, para4.5.5.4.3),
with and without cabinet installed.
Topple (Operating with Cabinet
Installed)-Set on rear feet and
allowed to top P le over onto each of
four adjacent aces per Tektronix
Standard 062-2858-00.
Packaged Transportation Drop-
Meets the limits of National Safe
Transit Association test orocedure
IA-B-2. Ten 36.inch drops per
Tektronix Standard 062-2858-00.
Packaged Transportation Vibration-
Meets the limits of National Safe
Transit Association test procedure
lA-B-1. One-inch p-p excursion at
4,63 Hz (1.1 g) for 30 minutes per
Tektronix Standard 062-2858-00.
Electromaanetic
Meets requirements of the foilowing
standards: MIL-T-28800C; MIL
STD.461 B Part 4 (CE-03 and CS-02)
Part 5 (CS-06 and K-02), and Part 7
(CS-01, RE-02, and RS-03), limited to
1 GHz; VDE 0871 Cateaorv B: FCC
Rules and RegulationsPar? 15,
Subpart J, Class A; and Tektronix
Standard 062-2866-00.
X-Ray Radiation-Meets require-
ments of Tektronix Standard
062-1860-00.
Four 10X, 1.3-m probes with accessories; blue accessories pouch with
snap fastener; pouch mounting
plate; clear accessories pouch with
riploc fastener; operators manual;
front cover; blue plastic CRT Filter;
clear plastic CRT filter; banana-
plug/binding-post adapter; fuse,
2 A, 250 V; power cord.
COmDatibilitV-
Option 05
TV Waveform Measurement
System
Vertical Deflection System
Channel 1 and Channel 2
Frequency Response-For VOLTS/
DIV settings between 5
0.2 Vidiv with VAR VOLTSiDlV control
in calibrated detent and using a fivedivision 50 kHz reference signal from
a 50 G or 75 G system.
Squarewave Flatness-i% p-p for
both 60 Hz and 15 kHz square waves
from a 50 a or 75 0 system using a
1 .O V input with a 50 mV/div setting
and using a 0.1 V input with a 20
mV/div setting. 1.5% p-p using aO.l
V input with 5 mV/div and 10 mV/div
settings. Exclude first 50 ns following
step transition. For signals with rise
times ~10 ns, add 2% p-p between
155 ns and 165 ns after step
transition.
Television Blanking-Level Clamp
(Back-Porch) 60 Hz Rejection (Channel 2 only)-318 dB at 60 Hz; with
calibrated VOLTSiDlV settings
between 5 mV and 0.2 V and a six-
division reference signal.
Television Blanking-Level Clamp
(Back-Porch) Reference-Within 1.0
division of ground reference.
Triggering
separation from sync-positive or
sync-negative composite video on
systems with 525 to 1280 lines/frame,
50 Hz or 60 Hz field rate, interlaced
or noninterlaced scan.
Trigger Modes-LINES, FLD 1
FLD 2. and ALT fFLD l-FLD 2)
coupling. I
Input Signal Amplitude for Stable
Triggering-Channel 1 and Channel 2:
1 .O division for composite video and
0.3 division for composite sync sig-
mV/div and
posite video and 0.25 division for
composite sync signals (dc peak +
video-signal amplitude must be
within 9 divisions of input ground
reference).
GPIB Compatibility for Semiautomatic Measurement SystemsWhen combined with Option IO. the
TV Waveform Measurement System
is fully programmable. Complies with
Tektronix Sfandard Codes and
Formats.
Included Accessories (Option 05)
In addition to those listed for the
2467, the following accessories are
provided for Option 05: a CCIR graticule CRT filter; an NTSC graticule
CRT filter; a polarized collapsible
viewing hood; and an options oper-
ators manual.
Option 09
Counter/Timer/Trigger (ClT)
With Word Recognizer (WR)
Sensitivity-Signal input require-
ments for Frequency, Period, Total-
Ize, Delay-by-Events and Logic
Trigger.
Source-The A Trigger or Word
Recognizer for Frequency, Period,
and Totalire.
Frequency
Range-Autoranging over input frequency from 0.5 Hz to 150 MHz.
Resolution--[
Display-Seven digits. Updates
twice per second or every two
periods, whichever is slower.
Accuracy-Resolution ?O.OOi% of
reading over entire temperature
range of - 15°C to + 55°C.
LSD + (i.4x~xF2)]
4
A
Time Accuracy
/
Period
Range-Autoranging over an input
period from 6.666667 ns to 2 s.
Resolution- 2 [
Display-Seven digits. Updates
twice per second or every two peri-
ods, whichever is slower.
Accuracy-Resolution -tO.OOi%
of reading over entire temperature
range of - 15°C to + 55°C.
LSD + (1.4 x$]
Definitions
LSD = Least Significant Digit (0.1
TJE = Trigger Jitter Error
N = Number of cycles of measured
TJE
(Trigger Jitter Error)=
Where: en1 = RMS noise of vertical system
ppm of full scale)
frequency during measurement
interval (0.5 s or one period of
the input signal, whichever is
greater).
(all)2 + (wl2)2
Input Slav Rate
in div on screen.
en2 = RMS noise voltage
sianal in
divs.
of
input
ATime and l/A Time
TRIG AFT DLY Accuracy- 2 [LSD
+ (0.01 x B-timeidiv) + (0.001% x
A SECIDIV) + 0.001% of reading +
50 ps]. Measured with visually super-
imposed signal transitions, >O.l
divins trigger-signal slew rates, and
with channel-to-channel delay mis-
match corrected by the CH 2 DLY
match adjustment on the front panel.
Independent slope and level settings
for AREF and As-triggers allow
visual superposition of any pair of
points within the center 80% of transitions having at least five divisions
amplitude.
RUN AFT DLY Accuracy- of [LSD
+ (0.0008 x A SECIDIV) + (0.01 x B
TimeiDiv) + 83 ps]. (B timeidiv
includes those with 10X MAG active.)
Note:
input Signal is five vertical div with a
2 ns rise time.
Measured times are four horizontal
div.
TJE is negligible for Slew Rates
X.1 divins.
ATime-TRIG AFT DLY assumes
visual superposition.
Delay Time
TRIG AFT DLY Accuracy- ? (LSD
+O.OOi% of reading +0.5 ns + A
Trigger Slew Error + B Trigger Slew
Error). Add 0.5 ns for dual channel
measurements.
Where: Trigger Slew Error equals
Trigger Level Control Readout
Accuracy + Trigger Signal Slew
Rate at the trigger point.
When measured using Word Recog-
nizer on the B Trigger: Add 100 ns if
using external clock; add 200 ns
without external clock.
RUN AFT DLY Accuracy- *[LSD
+ (0.0012 x A SECIDIV) + (0.03 x
B Timeidiv) +50 ns]. (B timeidiv
includes 10X mag.) When measured
using Word Recognizeron the B
Trigger: add 100 ns if using external
clock; add 200 ns without external
clock.
A Time and Delay Time Display
Updata Rata
For Auto Resolution, twice per
second or once for each sweep,
whichever is slower. For selectable
resolution, depends on trigger and
sweep rate.
5
Note:
input signal is five vertical div with a
2 ns rise time.
Measured times are four horizontal
div.
TJE is negligible for Slew Rates
X.1 divlns.
ATime-TRIG
visual superposition.
AFT DLY assumes
Least Significant Digit
m
Auto Resolution
A SECiDf”
Option 06
Counter/Timer/Trigger (Crr)
Delay By Events
A and B Sweeps-The A Trigger or
17.bit Word Fiecognizer defines start
events. The B Trigger or 17.bit Word
Recognizer defines delay events.
Maximum delay count: up to
4,194,303. Time from start event to
any delay event 34 ns. Pulse width:
23.3 ns. With the A sweep in Delay-
bv-Events mode. the B sweeo is
delayable by time
LogicTrigger
Combination Trigger-The A sweep
can be triggered from logical combinations of the A and the B triggers
(A AND B) or (A OR B) or the Word
Recognizer. The B sweep can be
triggered from the Word Recognizer.
Minimum time to satisfy logic combinations: 24 ns.
Word Recognizer
Input-P6407 Word Recognirer
Probe, 17 bits plus clock.
Display Radix-Hexadecimal, octal,
binary.
Data Rate-O MHz to a20 MHz with
clock; 0 MHz to a10 MHz without
clock.
Data Setup Time-25 ns.
Data Hold Time-O ns,
GPIB Compatibility for Semi-
automatic Measurement Systems-
When combined with Option 10. the
CTTiWR is fully programmable.
Complies with Tektronix Standard
Codes and Formats.
Included Accessories (Option 09)
In addition to the accessories listed
for the 2467, the following are
included: a word recognizer probe;
20 grabber tips; two lo-inch, IO-wide
comb; and an options operators
manual are provided.
The Counterflimen’Trigger is available without the Word Recognizer
probe as Option 06. Specifications
and included accessories (except
WR orobe) are the same as Ootion
09. The Word Recognizer cannot,
however, be added to Option 06 after
delivery (field retrofit kits are not
available).
Option 10
GPIB Interface
Standard Interface Functions
Implemented-SHl, AHl, 16, L3
SRl, RLl, DCl, El, DTO, CO, PPO.
Vertical Position AccuracvChannel 1 and Channel 2
(Noninverted): ? [0.3 div +3% of
distance (in divisions) from center
screen + 0.5 mV divided by the
VOLTSiDlV setting]. Channel 2
Inverted: Add 0.2 div For - 15°C to
+ 15°C and for +35”C to 55°C: add
1.5 mV divided bv the VOLTSiDlV
setting. Channel 3 and Channel 4:
? [0.7 div +3% of distance (in div)
from center screen].
Included Accessories (Option 10)
In addition to the accessories listed
for the 2467, an options operators
manual is provided.
Option 1R and Rack Mounting
Conversion Kit
Weight (Kit)-4.7 kg (10.3 lb)
Domestic Shipping Weight-7.0 kg
(15.4 lb)
Height-178 mm (7.0 in)
Width-483 mm (19.0 in)
Depth-419 mm (16.5 in)
Environmental Characteristics
Rack mounting changes the
temperature, vibration, and shock
capabilities. The rack-mounted
instrument meets or exceeds the
requirements of MIL-T-28800C with
respect to Type Ill, Class 5, Style C
equipment, when installed as
directed. It also meets or exceeds
Tektronix Standard 062-2853-00,
Class 5 requirements.
Temperature (Operating)- - 15°C to
+55”C at the instruments air inlet.
Exhaust should not exceed +65”C.
Vibration (Operating)-Same as
standard instrument, except total
displacement is 0.015 inch p-p (2.3 g
at 55 Hz).
Shock (Operating and Nonoperating)
-Same as standard instrument,
except shocks are 30 g.
Same as 2467, except pouch and
pouch mounting plate. Includes
rack-mounting hardware and slide-
out assemblies.
Optional Accessories
Accessory
Rack Mounting
Conversion Kit
Word Recognirer
Extender Cable
ior Rackmount
Option 09
Probe POW‘ Extender
Cable ior Rachmounl
Option 11
GPIB Cable, 1 m, dou-
ble shield, low EMI
GPIB Cable, 2 m, dou-
ble shield, low EM
Protecti”e Waterproof
Vinyl Cover
Carrying Strap
low Capacitive Load-
ing 50 n Probe
AC,i”e Probe
Current Probe
Viewing Hood
Folding Light Shield
Viewing Hood
Folding Binocular
Viewing Hood
2467 Service Manual
OpOO;;aS,,ice
EZ-TEK 2400 Test Pro-
gram Generator (lor
instruments conligured with Option 10)
Part Number
II 6-0691-01
PO-01 03-00
112.0991-00
~16-0720-00
146-0058-00
‘6057
‘6201, P6202A,
P62-30
‘6022, A63021
,M;;, A63031
;~3pes
l106.1105
(212
(117
116~0180-00
116-0592-00
116-0566-00
170-5855-00
170~5857-00
j49FiOi
6
VOLTS/DIV
VOLTS/DlV
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