Tektronix 2467 Spec Sheet

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