Full Text Searchable PDF User Manual
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T.O.
33K3-4-2S90-1
TECHNICAL MANUAL
CALIBRATION PROCEDURE
FOR
OSCILLOSCOPE
2445B
(TEKT ONIXj
CALlBRA.TION LAB
INSTRUCTiON MANUAL FOR
Model
0
Cal Tech:
DISTRIBUTION WITHIN GIDEP IS AUTHORIZED BY
PEPARTMENT OF THE AIR FORCE,HQ AEROSPACE
GUIDANCE AND METROLOGY CENTER (AFMC) NEWARK
AFB OHIO, LETTER DATED
4
AUGUST
1992
Distribution Statement· Distribution authorized to U.S. Government agencies and their contractors for
official use or
for
administrative or operational purposes only,
4
April
1990.
Other requests for this
document shall be referred to AGMC/MLEP, Newark AFB OH
43057-5475.
15 APRIL 1994
CHANGE 2
-
30 SEPTEMBER 1995
T.O. 33K3-4-2590-1
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USAF
OSCILLOSCOPE
2445B
(TEKTRONIX)
Test Instrument
(TI)
Characteristics
Calibrator
Vertical
Deflection
Delta Volts
Trigger Level
Rea dout
Vertical Ban dwi dth
Channell an d 2
compare d
Chaonel 3 and 4
Triggering
(A&B)
Table 1.
Performance
Range: .4 V p-p into 1 M Q
stander d voltage
Accuracy: ±1 %
Range:
2 m V to 5 Vl div, CH 1
and CH 2; .1 V an d .5 V/ div,
CH3an d CH4
Accuracy:
±2%, CH 1 an d CH 2;
±10% , CH 3 an d CH 4
Range:
B
x
Vl div setting
Accuracy: ± ( 1.25% ofr dg +0.03 div)
Range:
18
x
Vl div setting
Accuracy: ± (3% ofr dg + 3% of p -p
sigoai +0.2 div +0.5 m
V)
+ (0.5 m VXProbe attenuation factor)
Range: DC to 150
MHz
(200 MHz,
SIN
B 030000 and above)
frequency. Vertical
Accuracy:
50 Q, Down not more than 3 dB;
1 M
n
Down not more than 4.7 dB
Range: DC to 150 MHz
(200
MHz, SIN
B 030000 an d above)
Accnracy: Down not more than 4.7 dB
without Probe ; 3.0
dB
with Probe
Range:
INT,
1.5 div
@
250 MHz;
0.75 div
@
250 MHz, CH 3 and CH 4
Accuracy:
Minimum
T .O . 33K3-4-2590-l
Test
Method
Compare d against a
Checke d with a stan dard
voltage
Apply a constant amplitu de
sigoai while changing
deflection
against deflection at a
reference d frequency
Apply mininonm signals an d
check for stable display
1
•
T.O.33K3-4-2590-1
Test Instrument (TI)
Characteristics
Sweep Time
(A&B)
Delta Time
X-y
agalnst
reference d
Parametric
Measurements
Table 1 (Cant.)
Performance
Range:
A,
10
ns
to
.5
sec/div
B,
10
ns to
50
msl div
Accuracy: A:
:t1.5%
Accuracy: B:
:t1.8%
Magnifier:
XlO
Accuracy:
:t2.0%
Range:
:tl0
X A sec!div
Accuracy:
:t(0.5%
of time interval
:to.3% of
full
scale)
Sensitivity Range:
2
m V to
5
V/ div
Accuracy:
:t2%
Test
Method
Checke d with s tan dar d
Time Mark signals
Checke d with a stan dar d
voltage
Apply a constan t ampli tu de
Ban dwi dth Range: DC
to
3
MHz
signal while changiog
frequency. Horizon tal
Accuracy: Down not more than 3 dB
deflection compare d
Period Range:
2
ns
to
100
IDS
Accuracy:
0.5% + 0.5
ns
Frequency Range:
Calculate d as lIperiod
Accuracy: Same as period
Vol ts Range:
:t
p, POp Average
Average:
5%
of r dg
+5
m V
+0.5
m V
Probe attenuation factor
deflection at a
frequency
Checke d with stan dar d
Time Mark signals
Checke d with a standar d
vol tage
2
Noun
2.1
CAL IBRATION
2
Minimum Use
Range:
10
m V
to
20
V POp
Calibration
Tek tronix
Sub
Item
T.O.33K3-4-2590-1
GENERATOR
PG506
Accuracy: ±0.25%
P/O F5030A1
Noun
Minimum
Use
Calibration
Sub-
Item
2.2
LEVELED SINE
Range: 50 kHz
to
250 MHz
Tektronix
WAVE GENERATOR
SG503
Accuracy: ±5%
P/O F5030A1
2.3
FEEDTHROUGH
Range: 50n
Tektronix
TERMINATION
011-0049-01
Accuracy: N/A
2.4
TERMINATION
ATTENUATOR
Range:
As
Necessary
As
Available
Accuracy: N/A
2.5
ATTENUATOR PROBE
Range: XlO
Tektronix
P613lfP6136
Accuracy: N/A
Supplied with TI
2.6
TIME
MARK
Range: 5 ns to .5 s
Tektronix
GENERATOR
TG501
Accuracy: ±0.25%
P/O F5030Al
2.7
METER CALIBRATOR
Range: 0 to .4 VDC
Fluke
5l00B
Accuracy: DC ±0.2%
2.8
PROBE
TIP
TO BNC
Range: N/A
Tektronix
013-0227-00
N/A
3.1 Review and become familiar with the entire procedure before beginning calibration process.
Unless otherwise designated, and prior to beginning the Calibration
Process, ensure that all test equipment voltage and/or current outputs
are
set to zero (0) or turned off, where applicable. Ensure that all
equipment switches are set to the proper position before making
connections or applying power.
3.2 Connect TI and calibration equipment to a 115 VAC/60 Hz power source. Set all POWER switches to
ON and allow a 20 minute warm-up period. After warm-up period, momentarily press and hold both the
CH 1 and CH 2 upper Input Coupling buttons
until
a moving dot display replaces the normal signal.
This performs a DC Balance of CH 1 and CH 2 and the readout indicates "DC BALANCE IN
PROGRESS". The signal and readout will return to normal when complete.
3.3 Unless otherwise specified, TI controls should be set for several cycles of stable display with ample
amplitude.
3.4 Set TI controls as follows:
BW LIMIT
VAR (all)
CH 1 and CH 2 INPUT COUPLING
off
cal (detent)
IMnDC
3
I
I
•
T.O. 33K3-4-2590-1
VERTICAL MODE
CHI
DELTA T
off
DELTA V
off
TRACKIINDEP
INDEP
A TRIGGER MODE
AUTO
SOURCE
VERT
SLOPE
+
TRIGGER COUPLING
DC
A&BSECIDIV
1 ms
3.5 Use the Calibration Generator positive going, fast rise, output terminated into 50
Q
at TI, set TI and
Generator controls as required and check TI high frequency compensation for abnormal overshoot or
aberrations. Hquestions arise, Bee Maintenance T.O. or Commercial
Manual.
Do not attempt to
optimize High-frequency compenstation adjustments unless the TI has failed bandwidth check.
4 CALIBRATION
NOTE
Unless otherwise specified,
verify
the
results of each test and take corrective action whenever the test
requirement is not met, before proceeding.
4.1.1 Connect TI CALIBRATOR to the CH 1 INPUT.
4.1.2 Adjust TI CH 1 VOLTSIDIV and VAR controls for 4 divisions of vertical display centered on the
CRT.
4.1.3 Disconnect TI CALIBRATOR from the CH 1 INPUT.
4.1.4 Connect the Meter Calibrator OUTPUT to TI CH 1 INPUT.
4.1_5 Set the Meter Calibrator controls as follows:
INTIEXT
OPRJSTDBY
LOCALIREM
CLEAR
INT
STDBY
LOCAL
depress twice
•
4.1.6 Depress the Meter Calibrator switches in the following sequence: 0, V, ENTER, OPR.
4.1.7 Adjust TI position control to align the Sweep on the second graticule below the center horizontal
line.
4.1.8 Depress the Meter Calibrator switches in the following sequence: .4, V, ENTER.
4.1_9 Use the Meter Calibrator EDIT control to adjust the output for 4 divisions of vertical deflection.
4
4.1.10
The Meter Calibrator output readout must indicate
0.396
to
0.404.
4.1.11
Set the Meter Calibrator
to
STDBY and disconnect from TI.
4.1.12
Return TI CH
1
VOLTSIDIV VAR control
to
the CAL (detent) position.
T.O.
33K3-4-2590-1
5
T.O. 33K3-4-2590-1
4.2.1 Connect the Calibration Generator to T I CH 1 INPUT and switch on DELTA VOLTS. BW LIMIT
may be switched on for ease of measurement.
4.2.2 Set TI CH 1 VOLTSIDIV control to the fIrst position listed in the Range col
umn
of Table 2.
4.2.3 Set the Calibration Generator AMPLITUDE control to the fIrst position listed in the Applied
column of Table 2.
4.2.4 Adjust the Calibration Generator VARIABLE (OUT) control for the amount of vertical display
listed in the Deflection col
umn
of Table 2.
4.2.5 The Calibration Generator readout display must indicate within 2%.
4. 2.6 Set the Calibration Generator VARIABLE (OUT) control to the
IN
position.
4.2.7 Adjust TI Delta REF orDLY POS control to align the reference cursor to the bottom of the
applicable waveform on the CRT.
4.2.8 Adjust TI DELTA control to align the delta cursor with the top of the applicable waveform
on
the
CRT.
4.2.9 The Delta V readout must be within the values listed in the Readout Limits column of Table 2.
4.2.10 Set TI TRIGGER coupling to DC and SLOPE to positive. Adjust TI A TRIGGER LEVEL control
at the most positive voltage that produces a barely triggered jittering display.
4. 2.11 The TI Trigger Level readings must
he
within the values listed in the
+
Peak Limits column of
Table 2.
4.2.12 Adjust TI A TRIGGER LEVEL control at the most negative voltage that produces a barely
triggered jittering display.
4.2.13 The TI Trigger Level readings must
he
within
the
values listed in the - Peak Limits column of
Table 2.
4.2.14 Repeat steps 4.2.2 through 4.2.13 for the remaining values listed in Table 2 .
Thble 2.
Range
Applied
Readout
Trigger Level Readout
(V
Deflection
(Limits)
+
Peak
·Peak
2 mV
10m
5
9.81 to 10.2 mV
8.0 to 12.0 m V
+1.7 to -1.7 mV
5 mV
20m
4
19.6 to 20.4 mV
16.8 to 2 3.2 m V
+2.6 to -2.6 m V
10mV
50m
5
49.0 to 50.9 mV
44. 0 to 56.0 m V
+4.5 to -4.5 mV
20mV
.1
5
98.1 to 102.0 mV
89 to 111 mV
+8.0 to -8.0 m V
50mV
.2
4
196 to 204mV
178 to 222mV
+16.0 to -16.0 mV
.1
.5
5
490 to 509mV
450 to 550mV
+ 35 to - 35 mV
6 Change 2
•
T.O. 33K3-4-2590-1
Table 2. (Cont)
Range
Applied
Readout
Trigger Level Readout
10m
Deflection
(Limits)
+
Peak
·Peak
.2
1
5
.981
to
1. 02 V
.9 to 1.1 V
+ 0.07 to - 0.07 V
.5
2
4
1.96
to
2.04 V
1.78 to 2 .22 V
+ 0.16 to - 0.16 V
1
5
5
4.90
to
5.09 V
4.5 to 5.5 V
+ 0.35
to
- 0.35 V
2
10
5
9.81 to 10.2 V
9 tollV
+O.7 to - 0.7 V
5
20
4
19. 6
to
2 0.4 V
17.8 to 22.2 V
+1.6 to -1.6 V
4.2.15 Set the Calibration Generator for a minimum output. Disconnect from TI CH 1 INPUT and
connect to the CH 2 INPUT.
4.2.16 Set TI VERTICAL MODE to CH 2.
4.2.17 Repeat steps 4.2.2 through 4.2.14 utilizing CH 2 controls.
4.2.18 Set the Calibration Generator for a minimum output. Disconnect from TI CH 2 INPUT and
connect to the CH 3 INPUT.
4.2.19 Set TI VERTICAL MODE and SOURCE to CH 3 and VOLTSIDIV (CH 3
&
CH 4) to .l V.
4.2.20 Set the Calibration Generator AMPLITUDE control to .5 V.
4 .2.21 The TI CRT vertical disp lay must be between 4.5 and 5.5 divisions.
4.2.22 Set TI CH 3 VOLTSIDIV to .5 V.
4.2.23 Set the Calibration Generator AMPLITUDE control to 2 V.
4.2.24 The TI CRT vertical display must be between 3.6 and 4.4 divisions .
4.2.25 Set the Calibration Generator for a minimum outp ut. Disconnect from TI CH 3 INPUT and
connect to CH 4 INPUT.
4.2.26 Set TI VERTICAL MODE and SOURCE to CH 4.
4.2.27 Repeat steps 4.2.20 through 4.2.24 utilizing CH 4 controls.
4.2.28 Set the Calibration Generator for a minimum output, disconnect from TI, and switch oifthe Delta
V.
4.3.1 Set TI VERTICAL MODE to display CH 1 only and
BW
LIMIT to OFF .
•
4.3.2 Set TI VOLTSIDIV (ALL) to .1 V, the INPUT COUPLING (both) to 1 M
n
DC, and the TRIGGER
SOURCE to VERT.
7
J
T.O. 33K3-4-2590-1
4.3.3 Connect the Leveled Sine Wave Generator #1 (2.2) OUTPUT through the 50 n Feedthrough
Termination to TI CH 1 INPUT.
4.3.4 Set the Leveled Sine Wave Generator frequency controls to 50 kHz . Adjust the Output controls for
6 divisions of vertical display centered on TI CRT.
4.3.5 Increase the Leveled Sine Wave Generator frequency controls nntil TI CRT vertical display
decreases to 3.5 divisions.
4.3.6 The Leveled Sine Wave Generator frequency controls must indicate 150 MHz or more. (200 MHz
or more for SIN B030000 or more)
4.3.7 Remove the 50 n Feedthrough Termination from the hook -up and set TI CH 1 INPUT C OUPLING
to 50nDC.
4.3.8 Repeat step 4.3.4.
4.3.9 Increase the Leveled Sine Wave Generator frequency controls until TI CRT vertical display
decreases to 4.2 divisions.
4.
3.10 Repeat step 4.3.6.
4.3.11 Disconnect the Leveled Sine Wave Generator from TI CH 1 INPUT connector and connect to TI
CH 2 INPUT connector through the 50 n Feedthrough Termination.
4.3.12 Set
TI
VERTICAL MODE to display CH 2 only.
4.3.13 Repeat steps 4.3.4 through 4.3.10 utili zing CH 2 controls.
4.3.14 Disconnect the Leveled Sine Wave Generator from TI.
4.3.15 Set TI VERTICAL M ODE to display CH 3 only.
NOTE
Use TI Calibration output to verify that the Probe compensation,
if
supplied with TI, is properly adjusted.
4_3.16 Remove the Grabber tip and plastic barrel from the XlO Attenuator Probe. Use the Probe Tip to
BNC Adapter and connect the X10 Attenuator Probe to the Leveled Sine Wave Generator OUTPUT.
Connect
the
XlO Probe to the TI CH 3 INPUT.
NOTE
If the XI0
is
not available as required in step 4.3.16, then connect the
Generator OUTPUT to the Attenuator (as required). Connect the
Attenuator to TI CH 3 INPUT through the 50 n Feedthrough
Termination.
4.3.17 Set the Leveled Sine Wave Generator frequancy controls to 50 kHz and adjust the Output controls
for 4 divisions of verticai display centered on TI CRT.
4.3.18 Increase the Leveled Sine Wave Generator frequency control. until TI CRT vertical display
decreases to 2.8 divisions. (2.3 divisions
if
the X10 Attenuator Probe is not available).
4.3.19 The Leveled Sine Wave Generator frequency control must indicate 150 MHz or more.
8 Change 2
T.O. 33K3-4-2590-1
4.3.20 Disconnect the Leveled Sine Wave Generator from TI CH 3 INPUT and connect to TI CH 4
INPUT.
4.3.21 Set TI VERTICAL MODE to display CH 4 only.
4.3.22 Repeat steps 4.3.17 through 4.3.19 using the appropriate CH 4 contTol
•.
4.3.23 Set TI VOLTSiDIV (all) to 0.5 V CH
1 &
2 to 50
n
DC, and the TRIGGER SOURCE to VERT.
4.3.24 Remove the X10 Attenuator Probe and Probe to BNC adapter. Connect the Leveled Sine Wave
Generator to the Attenuator (as required). Connect the Attenuator through the 50
n
Feedthrough
Termination to TI CH 4 INPUT.
4.4.1 Set the Leveled Sine Wave Generator frequency controls to 250 MHz. (200 MHz for SIN B030000
and more). Adjust
the
Output controls for 0.75 divisions (0.5 divisions for SIN B030000 and above) of
vertical display on TI CRT.
4.4.2 A stable display on TI CRT must be observed by adjustiug the LEVEL and TIMEIDIV controls.
4.4.3 Disconnect the Leveled Sine Wave Generator from TI CH 4 INPUT and connect to the CH 3
INPUT.
4.4.4 Set TI VERTICAL MODE and SOURCE to CH 3.
4.4.5 Repeat steps 4.4.1 and 4.4.2.
4.4.6 Disconnect the Leveled Sine Wave Generator from TI CH 3 INPUT and remove the 50
n
load.
Connect the Leveled Sine Wave Generator to the CH 2 INPUT.
4.4.7 Set TI VERTICAL MODE and SOURCE to CH 2.
4.4.8 Adjust the Leveled Sine Wave Generator output controls for 1.5 divisions of vertical display on TI
CRT. (1.0 divisions for SIN B030000 and above)
4.4.9 Repeat step 4.4.2.
4.4.10 Set TI Vertical MODE and SOURCE to CH 1.
4.4.11 Disconnect the Leveled Sine Wave Generator from
TI
CH 2 INPUT and connect to CH 1 INPUT.
4.4.12 Repeat step 4.4.2.
4.4.13 Disconnect the Leveled Sine Wave Generator from TI.
4.5.1 Connect the Time Mark Generator MARKER OUT to
TI
CH 1 INPUT and switch on the DELTA
TIME.
4.5.2 Set TI A
&
B SECIDIV (knobs locked) to the first position listed in the Range column of Table 3.
4.5.3 Set the Time Mark Generator MARKER control to the first marker listed in the Applied column of
Table 3.
9
T.O. 33K 3-4-2590-1
4.5.4 Adjust TI hori zontal p osition to align the 2nd marker with the 2nd vertical graticule line.
4.5.5 Adjust the Time Mark Generator VARIABLE (OUT) control and TI horizontal position control for
one marker per division over the center eight divisions on the CRT.
4.5.6 The Time Mark Generator readout must indicate within 1. 5 %.
4.5.7 Push in the Time Mark Generator VARIABLE (OUT) control button.
4.5.8 Adjust TI REF or DLY POS to align the reference cursor with the second time marker.
4.5.9 Adjust TI DELTA control to align the delta cursor with the tenth marker.
4.5.10 The Delta T readout must be within the corresponding
limits
listed in the Limits col
umn
of Table
3.
4.5.11 Repeat steps 4.5.2 through 4.5.10 for the remaining values in Table 3.
A & B SEClDlV
IOns
20ns
50ns
.1 jlS
_2 jlS
.5 jlS
IjlS
2 ""
5
IlS
10 Ils
2 0 ""
50 ""
.1ms
.2ms
.5ms
Ims
10
Table 3.
(marker)
IOns
20ns
50ns
.1 ""
.2 ""
.5 jlS
IjlS
2 ""
5""
10 jlS
20 Ils
50 Ils
.1ms
.2 Ils
.5ms
1ms
Limit. (readout)
79. 30 to 80.70 ns
158.6 0 to 16 1.40 ns
396.5 to 403.5 ns
79 3.0 to 807. 0 ns
1586.0 to 1614. 0 ns
3965 to 4035 ns
7 .9 30 to 8.070 Ils
15.86 to 16.14
jlS
39.65 to 40. 35 jlS
79. 30 to 80_70 jlS
158.60 to 161.40 jlS
396.5 to 403.5 Ils
7 9 3.0 to 807.0
IlS
1586.0 to 1614.0 ""
396 5 to 4035 jlS
7 .9 30 to 8 _070
IDS
T .O . 33K3-4-2 590-1
2 ms
5mB
10 IDB
20ms
A & B SeclDiv
50ms
'" .1 s
"'.2 s
*
. 5 s
*
A SECIDI V
2 mB
5ms
lOms
20ms
Table 3. (Cant.)
(marker)
50ms
.1 s
. 2 s
.5 s
4. 5.12 Set TI A
& B
SECIDIV to 1 !Ls and switch on the XlO MAG.
NOTE
15. 8 6 to 16.14 mB
39. 65 to 40.35
IDS
7 9.30 to 80.70
IDS
158.60 to 1 61.40
IDS
Limits (readout)
396.5 to 403.5 rns
793.0 to 807 . 0 ms
1578. 0 to 1622.0
IDS
3945 to 4055
rns
Use only that portion of the sweep that is in view after the XI0 MAG has
been set.
4. 5.13 Set the Time Mark Generator MARKER control to .1 !Ls .
4. 5.14 Adjust the Time Mark Generator
V
ARlABLE (OUT) control and T I horizontal position control for
one marker per division over the center eight divisions on the CRT.
1
4. 5. 1 5 The Time Mark Generator readout must indicate within 2.0%.
4.5.1 6 Set TI control as follows:
XI0
off
B
trigger MODE
RUNAFT DLY
4.5.17 Repeat steps 4. 5.2 through 4. 5. 6 utilizing the
B
SECID IV (knobs unlocked) control for
all
B
SECIDI V settings listed in the Range column of Table 3 (the Time Mark Generator must indicate
within 1.8 % for
B
sweep).
4.5.18 Disconneat the Time Mark Generator from T I .
4.6.1 Set T I controls as follows:
CH 2
on
ALL OTHER CHANNELS
off
11
l
I
T.O. 33K3-4-2590-1
VOLTSIDIV (CH 1)
INPUT (CH
1)
INPUT (CH 2)
A&BSECIDIV
.1
1 MODC
1M GND
X-Y (knobs locked)
4.6.2 Connect the Calibration Generator AMPL OUT to the TI CH
1
INPUT connector.
4.6.3 Set the Calibration Generator AMPLITUDE control to .5 V. Adjust the VARIABLE ( O UT) control
for 5 divisions of horizontal display centered on TI CRT.
4.6.4 The Calibration Generator Readout display must indicate within 2%.
4.6.5 Disconnect the Calibration Generator from TI.
4.6.6 Conoect the Leveled Sine Wave Generator #1 (2.2) OUTPUT through the 5 00 Feedthrough
Termination to TI CH 1 INPUT connector.
4.6.7 Set the Leveled Sine Wave Generator frequency controls to 50 kHz. Adjust the Output controls for
8 divisions of horizontal display centered on TI CRT.
4.6.8 Increase the Leveled Sine Wave Generator frequency controls to 3 MHz.
4.6.9 The TI CRT horizontal display must be 5.6 divisions or more.
4.6.10 Disconnect the Leveled Sine Wave Generator from TI.
4.7.1 Set
TI
controls as follows:
CH I
ON
ALL OTHER CHANNELS
OFF
CH 1 VOLTSIDIV
200mV
CH
1
INPUT COUPLING
5 0nDC
A&B SECIDIV
100 ns (knobs locked)
4.7.2 Connect the Time Mark Generator MARKER OUT to the CH 1 INPUT.
4.7.3 Set the Time Mark Generator controls for .1
f1S
markers.
4.7.4 Set TI CH 1 VOLTSIDIV and TI CH 1 VOLTSlDIV VAR for 4 divisions or more of display.
4.7.5 Push the
MEASURE
button.
4.7.6 Select FREQ from the menu.
4.7.7 The TI PERIOD readout must indicate 99.0 to 1 01.0 ns.
12
T.O. 33K3·4-2590-1
4.7.8 The TI FREQUENCY readout mustmdicate 9.9 5 to 10.05
MHz.
4.7.9 Disconnect the Time Mark Generator from TI CH 1 INPUT.
4.7.10 Set the TI controls as follows:
CH 1 VOLTSIDN
100mV
A&B SECIDN
1ms
CH 1 INPUT COUPLING
1 MODC
4.7.11 Connect the Calibration Generator
to
TI CH 1 INPUT.
4.7.12 Set the Calibration Generator AMPLITUDE control for . 5 V.
4.7.13 Push TIMEASURE button.
4.7.14 Select VOLTS from the menu.
4.7.1 5 The TI CH 1 p-p readout must mdicate 469. 5
to
530. 5 mY.
4.7.16 Disconnect and secure all equipment.
CA LIBRATION PERFORMANCE TABLE
4.1 CALIBRATOR CALIBRATION:
Limits
.4 V p-p
.4VDC
0 .396
to
0.404 V p.p
4.2 VERTICAL DEFLECTION CALIBRATION: (both channels)
Range
Applied
Limi ts
!Y:1l:P1
Readout
+ Peak
- Peak
2m
10m
9.81
to
10.20 mV
8.0 to 12.0 m V
+1.7 to -1.7 mV
5mV
20m
19.6 to 20.4 m V
16.8 to 23.2 mV
+2.6 to ·2.6 m V
10mV
50m
49.0 to 50.9 m V
44.0 to 56.0 m V
+4.5
to
-4.5 m V
20mV
.1
98.1
to
102.0 m V
89 to 111 mV
+8.0 to -8.0 m V
50mV
.2
196
to
204mV
178 to 222 mV
+16 to -16mV
.1
. 5
490
to
509mV
.450
to
. 550 V
+.03 5 to -.03 5 V
.2
1
0.981 to 1.020 V
.90
to
1 .10 V
+.07 to - .07 V
13
T.O . 33K3-4-2590-1
.5
2
1.96
to
2.04 V
1. 78 to 2.22 V
1
5
4.90 to 5.09 V
4.50 to 5.50 V
2
10
9.81 to 10.2 V
9.0 to 11.0 V
5
20
19.6
to
20.4 V
17.8 to 22.2 V
CALIBRATION P ERFORMANC E TABLE (Cont)
4.3 VERTICAL BANDWIDTH CALIBRATION:
(both
channels) (Con t)
(50n)
DC
to
150 MH z (200 MHz,
SIN B030000 and shove)
1
(MOl
DC to 150 M Hz (200 MHz,
SIN
B030000 and shove)
4.4 TRIGGERING CALIBRATION: (A & B)
CH1&CH2
CH3&CH4
4.5 SWEEP TIME CALIBRATION: (A & B)
IOns
20ns
50ns
.1
JlS
.2
JlS
.5
JlS
14
50kHz
150 MHz (200 MHz,
SIN
B030000 and above)
50kHz
150 MHz (200
MHz,
SIN
B030000 and above)
50kHz
150 MHz (200 MHz)
SIN
B030000
and
above)
1.5 div
@
250 MHz
(1.0 div
@
200 MH z,
SIN B030000 and above)
0.75 div
@
250 MH z
(0.5 div
@
200 MHz,
SIN B030000 and above)
IOns
20n8
50ns
.1
JlS
.2
JlS
.5
JlS
+.16
to
.-16 V
+.35
to
-.35
+0.7 to -0.7 V
+1.6 to -1. 6 V
6 div (referen ce)
4.2 div or more
6 div (reference)
3.5 div or more
CH 1&2
4 div (reference)
2.8 div or more
2.3 without Probe
stable disp lay
stable display
Lim its De lta Time
79.30 to 80.70 n s
158.60
to
161.40 n s
396.5 t o 403.5 n s
793.0 to 807.0 n s
1586.0 t o 1614.0 n s
3965
to
4035 ns
1 �s
2 �s
5 �B
10 �s
10/lS
20 fLs
50/lS
CALIBRA TION PER FOR MANCE TABLE (Cont)
4.5 SWEEP TIME CALIBR ATION:
(A &
B) (Cont)
.1ms
.2mB
.5ms
1ms
2ms
5ms
lOms
20mB
50 ros
* .1 s
*.2 s
* .5
S
1 �sX10
*
A
SECID IV only
4.6 X-Y CALIBRA TION:
.1 VIDIV
DC to 3 MHz
.1ms
.2/lS
.5 ms
1mB
2mB
5ms
10ms
20ms
50ms
.1 s
.2 s
.5 B
.1/lS
.5 Vp-p
50kHz
3 MHz
T .O . 33K3-4-2590-1
7.930 to 8.070 �s
15.86 to 16.14 /lS
39.65 to 40.35 �s
79.30 to 80. 70 �B
15.86 to 161.4 /lS
396.5
to
403.5 /lS
Limits Delta Time
793.0 to 807.0 /lS
1586 to 1614 /lS
3965 to 4035 /lS
7.930 to 8.070
ms
15.86 to 16.14 ms
39.65 to 40.35 ms
79.30 to 80.70 ms
158.6 to 161.4 ms
396.5 to 403.5 ms
793.0 to 807.0 ms
1578
to
1622 ms
3945 to 4055 ms
784.4
to
815.6 ns
4.90 to 5.10 div
8 div (reference)
5.6 div or more
15
T.O. 33K3-4 -2590-1
4.7 PARAMETRIC CALIDRATION:
16
TIME
FREQ
VOLTS
.1 Ils
.1 JlS
.5 V
Limits
99.0 to 101 ns
9.95 to 10.05
MHz
469.5 to 530.5 m V