HTC-5020C Dual Trace Oscilloscope User Manual
- June 3, 2024
- HTC
Table of Contents
HTC-5020C Dual Trace Oscilloscope
Dual Trace Oscilloscope
USER MANUAL
CONTENTS
PAGE
1.GENERAL 1 1.1 Description 1 1. 2 Features 1
2.TECHNICAL SPECIFICATIONS 2
3.PRECAUTIONS BEFORE OPERATING THE OSCILLOSCOPE 5 3.l Unpacking the Oscil
loscope 5 3.2 Checking t he Line voltage 5 3.3 Environment 6 3. 4 Equipment
Inst allation, and Operation 6 3.5 CRT Intensity 6 3. 6 Withstanding Voltages
of Input Terminals 6
4.OPERATION M ETHOD 10 4. 1 Introduction of Front Panel 10 4.2 Introduction of
R ear Panel 14 4.3 Basic Operation-Single channel Operat ion 15 4.4 Dual-
Channel Operation 16 4.5 ADD Operation 17 4. 6 Triggering 17 4. 7 TIM E/D IV
control 20 4.8 Sweep Magnification 20 4.9 X-Y Operation 21 4.10 Calibration of
Probe 22 4.11 DC BAL Adjustments 22
5. MAINTENANCE 23 5.1 Fuse replacement 23 5.2 Cleaning 23
6-9. COMPONENT TEST OPERATION 24 10. WAVEFORM CHART 25 11. BLOCK DIAGRAM 26
I
SAFETY TERMS AND SYMBOLS
These terms may appear in this manual or on the product:
! WARNING.
Warning statements identify condition or practices that
could result in injury or loss of life.
! CAUTION.
Caution statements iden tify conditions or practices that
could result in damage to this product or other property.
The following symbols may appear in this manual or on the product:
DANGER High Voltage
!
ATTENTION refer to Manual
Protective Conductor
Te r m i n a l
Earth(ground) Terminal
II
1.GENERAL
1.1 Description
The 20MHz/25MHz/30MHz/40MHz/50MHz family oscilloscope are dual-channel
oscilloscope with m aximum sensitivi ty of 5mV/D IV. The time base provides a
m aximum sweep time of 0.2 uS /DIV. When magnified by 10, the sweep speed is
20nS/DIV. Each of these oscilloscope employs a 6-inch rectangular type
cathode-ray t ube with red i nternal graticule. These oscilloscopes are
sturdy, easy to operate and exhibits high operational reliability.
1.2 Features
- High intensity CRT with high acceleration voltage: The CRT is a high beam transmission, high intensity type with a high acceleration voltage of 2KV for 20MHz/25MHz /30MHz and 12KV for 40MHz/50MH z.It displ ays clear readable traces even at high sweep speeds.
- A trigger level lock function which makes the triggering adjustment
unnecessary. 3) Alternate triggering:
Even an observation of t wo waveforms of different frequencies, the waveform of the each channel is stably triggered. 4) TV sync triggering:
The oscilloscope has a sync separator circuit for triggering of TV-V and TV-H signals. 5) X-Y operation:
Set the swi tch to X-Y.Then the instrument works as an X -Y oscill oscope. CH l can be applied as horizontal deflection (X-axis) while C H2 provide verti cal deflection(Y-axis).
1
2. TECHNICAL SPECIFICATIONS
M OD E L S P EC I FI C ATI O NS
S en sitiv ity
Ve rnier Vertical sensit ivity
20 MHz OSCILLOSCOPE 30MHz OSCILLOSCOPE 40MHz OSCILLOSCOPE 50MHz OSCILLOSCOPE
5mV ~5V/DIV,10 steps in 1-2-5 sequence To l/2.5 o r less of pan el-indicated
value.
Frequency ba ndwidth
DC~20MHz
DC~30MH z
DC~4 0MHz
DC~50MHz
AC coupling: Low limit frequency10Hz. (With reference to 100KHz, 8DIV. Frequency response with-3dB.)
Rise time
Appro x .17.5 n S
Appr ox.11.7nS
Appr ox.8.75nS
A ppr ox .7nS
Input impe dance
Approx .lM ohm //App rox.25 pF
DC balance shift L i near i t y
Adjustable on panel ±0.l D IV of amplitude cha nge wh en wa vefo rm of 2 DIV at grat icule ce nter is move d verti cally.
Vertical m odes
CH1 :CH l single channel.
CH2 :CH 2 single channel.
DUAL :C H1 an d CH2 are displayed. ALT o r CHOP selec table at any sweep ra te.
ADD:CH1+CH 2 algeb raic ad dition.
Cho pping repetiti on freq uency Approx. 250KH z
Input coupling
AC, GND, DC
M aximum input voltage
400V (D C+AC peak),AC:fre quency lKHz or lowe r.
When se t probe switch at l:1, the max imum effecti ve read out is 4 0Vpp( 14Vrm s at sin e wave ),
or set probe switch at 1 0:1,th e maxim um effective readou t is 40 0Vpp(1 40Vrm s at sin e wave). Com mon m ode re jection ratio 50:1 or better a t 50KH z sinu soidal wave. (When sensit ivities of CH 1 and C H 2. a re set e qually )
Iso lation between chan nels (At 5mV/DIV range)
1000:l at 50K Hz >3 0:l at 15M Hz
30:1 at 25MHz >30:1 at 35 MHz >30:1 at 45 MHz
CH2 INV BAL.
Balance d point variati on: 1 DIV( Refere nce at c enter graticu le.)
2
M O DE L
S P EC IF IC AT I ONS
20 MHz OSCILLOSCOPE 30MHz OSCILLOSCOPE 40MHz OSCILLOSCOPE 50MHz OSCILLOSCOPE
Triggering source
CH 1, CH 2, LINE, E XT(CH 1 and CH 2 can be selected only when the vert ical mode is D UAL or ADD )
In ALT mode,i f the TRI G.ALT sw itch is pushed in,i t can be use for al ternate triggering of two different source.
C oupling A C:20Hz to full bandwidth
Slope +/Sensi tivity. 20Hz~2MHz:0.5DIV, TRIG-ALT:2 DIV, EXT:200mV
2~20MHz:1.5 DIV 20~30MHz:2.5 DIV 30~40M Hz:3.0 D IV 40~50MHz:3.0 DIV
TRIG-ALT:3DIV, E XT: 800m V
TV: Sync pulse more than 1 div(EXT:l V) Tr iggering modes AUTO: Sweeps run in
the free mode when no triggering input signal i s applied.
(Applicable for repetitive signals of frequency 25Hz or over.) NORM: When no
triggering signal is applied, the trace is in the ready state and not
displayed. TV-V: Thi s set ting is used when observing the entire vertical
picture of television si gnal .
TV-H : This set ting is used when observing the entire horizontal picture of
television signal.
(Both TV-V and TV-H synchronize only when the synchronizing signal is negative)
EXT tri ggering signa l input Input impedance
Max. Input voltage Sw eep time
Sweep time accuracy
Vern ier swe ep tim e control
Approx.: l M ohm//approx.25 pF 400V (DC+AC peak), AC:Frequency not higher than
lKH z 0.2 uSec ~ 0.5 Sec / DIV, 20steps in 1-2-5 sequence +/-3%10° C-35° C
1/2.5 of panel-indicated value
Swee p magnification 10 tim es
x10MAG sweep time accuracy +/-5% (20nSec~50nSec are uncalibra ted)
L inea ri ty
Position shift caused by xl0MAG
X-Y M ODE
Sensitivi ty Frequ ency bandwidth X-Y p hase differen ce
+/-5% , xl0MAG: +/-10%(0.2s and 1s ) Within 2 D IV.at CRT screen center Same as vertical axis.(X-axis:CH l input signal; Y-axis: CH 2 input si gnal .) DC to at least 500 KH z 3 at DC ~50 KH z
3
S PEC IFIC ATI ONS
MO DEL
Wavef orm Frequency
20MHz OSCILLOSCOPE 30MHz OSCILLOSCOPE 40 MHz OSCILLOSCOPE 50 MHz OSCILLOSCOPE P ositive-g oing square w ave Appro x. 1 kHz
C ALIB EATIO N Duty ra tio
VO LTA GE
O ut p u t vo l ta g e
Withi n 48:52
2Vp- p +/- 2%
Output im pedance
Approx. 1 K o hm
Ty p e Phosphor
6-in ch rec tangu lar ty pe, in ternal graticule P31
CRT
Ac c el e ra ti o n volt ag e Approx. 2kV
Approx. 2 kV
Approx. 12 kV
Approx. 12 kV
Eff ect ive sc r ee n siz e 8×10 D IV( 1 DI V =10mm(0.39i n ))
G r a ti c u l e
I nt e r n a l
Trace rotation
P rovided
Line Power Requirements
Voltage : AC 110V/220V ± 10% Note :AC11 0V nee ds to prearran ge to m y facto
ry. Freque ncy:50 Hz or 60 Hz Pow er consumptio n : Appro x.40VA,35W (max.)
Mechanical Specifications
Operating Environment
Indoor use Altitude up to 2000m Ambient temperature: To satisfy spe cificat
ions: l0 to 35 C(50 to 95 F) Maximum operating ranges : 0 to40 C(32 to104 F )
Relativ e humi dity: 7 5%RH( max.)n on Condensin g
Installation Category II Polluti on degr ee 2
Storage Temperature &Humidity
-10 to 70 C,70%RH(ma ximum)
Accessories
Power cord l User ma nual 1 Pr obes 2
Dimensions : 310 W x150Hx 455 D(mm) Weight : Approx.8kg(l7.6lbs.)
4
3.PRECAUTIONS BEFORE OPERATING THE OSCILLOSCOPE
3.1 Unpacking the Oscilloscope The oscill oscope is shipped from the factory
after being ful1y inspected and tested. Upon receiving the instrument,
immediately unpack and inspect it for any dam ages that might have been
sustained during transportati on. If any sign of damage is found, immediately
notify the bearer and/or the dealer.
3.2 Checking the Line voltage These oscilloscopes wil l operate on AC 230V or
110V set by manufactory. Before connecting the pow er plug to an AC line
outlet, make sure the voltage selector is set to the correct position
corresponding to the line voltage. Note the oscilloscope may be damaged if it
is connected to the wrong AC line voltage.
!
WARN ING.To avo id electrical sho ck the p owe r cord protective grounding conductor mu st b e co nnected to ground.
Replace the required fuses shown below. Line voltage AC 230V AC 110V
Range 2 0 7~2 53 1 09 ~1 21
F u se T 0.5A 250V
T 1.0A 2 5 0V
!
WARNING. To avoid personal injury, disconnect t he power cord before removing the fuse holder
5
3.3 Environme nt The normal ambient temperature range of this instrument is 0 to 40 C(32 to 104 F).Operation of the instrument above this temperature range may cause damage to the ci rcuits. Do not use the inst rum ent in a place where strong magnetic or electric field exists, such fields may di sturb the measurement.
3.4 Equipment Installation, an d Opera tion Ensure there is proper ventilation for the hole vents in the oscilloscope case. If this equipment is used in a manner not specified by the manufacturer, the protect ion provi ded by the equipment may be im p a ir ed .
3.5 CRT Intensity To prevent permanent damage to the CRT phosphor, do not make the CRT trace excessi vely bright or leave the spot stationary for an unreasonably long time.
3.6 Withstanding voltages of Input Terminals The withstanding voltages of the instrum ent i nput term inals and probe input terminals are as shown in the following table. Do not apply voltages higher than these l imits. When set probe switch at 1:1,the m aximum effective readout is 40Vpp (14Vrms at si ne wave).When set probe switch at10:1,the maximum effective readout is 400Vpp(140Vrm s at sine wave).
Input terminal CH1, CH 2,inputs EXT TRLG IN input Probe inputs
Maxi mum input voltage 400V (DC+AC peak) 400V (DC+AC peak) 600V (DC+AC peak)
CAUTION. To avoid in strumen t damage,
do not exceed maximum inp ut voltages.
!
Maximu m in put voltages mu st have
frequen cies les s th an 1 KHz.
If an AC volt age which is superimposed on a DC voltage is appl ied, the m aximum peak value of CH l and CH2 input voltages must not exceed + or – 300V.So for A C voltages with a mean val ue of zero volt the maximum peak to peak value is 600V.
6
Figure 4-1
35
O SC I LL OSCOP E
CAL 2V p-p
INTEN
1 KH z
1
2
FOCUS TRACE ROTATION
3
4
POWER
6
34 36 32
31 37 30
29 28 27 26 25 24
COM P.T EST
TRIGGER
I NPU T
X 10 MA G
POSITION
TR IG.ALT
MOD E
S O UR CE
OFF ON
HO RI ZONTA L TI M E /D IV
SWP. VAR
C AL
15 2 mS 2
5
10
20
50
.1 .2 S .5 X-Y
1 50 20 10 uS 5
2
1
.5
.2 x1 0
UNCAL
A UTO NOR M
TV – V TV- H
LEVEL
–
SL OP E
+ –
CH1 CH2 LINE EXT
T R IG IN 1M//25pF
!
3 0 0V CAT MA X. 4 00V pk
V OLTS/DIV
VERT ICAL
VOLT S/ DI V
.2 V .5
1
2
.1 50 20 mv
10
5
5
VA R
CAL
CH1 X
1M/ /2 5p F
!
30 0V C AT MA X . 4 0 0V p k
POSI TION
DC
DC
BAL
BAL
AC G ND DC
M OD E
ALT CH OP
CH 1 CH 2
DUA L
ADD
P O SIT ION
CH2 INV AC
GND DC
.2 .1 V .5
1
2
5 VAR
50 20 mv
10 5
CAL
CH2 Y
1M//25pF
!
300 V CAT MA X. 4 0 0V pk
7
8
9
10 11 12 13 14 15 16 17 18 19
20 21 22
7
35
OSC I LL OSCOP E
CAL 2V p-p
I NT EN
1 KH z
1
2
FOCUS TRACE R OTATIO N
3
4
POWER
6
34 33 32
31
30
29 28 27 26 25 24
HORIZON TAL
8 .8 .8 .8 .8 .8
POSITION
SWP. VAR
X 10 MA G
CAL
V OLTS/DIV
TR IG .A L T
TRIGGE R MOD E
S OURCE
A UTO
T IM E /D I V
NOR M TV – V
1 5 2 1 50
mS 2
20
5
1 0mS
10
5
20
2
50
1
TV-H
LE VEL
–
SL OP E
+ –
.1
.2 S .5
X- Y
.5
.2 x1 0
UNCAL
VE R TI CA L
C H1 C H2 LI NE E XT
T R IG IN 1M//25pF
!
3 00V CAT
MA X. 40 0V pk
VOLTS/DI V
.2 V .5
1
2
.1 50
20 mv
10
5
5
VA R
CAL
CH1 X
1M//25pF
!
30 0V CAT MA X . 40 0V pk
P O S I T ION
DC
DC
BAL
BAL
AC G ND DC
MOD E
ALT CH OP CH 1
CH 2 DUA L
A DD
P O SIT ION
CH2 INV AC
GND DC
.2 .1 V .5
1
2
5 VAR
50 20 mv
10 5
CAL
C H2 Y
1M//25pF
!
300 V CAT MA X. 400V pk
7
8
9
10 11 12 13 14 15 16 17 18 19
20 21 22
8
Figure 4-2
LINE VOLTAGE RANGE SELEC TI ON (50/60Hz)
220V
198~242V
110 V
109~ 121V
F USE
T 0 .5A 25 0V T 1A 25 0V
P OWE R M A X. 35 WAT TS, 40 VA
~
AC
! ENSURE THE POWER IS REMOVED FROM
THE INSTRUM ENT BEFORE REPLACING THE FUSE
38
39
! WARNING
TO AVOID ELECTRIC SHOCK THE POWER CORD PROTECTIVE GROUNDING CONDUCTOR MUST B E
CONNECTED TO GROUND. FOR CONTINUED FIRE PROTECTION. REPLACE ONLY WITH
SPECIFIED TYPE AND RATED FU SE. NO OPERATOR SERVICEABLE COMPONENTS INSIDE. DO
NOT REMOVE COVERS. REFER SERVICING TO QUALIFIED PERSONNEL.
9
4 .OPERATION METHOD
4 .1 lntroduction of Front Pa nel
CRT:. POWER…. ……………….. …….(6)
Main power switch of the instrument. When this switch is turned on, the LED
(5)is also turned on. INTEN………………. …………..(2)
Controls the brightness of the spot or trace. FOCUS….. ……………….. …….(3)
For focusing the trace to the sharpest im age. TRACE ROTATION…………. .(4)
Semi-fixed potentiometer for aligning the horizontal trace in paral lel with
graticule l ines. FI LT E R . . . . . . . . . .. . . . . . .. . . . . . . . .
. . . .. . ( 3 5)
Filter for ease of waveform viewing.
Vertical Axis :
CH l (X)input…………………….. (8) Vertical input terminal of CH 1. When in X-Y
operation, X-axis input termi nal.
CH 2(Y )input…………………….. (20) Vertical input terminal of CH 2. When in X-Y
operati on, Y-axis input terminal.
AC – GN D -D C … .. .. … .. .. … .. …. . ..( 10 )( 18 ) Switch for selecting
connection mode between input signal and vertical amplifier. AC: AC coupling
GND: Vertical am plifier input is grounded and input t erminals are
disconnected. DC: DC coupling
VOLTS/DIV….. ……………….. ….(7)(22) Select the vertical axis sensiti vity, from
5mV/DIV t o 5V/DIV in 10 ranges.
10
VARIABLE…………………..(9)(21)
Fine adjustment of sensitivity, with a factor of 1/2.5 of the indicated value.
When in the CAL position, sensitivity is
calibrated to indicated value.
CH1 & CH2 DC BAL. (13)(17) These are used for the attenuator balance
adjustment. See page 26 DC BAL adjustments for the details.
POSITION……………..(11)(19) Vertical positioning control of trace or spot.
VERT MODE…………………(14) Select operation modes of CH l and CH 2 amplifiers. CH 1:
The oscilloscope operates as a single-channel instrument with CH 1 alone CH 2:
The oscilloscope operates as a single-channel instrument with CH 2 alone.
DUAL: The oscilloscope operates as a dual-channel instrument both CH1 and CH2.
ADD: The oscilloscope displays the algebraic sum (CH l+CH 2) or difference (CH
1 -CH 2)of the two signals. The pushed in state of CH2 INV (16) button is for
the difference (CH l-CH 2).
ALT/CHOP ………………………(12) When this switch is released in the dual-trace mode,
the channel l and channel 2 inputs are alternately displayed (normally used at
faster sweep speeds). When this switch is engaged in the dual-trace mode, the
channel 1 and channel 2 inputs are chopped and displayed simultaneously
(normally used at slower sweep speeds).
CH 2 INV………………………….. (16) Inverts the CH2 input signal when the CH2 INV switch
mode is pushed in The channel 2 input signal inADD mode and the channel 2
trigger signal pick off are also inverted.
11
Triggering:
EXT TRIG IN input terminal……………(25)
Input terminal i s used for external triggering signal. To use this terminal,
set SOURCE sw itch(24)to the EXT position.
SOURCE……………….. (24)
Select the internal triggering source si gnal , and the EXT TRIG IN input
signal. C H l:When the VERT MODE swi tch (14)is set i n the DUAL or ADD state,
select CH l for the internal triggering source
s ig n a l. C H2:W hen the VERT MODE switch (14)is set i n the DUAL or ADD
state, select CH 2 for the internal t riggering source
Signal. LINE: To select the AC power line frequency si gnal as the tri ggering
signal. EXT: The external signal applied through EXT TRIG IN input
terminal(25)is used for t he external tri ggering source signal.
TRIG. ALT………….(28):
W hen the V ERT MODE swit ch (14)is set in the DUAL or ADD state, and the
SOURCE switch(24) is selected at CH l or C H2,w ith the engagement of the
TRIG. ALT switch(28), it will alternately select C H 1 & CH 2 for the int
ernal triggering source signal.
SLOPE ……………….(27)
select the triggering slope. “+”: Triggering occurs when the triggering signal
crosses the triggeri ng level i n positive-going direct ion. ” – “: Triggering
occurs when the triggering signal crosses the triggering l evel in negative-
going direction.
12
LEVEL……………….(29)
To display a synchronized stationary waveform and set a start point for the
waveform. Towards: ” + “:The triggeri ng level moves upward on the di splay
waveform. Towards: ” – “: The triggering level moves downward on the display
waveform. TRIGGER MODE………… ……. ….(26) Select the desired trigger mode. AUTO
:When no t riggering signal is applied or when triggering signal frequency i s
less than 25Hz, sweep runs in
the free run mode. NORM :When no triggering signal is applied, sweep is in a
ready state and the trace is blanked out. Used primarily
for observation of signal 25Hz. TV-V : T his setting is used when observi ng
the entire vertical picture of television signal. TV-H: This setting is used
when observing the entire horizontal pict ure of televisi on signal.
(Both TV-V and TV-H synchroni ze only when the synchroni zing signal is
negative.)
FA MI LY.. . . . . . .. ( 3 3 ) Display a sync. hroninzde si gnal frequency
(model s have thi s function onl y)
13
Time Base TIME/DIV ………………………..(30)
Sweep time ranges are available in 20 steps from 0.2 uS/DIV to 0.5 S/DIV.
X-Y:This position is used w hen using the instrument as an X-Y oscilloscope.
SW P. VAR ………………….. ……. ….(31) Vernier control of sweep time. This cont rol
works as CAL and t he sweep time is calibrated to the val ue indicated by
TIME/DIV of weep can be varied continuously when Shaft is out of CAL position.
Then the control is rotated in the direction of arrow to the full, the CAL
state is produced and the sweep time is calibrated to t he value indicated by
TIME/DIV. C ounterclockwise rotation t o the full delays the sweep by 2. 5
time or more. X10 MAG…… …………. ……. ……..(32) When the button is pushed in, a
magnification of l0 occurs. P O SI T I ON . . .. . . . . .. . . . . . .. . . .
. . .. . . ( 34 )
Horizontal positioning control of the t race or spot.
O t h er s
C A L…………….(1 ) This terminal delivers the cali bration voltage of 2 Vp-p,
approx.1 KHz, positive square wave.
GND ……………(15) Ground term inal of oscill oscope mainframe.
INPUT ………….(36) Component test input terminal.
O FF/O N.. ……. ………..(37)
4.2 1ntroduction of Rear Panel
STUDS…… ……………….. ……..(38) For laying the oscilloscope on its back to operate
it in the upw ard posi tion. Also used to take up the pow er cord.
AC Power input connect or ………(39) AC Power input socket. Connect the AC pow er
cord (suppl ied)to this connector.
14
4 .3 Ba sic O perat ion–Sing le-chann el Op eratio n Before connecting the power cord to an AC line outlet, make sure that the volt age selector on the rear panel of the i nstrument is correctly set for the AC line voltage. After ensuring the voltage setti ng, Set the switches and control s of the instrument as shown below:
Item POWER INTEN FO C US VERT MODE ALT/ CHOP CH 2 INV
P OS I T IO N VOLTS/DIV VAR IABLE A C -G N D -D C SO U RC E
No (6) (2) (3) (14) (12)
(16) (1 1)( 1 9)
(7 )( 2 2) (9) (2 1) ( 10) ( 18 ) (24)
Se tt ing Disengage position (OFF) Mid-position
Mid-posi tion CH l Released (ALT)
Released Mid-posit ion 0.5V/DIV CAL (clockwise position) GND CH l
Item S L OP E T R I G. A LT TRIGG ER MODE TIME/ DIV S W P. V E R
PO SITION Xl0 MAG L E VE L
No (27) (28) (26) (30) (31) (34) (3 2 ) (2 9 )
Setting + Re le a se d AU T O 0.5m Sec/DIV CAL position Mid – po s i tion R el e ase d L oc k ed
After setting the switches and controls as mentioned, connect the power cord to the AC line outlet, and then continue as follows:
- Engage the POWER switch and make sure that the power LED is turned on. In about 20 seconds,a trace will appear on the CRT screen. If no trace appears in about 60 seconds, counter check the switch and control setting.
- Ad just the trace to an appropriate brightness and image with the INTEN contro1 and FOCUS control respectively.
15
3)Align the trace wit h the hori zont al center line of the graticul e by adjusting the CH1 POSITION control and TRACE
ROTATION control (adjustable by screwdriver).
4)Connect the probe to the CH 1 INPUT terminal and apply the 2Vp-p CALIBRATOR signal to be probe tip.
5)Set t he AC-GND- DC switch to t he AC state. A waveform as shown in the figure 4-3
Will be di splayed on the CRT screen.
6)Adjust the FO CUS control so that the trace image appears sharpl y.
7)For signal viewing, set the VOLTS/D IV switch and TIME/DIV switch in appropriate
positions so that signal waveform is displ ayed clearly.
8)Adjust the POSITIO N and POSITION controls in appropri ate posit ions so that the
displayed waveform is aligned with t he graticule and voltage (Vp-p) and period (T)can be
read conveniently.
Figure 4-3
The above are the basic operating procedures of the osci lloscope. It is for single-channel operati on w ith Ch1. Singl e-channel operation with CH2 can also be achieved in a simil ar manner. Further operation methods are explained in the subsequent pages.
4 .4 D ual-channel Operation
Change the VE RT MODE sw itch to the DUAL states so that trace (CH 2) is also
displ ayed (The explanation in the proceeding secti on is of CH1).At t his
state of Procedure, the CH l trace is the square wave of the calibrator signal
and the CH 2 trace is a straight li ne since no signal is applied to this
channel yet.
Now, apply the calibrator signal to the verti cal input terminal of C H 2 with
the probe as is the case for CH 1. Set the AC-GND-DC switch to the AC state.
Adjust vertical POSITION knobs (11)and (19)so that both channel signals are
displayed as shown in Figure4 -4 16
Figure 4-4
Sign al of CH1 Signal of CH2
When ALT / CHOP switch is released (A LT MOD E),the input signals applied
respectively to CH l and CH2 appears on the screen alternativel y at each
sweep. This setting is used when the sweep time is short in 2-channel
observation.
When ALT/CHOP switch is engaged(CHOP MODE),the input signals applied to CH 1
and CH 2 are switched at about 250KHz independent and at the same time appear
on the screen. This setting is used when the sweep time is long in 2-channel
observation
When in the dual channel operation(DUAL or ADD mode),the CH l or CH2 signal
must be selected for the triggering source signal by means of the SOURCE
switch. If both CH l and CH 2 signals are in a synchronized relationship, both
waveforms can be displayed stationary; if not, only the signal selected by the
SOURCE switch can be stationary. If the TRIG. ALT push switch is engaged, both
waveforms can be displayed stationary.
4.5 ADD Operation An algebrai c sum of the CH 1 and CH 2 signals can be
displayed on the screen by sett ing the VERT MODE switch to t he ADD
State. The displayed signal is the difference between CH l and CH 2 signals if
the Ch 2 INV push switch is engaged. For accurate addition or subtraction, it
is a prerequisite that the sensitivities of the tw o channels are adjusted
accurately at the
same value by means of the VARIABLE knobs. Vertical positioning can be made
with the POSITION knob of eit her channel. In view of the linearity of the
vertical amplifiers, it is m ost advantage to set both knobs in their mid-
positions.
4.6 Triggering Proper triggering is essential for efficient operation of an
oscill oscope. The user must be thoroughly familiar wi th the
triggering functions and procedures. (1)Funct ions of M ODE swi tch: AUTO:
When the AUTO switch is engaged, automatic sweep operat ion is selected. in
automatic sweep operation, the sweep
generator free runs to generate a sweep without a trigger signal. However, it
automatically switches to triggered sweep operati on if an acceptable trigger
source signal is present. The AUTO position is handy when first setting up the
scope to observe a w aveform; It provides sweep for waveform observation until
other control s can proper1y set. Once the controls are set, operation is
often swit ch back to the NORM triggering mode, since i t is more sensitive.
Aut omatic sweep must be used for DC measurements an signals of such low
amplitude that they will not trigger the sweep.
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NORM: The NO RM switch provides normal triggered sweep operation. The sweep remains at rest unti l the selected trigger source signal crosses t he threshold level set by the TRIG LEVEL control . The trigger causes one sweep to be generated. after which sweep again remains at rest until triggered. In the NORM position, there will be no trace unless an adequate trigger signal is present -In t he ALT mode of dual trace operation with NORM sweep selected, there will be trace unless both channel 1and 2 signals are adequate for triggering.
TV-V:Setting the MODE switch to the TV-V position permits selection of vertical sync pulses for sweep triggering when viewing composite video waveforms. Vertical sync pulses are select ed as trigger to permit viewing of vertical fields and frames of video. A sweep time of 2 ms/DIV is appropriate for viewing fields of video and 5ms/DIV for com plete frames(two interl aced fields)of video.
TV- H:Set ting the MODE switch to the TV-H posit ion permits select ion of horizontal sync pulses for sweep triggering when viewing composite video waveforms. H orizontal sync pulses are selected as trigger to permit viewing of horizontal fields of video. A sweep time of about 10us/DIV is appropriate for di splaying lines of video. The SWP VA R control can be set to display the exact number of waveforms desired. Th is oscilloscope synchronizes with only ( – )polarity, that is, the sync pulses are negative and the video is positive as show n in Figure 4- 5
(2)Functions of SOURCE switch: The displayed signal itself or a trigger signal which has a time relationship with the di splayed signal is required to be applied to the trigger circuit to display a stationary signal on the CRT screen. The SOURCE switch is used for selecting such a triggering source.
Figure 4-5
CHl/CH2: The internal t rigger method which is used most commonly. The signal applied to the vertical input terminal is branched off from the preamplifier and is fed to the trigger circuit through t he VERT MODE switch. Si nce the t riggering signal is the measured signal itself, a stable wavefrom can be readily displayed on the CRT screen. W hen i n the DUAL or ADD operati on, t he signal selected by the SOURCE switch is used as the triggering source signa1.
18
Line: The AC power line frequency signal is used as the triggering signal.
This method is effective when the measured signal has a relationship with the
AC line frequency ,especially for measurements of low level AC noise of audio
equipment, thyristor circuits, etc.
EXT: The sweep is triggered with an external signal applied to the external
trigger input terminal. An external signal which has a periodic relationship
with respect to the measured signal is used. Since the measured signal is not
used as the triggering signal, the waveforms can be displayed more independent
than the measured signal.
(3)Functions of TRIG LEVEL control and SLOPE switch: A sweep trigger is
developed when the trigger source signal crosses a preset threshold level.
Rotation of the TRIG LEVEL
control varies the threshold level . In the “+”direction, the triggering
threshold shifts to a more positive value ,and in the”-” direction, the
triggering threshold shifts to a more negative val ue. When the control is
centered, the threshold level is set at the approximate average of the signal
used as the triggering source.
The TRIG LEVEL control adjusts the start of the sweep to alm ost any desired
point on a waveform. On sine wave signals, the phase at which sweep begins is
variable. Note that if the TRIG LEVEL control is rotated toward its
extreme+or- setting, no sweep will be developed in he NORM trigger mode
because triggering threshold exceeds the peak amplitude of the sync signal.
When the TRIG SLOPE switch is set to the (+)position(up),
the sweep i s developed from the trigger source waveform as it
Sl ope” -” Ra ng e
Level
crosses the threshold level in a positive-going direct ion. When
Slope”+ “Rang e
the TRIG SLOPE control is set to the(-)position (down),a sweep
trigger is developed form the trigger source waveform as it
crosses the threshold level in a negative-going direction. This
switch selects the slope (polarity) triggering signal as shown in Figure4-6
–
Figure 4–6
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(4)Function of TRIG ALT switch: The TRIG ALT switch is used to select
alternate triggering and alternate display when the DUAL-trace VERT MODE is
select ed (the switch has on effect in the CH 1,CH 2, or ADD modes). In the
alternate triggering mode (when dual-trace operation is selected),the trigger
source alternates between channel l and channel 2 with each sweep. This is
convenient for checking amplitudes, wave shape, or waveform period m
easurements, and even permits simultaneous observation of two waveforms which
are not-related in frequency or period. However, this setting is not suitable
for phase or timing comparison measurements. For such measurements, both
traces must be triggered by the same sync signal.
When the CHOP and the TRIG ALT swit ches are both engaged during dual-trace
operation, synchronization of the display is not possible because the chopping
signal becomes the t rigger. Use the ALT mode by itself, or sel ect CH 1 or CH
2 as tri gger source.
4.7 TIME/DlV control
Set the TIME/ DIV control to display the desired number of cycles of t h e
waveform. If there are too many cycles displayed for good resol ution, switch
to a faster sweep speed. If only a line is displayed, try a slower sweep
speed. When the sweep speed is faster than the waveform being observed, only
part of it will be displayed, which may appear as a straight line for a square
wave or pulse waveform.
4.8 Sweep Magnification
When a certain part of the displayed waveform is needed to be expanded time
wise, a faster sweep speed may be used. However, if the required portion is
apart from the starting point of the sweep, the required portion may run off
the CRT screen. In such a case, push i n the x10 MAG button. When this has
been done, the displayed waveform will be expanded 10 times to the right and
lef t with the center of screen as the center of e xpansion. The sweep t ime
during the magnificati on operation is as foll ows:
(Value indicated by TIME/DIV switch)x1/10 Thus, the unmagnified maximum sweep
speed(lu Sec / DI V) c a n be increased wi th the magnification as follows:
luSec / DIV x 1/10=100 nSec/DIV 20
10x magni fication
Any part c an be covered by means of P OSITION con trol
Figure 4-7
4.9 X-Y Operation
Set the TIME/DIV switch to X-Y posi tion. Then the instrument works as an X-Y
oscilloscope. Each input is applied to the instrument as follows.
X-axis signal(horizontal axis signal) :CH 1 INPUT. Y-axis signal(vertical axi
s signal) :CH 2 INPUT.
Note: When high frequency signals are displayed in the X-Y operation, pay
attention to the frequency bandwidths and phase difference between X and
Y-axis.
Y axi s( CH2)
Figure 4-8
X axi s ( CH1)
X-Y operation permits the osci lloscope to perform many measurem ents not possi ble with conventional sweep operation. The CRT display becomes an electronic graph of two instantaneous voltages. The display may be a direct comparison of the two voltages such as a vector scope display of video color bar patterns. How ever, the X-Y mode can be used to graph almost any dynamic characteristic if a transducer is used t o change the characteristic( frequency, temperature, velocity, et c.)into a voltage. One common application is frequency response measurements, where the Y-axis corresponds to signal amplitude and the X-axis corresponds to frequency.
1.Set the TIME/DIV control to the X -Y position (fully counterclockwise). In
this mode, channel 1 becomes the X-axis Input and channel 2 becomes the Y-axis
input.
2.The X and Y positions are now adjusted using the horizontal POSITION and CH2
POSITION controls respectively.
3.Adjust the amount of vertical (Y-axis) defl ection with the CH 2 VOLTS / DIV
and VAR controls. 4.Adjust the amount of horizontal (X-axis) deflection wi th
the CH 1 VOLTS/DIV and VAR controls.
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4 .1 0 Calibration of Probe
As explained previously, the probe makes up a wide range attenuator. Unless
phase compensation is properl y done, the displayed waveform is di stort ed
causing measurement errors. Therefore ,the probe must be properly compensated
before use. Connect the l0: l probe BNC to the INPUT terminal of CH1 or CH2
and set VOLTS/DIV switch at 50mV .Connect the
Probe tip to the calibration voltage output terminal and adjust the
compensation trimmer on probe for optimum square wave (minimum overshoot,
rounding off and tilt ).
Figure 4-9
(a)Correct compensation
(b)Over compensation
(c)Insuffi cient compensation
4.11 DC BAL Adjustments The ATT balance of the vertical axis can be made
easily. (1) Set the input coupling switches of CH1 and CH2 to GND and set the
TRIG MODE to AUTO. Then position the
Base line to the center. (2) Turn the VLOTS/DIV switch to 5mV-10mV and adjust
so that the line does not move.
22
5 . M AINT E NA N CE
WARNING
T he following i nstructio ns are for use by qualified personnel only. To avoid electrica l shock, do not pe rform any servicing other than in the opera ting instructions unless you are qualified to do so.
5.1 Fuse Replacement
If the fuse blows, the power lam p indicators w ill not lig ht and the
oscilloscope will n ot operate. The fuse sho uld n ot normally open unle ss a
pro blem h as deve loped i n the unit. Try to determine a nd corr ect the
cause o f the bl own fu se. The rep1a ce only with a fuse of the correct
rating and type (see page 5) The fuse is located on the rear p ane l (see
fig.4-2).
WARNING For continued fire protection. Replace fuse only with 250V fuse of the
!
specified type and rating, and disconnect power cord before replacing fuse.
5.2 Cleaning
To clean the osci llosc ope, use a soft clot h da mpened in a solution of mild
dete rgent and water. D o not spray cl eaner directly on to the os cillo scope
because it may leak into the ca binet and cau se damage. Do not use chemicals
containing benzin e, benzene, toluene, xylene, acet one, or similar solvents.
Do not use abrasive cleaners on any portion o f the oscilloscope .
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6.Component Test Operation(Only Type T)
The component test board delivers a sin e voltage (50Hz o r 60Hz) which is
applied across the component under test.The sine voltage across the tes t
object is used for the horizontal deflection(V)and voltage-drop(current th
rough the test object) is used for vertical deflection (I) of the
oscilloscope.
By this V-I characteristic curve ,the good or fault of component is measured.
7.To set up the osci lloscope(Only Type T) for component test operati
on,proceed as fol lows:
1.Turn TIME/DIV switch to the X-Y position and set both vertical coupling
switches to DC position as well as setting up the bot h V OLTS/DIV knob CH
1(X) t o 5V/ DIV,C H2(Y ) to 2V /DI V, then push t he COMP.TEST SW To TEST
position.
2.Then horizontal bar graph of about 5~6 div is displayed on the screen. 3.The
position of graph is controlled with CH2 POSITION and H-POSITION. 4.Componets
may be directly hooked to testing code. Then waveform chart is displayed on
the screen.
8.Test condition 1.Resitor,capacitor,coil,diode,zener or simple combination of
the components can be tested. 2. Test ing vol tage: approx. 9V ACp-p 3. Test
ing frequency: 50/60Hz 4. Test ing current: approx. 0.6m A
9.
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10. WAVEFORM CHART
Rersi ster
Capac itor
Coil
Z e ner
Diode
BIG
BIG
BIG
MID
MID
MID
SM ALL
SM ALL
SM ALL
25
11.BLOCK DIAGRAM
CH1 (X) INPUT
CH 1 ATT
CH 1 SIGNAL ONTPUT
CH1 P RE A MP
40/50MHz only +12kv
CH2(Y) IN PUT
CH 2 ATT
CH1 TRIG(X-AXIS) PICKUP AMP
V ERT
V E RTI CAL
SIGNAL MODE SWITCH
CH2 PRE AM P
SWITCHING LOGIC
CH 2 TRIG PICKUP AMP
TRIG
TRIG SWITC H
SIGNAL
V ERTICA L OU TPUTAMP
CRT CIRCUIT
H. V.S UP P LY
– H.V.
CH 1 CH 2 EXT LINE
TRIGGER INPUT AMP
LINE TRIG
X-AX IS SIGNAL
TRIGGER G ENERATOR
AUTO CIRCUIT
(A)SWEEP GENE RATOR
F REE RUN S IGNAL
HORIZONTA L SWITCHING
TO EACH BLOCK
2V p-p/1KHz
S Q U A R E – WAV E
HORIZON TAL OUTPUT AMP
POW ER SUP PLY
CALIBRATOR
AC LINE
50/60H z
26
Specifications are subject to change without notice.
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