Velleman PersonalScope HPS5 User Manual

Page 1
Page 2
Velleman
Legen Heirweg 33
9890 Gavere
Belgium
Internet Site: http://www.velleman.be
E-mail: support@velleman.be
Page 3
CONTENTS
FCC information for the USA............................................................4
Important...........................................................................................5
GENERAL...........................................................................................6
Features............................................................................................5
Options..............................................................................................5
Technical specifications.....................................................................6
SAFETY and WARNINGS..................................................................7
Symbols displayed on the unit...........................................................7
USE.....................................................................................................8
Survey of the connections and controls.............................................8
Power supply.....................................................................................9
Survey of the indications on the screen...........................................10
OPERATION.....................................................................................11
Turning on/off the Personal Scope..................................................11
Resetting the Personal Scope.........................................................11
Adjusting the contrast......................................................................11
Choice of input ................................................................................11
Switching from one readout to another............................................12
Measuring probe adjustment...........................................................13
Auto-setup function .........................................................................13
Signal screen ..................................................................................14
Screen memory...............................................................................15
Set-up function keys........................................................................15
The markers....................................................................................15
Setting up the voltage per division..................................................16
Setting up the time base..................................................................15
Moving the signal in Y-position........................................................16
Trigger functions..............................................................................17
Setting up a X10 measuring probe..................................................18
MAINTENANCE................................................................................18
TROUBLESHOOTING......................................................................19
The screen remains blank or there is no signal ...............................19
RMS readout is incorrect.................................................................19
No signal on the oscilloscope display..............................................19
Incorrect frequency readout.............................................................19
Voltage readout is not correct..........................................................19
WARRANTY .....................................................................................19
DIAGRAM.........................................................................................20
Page 4
FCC information for the USA
This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
Important
This equipment was tested for FCC compliance under conditions that include the use of shielded test leads between it and the peripherals. It is important that you use shielded cables and connectors to reduce the possibility of causing Radio and Television interference. Shielded
probes, suitable for the HPS5 oscilloscope can be obtained from the authorized Velleman dealer.
If the user modifies the HPS5 oscilloscope or its connections in any way, and these modifications are not approved by Velleman, the FCC may withdraw the user’s right to operate the equipment.
The following booklet prepared by the Federal Communications Commission may be of help: “How to identify and Resolve Radio-TV Interference problems”. This booklet is available from the US Government Printing Office, Washington, DC20402 Stock No. 044-000­00345-4.
Page 5
GENERAL The Velleman PersonalScope is not a graphical multimeter but a
complete portable oscilloscope at the size and the cost of a good multimeter. Its high sensitivity - down to 5mV/div - and extended scope functions make this unit ideal for hobby, service, automotive and development purposes. Because of its extreme value for money, the PersonalScope is well-suited for educational use in schools and colleges. Suitable for measurements on audio equipment, mains voltage applications, digital signals, all kind of sensors, signal analysis in automotive applications, car stereo etc… It’s ultra fast full auto setup function takes care of all the necessary settings and makes measuring waveforms very easy, a feature that will be appreciated both by experts and novices.
Features
High contrast LCD with wide viewing angle
Full auto set up for volt/div and time/div
Trigger mode: run - normal - once - slope -/+
True RMS and dB measurements
Readout: Vdc-Vpp-Vrms-dBm
x1 and x10 probe calculation option
Display mode: none - markers - grid - crosshair
Marker readout: dt - 1/dt (frequency) - dV
AC/DC input coupling selection
Automatic zero reference for DC measurements
Sceen hold fuction
Auto power off or continuous on
Low battery detection
Includes battery charge circuit
Options
Insulated measurement probe x1 / x10: PROBE60S
Soft carry case: CHPS5
Adapter: type PS905 for 230V / PS905USA for 110V
Page 6
Technical specifications
73dB tot +40dB (up to 60dB with X10 probe)
10ms, 5ms, 2ms, 1ms, 0.5ms, 0.2ms, 0.1ms, 50us,
Maximum sample rate 5MHz for repetitive signals (0.5MHz for single shot
events) Input amplifier bandwidth 1MHz ( -3dB at 1V/div setting) Input impedance 1Mohm // 20pF (standard oscilloscope probe) Maximum input voltage 100Vpeak (AC + DC) Input coupling DC, AC and GND (GND for auto zero reference) Vertical resolution 8 bit (6 bit on LCD) Linearity ? 1bit LCD Graphics 64 x 128 pixels, 64 x 96 pixels for signal dBm measurement (0 dB=
0.775V)
From -
?0.5dB accuracy True-rms AC measurement From 0.1mV to 80V (up to 400Vrms with X10
probe) 2.5% accuracy Peak peak and DC range 0.1mV to 180V (1mV to 600V met x10 probe) 2%
accuracy Timebase range 20s, 10s, 5s, 2s, 1s, 0.5s, 0.2s, 0.1s, 50ms, 20ms,
20us, 10us, 4us, 2us / div. Input sensitivity range (at x1) 5mV, 10mV, 20mV, 50mV, 0.1V, 0.2V, 0.4V, 1V,
2V, 4V, 8V, 20V /div. Probe calibration output Approx. 1KHz / 5Vtt Supply voltage 9VDC/ min 300mA adapter (unregulated) 12VDC if
regulated Batteries (option) Alkaline type AA or Ni Cd / NiMH rechargeable ( 5
pcs required) Charge current for
90mA rechargeable batteries Battery life Up to 20h with Alkaline batteries Operating temperature 0 to 50°C (32 to 122°F) Dimensions 105x220x35mm (4.13x7.95x1.38”) Weight 395g (14oz.) ex. Batteries
Page 7
SAFETY and WARNINGS
!
!
Symbols displayed on the unit
Important safety information, see user manual.
Ground level
The PersonalScope is ideally suited for measurements of category II
installations with pollution degree 1 and using a maximum of 600V, in accordance with the IEC1010-1 norm. The enclosure is UL 94V0 listed
Consequently, all measurements should be avoided in case of
polluted or very humid air. One should also refrain from measuring conductors or installations that use voltages that exceed 600Vrms above ground level. CAT II indicates conformity for measurements of domestic installations.
The maximum input voltage for the connections of the unit stands at
100Vp (AC+DC)
Do NOT open the enclosure while performing measurements. Remove all test leads before opening the enclosure in order to avoid
electrical shock.
Use a measuring probe with an insulated connector ( e.g. type
PROBE60S) when measuring voltages exceeding 30V.
Remove all non-rechargeable batteries when connecting an
AC/DC adapter
Page 8
USE
Survey of the connections and controls
1 - BNC input connector (max. input 100Vp AC+DC) 2 - Adapter connection (observe the polarity!) 3 - Battery compartment 4 - X10 probe testing signal behind battery cover 5 - Serial number 6 - Display 7 - Battery charge indication LED 8 - Reset push button 9 – Keyboard
mark 1
mark 1-2
-
2
1
!
/O
9V DC
2
Reset
Reset
8
Hold
Hold
Display
Display
AC/DC
x10
AC/DC
123456
5
probe
test
3
4
P E R S O N A L
S C O P E
P E R S O N A L
S C O P E
HPS5
HPS5
6
trig
trig
t-V/div
t
Trigger
Trigger
mode
mode
-
V/div
Slope
Slope
Y-pos
Y-pos
probe
probe
x1/x10
x1/x10
Charge
Charge
7
9
Auto
Auto
Page 9
Power supply
The HPS5 PersonalScope can be powered by means of an adapter, ordinary batteries or rechargeable ones. Rechargeable batteries are advised for intensive use. The greater the capacity of the rechargeable batteries, the greater the autonomy of the unit. Rechargeable batteries of the 500mA/h type will yield approx. 5 hours of autonomy, while 800mA/h-types provide up to 8 hours of autonomy.
Attention:
Use a non-regulated adapter of 9VDC that supplies a min. of
300mA. Observe the polarity and consult your retailer if necessary. When using a regulated adapter, the user should verify whether it can supply 12VDC.
Batteries (option):
The unit can be used with either ordinary alkaline batteries or rechargeable
ones e.g. our HR6 type (5 x).
Open the battery cover by loosening the screw:
Insert the batteries in the holders. Mind the polarity !
probe
test
Page 10
!
Important: Do NOT perform measurements unless the battery compartment is closed. The battery cover should only be removed for the calibration of the probe 's X10-position.
F When first using the rechargeable batteries or if the batteries are
completely discharged, the user should charge them for at least 12
hours before using the unit.
F When the unit is OFF, the charging time for 800mA/h type batteries
will be approx. 12 hours.
F The “Charge” indication LED on the front panel will light up when
the batteries are being charged.
ATTENTION: Remove all non-rechargeable batteries when connecting the AC/DC adapter !
The message “Lo . bat” will flash in the bottom right corner of your display when the batteries need replacement (or charging). Insufficient battery voltage may entail erroneous
Survey of the indications on the screen :
Dot indicates the vertical position of the signal on the screen Trigger opening indication (fixed in the middle of the screen) Signal window with (possibly) the markers , cross or dot to
indicate the various divisions.
Time per division or time between markers (when used)
Display of converted/calculated frequency 1/dt between markers
(if present)
Trigger information or screen hold indication.
Input-coupling indication : ac/dc/gnd and X10 probe setup
Measurement readouts, Vp (V peak-to-peak) ; Vr (Volt rms) ;
dB (Decibels) ; V= (DC volt.)
Readout of the voltage between the markers (when present)
Selected voltage per division
Indication of the selected function (blue keys) or battery-low indication
Page 11
OPERATION
Turning on/off the Personal Scope
Press the “ON/OFF” switch briefly to (de)activate the unit. The screen will briefly display the logo above the message “timer on”, which means that the unit will deactivate after eight minutes if no other key has been pressed during this interval. In order to bypass automatic deactivation : Keep the ON/OFF switch pressed down while activating the unit. The screen will briefly display the message “timer off”.
F When the unit is deactivated, the last setup will be saved as long as
the power is not cut and as long as the unit is not “reset” (see
below).
Resetting the Personal Scope.
In case of unusual behaviour of the keypad or the display, it is possible to reactivate the unit by using the "Reset" function. The unit will subsequently return to the manufacturer-programmed setup. Press the sunk “Reset” push button for at least 10 seconds.
F Do not use a sharp tool !
Adjusting the contrast
Press the “contrast” key until the desired contrast is displayed. The user can either keep the key pressed down or press it repeatedly. When pressing this key, the contrast will always increase to maximum level before starting again at the lowest available level and working its way up again
AC/DC
Depending on (part of) the signal to be measured, the input can be connected to the signal through a direct link or by using a decoupling capacitor. Select DC for measuring DC voltage. Press the “AC/DC” key to select either AC or DC input coupling (see indications on the screen).
Choice of input
F When measuring the ”ripple” of a DC voltage : put the input on AC
to limit the measurement to the AC component of the signal.
Page 12
Switching from one readout to another
The Personal Scope offers many voltage measuring possibilities. Press the “readout” key repeatedly to select one of four possible readouts :
Peak voltage (Vp).
The signal's peak-to-peak voltage (difference between highest and lowest value) is displayed.
True RMS readout (Vr). The area of the AC wave is calculated and converted to voltage. Please remember that a correct readout invariably consists of at least one or two visible periods (one can also use the auto­setup function).
dB measurement (dB). The measured signal is converted to dBm (0dB=0.775V). Once more, the user should make sure that at least one or two periods are displayed or select the auto-setup function).
DC voltage measurement (V=). This function enables the user to measure DC voltages (only for DC input coupling)
F Useful tip for measuring DC voltages:
The readout can be set at zero (reference) for any position on the
screen by keeping the AC/DC key pressed down. Always use the
"run" trigger mode for DC voltage measurement.
NOTE: If the signal goes off-screen or when the dB-signal is too small for measurement, the
display will show.....
probe x1/x10
We advise the user to use a measuring probe equipped with a X10 setting when high or unknown voltages or high impedances need to be measured.
Measuring probe adjustment
Page 13
x1 x10
position, the measuring impedance will increase to 10Mohm, thereby reducing the measuring instrument's charge on the
When using the measuring probe in the X10
x1 x10
coupling. Press the “x1/x10” key in order to adjust the
display to the setup of the measuring probe. Upon choosing X10, “X10” will be indicated on the screen and all measuring values will
be adjusted accordingly.
IMPORTANT : X10 measuring probes should be calibrated. Read “Setting up a X10 measuring probe".
Auto
Auto-setup function
The auto-setup function is ideally suited for quick measurements as no manual setup has to be made and everything is automatic.
F Use the auto-setup function when the screen no longer displays a
signal after the manual setup.
Connect the signal to be checked to the BNC input by means of a
special measuring lead or measuring probe.
Activate the unit.
Press “Auto” in order to (de)activate the auto-setup function.
When “auto setup” is engaged, the Volt/div and Time/div readouts are highlighted.The auto setup function will provide correct measurements for repetitive and stable signals of max. 400KHz.
The display may read as follows :
REMARK: The y-position does not work in auto-setup, which is why the trigger setup remains in run or normal mode.The auto-setup function will deactivate when using the Trigger , Volt and time per division and Y position functions. (see below).
Page 14
!
IMPORTANT: Put the appropriate measuring probe in the X10
position for measuring high voltages (>100Vp + DC).
NOTE:
The Y-position does not work in auto-setup, which is why the trigger
setup remains in run or normal mode.
The auto-setup function will deactivate when using the Trigger , Volt
and time per division and Y position functions. (see further).
Display
Signal screen
The signal screen is an aid in displaying the divisions on your screen or in positioning movable markers on the screen. Press the “Display” key repeatedly in order to engage the various aids:
A grid divides the screen into reference points.
A cross inserts a co-ordinate system into the screen.
Markers: Moveable markers in order to measure the signal (see below
for use).
Empty : no aids.
GRID
CROSSHAIR
MARKERS
Page 15
Hold
Screen memory
It may be useful to "freeze" certain signals on your screen. This will allow the user to study the signal or perform measurements with the markers. Press ‘Hold’ to freeze the screen.
F The screen is also saved when the unit is deactivated. F The memory will be erased if “reset” is pressed or if the battery
voltage is too low.
Set-up function keys
HPS5
The selected function is displayed in the bottom right
mark 1-2
trig
t-V/div
Y-pos
probe
Reset
Hold
Display
AC/DC
x1/x10
Trigger
Trigger
Charge
Slope
mode
Slope
mode
Auto
hand corner of the screen. The four blue function keys work in conjunction with the
arrow keys.
P E R S O N A L
S C O P E
mark 1-2
The markers
The user can perform measurements on a certain signal by using the
four moveable markers. This can be useful when measuring the interval between two points or the amplitude of any given peak.
The following indications will appear on the screen :
The time interval between two vertical markers. The calculated frequency (primarily used for the measurement
of periods).
The voltage between two horizontal markers.
The markers can be moved through the arrow keys. Keeping the key pressed down will move the marker quickly, pressing it briefly will move the marker by 1 position. The “mark 1-2” key is used to select the desired marker.
Page 16
F Determining the frequency of a signal requires the measurement of
a period. The easiest way to do this would be by placing the vertical
markers either on two consecutive peaks or two identical slopes of a
signal.
t-V/div
Setting up the voltage per division
The user can enlarge or reduce the signal on the screen vertically by adjusting the displayed voltage per division. (V/div = voltage per division). The divisions can be made visible through the Display key (see page 16). Press the “t-V/div” key Press the p or the q key to select the sensitivity : from 5mV to a maximum of 20V per division. F 50mV to 200V with X10 probe selection
t-V/div
Setting up the time base
Adjusting the time base will visualise more or fewer periods of a signal (t/div = time per division). The divisions can be visualised through the Display key (see page 16). Press the “t-V/div” key Press the t or the u key to set the time base between 20s and 2µS per division.
ATTENTION : the positions 10µs, 4µs and 2µs only operates correctly with periodic signals, for which the unit will automatically select the ‘normal’ trigger mode. The screen will be adjusted once the trigger level is reached.
NOTE: Use the minimum time base (2 microsec) as a starting point when measuring a signal and select longer time bases until the signal is displayed properly. Otherwise the display may not correctly reflect the signal under measurement due to aliasing.
Y-pos
Moving the signal in Y-position
Press the “Y-pos” key Press the p key or the q key in order to move the signal in the direction of the arrows. Prolonged pressing will make the Y- position change faster. A small dot in the left-hand corner of the screen will indicate the direction in which the signal has moved. In this manner, the user will know in which direction the signal was going when it went off-screen.
Page 17
trig
Trigger functions
The Personal Scope is equipped with a number of "trigger" aids that are used when the signal can be displayed on-screen. Press the “trig” key. The t (trigger mode) key enables the user to select the appropriate triggering method, the u (slope) key is used to select the trigger slope (see below).
Press the t key repeatedly to choose between :
“run” mode: The signal will always appear on the screen,
regardless of the level involved. This position is used most frequently and should always be used for measuring DC voltages in particular.
“norm” mode: The screen will be adjusted provided that the signal falls within the trigger level (interruption in the vertical line on the left-hand side of your screen). Use this mode when
you want to start displaying the signal when it reaches a preset threshold value.
“once” mode: The screen is adjusted one single time, viz. when the trigger level is reached. Use this mode to detect e.g. a short, once-only voltage peak.
ATTENTION : in the positions 10µs, 4µs and 2µs the unit will automatically select the ‘norm’ trigger mode. The trigger level has to be reached for the screen to be adjusted.
F Both the p and the q key remain active in order to move the signal
along the Y-axis, which enables the user to programme a trigger
reference
Repeatedly press the u key to choose between :
Triggering on the rising slope of the signal. The screen will only display the signal when a positive slope is "detected", viz. the
signal has to rise in vertical direction in order to trigger.
Triggering on the falling slope of the signal : The screen will only display the signal when a negative slope is "detected", viz. the
signal has to drop in vertical direction in order to trigger.
Trigger on rising slope
Trigger on falling slope
Page 18
NOTE : There is a time difference of ±12µs between the trigger
wave signal with a top that is as flat as
point (the interruption in the vertical line on the left-hand side of the screen) and the start of the actual display. This is specifically true on higher frequencies.
Setting up a X10 measuring probe
When used in the X10 position, a measuring probe should always be callibrated to the measuring instrument being used, in this case the Personal Scope.
Open the battery cover.
Set the probe input to X10
Set the voltage per division to 1V
Set the time per division to 0.2ms
Select AC for the input.
Use the probe to perform measurements at the preselected point under
the battery cover. Adjust the trimmer of the
x10
measuring probe in order to obtain a square possible.
probe
test
NG
NG
OK
MAINTENANCE
Clean the display with a shammy. NEVER use a dustcloth or paper in order to avoid scratches. The rest of the unit can be cleaned with a soft, dry cloth. NEVER use water to clean the unit.
Page 19
TROUBLESHOOTING
The screen remains blank or there is no signal :
No power supply
Batteries are discharged
Contrast adjustment is incorrect
Press RESET for at least 10 seconds
REMARK: Temporarily remove both batteries and adapter in case RESET is not yet operational.
RMS readout is incorrect :
Make sure that at least 1 and preferably even 2 periods are displayed.
The batteries are discharged.
No signal on the oscilloscope display :
Time/div setting is in the wrong position. Try 1ms or choose auto-
setup mode.
The unit is in the Hold position
Trigger function is set in the “once” position
The programmed trigger level is not reached (choose “run” mode)
Y position is wrong
The input signal is too high, change the volt/div. setting or choose
auto-setup.
Incorrect frequency readout:
An incorrect time/div. setting has been chosen. (start at 2µs)
Voltage readout does not correspond with the actual value :
The measuring probe is in the X10 position
The batteries are discharged
The zero refrence is not set correctly for DC measurements.
Take into account that the RMS readout only measures the AC
voltage
Page 20
WARRANTY
This product carries a one-year warranty as far as the craftsmanship and possible flaws in the materials are concerned. The warranty expires ONE YEAR after the date of purchase. The warranty will only apply if the unit is wrapped in the original packing material and either presented to VELLEMAN-KIT N.V or to an official distributor together with a copy of the original purchasing document. VELLEMAN-KIT N.V. is under the obligation to repair defects and flaws, but is free to either replace or repair defective parts. The warranty does not apply to software, fuses, measuring probes and batteries. VELLEMAN-KIT N.V will not be held responsible for any flaw or defect which the company feels is due to negligence on behalf of the user, to modification or opening of the unit, or to accidents or abnormal use or treatment of the product. VELLEMAN-KIT N.V will not reimburse the transport costs or risks, the costs for removing and replacing the product or any other costs that are directly or indirectly related to the defect. VELLEMAN-KIT N.V. accepts no liability for whatever damages may be caused by a malfunctioning product.
Loading...