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PDS6062T Replaced by ADS-2061M

OWON PDS6062T Replaced by ADS-2061M
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Brand:OWON
Warranty:1 year
User's Guide:Download
Installation Guide:Download
USB Host

REPLACED BY ADS-2061M

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Retail price :$380.00
Discount price:$342.00
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Bandwidth60 MHz
Sample rate250 MSa/s
Memory depth6 kpts on each channel
Vertical resolution (bits)8
Trigger typesEdge trigger, Video signal trigger
Number of automatic measurements20
Automatic measurementVpp, Vmax, Vmin, Vavg, Vtop, Vbase, Width, Vrms, Frequency, Period, Overshoot, PREShoot, Rise Time, Fall Time, +Wid, -Wid, +Duty, -Duty, Delay A→B
Waveform mathAddition (+), Subtraction (-), FFT (fast Fourier transform)
InterfaceUSB Host, USB Device
Display8 color TFT LCD 640×480 pixels, 65535 colors
Power supply110...240 VAC, battery (optional)
Dimensions13,8 x 6,2 x 4,1 in

Technical Specifications:

  • This instrument should run for more than 30 minutes continuously under the specified operating temperature
  • If the change range of the operating temperature is up to or exceeds 41°F/5°C, open the system function menu and execute the “Auto-calibration” procedure

All specification standards can be fulfilled, except one(s) marked with the word “Typical”

Sampling

  • ACQU Mode Sample, Detection, Average
  • Sampling Rate 250MSa/s

Input

  • Input Coupling DC, AC
  • Input Impedance 1MΩ± 2%, connected with 20pF±5pF in parallel
  • Probe attenuation coefficient 1X, 10X, 100X, 1000X
  • Max. Input Voltage 300V, Peak Value

Level

  • Sampling Rate Range: 10Sa/s~250MSa/s
  • Waveform interpolation: sin(x)/x
  • Record Length 5000 sampling points per channel
  • Scanning Speed Range (s/div): 5ns/div~5s/div, according to the stepping mode of 1-2-5

Measuring Accuracy of Time Interval (ΔT) (DC~50M)

Single: ± (One Sampling Interval Time + 100ppm × Reading + 0.6ns) > Averages of 16: ± (One Sampling Interval Time + 100ppm × Reading + 0.4ns)

Vertical

  • A/D Converter Resolution of 8 bits, with the sampling carried out in two channels at the same time
  • SensitivityRange (V/div): 5mV/div-5V/div (at the input BNC)
  • Displacement Range: ±50V (500mV-5V ), ±2V (5mV-200mV)
  • Simulative Bandwidth: 60M
  • Single Bandwidth, Full Bandwidth
  • Low frequency respond (AC Coupling, -3dB) ≥5Hz (at BNC)
  • Rising Time (Typical, at BNC): ≤5.8ns
  • DC Gain Accuracy: ±5%
  • DC Measuring Accuracy (Average for ACQU MODE)
  • The voltage difference (ΔV) between any two points on the wave form after averaging the captured wave forms of more than 16: ±(5% Reading+0.05divisions)

Trigger

Trigger Sensitivity (Edge Trigger)

  • DC Coupling Channel 1 and Channel 2: 1div (DC~ Full Bandwidth)
  • EXT 100mV (DC - 20M)
  • EXT/5 500mV (DC - 20M)
  • AC Coupling It is the same as the DC coupling in case of 50Hz or more

Trigger Level Range

  • Internal: ±6 divisions from the screen center
  • EXT ±600mV
  • EXT/5 ±3V

Trigger Level Accuracy (Typical): It is applicable to the signal with the rising and falling time ≥20ns

  • Inside: ±0.3div
  • EXT ±(40mV + 6% of Set Value)
  • EXT/5 ±(200mV + 6% of Set Value)

Trigger Displacement

  • Preliminary Trigger: 655 divisions
  • Late Trigger: 4 divisions

Set Level to 50% (Typical)

Operation under the condition of input signal frequency: ≥50Hz

Trigger Sensitivity (Video trigger, typical)

  • Internal Peak-to-peak value of 2 divisions
  • EXT 400mV
  • EXT/5 2V

Signal System and Line/Field Frequency (Video Trigger Type)
Supporting the NTSC, PAL and SECAM broadcast system of any field frequency of line frequency

Measurements

Cursor Measurement: Voltage difference (ΔV) and time difference (ΔT) between cursors.
Automatic Measurement: Peak-to-Peak Value, Average, RMS, Frequency and Cycle

Probe

 1X Position 10X Position
Bandwidth DC: up to 4 MHz DC: up to full bandwidth
Attenuation Ratio 1:1 10:1
Compensation Range 10pF~35pF  
Input Resistance 1MΩ±2% 10MΩ±2%
Input Electric Capacity 85pF-115pF 14.5pF-17.5pF
Input Voltage 150VDC 300VDC

General Technical Specifications:

Display

  • Display Type 8” TFT LCD (Liquid Crystal Display)
  • Display Resolution: 640 (Horizontal) × 480 (Vertical) Pixels
  • Display Colors: 260000 Colors

Output of the Probe Compensator

  • Output Voltage (Typical) About 5V, with the Peak-to-Peak value equal to or greater than 1MΩ of load
  • Frequency (Typical) Square wave of 1kHz

Power

  • Mains Voltage: 100~240VAC RMS, 50Hz, CAT II
  • Power Consumption:<15W
  • Fuse 1A, T grade, 250V

Environment

  • Temperature Working temperature: 32°F~104°F / 0°C~40°C
  • Storage temperature: -4°F~+140°F / -20°C~+60°C
  • Relative Humidity ≤90%
  • Operating: 3280yd/3000m
  • Non-operating: 27032yd/24718m
  • Cooling Method Natural convection

Mechanical Specifications

  • Dimensions: 14×6×4in/356×153×102mm
  • Weight: 3.7lb/1.7kg

Interval Period of Adjustment: One year is recommended for the calibration interval period

Standard Accessories:

  • Passive probe: x 2
  • CD: x 1 (PC link application software)
  • RS232 data line or USB data line: x 1
  • Power line: x 1 (up to the standards of the country in which it is used)
  • User Manual: x 1

Options:

  • Battery
  • Soft carrying case

Video Signal Trigger

Observe the video circuit of a television, apply the video trigger and obtain the stable video output signal display.

Video Field Trigger

For the trigger in the video field, carry out operations according to the following steps:

  1. Press the TRIG MENU button to display the trigger menu
  2. Press the F1 menu selection button and choose Video for Type
  3. Press the F2 menu selection button and choose CH1 for Source
  4. Press the F3 menu selection button and choose Field for Sync
  5. Adjust the VOLTS/DIV, VERTICAL POSITION and SEC/DIV knobs to obtain a proper wave form display.

Video_Signal_Trigger

Capture the Single Signal

The digital storage oscilloscope takes the lead in providing the convenience capturing of such non-periodic signals as pulse and burr, etc. If you intent to capture a single signal, you can not set the trigger level and the trigger edge unless you have particular priori knowledge of this signal. For example, if the pulse is the logic signal of a TTL level, the trigger level should be set to 2 volts and the trigger edge be set as the rising edge trigger. If it is uncertain as to the signal, you can make an observation of it in advance under the automatic or ordinary mode to determine the trigger level and the trigger edge.

The operation steps are as follows:

  1. Set the probe menu attenuation coefficient to 10X and that of the switch in the probe to 10X
  2. Adjust the VOLTS/DIV and SEC/DIV knobs to set up a proper vertical and horizontal ranges for the signal to be observed
  3. Press the button ACQUIRE to display the ACQUIRE Mode menu
  4. Press the F2 menu selection button and choose Peak Detect
  5. Press the TRIG MENU button to display the Trigger Mode menu.
  6. Press the F1 menu selection button and choose Edge as the trigger type
  7. Press the F4 menu selection button and choose Single as the trigger mode
  8. Press the F3 menu selection button and choose Rising as the slope
  9. Rotate the LEVEL knob and adjust the trigger level to the mid-value of the signal to be measured
  10. If the Trigger State Indicator at the top of the screen does not indicate Ready push down the RUN/STOP button and start Acquire, waiting the emergence of the signal in conformity with the trigger conditions. If a signal reaches to the set trigger level, one sampling will be made and then displayed in the screen. With this function, any random occurrence can be captured easily. Taking the burst burr of larger amplitude for example, set the trigger level to the value just greater than the normal signal level, and then press the RUN/STOP button and wait. When there is a burr occurring, the instrument will trigger automatically and record the wave form generated during the period around the trigger time. With the HORIZONTAL POSITION knob in the horizontal control area in the panel rotated, you can change the horizontal position of the trigger position to obtain the negative delay, making an easy observation of the waveform before the burr occurs.

Measurement of Simple Signals

Observe an unknown signal in the circuit, and display and measure rapidly the frequency and peak-to-peak value of the signal.

1. Carry out the following operation steps for the rapid display of this signal:

  1. Set the probe menu attenuation coefficient as 10X and that of the switch in the probe switch as 10X
  2. Connect the probe of Channel 1 to the measured point of the circuit
  3. Push down the AUTOSET button.

The oscilloscope will implement the AUTOSET to make the wave form optimized basing on which you can further regulate the vertical and horizontal divisions till the waveform meets your requirements.

2. Perform Automatic Measurement

The oscilloscope can measure most displayed signals automatically. Complete the following operations for the measurement of frequency, cycle, mean and peak-to-peak value:

  1. Press the MEASURE button to show the automatic measurement function menu
  2. Press the F1 menu selection button and choose Source with the Source menudisplayed
  3. Press the F2, F3, F4 and F5 menu selection buttons and choose CH1
  4. Press the F1 menu selection button again and choose Type with the Type menu displayed
  5. Press the F2 menu selection button and choose Freq.
  6. Press the F3 menu selection button and choose Period
  7. Press the F4 menu selection button and choose Mean
  8. Press the F5 menu selection button and choose Pk-Pk.

Then the frequency, cycle, mean and peak-to-peak value will present in the menu and change periodically.

Measurement_of_Simple_Signals

Analyze the Details of a Signal

Observe the Signal Containing Noises

If the signal is interfered by the noise, the noise may cause a failure in the circuit. For the analyzing of the noise in detail, please operate the instrument according to the following steps:

  1. Press the ACQUIRE button to display the ACQU MODE menu
  2. Press the F2 menu selection button and choose Peak Detect.

In this case, the screen display contains the wave form of a random noise. Especially when the time base is set as Low Speed, then noise peak and burr contained in the signal can be observed with the peak detection.

Observe_the_Signal_Containing_Noises

Separate Noises from the Signal

When analyze the wave form of a signal, you should remove the noise contained in it. For the reduction of the random noise in the oscilloscope display, please operate the instrument according to the following steps:

  1. Press the ACQUIRE button to show the ACQU MODE menu
  2. Press the F3 menu selection button and choose Average
  3. Press the F4 menu selection button and observe the wave form obtained from averaging the wave forms of different average number.

After the averaging, the random noise is reduced and the detail of the signal is easier to be observed. Shown as follows, after the noise is removed, the burrs on the rising and falling edges appear.

Separate_Noises_from_the_Signal

Examine the Phase Difference between Signals of two Channels

Example: Test the phase change of the signal after it passes through a circuit network. Connect the oscilloscope with the circuit and monitor the input and output signals of the circuit.

For the examination of the input and output of the circuit in the form of X-Y coordinate graph, please operate according to the following steps:

  1. Set the probe menu attenuation coefficient for 10X and that of the switch in the probe for 10X
  2. Connect the probe of channel 1 to the input of the network and that of Channel 2 to the output of the network
  3. Push down the AUTOSET button, with the oscilloscope turning on the signals of the two channels and displaying them in the screen
  4. Adjust the VOLTS/DIV knob, making the amplitudes of two signals equal in the rough
  5. Push down the DISPLAY button and recall the DISP SET menu
  6. Press the F3 menu selection button and choose XY for Format. The oscilloscope will display the input and terminal characteristics of the network in the Lissajous graph form
  7. Adjust the VOLTS/DIV and VERTICAL POSITION knobs, optimizing the wave form
  8. With the elliptical oscillogram method adopted, observe and calculate the phase difference.

wave

X-Y Ratio Frequency 1:1
Phase shift: 35 degree

wave

X-Y Ratio Frequency 2:1
Phase shift: 35 degree

wave

X-Y Ratio Frequency 3:1
Phase shift: 35 degree

Frequently Asked Questions

  • High voltage measurement testing are not allowed over 300 volts
  • The measured voltage amplitude value is 10 times greater or smaller than the actual value
  • There is wave form displayed, but it is not stable
  • No Display Responses to the Push-down of RUN/STOP

  • High voltage measurement testing are not allowed over 300 volts

    Even when you can read in a probe 600V PK CAT I. The Aktakom, Owon or Rigol oscilloscopes does not support more than 300V RMS or 400V PK. For higher voltage please contact us to request a special device.


    Up

    The measured voltage amplitude value is 10 times greater or smaller than the actual value

    Check whether the channel attenuation coefficient and the attenuation coefficient of the probe used is match.
    Up

    There is wave form displayed, but it is not stable

    • Check whether the Source item in the TRIG MODE menu is in conformity with the signal channel used in the practical application.
    • Check on the trigger Type item: The common signal chooses the Edge trigger mode for Type and the video signal the Video. Only if a proper trigger mode is applied, the wave form can be displayed steadily.
    • Try to change the trigger coupling into the high frequency suppress and the low frequency suppress to smooth the high frequency or low frequency noise triggered by the interference.

    Up

    No Display Responses to the Push-down of RUN/STOP

    Check whether Normal or Signal is chosen for Polarity in the TRIG MODE menu and the trigger level exceeds the wave form range. If it is, make the trigger level is centered in the screen or set the trigger mode as Auto. In addition, with the AUTOSET button pressed, the setting above can be completed automatically.


    Up

    Owon Oscilloscope Software version 2.0.7.1

    Learn more...

    Osciloscopio digital con almacenamiento (DSO) de 60 MHz, 2 canales + disparo externo. Frecuencia de muestreo (en tiempo real) 250 MS/s. Longitud de registro 5 mil puntos por canal. Cursor con descripcin. Veinte mediciones automticas. Disparador de borde y de video. FFT. Deteccin de picos y promedio. Monitor LCD de 8.0'' a color, con pantalla TFT de 640 480 pxeles. Dimensiones: 14” x 6 x 4 / 356 mm 153 mm 102 mm. Peso 3,7 libras / 1,7 kg.

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