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Hantek New MSO5000D Series On Offer
August 23, 2012
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Hantek Mixed Signal Digital Storage Oscilloscope MSO5000D series coming!


16 logical channels (divided into 2 groups) 2 analog channels external trigger channel; 1M memory depth; 1GSa/s real time sampling rate; 7 inch TFT color display (800 x 480); powerful trigger function.

 

Accessories


 

 

 Other Pictures

 

 

 Feature  

  • 16 channels logic analyzer 2 channels oscilloscope external trigger.
  • Big and clear display (7.0-inch color LCD, high revolution 800 x 480), clear lifelike waveform display.
  • 1GSa/s real time sampling rate.
  • 60MHz-200MHz bandwidth, 1Mmemory depth.
  • Powerful trigger function.
  • USB host, support flash memory card storage and USB interface system upgrade.
  • Ultrathin design, handy volume, easily portable.

* Oscilloscope Function

  • Bandwidth 60MHz-200MHz.
  • Each channel record length up to1M.
  • Real time sampling rate up to 1GSa/s.
  • Powerful trigger function.
  • More than 20 kinds of automatic measurement function.

* Logic Analyzer Function

  • 16 channels divided into 2 groups which is able to setup threshold level individually.
  • Real time sampling rate up to 500MSa/s.
  • Powerful trigger function: edge, duration, pulse width, code-type, queen, repeat.

 

 Specification

Oscilloscope Specification

Horizontal

Model

MSO5062D

MSO5102D

MSO5202D

Bandwidth

60MHz

100MHz

200MHz

Sampling RateRange

Max. 1GS/s

Waveform Interpolation

( sin x) /x

Memory Depth (Sample Points)

Single-channel: maximum1M; Dual-channel: maximum 512K (4K, 16K, 40K optional)

SEC/DIV Range

8ns/div-40s/div (stepping in a sequence: 2,4,8)

Sampling Rate and Delay Time Accuracy

?50ppm in any ≥1ms time intervals

Delta Time Measurement Accuracy (full bandwidth)

Single, "sampling" mode

? (1 sampling interval 100ppm ? readings 0.6 ns)

> 16 times above average

? (1 sampling interval 100ppm ? readings 0.4 ns)

Sampling interval = SEC/DIV?200

Vertical

A/D Converter

8-bit resolution, each channel sampled simultaneously

VOLTS/DIV Range

2mV/div ~ 5V/div at input BNC

Position Range

?400mV (2mV/div ~20mV/div)

?2V (50mV/div ~200mV/div)

?40V (500mV/div ~2V/div)

?50V (5V/div)

Optional Analog Bandwidth Limit (typical)

20MHz

Low Frequency Response (-3db)

≤10Hz at output BNC

Rising Time at output BNC (typical)

60MHz

100MHz

200MHz

≤ 5.8ns

<3.5ns

<1.8ns

Vertical Gain Accuracy

?3% for sample or average acquisition mode, 5V/div to 10mV/div;

?4% for sample or average acquisition mode, 5mV/div to 2mV/div

DC Measurement Accuracy

Average Acquisition Mode

Measuring type: 16 zero vertical position waveform average .

Accuracy: ? (3%? reading 0.1div 1 mV), applicable to 10 mV/div or above units.

Measuring type: 16 non-zero vertical position waveform average.

Accuracy: ? [3%? (readings vertical position) 1%?vertical position 0.2div].

For the setting from 2mV/div to 200mV/div, 2mV; for 200mV/div to 5V/div, 50mV.

Voltage Measurement Repeatability

Average Acquisition Mode

In the same settings and environmental conditions, acquisition ≥ the voltage increment between any two groups average of 16 above waveforms : ? (3% ? readings 0.05 div)

Trigger

Trigger Sensitivity (Edge Trigger Type)

Coupling

Sensitivity

DC

Source

60MHz

100MHz

200MHz

CH1

CH2

1div from DC to 10MHz, 1.5div from 10MHz to Full

1.5div from 10MHz to 100MHz, 2div from 100MHz to Full

EXT

200mV from DC to 100MHz

200mV from DC to 100MHz, 350mV from 100MHz to 200MHz

EXT/5

1V from DC to 100MHz

1V from DC to 100MHz, 1.75V from 100MHz to 200MHz

AC

Attenuates signals below 10Hz

HF Reject

Attenuates signals when above 80kHz

LF Reject

The same as DC coupling limit when frequency above 150kHz; Attenuates signals when below 150kHz.

Trigger LevelRange

Source

Range

CH1, CH2

?8 divisions from center of screen

EXT

?1.2V

EXT/5

?6V

Trigger Level Accuracy, typical (Accuracy is for signals having rise and fall time ≥ 20ns)

Source

Accuracy

CH1, CH2

?(0.2div ? V/div) (within ?4 divisions from center of screen)

EXT

?(6% of setting 40mV)

EXT/5

?(6% of setting 200mV)

Set Trigger Level to 50% (typical)

For the input signals ≥ 50Hz

Video Trigger Type

Source

Range

CH1, CH2

The amplitude of 2 points peak-peak

EXT

400mV

EXT/5

2V

Signal Format , Field Rate and Video Trigger Type

Any field or any line support NTSC PAL and SECAM

Holdoff Range

100ns-10s

Pulse Width Trigger

Mode

When <, >, =, or ≠ trigger; positive or negative pulses.

Trigger Point

: Triggers when pulse falling edge over trigger level.

≠: If the pulse narrower than the appointed width, the trigger point is the falling edge; or triggers when the pulse duration longer than the width setting time.

< : Triggers when the pulse duration less than the width setting time.

>(Also called overtime trigger): Triggers when pulse is greater than width setting.

Range

20ns ~10s

Slope Trigger

mode

When <, >, =, or ≠ trigger; positive or negative slopes.

Trigger Point

: Triggers when waveform slope is equal to slope setting.

≠: Triggers when waveform slope is not equal to slope setting.

<: Triggers when waveform slope is less than slope setting.

>: Triggers when waveform slope is greater than slope setting.

Range

20ns-10s

Overtime Trigger

From the rising or falling edge; Setup time: 20-10 s

Alternative Trigger

CH1

Internal trigger: edge, pulse, video, or slop

CH2

Internal trigger: edge, pulse, video, or slop

Trigger Frequency Counter

Readout Resolution

6bit

Accuracy (typical)

?30ppm (Including all of the frequency reference error and ?1 calculation error)

Frequency Range

AC coupling, from minimum 4Hz to specified bandwidth

Source

"Pulse width" or "edge trigger" mode: all available trigger source

"Frequency counter" is always measuring the trigger source, even when oscilloscope acquisition paused because of the operation state’s changing, or when a single acquisition finished.

The “pulse width" trigger mode: the oscilloscope calculates the pulses whose window having effective amplitude, which measure at 1s and meet trigger condition. For example, if the PWM pulse line is set to < mode, and width is correspondingly set to smaller time, then the narrow pulse among them is the one to be calculated.

"Edge trigger" mode: the oscilloscope calculates all the edge with sufficient amplitude and correct polarity.

"Video trigger" mode: "frequency counter" doesn't work.

Acquisition

Mode

Sample, Peak value detection and Average

SINGLE SEQ

Acquisition Mode

Acquisition Stop Time

Sample, peak value detect

All communications start to single acquisition simultaneously

Average

All communications  start to N times acquisition simultaneously, and N could be 4, 8, 16, 32, 64 or 128

Input

Input Coupling

DC, AC or GND

Input Impedance, DC Coupling

1MΩ?2% for 20pF?3 pF

Probe Attenuation

1X, 10X

Support Probe Attenuation Coefficients

1X, 10X, 100X, 1000X

Max. Input Voltage

Overvoltage Type

Max. Voltage

CAT I and CAT II

Installation type: 300VRMS(10?)

CAT III

150VRMS(1?)

Installation type : Take 20 dB/decade as slope, from 100kHz above begins to decline to ≥ 3MHz *, the AC peak value is 13V. For the non-sine waveforms, the peak value must less than 450V. Above 300V the offset duration should be less than 100ms. RMS signal level (including all the DC component delete by the AC coupling) must be limited to 300V. If beyond these values, it may damage the device.

Measurement

Cursors

The difference between voltage cursors V; the difference between time cursors T; 1/T calculated by Hz.

Automatic

Frequency, Period, Mean, Pk-Pk, Cyc RMS, Min, Max, Rise Time, Fall Time, Positive Width, Negative Width.

General

Display

Type

7” TFT, 64K true color LCD

Resolution

800x480 dots

Contrast

16 gears with the progress bar to show adjustment

Probe Compensator Output

Output Voltage (typical)

About 5Vpp input  ≥1 MΩ load

Frequency (typical)

1kHz

Power Supply

Voltage

100-120VACRMS(?10%),45Hz to 440Hz, CAT

120-240VACRMS(?10%),45Hz to 66Hz, CAT

Power

< 30W

Fuse

2A, T rating, 250V

Environment

Temperature

Working:32 to122(0to50)

Not working:-40to159.8(-40to 71)

Cooling Type

Convection

Humidity

104 or below ( 40 or below) : 90% relative humidity

106 to122( 40 to50) : 60% relative humidity

Sea Level Height

Working and Not working

3,000m (10,000 foot)

Random Vibration

50 Hz to 500 Hz:0.31 gRMS, each axial: 10 minutes

Not working

5 Hz to 500 Hz:2.46 gRMS, each axial: 10 minutes

Mechanical Shock

Working

50g, 11ms, half-sine wave

Mechanical

Dimension

Length

313mm

Height

142mm

Thickness

108mm

Weight

Not including the weight of package and accessories

2.08Kg

Packing Dimension

Length

395mm

Width

410mm

Height

275mm

Gross Weight

Including all accessories

about3.2kg

Logic Analyzer Specification

Sampled Channels

16 ( divided into 2 groups)

Max. Input Impedance

200K (C=10p)

Input VoltageRange

-60V~60V

Logic ThresholdRange

-8V~8V

Max. Sample Rate

500MHz

Compatible Input

TTL, CMOS, ECL

Sample Depth

512KSample

Cursors

The difference between voltage cursors V; the difference between time cursors T; 1/T calculated by Hz.

Measurement

Period and Frequency

Record Position

RefA

RefB

Trigger

Edge

D0-D15 select slope (rising or falling edge)

Pulse Width

D0-D15 select pulse polarity (positive or negative pulse), trigger when (=, ≠, >, <), trigger pulse width

Code-type

D0-D15 select code-type (H, L, X)

Duration

D0-D15 select persist time and trigger when (data terminate, data start, and data delay)

Queue

D0-D15 select specific data index (0-3) and code-type (H, L, X)

Repeat

D0-D15 select code-type (H, L, X) and repeat times

Software

 Operating system: Windows 7, Windows NT, Windows 2000, Windows XP,VISTA.

Others


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