Hantek DSO 1200
MODE
DSO1200
VERTICAL
Channels
2
Bandwidth
200MHz
Rise Time
1.7ns
Input Impedance
Resistance: 1M ; Capacitance: 15 pF
Input Sensitivity
10mV/div to 5V/div
Input Coupling
AC, DC and GND
Vertical Resolution
8 bits
DC Gain Accuracy
3% for Sample or Average acquisition mode
Maximum Input
400V (DC+AC Peak)
HORIZONTAL
Real-Time Sampling Rate
500MSa/s
Equivalent Sampling Rate
50GSa/S
Time Base Range
5ns/div~1000s/div
Memory Depth
32k at Single Channel, 16k at Dual Channel
Time Base Precision
50ppm
TRIGGER
Source
CH1, CH2
Mode
Edge, Video, Pulse Width, Alternative
Trigger Sensitivity (Edge Trigger Type)
1div from DC to 10MHz; 1.5div from 10MHz to 100MHz; 2div from 10MHz to Full;
Trigger Level Accuracy, typical (Accuracy is for signals having rise and fall times ≥20ns)
(0.3divV/div) (within 4 divisions from center of screen)
X-Y MODE
X-Axis Input
Channel 1
Y-Axis Input
Channel 2
Phrase Shift
Max.3 degree
CURSORS AND MEASUREMENT
Voltage Measurement
Vpp, Vamp, Vmax, Vmin, Vtop, Vmid, Vbase, Vavg, Vrms, Vcrms, Preshoot, Overshoot
Time Measurement
Frequency, Period, Rise Time, Fall Time, Positive Width, Negative Width, Duty Cycle
Delay Measurement
Delay time from ch1 rising edge to ch2 rising edge
Delay time from ch1 falling edge to ch2 falling edge
Cursors Measurement
Manual, Track, Auto Measure Modes
Waveform Signal Process
CH1+/- CH2, CH1xCH2, CH1/CH2, FFT, Invert
Storage
15 Waveforms and Setups
METER MODE
Maximum Resolution
6,000 Counts
DMM Testing Modes
Voltage, Current, Resistance, Capacitance, Diode & Continuity
Maximum Input Voltage
AC: 600V, DC: 800V
Maximum Input Current
AC: 10A, DC: 10A
10 MΩ
DISPLAY
TFT LCD Type
5.7 Inch with LED Backlight Display
Display Resolution
240 (Vertical) x 320 (Horizontal) Dots
INTERFACE
USB
USB Host / Device 2.0 Full Speed Supported
Optional
RS232, LAN
POWER SOURCE
Line Voltage Range
AC 100V ~ 240V, 50Hz ~ 60Hz; DC Input: 8.5VDC, 1500mA
Battery Power (Installed)
6 Hours (Li-ion Battery)
MECHANICS
Dimension
245 x 163 x 52 (mm)
Weight
1.2Kgs
Other
GND Reference
Oscilloscope and Multimeter Independence
