DSO138 2.4 Inch Tft Digital Oscilloscope Kit Diy Parts DIY New Version DSO138 Spare Parts Diy Kit Stm32 Oscilloscope Shell Electronic Training Instrument

Price: $12.99
Product prices and availability are accurate as of 2020-12-14 01:44:52 UTC and are subject to change. Any price and availability information displayed on https://www.amazon.com/ at the time of purchase will apply to the purchase of this product.
Availability: Not Available Discontinued
CERTAIN CONTENT THAT APPEARS ON THIS SITE COMES FROM AMAZON SERVICES LLC. THIS CONTENT IS PROVIDED 'AS IS' AND IS SUBJECT TO CHANGE OR REMOVAL AT ANY TIME.

Manufacturer Description

This DSO138 digital oscilloscope kit adopts ARM Cortex-M3 processor and with 2.4-inch TFT screen. It's easy and reliable for circuit operation. 

Features of DSO138:

Type: SMD Soldered Kit 

Maximum Real-time Sampling Rate: 1Msps

Accuracy: 12Bit

Sampling Buffer Depth: 1024 bytes

Analog Bandwidth: 0-200KHz

Vertical Sensitivity: 10mV / Div - 5V / Div (1-2-5 progressive manner)

Input Impedance: 1M?

Maximum Input Voltage: 50Vpp (1: 1 probe), 400Vpp (10: 1 probe)

Coupling Modes: DC / AC / GND

The Horizontal Time Base Range: 10?s / Div - 50s / Div (1-2-5 progressive manner)

Supply Voltage: DC 9V

PCB Size: 117 * 76mm / 4.6 * 3in

Screen Size: 52 * 40mm / 2 * 1.57in

Package Size: 18 * 12.5 * 3cm / 7.08 * 4.92 * 1.18in

Package Weight: 119g / 4.21oz

Package included:

1* DSO138 DIY Digital Oscilloscope Kit

1 * Probe

1* 9V DC power supply

Product Features

? DSO138 2.4" TFT 1Msps Digital oscilloscope kit for DIY It's easy to solder. ?This kit uses ARM Cortex-M3 processor (STM32F103C8), and includes a 2.4-inch color TFT display screen, can be used as ARM test development board. ?Can be secondary development on the basis of this kit, for example, it can be changed to Millivoltmeter, data loggers.Available rising or falling edge trigger. ?can display frequency, period, pulse width, duty ratio, MAX./MIN./AVG./Peak-Peak/virtual values. ?With automatic, regular and one-shot modes, easy to capture the moment waveform.