OpenScope MZ (Legacy)

Getting Started Reference Manual Technical Support
OpenScope MZ
Multi-function, open source instrument
Design Resources
Fritzing Parts
Schematic Rev F
Schematic Rev G
Schematic
3D Printable Case
3D Case Source
PCB Dimensions
Pinout Printout
Connectivity
  • Wifi (802.11g)
  • USB 2.0 (High Speed Required)
Oscilloscope
Channels
2
Resolution
12-bit
Sample Rate
6.25 MS/s
Bandwidth
2 MHz
Input Impedance
1 MΩ
Voltage Range
±20V
Max Buffer Size
32640 Samples per channel
Arbitrary Waveform Generator
Channels
1
Resolution
10-bit
Sample Rate
10 MS/s
Bandwidth
1 MHz
Voltage Range
3V peak-to-peak ±1.5V offset.
Max Buffer Size
25000 Samples
Max Current Output
20 mA
Logic Analyzer
Channels
10
Logic Level
3.3V CMOS
Sample Rate
10 MS/s
Max Buffer Size
32640 Samples per channel.
GPIO
Channels
10
Logic Level
3.3V CMOS
Source
7 mA
Sink
12 mA
Note
GPIO multiplex with Logic Analyzer
Programmable Power Supply
Channels
2
Output Voltage
±4v
Maximum Power
50 mA per channel
Misc
  • PIC32MZ2048EFG124 microcontroller
  • 2 External Trigger Lines
  • USB powered device (B Micro)
  • 4 user LEDs
Software
WaveForms Live
Digilent Agent
Pinout
AI1+/OSC1
Oscilloscope channel 1 or analog input channel 1 positive
AI2+/OSC2
Oscilloscope channel 2 or analog input channel 2 positive
GND
Ground
DC1
DC power supply channel 1
AWG1
Arbitrary waveform generator channel 1
Trigger In
Trigger input
D1
Digital I/O 1
D2
Digital I/O 2
D3
Digital I/O 3
D4
Digital I/O 4
D5
Digital I/O 5
D6
Digital I/O 6
D7
Digital I/O 7
D8
Digital I/O 8
GND/AI1-
Analog input 1 negative or ground
GND/AI2-
Analog input 2 negative or ground
DC2
DC power supply channel 2
INT/CLK1
Interrupt or clock 1
Trigger Out
Trigger output
DO8
Digital output 8
DO9
Digital output 9
INT/CLK2
Interrupt or clock 2
SDI/SDO
SPI data in or out
SDI/SDO/ UART_TX
SPI data in/out or UART TX
SPI_CLK/ UART_CTS
SPI clock or UART CTS
SPI_CS/ UART_RTS/ PWM1
SPI CS or UART RTS or PWM1

UART_RX/ PWM2
UART RX or PWM2

Despite our hopes and effort to create an innovative and low-cost T&M solution, we’ve received consistent negative feedback on the OpenScope MZ and OpenLogger regarding overall reliability that has led us to determine that it is not up to our high standards for our test and measurement products.

Unfortunately, we are unable to fix many of the issues, so we have made the difficult decision to pull both products, and related accessories from our shelves. This will allow us to ensure we can continue to deliver on the Digilent brand promise and focus our efforts on expanding our popular and core line of Test and Measurement Products.

The materials on this page will remain here as legacy sources. Any Digilent provided support for this material will be extremely limited at best. Thank you for understanding.

OpenScope MZ is an open source, multi-function, electronic instrumentation device that can be controlled using a computer or mobile device to acquire, analyze, visualize, and generate signals from circuits, sensors, and other electronic devices. OpenScope MZ makes it easy to generate analog and digital signals using the power supply, function generator and GPIO and measure and visualize analog and digital signals using the oscilloscope and logic analyzer. Develop and debug circuits faster by generating stimuli and visualizing the response using OpenScope MZ.




Tutorials

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Additional Resources

Makerspace Bundle Resources