OWON MTQ 1016B Analogue Oscilloscope - 10 MHz 1 Channel

OWON MTQ 1016B Analogue Oscilloscope - 10 MHz 1 Channel

Overview

The OWON MTQ 1016B is a compact, single-channel analogue oscilloscope designed for measuring and analyzing various electrical signals in a wide range of applications, including electronics, embedded systems, and industrial automation. This affordable and portable oscilloscope is an ideal tool for engineers, technicians, students, and hobbyists who require a reliable and easy-to-use device for signal measurement and debugging.

Functionality

Measure voltage, current, and frequency of signals

Analyze signal waveforms, including amplitude, period, and phase

Identify signal anomalies, such as glitches, oscillations, and distortions

Perform troubleshooting and debugging of electronic circuits and systems

Conduct educational experiments and demonstrations in electronics and physics

Key Features

• Bandwidth: 10 MHz, allowing for measurement of signals up to 10 million cycles per second
• Single Channel: Measures and displays a single input signal, with a maximum input voltage of 400 Vpk (peak-to-peak)
• Analogue Display: 1024 x 768 pixel, 10.1-inch colour TFT LCD screen provides a clear and detailed display of signal waveforms
• Sample Rate: Up to 500 MSa/s (mega-samples per second), ensuring accurate capture of high-frequency signals
• Memory Depth: 2.5 Kpts (kilopoints) per channel, allowing for detailed analysis of signal waveforms
• Trigger Modes: Supports various trigger modes, including edge, pulse, video, and alternative trigger modes
• Measurement Functions: Includes automatic measurements of signal parameters, such as amplitude, frequency, and period
• Probe Compensator: Integrated probe compensator ensures accurate measurements by adjusting for probe attenuation and capacitance
• Interface: USB port for connecting to a PC or laptop for data transfer and software updates
• Power Supply: Operates on a 12 V, 2 A DC power adapter or 6 x AA batteries (optional)

Additional Features

Allows for manual measurement of signal parameters using on-screen cursors

Internal storage for saving and recalling waveforms, settings, and measurements

Windows, MacOS, and Linux compatible software for data analysis and export

Physical Characteristics

240 x 180 x 60 mm (9.4 x 7.1 x 2.4 inches)

Approximately 1.2 kg (2.6 pounds)

0C to 40C (32F to 104F)

-20C to 60C (-4F to 140F)

Accessories

1 x 10x passive probe, 1 x power adapter, 1 x user manual, and 1 x software CD

Additional probes, battery pack, and carrying case available for purchase separately

The OWON MTQ 1016B is an excellent choice for anyone requiring a reliable, easy-to-use, and affordable single-channel analogue oscilloscope for measuring and analyzing electrical signals.

• OWON MTQ 1016B Analogue Oscilloscope - 10 MHz 1 Channel Pinout Guide
• The OWON MTQ 1016B is a compact and portable analog oscilloscope designed for measuring and analyzing electrical signals. The device has a single channel input and offers a bandwidth of 10 MHz. This documentation provides a detailed explanation of the pins on the oscilloscope and how to connect them.
• Pinout Structure:
• The OWON MTQ 1016B has a total of 11 pins, including the ground pin. The pins are divided into three categories:
• Channel Input: 1 pin
• Trigger and Probe Comp: 2 pins
• Power and Ground: 8 pins
• Pin-by-Pin Explanation:
• Channel Input:
• 1. CH1 (Input Signal): This pin is the input channel for the oscilloscope, where you connect the signal you want to measure or analyze.
• Trigger and Probe Comp:
• 2. TRIG (External Trigger Input): This pin is used to connect an external trigger signal to the oscilloscope. The trigger signal helps the oscilloscope to synchronize with the input signal.
• 3. COMP (Probe Compensation): This pin is used to compensate for the probe's attenuation and capacitance. Typically, a 50 terminator or a probe compensation network is connected to this pin.
• Power and Ground:
• 4. GND (Ground): This is the ground pin, which should be connected to the system's ground or a grounding point.
• 5. VIN (Input Voltage): This pin supplies power to the oscilloscope. Typically, a 5V or 9V DC power supply is connected to this pin.
• 6. VOUT (Output Voltage): This pin provides a regulated output voltage ( typically 5V or 3.3V) for external devices or accessories.
• 7. USB+ (USB Positive): This pin is used for USB communication and power delivery. Connect a USB cable to this pin to communicate with the oscilloscope or charge the device.
• 8. USB- (USB Negative): This pin is used for USB communication and power delivery. Connect a USB cable to this pin to communicate with the oscilloscope or charge the device.
• 9. CAL (Calibration): This pin is used for internal calibration and should not be connected to any external signal.
• 10. EXT (External Interface): This pin is reserved for future use and should not be connected to any external signal.
• 11. CASE (Chassis Ground): This pin is connected to the oscilloscope's chassis and provides additional grounding points.
• Connection Guidelines:
• When connecting the input signal to the CH1 pin, ensure the signal is within the oscilloscope's specified bandwidth (10 MHz) and voltage range (typically 10V).
• When using an external trigger, connect the trigger signal to the TRIG pin and adjust the trigger settings accordingly.
• For probe compensation, connect a 50 terminator or a probe compensation network to the COMP pin.
• Power the oscilloscope using a 5V or 9V DC power supply, connecting the positive voltage to the VIN pin and the ground to the GND pin.
• When using the USB interface, connect a USB cable to the USB+ and USB- pins, ensuring the cable is rated for the required current.
• Avoid connecting any signals to the CAL, EXT, or CASE pins, as they are reserved for internal use or future expansion.
• By following these guidelines and understanding the pinout structure, you can safely and effectively connect your OWON MTQ 1016B Analogue Oscilloscope to your measurement setup.