Hameg HM507 User Manual

Icons indicating manual reference, high voltage, and earth connection.

Crucial safety guidelines for operation, electrical protection, and hazard warnings.

Defines authorized use, operating environment, and performance limits.

Details the 2-year warranty coverage, exclusions, and service procedures.

Recommendations for cleaning, upkeep, and ensuring instrument longevity.

Explains the automatic protection against overvoltage and overload conditions.

Covers input voltage requirements, fuse access, and replacement procedures.

Principles of measuring voltage, Vpp, Vrms, and calculating display values.

Methods for measuring signal periods, frequencies, and time coefficients.

Guidance on connecting test signals, using probes, and proper impedance matching.

Overview of front panel controls, LEDs, and electronic setting interrogation.

Navigating standard and pulldown menus using pushbuttons for instrument setup.

Details on alphanumeric display of instrument settings, results, and cursor data.

Comprehensive explanation of individual front panel controls and their functions.

Recalling and displaying stored reference signals for comparison or analysis.

Saving currently displayed signals into non-volatile reference memories.

Configuring signal display options, dot join, and source information visibility.

Initiating hardcopy documentation of the oscilloscope display and settings.

Correcting horizontal trace alignment affected by Earth's magnetic field for accuracy.

Essential steps for matching probes to amplifier impedance for accurate waveform display.

Procedure for calibrating the probe's low-frequency compensation to match oscilloscope input.

Displaying signals from channel I or channel II individually.

Simultaneously displays signals from both channel I and channel II.

Displays the algebraic sum or difference of signals from both channels.

Plots channel I (X) against channel II (Y) for signal relationship analysis.

Visualizing phase differences between two signals of the same frequency.

Measuring the time shift between two signals using the time base.

Analyzing HF carrier voltage modulated by an AF signal for distortion.

Utilizing TV sync separator for stable triggering of video signals like line or field.

Triggering based on mains frequency for displaying ripple voltages or synchronous signals.

Triggering on asynchronous signals from two different sources in DUAL mode.

Using an external signal source to synchronize the time base sweep.

Allows triggering after a specified delay, enabling signal expansion and analysis.

Displays the DC mean value of a signal, replacing cursor measurements.

How capacitors/inductors affect display patterns due to phase differences.

Displays voltage-dependent characteristics for diodes, transistors, and FETs.

Identifies forward knee characteristics and Zener breakdown voltages.

Illustrates test patterns for B-E, B-C, and E-C junctions of transistors.

Overview of modes like REFRESH, ENVELOPE, AVERAGE, SINGLE, ROLL, and XY.

Capturing signals in real-time, requiring a trigger for accurate acquisition.

Capturing repetitive signals randomly for higher frequencies than realtime.

Details the 8-bit vertical resolution and 25 trace positions per division.

Specifies the number of samples per division for digital signal display.

Warnings about high-level reference potential and liability for misuse of the interface.

Connects the oscilloscope to a PC via serial interface for parameter control.

Pin assignments and specifications for the serial communication cable connection.

Defines communication parameters like parity, data bits, and stop bits for serial data.

Information on available software, programming examples, and command lists for PC control.