Signal generator

The invention claimed is: 1. A signal generator comprising: a processing unit, wherein: the signal generator is configured to generate at least one periodic output signal, the periodic output signal comprises a triangular-waveform signal, a frequency and an amplitude of the periodic output signal are adjustable, the signal generator is configured to receive an input parameter, the input parameter comprises at least one piece of information about a setpoint amplitude and a setpoint frequency of the periodic output signal, the processing unit is configured to determine a signal direction of the periodic output signal, the processing unit is configured to determine a step size, the processing unit is configured to apply the step size to an actual amplitude based on the signal direction for a number of clock cycles, and the number of clock cycles is dependent on the setpoint frequency of the periodic output signal. 2. The signal generator of claim 1 , wherein the processing unit is configured to determine the triangular-waveform signal by: a) determining a starting variable n0, wherein, depending on the signal direction, the determining comprises adding or subtracting the step size to or from a starting value, where n0=n0+(step size*signal direction), and wherein the step size is dependent on the setpoint amplitude and the setpoint frequency; b) limiting the starting variable determined in a); and c) storing the limited starting variable as the triangular-waveform signal. 3. The signal generator of claim 2 , wherein the processing unit is configured to, in step b): determine a scaled amplitude n1, with n1=amp*nscale, where amp is the setpoint amplitude and nscale is a scaling factor; and limit the determined starting variable to the scaled amplitude. 4. The signal generator of claim 2 , wherein the processing unit is configured to adapt the signal direction of the periodic output signal after step c). 5. The signal generator of claim 1 , wherein the processing unit is configured to at least one of: add the step size to the actual amplitude of the periodic output signal; and subtract the step size from the actual amplitude based on the signal direction. 6. The signal generator of claim 1 , wherein: the signal generator is configured to generate at least one square-wave signal; and the processing unit is configured to determine the square-wave signal from the signal direction and the setpoint amplitude. 7. The signal generator of claim 6 , wherein the signal generator is configured to generate the square-wave signal simultaneously with the triangular-waveform signal. 8. The signal generator of claim 1 , wherein: the signal generator is configured to generate a sine wave signal; and the processing unit is configured to determine and generate the sine wave signal by squaring and scaling the triangular-waveform signal. 9. The signal generator of claim 8 , wherein the signal generator is configured to generate the sine wave signal simultaneously with the triangular-waveform signal. 10. The signal generator of claim 1 , wherein the processing unit comprises at least one of a microcontroller, a field programmable gate array (FPGA), and a processor. 11. A system comprising: the signal generator of claim 1 ; and a computer environment comprising at least one of a microcontroller, an integrated circuit, and a processor of a computer. 12. The system of claim 11 wherein: the computer environment comprises the integrated circuit; and the integrated circuit is a field programmable gate array (FPGA). 13. A system comprising: the signal generator of claim 1 ; a computing unit; and a communication interface, wherein the at least one piece of information is inputtable into the communication interface, and wherein the computing unit is configured to preprocess the at least one piece of information and to transmit the preprocessed information to the signal generator. 14. The system of claim 13 , further comprising a further computing unit configured to perform data preprocessing. 15. A method for generating at least one periodic output signal by a signal generator, the periodic output signal including a triangular-waveform signal with a configurable frequency and amplitude, the method comprising: i) receiving an input parameter, wherein the input parameter comprises at least one piece of information about a setpoint amplitude and a setpoint frequency of the periodic output signal, ii) determining a signal direction of the periodic output signal using at least one processing unit; and iii) determining a step size by using the processing unit and applying the step size to an actual amplitude based on the signal direction for a number of clock cycles, wherein the number of clock cycles is dependent on the setpoint frequency of the periodic output signal. 16. The method of claim 15 , further comprising determining the triangular-waveform signal by: iv) determining a starting variable n0 by, depending on the signal direction, adding or subtracting a step size to or from a starting value, where n0=n0+(step size*signal direction), wherein the step size is dependent on the setpoint amplitude and the setpoint frequency; v) limiting the starting variable determined in iv); and vi) storing the limited starting variable as the triangular-waveform signal. 17. The method of claim 15 , further comprising generating at least one of a square-wave signal and a sine wave signal. 18. The method of claim 17 , wherein the at least one of the square-wave signal and the sine wave signal is generated simultaneously with the triangular-waveform signal. 19. The method of claim 15 , further comprising at least one preprocessing step, in which the at least one input parameter is provided.