Frequency transmitter SINEAX F534

▶Product Introduction

The SINEAX F534 frequency transmitter is used to convert the system frequency into a proportional DC signal.

▶Product Features

▪Determine the continuity and stability of the fundamental frequency of the power system
▪Germanischer Lloyd standards, applicable to ships
▪The output signal can be used for indication, registration, monitoring, and control
▪Ensure safety through current isolation and shockproof terminals (IP20)

▶technical data

▪Measurement input: Input nominal voltage of 10... 230V or 230V 690V
▪Measurement range: 45... 50... 55 Hz, 47…49…51 Hz, 47.5…50…52.5 Hz, 48…50…52 Hz,， 58... 60... 62 Hz or user-defined between 10 and 1500Hz
▪Measurement output: The maximum output value is 0... 20mA, 4... 20mA, 0... 10V, or user-defined within the range of 1... 20mA or 1... 10V. The output signal is unipolar, symmetrical bipolar, or zero crossing. The setting time can be selected from 2, 4, 8, or 16 cycles of the input frequency
▪Accuracy: Level 0.2 within 15... 30 ℃
▪Power supply: 24-60V AC/DC or 85-230V AC/DC (can also be measured from internal input), 24V AC/24-60V DC, connected through the low voltage side
▪Dimensions: 69.1 x 70 x 112.5 mm, top cap guide rail installation (35x15mm or 35x7.5mm)

▶application

Frequency is an important control variable in power systems and distribution systems. The changes in system frequency, especially in cases of system overload or underload, must be immediately identified and measures taken in a timely manner. Frequency fluctuations have a significant impact on the performance of connected devices. However, frequency variation can be utilized in drive engineering to improve start-up and speed characteristics, for example, by using frequency as a control variable in a frequency converter and measuring frequency through zero phase voltage or phase to phase voltage directly connected to the converter. Frequency transmitters are also suitable for distortion voltages of dominant fundamental waves, outputting DC signals proportional to the measured frequency.