GOTTIUG HG57500C Industrial-grade dual-channel frequency generator
Product Overview: Gotting HG 57500-C
The HG 57500-C is an industrial-grade dual-channel frequency generator. Its core function is to inject alternating current of a specific frequency into the induction Loop laid underground, thereby generating an alternating magnetic field for the AGV’s sensors to identify routes.
1. Main technical specifications
Main technical specifications
Technical indicators of parameter items
The number of channels: Dual-channel (capable of independently controlling two induction loops)
Working mode: Constant current mode (ensuring stable magnetic field intensity)
The frequency range typically supports 8 kHz to 19.2 kHz(depending on the specific jumper Settings).
The loop current is adjustable, typically supporting up to approximately 200 mA. The synchronization function enables frequency synchronization among multiple generators (to avoid signal interference)
2. Core functional features
Dual-channel design: One device can simultaneously drive two guide lines, saving space and cost.
Load monitoring: Equipped with short-circuit protection and impedance over-limit alarm, feedback is provided through the LED indicator light on the panel.
Frequency stability: High-precision oscillators are adopted to ensure that the AGV sensor can accurately lock the frequency.
Installation method: Usually used in conjunction with Gotting’s dedicated racks (such as HG 93160 or HG 93161).
3. Panel indicator light description
PWR (Power): Normal power supply.
Loop 1/2 OK: The corresponding induction loop is connected normally and the current is stable.
Short (Short Circuit): A short circuit at the output terminal is detected.
Open/Imp (Open Circuit/High Resistance): Detected breakage of the induction line or load mismatch.
Safety and installation tips
This device is usually used in a 24V DC environment. When installing, the impedance of the induction loop must be within the range specified by the equipment (usually compensated by series or parallel capacitors) to achieve the best resonance state