Description
Arowana PSLIN6 Power Supply for Line6 Processors
The Arowana PSLIN6 is a high-quality 9V 3A power supply designed specifically for Line6 modelling processors including Pod Go, HX Stomp and HD series units.
Digital guitar processors require stable high-current power to perform reliably. The PSLIN6 delivers clean and regulated voltage ensuring smooth operation without hum, electrical noise or instability.
Designed for Line6 Modellers
- 9V 3 Amp regulated output
- Center negative polarity
- 5.5mm x 2.5mm connector
- Compatible with Line6 Pod Go, HX Stomp and HD series processors
- Stable power for digital modelling processors
Clean Power & Protection
- Short circuit protection
- Overload protection
- Ferrite core cable reduces EMI and RFI interference
- Stable regulated voltage output
- Designed for studio and stage environments
Specifications
- Model: PSLIN6
- Output Voltage: 9V DC
- Output Current: 3A
- Polarity: Center Negative
- Connector: 5.5mm outer / 2.5mm inner
- Cable Length: 1 Meter
- Ferrite Core: Yes (EMI / RFI suppression)
- Protection: Short Circuit & Overload Protection
- Warranty: 15 Months
Procraft India is the official distributor and supplier of Arowana products across India.
Frequently Asked Questions
Which Line6 devices is the PSLIN6 compatible with?
The PSLIN6 is compatible with Line6 modelling processors such as Pod Go, HX Stomp and HD series units that require a 9V 3A center negative power supply with a 5.5mm × 2.5mm connector.
Why does the HX Stomp require a 3A power supply?
Digital modelling processors require higher current than standard guitar pedals. The 3A output ensures stable operation and prevents performance issues caused by insufficient power.
What connector size does this power supply use?
The PSLIN6 uses a 5.5mm outer diameter and 2.5mm inner pin connector which is standard for many Line6 processors.
Does this power supply include protection features?
Yes. The PSLIN6 includes short circuit protection, overload protection and ferrite core shielding to reduce EMI and RFI interference.