Schumacher DSR127 8-Bank Digital Battery Charging Station, 6/12V, 2-12 Amp Output per Bank
- The Schumacher DSR127 is a professional 8-bank automatic battery charger and maintainer. It supports both 6-volt and 12-volt lead-acid and LiFePO4 batteries, with independent control for each bank and a digital display per channel.
- Features:
- Eight independent microprocessor-controlled banks, each automatically adjusting output from 2 to 12 amps.
- Supports Standard, AGM, Gel, Deep-Cycle, and LiFePO4 battery types (6V/12V).
- Digital display for each bank showing voltage, current, or charge percentage.
- Recovery mode for sulfated batteries (non-lithium).
- Built-in protection: safe start, reverse polarity, short circuit, thermal runaway, and overcharge protection.
- Heavy steel enclosure and fan cooling for durable operation in workshop environments.
- Specifications:
- Manufacturer: Schumacher Electric
- Model / Part Number: DSR127
- Input Voltage: 120 V AC, 12 A max
- Supported Battery Voltages: 6 V and 12 V
- Output Current per Bank: 2-12 A (automatically adjusted)
- Battery Types Supported: Standard, AGM, Gel, Deep-Cycle, LiFePO4
- Application / System Compatibility: Ideal for workshops, fleets, and garages needing to charge multiple batteries simultaneously under smart control
- Alternate names include Schumacher DSR-127 8-Bank Charger, Schumacher 8-Bank Digital Charging Station, DSR127 Battery Maintenance Station, and Schumacher multi-bank charger DSR127.
The Schumacher DSR127 8-Bank Digital Charging Station is built for high-volume service environments. With independent control, recovery mode, and broad battery type compatibility, it streamlines battery maintenance for fleets and repair shops.
Q: Can it charge 6V and 12V batteries at once?
A: Yes - each bank independently supports 6V or 12V operation.
Q: What’s the output range per bank?
A: Each bank automatically adjusts between 2 amps and 12 amps depending on battery state.
Q: What safety protections are built in?
A: It includes safe-start, reverse polarity, short circuit, thermal runaway, and overcharge protection.
