300 V Electrophoresis Power Supply (220 V Input)
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300 V Electrophoresis Power Supply (220 V Input) 300 V Electrophoresis Power Supply (220 V Input)

300 V Electrophoresis Power Supply (220 V Input)

  • $575.17 Model Number SH-300XL-220



  • 220 vac input voltage
  • 300 vdc – 400 mA output
  • Fault detection, 500 uA current leakage detection, no-load auto shut down.
  • Power failure alarm with automatic re-start at current values.
  • Now with 4 outputs

The NEW SH-300XL-220 IBI electrophoresis power supply is designed for use in the separation of DNA and RNA, blotting DNA fragmentation, immunoelectrophoresis, and protein separations. The FOUR outputs of the SH-300XL-220 allows the user to run FOUR gel boxes, with the same run parameters simultaneously.

The SH-300XL-220 has an automatic cross-over function that gives the user flexibility in choosing which run parameter is best suited for the application, applied voltage or amperage.

The SH-300XL-220 is compact and lightweight, maximizing valuable lab bench space and providing ease of mobility.

The SH-300XL-220 utilizes a 220 vac input, is CE marked and comes with a European cord set.

Unit Dimensions: 2.8” (H) x 6.7” (W) x 9.5” (L)
Unit Weight: 4 Lbs.
Input Volt. 240 vac
Output: 300 vdc – adjustable in 1 V steps
400 ma – adjustable in 1ma steps
Max. Watts: 120 W
Number of outputs: 4
Safety Features: 500 ua leakage current detection. No-Load auto shut down.
Power failure alarm with auto start-up at current settings.

Trouble Shooting Issues *Power Supply “Fault” – this is due to an incomplete circuit. Somewhere there is a bad wire, loose wire, or loose connection. Make sure everything is completely plugged in. Otherwise, there is “leakage current.” This system produces X amount of current which leaves the power supply through one cord and that same amount of current must return to the power supply through the other cord. If there is less current returning, there is a leak somewhere, so the system shuts down/faults. *Low Current – May need to increase the voltage in order to overcome the Resistance/Impedance of the gel and buffer. (Only one parameter can be set at a time…the other will seek its level based on the amount of Impedance/Resistance.) However, this will increase heat. Therefore, ice cubes should be added or the re-circulation port should be used to cool the buffer, etc.