Available in models from 300 watts to 1500 watts in both shelf and rack mount. Low input voltage VTC315, VTC615 and VTC1015 models handle input voltages from 24 to 72VDC. High input voltage VTC310, VTC610, VTC1000 and VTC1505 models handle input voltages from 100 to 400VDC. All models have output voltage ranges from 12 to 72 (rail) VDC. Bright easy to read LED voltage and current meters are an available option on most models.
Also available is a hybrid VTC120i model that features transformer isolated 12 or 14VDC Input and 5, 12 or 24VDC Output with a 5 amp (VTC120i) or 7 amp (VTC120ih) linear post-regulator for the lowest ripple and noise.
Common Negative or Fully Isolated DC to DC models to convert or regulate DC voltages from 12 to 400 volts IN to DC voltages from 12 to 72 (rail) volts OUT at power levels from 100 to 1500 watts. Models are available to step-up, step-down, stabilize or isolate DC power over a range of 12 to 360 volts. No matter which unit you need, these easy-to-install Voltage Converters will give you many years of reliable service.
Analytic Systems’ modern DC/DC Voltage Converters use efficient filtering, allowing for ultra-quiet operation. In addition, our converters are:
Made from marine-grade aluminium extrusions or heavy-gauge aluminium sheet metal
Powder-coated or anodized, and use stainless fittings throughout
Fitted with robust circuit boards using expensive heavy-gauge copper conductors, designed by Analytic Systems’ engineers and assembled in our plant
Analytic Systems manufactures two different kinds of DC-DC Voltage Converters.
The first is Common Negative, where the input and the output share the same ground. These do not typically use a transformer and are less expensive to build. Models are available to step-down (Buck), step up (Boost), or a combination of step down and step up (Buck-Boost).
The second is Isolated, where a high frequency transformer is used to provide electrical isolation between input and output. These are typically used where there are different grounds for the input and output voltages, or if there is a large difference between the input voltage and output voltage.