The EA1036 Series of 36W single output AC-DC desktop power supplies are universal input with IEC320 C14 3 pin sockets. Units have dimensions of 98 x 45 x 31 mm and a weight of 220g.
Units in the EA1036 Series have auto-recovery function for short circuit and over voltage situations and are RoSH compliant with CEC compliance as optional.
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The EA1050 Series is a range of economy type desktop power supplies with IEC320 C14 sockets.
Units in the EA1050 Series are RoHS and CEC compliant with over current protection and auto recovery over voltage and short circuit protections built in.
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The EA1060 Series of single output desktop power supplies offers compact 280g units with dimensions 107L x 60W x 30H (mm).
Units in the EA1060 Series have IEC320 C8 2 PIN socket and auto-recovery for over voltage and over current situations.
RoSH compliance is standard with optional compliance to CEC Efficiency Regulations available.
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The EA1071 Series is a range of ultra slim, single output, 70W desktop type power supplies with IEC320 C8 2PIN sockets. Unit dimensions are 93mm x 58mm x 16.8mm with a weight of 350g .
Units in the EA1071 series have RoHS compliance with optional CEC compliance, and inbuilt protections for over voltage and over temperature. Auto recovery protection is included for short circuit and over current situations.
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The EA10953 Series is a range of single output desktop power supplies with active PFC. Units have dimensions of 132L x 58.5W x 33.7H (mm) with a weight of 420g.
Units in the EA10953 Series have IEC320 C6 3 PIN sockets and auto-recovery for over voltage and over current situations.
RoSH compliance is standard with optional compliance to CEC Efficiency Regulations available.
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ELN-30 Series is a 30W AC/DC Enclosed type switching power supply, with IP64 rated fully enclosed plastic case, designed to add to our economical lighting application power supply products. ELN-30 has a non-PFC design to keep the cost down but still complies with the requirements of UL1310 Class 2. The output power of these limited power sources will be less than 100VA or 5A under any situation, making the risk of hazardous exposure to maintenance engineers reduced. Other standard functions include adjustable output voltage/current, short circuit, over load and over voltage protections.
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The ESC-120 Series are 108W SLA desktop battery chargers with switch selectable choice of input AC voltage. A three colour LED light display shows loading status and cooling is by free air convection.
ESC-120 battery chargers have a fixed switching frequency of 25KHz and in-built polarity protection together with protection against battery under or over voltage, short circuit, overload and over temperature conditions.
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The ESC-240 Series are 216W SLA desktop battery chargers featuring switch selectable input AC voltage.
Units in the ESC-240 Series are cooled by inbuilt DC fan and three colour LED lights indicate loading status. There is a fixed switching frequency of 25KHz.
Battery chargers in this series have in-built polarity protection together with protection against battery under or over voltage, short circuit, overload and over temperature.
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The GC-120 Series are 120W battery chargers with 3 pole AC inlet and 2 stage charging characteristics. This range of battery chargers features active PFC PF<0.97 and a low no load power consumption of <0.5W.
GC-120 units are fully enclosed within plastic casing and are cooled by free air convection with LED indicators showing charging status.
Units have inbuilt protection for short circuit, overload, over voltage and over temperature conditions.
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The GC-220 Series are 220W battery chargers featuring 2 stage charging with universal AC input and 3 pole AC inlet. Units in this series are fully enclosed within plastic casing.
Battery chargers in the GC-220 Series have a ‘no load’ power consumption of <1W and PFC function with a PF >0.91.
Each unit has two colour LED indicators to show charge status and are cooled by free air convection.
The GC-220 Series have inbuilt protection against overload, over temperature, over voltage and short circuit conditions.
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