Installation
Model
The maximun output
current (A)
62012P-80-60 60
62012P-100-50 50
62012P-600-8 8
62012P-30-160
60
62006P-100-25 25
2.4.3
Specification of Connecting Wire
The maximum output inductance of connecting wire to the source is 2µH (it is the total
inductance of two wires after twisted or processed otherwise including self inductance and
mutual inductance).
CAUTION
1. To ensure the system’s stability, the cable inductance should not exceed
2µH.
2. Do not use the wire with extra thin diameter to avoid overheating and causing hazard.
2.4.4
Specification of Parallel Capacitance
The maximum output parallel capacitance is 10000µF (10mF).
CAUTION
1. To ensure the system’s stability, the capacitance should not exceed 10000µF (10mF).
2. Be aware of the polarity and its withstand voltage when paralleling capacitance.
2.5 Remote
Sensing
2.5.1 Correct
Connection
1. Connecting remote sensing wire correctly can ensure the output voltage is the set voltage.
The DC Power Supply is able to compensate maximum 5V line voltage drop.
2. Figure 2-5 shows the correct connection. Use two wires to connect the positive/negative
connector of load to the remote sensing connector on the rear panel. The connecting
wire diameter must be larger than 30AWG and its withstand voltage should within the
specification.
3. Though remote sensing is able to compensate the voltage drop for 5V, the maximum
output power of DC Power Supply is still rated (1200W for 62012P Series and 600W for
62006P Series, the output power is calculated by multiplying the voltage on output
terminal and the current passed.) Therefore, if the power exceeds the DC Power Supply
can provide, it is unable to compensate the voltage drop to 5V. The DC Power Supply
will activate Over Power Protection (OPP).
2-5