Remote sensing -52, Figure 3-23. remote voltage sensing network -52, N 3.14 – AMETEK SGI Series User Manual

Calibration and Verification

Sorensen SGI Series

3-52

M550221-01 Rev AA

3.14

Remote Sensing

Remote voltage sensing is recommended at all times, whether the sense leads
are connected to the load or to the output terminals. Remote sensing is
required to meet the performance specifications of the power supply. It is
essential in applications where the load is located some distance from the
power supply, or the voltage drop of the power output leads significantly
interferes with load regulation.

The voltage accuracy specifications are valid only with remote sense
connected. Disconnecting the remote sense leads will introduce an error, with
the output voltage increasing. The error occurs because an additional
resistance (PTC local resistor network in Figure 3-23) is present in the circuit
of the resistor divider for voltage sensing, to provide the default local sensing
of the output voltage at the output terminals. When remote sense is connected
the PTC local resistor network is short-circuited, effectively removing it from
the circuit.

Sense (+)

Power Supply

Out (+)

Out (-)

Sense (-)

Remote Sense
Resistor Network

Output
Power
Converter

PTC

Local
Resistor
Network

Remote
Sense
Amplifier

Figure 3-23. Remote Voltage Sensing Network