Note, Figure 3-2. remote voltage sensing connections, Stability 49 – Agilent Technologies E3632A User Manual

Chapter 3 Front-Panel Operation

Remote Voltage Sensing

49

3

Stability

Using remote sensing under certain combinations of load lead lengths and

large load capacitances may cause your application to form a filter, which

becomes part of the voltage feedback loop. The extra phase shift created by

this filter can degrade the power supply’s stability, resulting in poor transient

response or loop instability. In severe cases, it may cause oscillations. To

minimize this possibility, keep the load leads as short as possible and twist

them together. As the sense leads are part of the power supply’s programming

feedback loop, accidental open-connections of sense or load leads during

remote sensing operation have various unwanted effects. Provide secure and

permanent connections.

Remote Voltage Sensing Connections

Remote voltage sensing requires connecting the load leads from output

terminals to the load and connecting the sense leads from sense terminals to

the load as shown below. Observe polarity when connecting the sensing leads

to the load.

Notice that the metal shorting bars should be removed from the output and

sense terminals for remote voltage sensing connections.

N o t e

For local voltage sensing connections, the sense leads must be connected to

the output terminals.

N o t e

During remote sensing setup, it is strongly recommended to power off (by

presssing power ON/OFF button) the power supply to avoid

undesirable

damage to the load or the power supply.

Figure 3-2. Remote Voltage Sensing Connections