Extending the voltage and current range, Series connections, Parallel connections – Agilent Technologies E3632A User Manual

Chapter 7 Tutorial

Extending the Voltage and Current Range

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7

Extending the Voltage and Current Range

The power supply may be able to provide voltages and currents greater than

its rated maximum outputs if the power-line voltage is at or above its nominal

value. Operation can be extended up to 3% over the rated output without

damage to the power supply, but performance can not be guaranteed to meet

specifications in this region. If the power-line voltage is maintained in the upper

end of the input voltage range, the power supply will probably operate within

its specifications. The power supply is more likely to stay within specifications

if only one of the voltage or current outputs is exceeded.

Series Connections

Series operation of two or more power supplies can be accomplished up to the

output isolation rating of any one supply to obtain a higher voltage than that

available from a single supply. Series connected power supplies can be

operated with one load across both power supplies or with a separate load for

each power supply. The power supply has a reverse polarity diode connected

across the output terminals so that if operated in series with other power

supplies, damage will not occur if the load is short-circuited or if one power

supply is turned on separately from its series partners.

When series connection is used, the output voltage is the sum of the voltages

of the individual power supplies. The current is the current of any one power

supply. Each of the individual power supplies must be adjusted in order to

obtain the total output voltage.

Parallel Connections

Two or more power supplies being capable of CV/CC automatic cross over

operation can be connected in parallel to obtain a total output current greater

than that available from one power supply. The total output current is the sum

of the output currents of the individual power supplies. The output of each

power supply can be set separately. The output voltage controls of one power

supply should be set to the desired output voltage; the other power supply

should be set for a slightly higher output voltage. The supply with the higher

output voltage setting will deliver its constant current output, and drop its

output voltage until it equals the output of the other supply, and the other

supply will remain in constant voltage operation and only deliver that fraction

of its rated output current which is necessary to fulfill the total load demand.