6 derating function for chassis units – Efficient Networks Siemens Sinamics S120 User Manual

Infeed

1.6 Derating function for chassis units

Drive Functions
Function Manual, (FH1), 07/2007 Edition, 6SL3097-2AB00-0BP4

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1.6

Derating function for chassis units

Description

An adjusted derating function can greatly reduce the noise level during the operation of the

chassis power units (Motor and Power Modules) and enable operation at a multiple of the

nominal pulse frequency at nearly nominal current. This is achieved by monitoring the

temperature increase between heat-sink and chip by means of temperature sensors. When

the operating temperature threshold is exceeded, the pulse frequency or permitted current

limit, respectively, is automatically reduced.
This enables the maximum output current of the power unit to be achieved even at high

pulse frequencies. The derating curve becomes effective at a later point.
The derating function is effective with Motor Modules (DC/AC units of chassis type) and

Power Modules (AC/AC units of chassis type). Units that are connected in parallel operate in

the same manner as single units. The dependency of the output current of the pulse

frequency for the chassis power units of the SINAMICS S120 is described in the S120

Function Manual, Chassis Power Units.

Functional principle

In order to optimize the use of the power unit also at temperatures below the maximum

permitted ambient temperature, the maximum output current is controlled as a function of the

operating temperature. This function also accounts for the dynamic response of the thermal

performance (rise and decay curves of the operating temperature).
An alarm threshold is calculated that is weighted with the current ambient temperature.
By weighting the alarm threshold with the current ambient temperature, the power unit can

output higher currents close to nominal current even at lower ambient temperatures.
Depending on the setting of parameter p290 "Power unit overload response", the pulse

frequency or the current will be reduced, or no response will occur if the alarm threshold is

exceeded. An alarm (e.g. A07805 "Infeed: Power unit overload") is generated even if no

response is desired.
The following quantities can result in a response to thermal overload:
● Heat-sink temperature (r0037.0)
● Chip temperature (r0037.1)
● Power unit overload I2T (r0036)
Possible measures to avoid thermal overload:
● Reduce the output current (closed-loop speed/velocity or torque/force control) or the

output frequency (V/f control).

● Reduce the pulse frequency (only for closed-loop vector control).
Parameter r293 "Power unit alarm threshold model temperature" indicates the temperature

alarm threshold for the difference between the chip and heat-sink temperatures.