Variable Thermal Resistance

Variable resistance in thermal systems

Libraries:
Simscape / Foundation Library / Thermal / Thermal Elements

Description

The Variable Thermal Resistance block lets you model a variable heat transfer process in generalized terms, independent of whether it is by conduction, convection, radiation, or a combination thereof. Thermal resistance is an abstract quantity that relates the thermal conductivity, the heat transfer coefficient, and the radiation coefficient. Thermal resistance of this block can vary with time, according to the input physical signal at port R.

The heat transfer equation for the Thermal Resistance block is:

$R \cdot Q = Δ T$

where:

R is the thermal resistance.
Q is the heat flow rate.
ΔT is the temperature difference between layers.

Thermal resistance is related to the other heat transfer quantities as follows:

$R = \frac{D}{k \cdot A} = \frac{1}{h \cdot A} = \frac{1}{r \cdot A (T_{A}^{2} + T_{B}^{2}) (T_{A} + T_{B})}$

where:

D is material thickness, that is, distance between layers.
A is area normal to the heat flow direction.
k is thermal conductivity of the material.
h is convection heat transfer coefficient.
r is radiation coefficient.
T_A and T_B are temperatures at ports A and B, respectively.

Variables

To set the priority and initial target values for the block variables prior to simulation, use the Initial Targets section in the block dialog box or Property Inspector. For more information, see Set Priority and Initial Target for Block Variables.

Nominal values provide a way to specify the expected magnitude of a variable in a model. Using system scaling based on nominal values increases the simulation robustness. Nominal values can come from different sources, one of which is the Nominal Values section in the block dialog box or Property Inspector. For more information, see Modify Nominal Values for a Block Variable.

Ports

Input

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R — Thermal resistance control signal, K/W
physical signal

Input physical signal that specifies the thermal resistance value.

Conserving

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A — Layer A
thermal

Thermal conserving port associated with layer A.

B — Layer B
thermal

Thermal conserving port associated with layer B.

Parameters

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Minimum thermal resistance — Minimum thermal resistance value allowed
0 K/W (default)

If the input physical signal falls below this value, the resistance remains at this value.

Extended Capabilities

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.

Version History

Introduced in R2017b

Variable Thermal Resistance

Description

Variables

Ports

Input

R — Thermal resistance control signal, K/W physical signal

Conserving

A — Layer A thermal

B — Layer B thermal

Parameters

Minimum thermal resistance — Minimum thermal resistance value allowed 0 K/W (default)

Extended Capabilities

C/C++ Code Generation Generate C and C++ code using Simulink® Coder™.

Version History

See Also

R — Thermal resistance control signal, K/W
physical signal

A — Layer A
thermal

B — Layer B
thermal

Minimum thermal resistance — Minimum thermal resistance value allowed
0 K/W (default)

C/C++ Code Generation
Generate C and C++ code using Simulink® Coder™.