WOLFRAM SYSTEM MODELER

ShortTransientResistance

Model with short transient resistance.

Diagram

Wolfram Language

In[1]:=
SystemModel["EducationExamples.ElectricalEngineering.Battery.Components.CircuitElements.ShortTransientResistance"]
Out[1]:=

Parameters (92)

Qnom

Value: 3960.0

Type: Charge (C)

Description: Nominal capacity

Tref

Value: 298.2

Type: Real

Description: Reference temperature in K

k1

Value: -5.738

Type: Real

k2

Value: 209.9

Type: Real

ks1

Value: -0.0002046

Type: Real

ks2

Value: -2.1665

Type: Real

ks3

Value: 0.00001408

Type: Real

ks4

Value: 3.065

Type: Real

a1

Value: -0.5863

Type: Real

a2

Value: 21.9

Type: Real

a3

Value: 3.414

Type: Real

a4

Value: 0.1102

Type: Real

a5

Value: -0.1718

Type: Real

a6

Value: 0.008

Type: Real

b1d

Value: 0.1298

Type: Real

b2d

Value: -0.2892

Type: Real

b3d

Value: 0.2273

Type: Real

b4d

Value: -0.07216

Type: Real

b5d

Value: 0.0898

Type: Real

c1d

Value: 0.0108

Type: Real

c2d

Value: 11.03

Type: Real

c3d

Value: 0.01827

Type: Real

c4d

Value: -0.006462

Type: Real

d1d

Value: 169.7

Type: Real

d2d

Value: -1007.0

Type: Real

d3d

Value: 1408.0

Type: Real

d4d

Value: 389.7

Type: Real

g1d

Value: 0.295

Type: Real

g2d

Value: 20.0

Type: Real

g3d

Value: 0.04722

Type: Real

g4d

Value: -0.0242

Type: Real

h1d

Value: 2130000.0

Type: Real

h2d

Value: -6007000.0

Type: Real

h3d

Value: 6271000.0

Type: Real

h4d

Value: -2958000.0

Type: Real

h5d

Value: 599800.0

Type: Real

h6d

Value: -31020.0

Type: Real

h7d

Value: 2232.0

Type: Real

b1c

Value: 0.1369

Type: Real

b2c

Value: -0.2518

Type: Real

b3c

Value: 0.1609

Type: Real

b4c

Value: -0.041

Type: Real

b5c

Value: 0.0821

Type: Real

c1c

Value: 0.0000000005896

Type: Real

c2c

Value: -18.75

Type: Real

c3c

Value: 0.01388

Type: Real

d1c

Value: -10260.0

Type: Real

d2c

Value: 17230.0

Type: Real

d3c

Value: -10130.0

Type: Real

d4c

Value: 2340.0

Type: Real

d5c

Value: 684.9

Type: Real

g1c

Value: 0.000000000000008913

Type: Real

g2c

Value: -32.23

Type: Real

g3c

Value: 0.031

Type: Real

g4c

Value: 0.007473

Type: Real

h1c

Value: -154100.0

Type: Real

h2c

Value: 204200.0

Type: Real

h3c

Value: -4009.0

Type: Real

h4c

Value: -81240.0

Type: Real

h5c

Value: 22830.0

Type: Real

h6c

Value: 7144.0

Type: Real

gi1c

Value: -0.4124

Type: Real

gi1d

Value: 0.6993

Type: Real

gi2c

Value: -1.082

Type: Real

gi2d

Value: -0.6919

Type: Real

gi3c

Value: -0.873

Type: Real

gi3d

Value: 0.2902

Type: Real

bt1d

Value: 0.7613

Type: Real

bt2d

Value: 10.14

Type: Real

bt3d

Value: 260.8

Type: Real

ct1d

Value: -0.0003697

Type: Real

ct2d

Value: 0.0002225

Type: Real

dt1d

Value: -6.58

Type: Real

dt2d

Value: 12.11

Type: Real

gt1d

Value: 0.006718

Type: Real

gt2d

Value: -0.0005967

Type: Real

ht1d

Value: 3128.0

Type: Real

ht2d

Value: -2398.0

Type: Real

bt1c

Value: 0.7192

Type: Real

bt2c

Value: 33.91

Type: Real

bt3c

Value: 199.9

Type: Real

ct1c

Value: 986900000.0

Type: Real

ct2c

Value: -0.1479

Type: Real

ct3c

Value: -0.1178

Type: Real

ct4c

Value: 13.99

Type: Real

ct5c

Value: -0.0001897

Type: Real

ct6c

Value: 0.07054

Type: Real

dt1c

Value: 8.814

Type: Real

gt1c

Value: -0.01344

Type: Real

gt2c

Value: 5.011

Type: Real

ht1c

Value: 0.00002611

Type: Real

ht2c

Value: 0.03541

Type: Real

Connectors (3)

batteryState

Type: RealInput[3]

Description: 'input Real' as connector

p

Type: PositivePin

Description: Positive pin of an electrical component

n

Type: NegativePin

Description: Negative pin of an electrical component

Components (7)

deMultiplex31

Type: DeMultiplex3

Description: DeMultiplexer block for three output connectors

resistance

Type: VariableResistor

Description: Ideal linear electrical resistor with variable resistance

discharging

Type: RealExpression

Description: Set output signal to a time varying Real expression

charging

Type: RealExpression

Description: Set output signal to a time varying Real expression

switch

Type: Switch

Description: Switch between two Real signals

greaterThreshold1

Type: GreaterThreshold

Description: Output y is true, if input u is greater than threshold

pre1

Type: Pre

Description: Breaks algebraic loops by an infinitesimal small time delay (y = pre(u): event iteration continues until u = pre(u))

Used in Components (1)

BatteryCell

EducationExamples.ElectricalEngineering.Battery.Components

The main battery cell model