STK672-732AN-E Datasheet, PDF(20/26 Page) ON Semiconductor

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STK672-732AN-E Datasheet, PDF (20/26 Pages) ON Semiconductor – 2-phase Stepper Motor Driver

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5. Thermal design

STK672-732AN-E

[Operating range in which a heat sink is not used]

Use of a heat sink to lower the operating substrate temperature of the HIC (Hybrid IC) is effective in increasing the

quality of the HIC.

The size of heat sink for the HIC varies depending on the magnitude of the average power loss, PdAV, within the HIC.

The value of PdAV increases as the output current increases. To calculate PdAV, refer to âCalculating Internal HIC

Lossâ in the specification document.

Calculate the internal HIC loss, PdAV, assuming repeat operation such as shown in Figure 1 below, since

conduction during motor rotation and off time both exist during actual motor operations,

IO1

Motor phase current

(sink side)

IO2

-IO1

Figure 1 Motor Current Timing

T1 : Motor rotation operation time

T2 : Motor hold operation time

T3 : Motor current off time

T2 may be reduced, depending on the application.

T0 : Single repeated motor operating cycle

IO1 and IO2 : Motor current peak values

Due to the structure of motor windings, the phase current is a positive and negative current with a pulse form.

Note that figure 1 presents the concepts here, and that the on/off duty of the actual signals will differ.

The hybrid IC internal average power dissipation PdAV can be calculated from the following formula.

PdAV= (T1ï´P1+T2ï´P2+T3ï´0) ï¸TO ---------------------------- (I)

(Here, P1 is the PdAV for IO1 and P2 is the PdAV for IO2)

If the value calculated using Equation (I) is 1.5W or less, and the ambient temperature, Ta, is 60ï°C or less, there is no

need to attach a heat sink. Refer to Figure 2 for operating substrate temperature data when no heat sink is used.

[Operating range in which a heat sink is used]

Although a heat sink is attached to lower Tc if PdAV increases, the resulting size can be found using the value of

ï±c-a in Equation (II) below and the graph depicted in Figure 3.

ï±c-a= (Tc max-Ta) ï¸PdAV ---------------------------- (II)

Tc max : Maximum operating substrate temperature =105ï°C

Ta: HIC ambient temperature

Although a heat sink can be designed based on equations (I) and (II) above, be sure to mount the HIC in a set and

confirm that the substrate temperature, Tc, is 105ï°C or less.

The average HIC power loss, PdAV, described above represents the power loss when there is no avalanche operation.

To add the loss during avalanche operations, be sure to add Equation (3-2), âAllowable STK672-7** Avalanche

Energy Valueâ, to PdAV.

No.2309-20/26

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