TD230 Ver la hoja de datos (PDF) - STMicroelectronics
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TD230 Datasheet PDF : 15 Pages
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TD230
To avoid cumulative charging of the protection
capacitors CTRIP 1/2 in case of successive overcur-
rent conditions, the capacitors CTRIP 1/2 are con-
Figure 3 : Fault Time Limitation
Figure 4 : Step Up Converter External
Components
Rse nse
Lboos t
Cboost
Sense
S tep Up
Driver
TD230
MOS
stantly discharged by another fixed current source
IP/N3 which value is a fourth of IP/N2 (1µA).
Trace 1 represents the CBOOST Voltage (0 to
5+13,4 = 18,4V)
Trace 2 represents the CTRIP1 Voltage.
The value of the capacitors CTRIP 1/2 should be
chosen in relation with the required protection time
as indicated in equation (iv) :
• CTRIP1/2 = (IP/N2 - IP/N3) x tPROTECT1/2 / VSPN/3(iv)
where tPROTECT 1/2 is the time defined by the user
before a definitive resettable shutdown of MOS-
FET 1/2.
Equation (iv) can be translated to :
• CTRIP 1/2 = tPROTECT 1/2 x 3µA / 1.20V (iv)
Note that the positive power supply disjonction
leads to the negative power supply disjonction,
whereas the opposite is not true.
2.3. Step-Up Converter
To ensure proper voltage on the gate of the positive
supply NMOS1 (VGS = 13.4V typ), the TD230 inte-
grates a step-up converter which is to be boosted
with two small low cost external components : an
inductor LBOOST and a capacitor CBOOST, as shown
in figure 4.
The principle of this inductive step-up converter is
to pump charges in the tank capacitor CBOOST
following the equation (v) :
Figure 5 : Internal Step Up Schematic
Lboos t
Os c
Cboos t
TD230
Re gulation
• V(CBOOST) = VCC+ + 13.4V typ (v)
Charges are pumped by means of an oscillator
commanded switch, and stored in the CBOOST tank
capacitor through a diode as shown on figure 5.
Wh en th e vo lt a ge across CBOOST reaches
VCC++13.4V typ, the oscillator is stopped. This
creates a ripple voltage with an amplitude of 0.2V.
Note that the min and max values of V(CBOOST)
comprised between VCC+ +10V and VCC+ +15V
already take the ripple voltage into account.
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