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MIC5013_05 Datasheet, PDF (14/15 Pages) Micrel Semiconductor – Protected High- or Low-Side MOSFET Driver
MIC5013
Applications Information (Continued)
Gate Control Circuit
When applying the MIC5010, it is helpful to understand the
operation of the gate control circuitry (see Figure 14). The
gate circuitry can be divided into two sections: 1) charge
pump (oscillator, Q1-Q5, and the capacitors) and 2) gate
turn-off switch (Q6).
When the MIC5010 is in the OFF state, the oscillator is
turned off, thereby disabling the charge pump. Q5 is also
turned off, and Q6 is turned on. Q6 holds the gate pin (G)
at ground potential which effectively turns the external
MOSFET off.
Q6 is turned off when the MIC5013 is commanded on. Q5
pulls the gate up to supply (through 2 diodes). Next, the
charge pump begins supplying current to the gate. The
gate accepts charge until the gate-source voltage reaches
12.5V and is clamped by the zener diode.
A 2-output, three-phase clock switches Q1-Q4, providing a
quasi-tripling action. During the initial phase Q4 and Q2 are
ON. C1 is discharged, and C2 is charged to supply through
Micrel, Inc.
Q5. For the second phase Q4 turns off and Q3 turns on,
pushing pin C2 above supply (charge is dumped into the
gate). Q3 also charges C1. On the third phase Q2 turns
off and Q1 turns on, pushing the common point of the two
capacitors above supply. Some of the charge in C1 makes
its way to the gate. The sequence is repeated by turning
Q2 and Q4 back on, and Q1 and Q3 off.
In a low-side application operating on a 12 to 15V supply,
the MOSFET is fully enhanced by the action of Q5 alone.
On supplies of more than approximately 14V, current flows
directly from Q5 through the zener diode to ground. To
prevent excessive current flow, the MIC5010 supply should
be limited to 15V in low-side applications.
The action of Q5 makes the MIC5013 operate quickly in
low-side applications. In high-side applications Q5 pre-
charges the MOSFET gate to supply, leaving the charge
pump to carry the gate up to full enhancement 10V above
supply. Bootstrapped high-side drivers are as fast as low-
side drivers since the chip supply is boosted well above
the drain at turn-on.
OFF
ON
100 kHz
OSCILLATOR
Q1
C1
Q2
125pF
C1
V+
Q3
COM
Q4
125pF
C2
Q5
C2
G
500Ω
GATE CLAMP
ZENER
Q6
12.5V
S
Figure 14. Gate Control
Circuit Detail
MIC5013
14
July 2005