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AAT1189 Datasheet, PDF (12/19 Pages) Advanced Analogic Technologies – High Voltage Step-Down Regulator
Eq.
2:
FESR
=
2
·
π
·
1
ESR
·
COUT
The feedback and compensation networks provide a
closed loop transfer function with the highest 0dB cross-
ing frequency and adequate phase margin for system
stability. Equations 3, 4, 5 and 6 relate the compensa-
tion network’s poles and zeros to the components R2,
R3, R4, C5, C6, and C7:
Eq.
3:
FZ1
=
2
·
π
1
· R2
·
C5
DATA SHEET
AAT1189
High Voltage Step-Down Regulator
Eq.
4:
FZ2
=
2
·
π
·
1
(R3 +
R4)
·
C7
1
Eq. 5: FP1 =
2 · π · R2 ·
C5 · C6
C5 + C6
Eq. 6: FP2 =
1
2 · π · R3 · C7
Components of the feedback, feed forward, compensa-
tion, and current limit networks need to be adjusted to
maintain system stability for different input and output
voltage applications as shown in Table 2.
C6
C5
R2
C7
R3
VOUT
COMP
R4
FB
R5
REF
Figure 1: AAT1189 Feedback and Compensation Networks for Type III Voltage-Mode Control Loop.
Network
Feedback
Feed-forward
Compensation
Current Limit
Components
R4
R5
C7
R3
C5
C6
R2
C4
R1
R6
R7
R8
VOUT = 3.3V
27.4k
6.02k
330pF
499
470pF
56pF
24.3k
68nF
6.34k
6.34k
453k
Open
VOUT = 5.0V
44.2k
6.02k
330pF
499
220pF
56pF
24.3k
68nF
6.34k
6.34k
649k
Open
Table 2: AAT1189 Feedback and Compensation Network Components for VOUT =3.3V and VOUT = 5.0V.
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