Texas Instruments LM21215A-1 Evaluation Board LM21215A-1EVM/NOPB LM21215A-1EVM/NOPB 데이터 시트
제품 코드
LM21215A-1EVM/NOPB
R
FB1
=
- 1
V
OUT
0.6
x R
FB2
1
2
S
f
ESR
R
C2
C
C3
=
= 898 pF
f
ESR
- f
LC
R
C2
=
R
FB1
f
LC
= 166
:
C
C2
=
C
C1
S
f
SW
R
C1
C
C1
-1
= 71 pF
1
C
C1
=
S
f
LC
R
C1
= 1.99 nF
R
C1
=
f
CROSSOVER
f
LC
'
V
RAMP
V
IN
R
FB1
=
100 kHz
17.4 kHz
10 k
:
0.8 V
5.0 V
5.0 V
= 9.2 k
:
Component Selection
Ceramic Capacitors (MLCC), the total capacitance will degrade as the DC bias voltage is increased.
Measuring the actual capacitance value for the output capacitors at the output voltage is recommended to
accurately calculate the compensation network. Note that it is more conservative, from a stability
standpoint, to err on the side of a smaller output capacitance value in the compensation calculations
rather than a larger, as this will result in a lower bandwidth but increased phase margin.
Measuring the actual capacitance value for the output capacitors at the output voltage is recommended to
accurately calculate the compensation network. Note that it is more conservative, from a stability
standpoint, to err on the side of a smaller output capacitance value in the compensation calculations
rather than a larger, as this will result in a lower bandwidth but increased phase margin.
First, the value of R
FB1
should be chosen. A typical value is 10k
Ω
. From this, the value of R
C1
can be
calculated to set the mid-band gain so that the desired crossover frequency is achieved.
(7)
Next, the value of C
C1
can be calculated by placing a zero at half of the LC double pole frequency.
(8)
Now the value of C
C2
can be calculated to place a pole at half of the switching frequency.
(9)
R
C2
can then be calculated to set the second zero at the LC double pole frequency.
(10)
Last, C
C3
can be calculated to place a pole at the same frequency as the zero created by the output
capacitor ESR.
(11)
The standard values used for the above calculations are given in the Bill of Materials (
5.6
Feedback Resistors: R
FB1
, R
FB2
, and R
AC
The resistors labeled R
FB1
and R
FB2
create a voltage divider from V
OUT
to the feedback pin that is used to
set the output of the voltage regulator. Nominally, the output of the LM21215 evaluation board is set to
1.2V, giving resistor values of R
1.2V, giving resistor values of R
FB1
= R
FB2
= 10k
Ω
. If a different output voltage is required, the value of R
FB2
can be adjusted according to the equation:
(12)
R
FB1
does not need to be changed from its value of 10k
Ω
. Resistor R
AC
has a value of 49.9
Ω
and is
provided as an injection point for loop stability measurements, as well as, a way to further tweak the
output voltage accuracy to account for resistor tolerance values differing from ideal calculated values. The
jumper is used to short out R
output voltage accuracy to account for resistor tolerance values differing from ideal calculated values. The
jumper is used to short out R
AC
when not needed.
5
SNVA476A – March 2011 – Revised May 2013
AN-2130 LM21215 Evaluation Board
Copyright © 2011–2013, Texas Instruments Incorporated