參數(shù)資料
型號: NCP5331FTR2
廠商: ON SEMICONDUCTOR
元件分類: 穩(wěn)壓器
英文描述: Two-Phase PWM Controller with Integrated Gate Drivers
中文描述: 1.5 A SWITCHING CONTROLLER, 750 kHz SWITCHING FREQ-MAX, PQFP32
封裝: LQFP-32
文件頁數(shù): 32/38頁
文件大?。?/td> 424K
代理商: NCP5331FTR2
NCP5331
http://onsemi.com
32
2. Output Inductor Selection
Calculate the minimum output inductance at I
O,MAX
according to Equation 3 with
±
20% inductor ripple current
(
α
= 0.15).
(VIN
VOUT)
(
IO,MAX
(12 V
1.163 V)
(0.15
52 A
LoMIN
VOUT
fSW)
1.163 V
12 V
200 kHz)
VIN
673 nH
(3)
To minimize core losses, we choose the T50
8B/90 core
from Micrometals: 23.0 nH/N
2
, 2.50 cm/turn. According to
the Micrometals catalog, at 26 A (per phase) the
permeability of this core will be approximately 88% of the
permeability at 0 A. Therefore, at 0 A we must achieve at
least 673 nH/0.88 or 765 nH. Using 6 turns of #16 AWG
bifilar (2 m
/ft) will produce
828 nH
.
We will need the nominal and worst case inductor
resistances for subsequent calculations.
RL
6 turns
2.5 cm turn
0.965 m
0.03218 ft cm
2 m
ft
The inductor resistance will be maximized when the
inductor is “hot” due to the load current and the ambient
temperature is high. Assuming a 50
°
C temperature rise of
the inductor at full-load and a 35
°
C ambient temperature
rise we can calculate
RL,MAX
0.965 m
[1
0.39%
°
C
1.28 m
(50
°
C
35
°
C)]
The output inductance at full-load will be reduced due to
the saturation characteristic of the core material.
Lo52 A
Next, use Equation 4 to insure the output voltage ripple
will satisfy the design goal with the minimum number of
output capacitors and the full load output inductance.
0.88
828 nH
729 nH at full load
(1.163 V 12 V) (729 nH
200 kHz)}
(4)
(19 m
6)
{(12 V
2
1.163 V)
20 mV
VOUT,P- P
(ESR per cap
NOUT,MIN)
{(VIN
#Phases
VCORE)
D
(Lo52 A
fSW)}
So, the ripple requirement will be satisfied if the minimum
number of output capacitors is used. More output capacitors
will probably be required to satisfy the transient
requirement, which will result in a lower ripple voltage.
3. Input Capacitor Selection
Use Equation 5 to determine the average input current to
the converter at full-load.
IIN,AVG
IO,MAX
52 A
D
(1.163 V 12 V) 0.80
6.30 A
(5)
Next, use Equation 6 to Equation 10 with the full-load
inductance value of 729 nH.
ILo
(VIN
VOUT)
D (Lo
fSW)
(12 V
1.163 V)
(1.163 V 12 V)
(729 nH
200 kHz)
7.20 App
(10)
ILo,MAX
IO,MAX2
52 A 2
ILo2
7.20 App 2
29.6 A
(8)
ILo,MIN
IO,MAX2
52 A 2
ILo2
7.20 App 2
22.4 A
(9)
IC,MAX
ILo,MAX
29.6 A 0.80
IIN,AVG
6.30 A
30.7 A
(6)
IC,MIN
ILo,MIN
22.4 A 0.80
IIN,AVG
6.30 A
21.7 A
(7)
For the two-phase converter, the input capacitor(s) rms
current at full-load is as follows. (Note: D = 1.163 V/12 V
= 0.097.)
ICIN,RMS
[2D
(IC,MIN2
IC,IN23)
(21.72
IC,MIN
IIN,AVG2
IC,IN
(11)
(1
2D)]1 2
[0.19
21.7
9.0
9.023)
6.302
(1
0.19)]1 2
12.9 ARMS
At this point, the designer must decide between saving
board space by using higher-rated/more costly capacitors
or saving cost by using more lower-rated/less costly
capacitors. To save cost, we choose the MBZ series
capacitors by Rubycon. Part number 16MBZ1500M10X20:
1500
μ
F, 16 V, 2.55 A
RMS
, 13 m
, 10
×
20 mm. This design
will require N
IN
= 12.8 A/2.55 A = 5 capacitors on the input
for a cost sensitive design or 6 capacitors for a conservative
design.
4. Input Inductor Selection
For the Claw Hammper CPU, the input inductor must
limit the input current slew rate to less than 0.5 A/
μ
s during
a load transient from 0 to 52 A. A conservative value will be
calculated assuming the minimum number of output
capacitors (N
OUT
= 6), five input capacitors (N
IN
= 5), worst
case ESR values for both the input and output capacitors,
and a maximum duty cycle at the maximum DAC setting
with 25 mV of no-load AVP.
DMAX
(1.550 V
25 mVAVP) 10.8 VIN
0.146
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NCP5332A 制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:Two-Phase Buck Controller with Integrated Gate Drivers and 5-Bit DAC
NCP5332A/D 制造商:ONSEMI 制造商全稱:ON Semiconductor 功能描述:Two-Phase Buck Controller with Integrated Gate Drivers and 5-Bit DAC
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