- 您現在的位置:買賣IC網 > PDF目錄373979 > ADDC02803SC (Analog Devices, Inc.) 28 V/66 W/100 W DC/DC Converters with Integral EMI Filter PDF資料下載
參數資料
| 型號: | ADDC02803SC |
| 廠商: | Analog Devices, Inc. |
| 英文描述: | 28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| 中文描述: | 28 V/66 W/100中西區區議會/ DC轉換器與積分EMI濾波器 |
| 文件頁數: | 12/18頁 |
| 文件大小: | 241K |
| 代理商: | ADDC02803SC |
ADDC02803SC/ADDC02805SA
REV. A
–12–
Potential System Instability:
The preceding analysis assumes
dc voltages and currents. For ac waveforms the incremental
input model for the POL converter must also include the effects
of its input filter and control loop dynamics. When the POL
converter is connected to a power source, modeled as a voltage
source,
V
S,
in series with an inductor,
L
S
,
and some positive
resistor,
R
S
, the network of Figure 33 results.
L
P
C
P
–|R
N
|
ADI DC/DC CONVERTER
L
S
R
S
V
S
INPUT
TERMINALS
Figure 33. Model of Power Source and POL Converter
Connection
The network shown in Figure 33 is second order and has the
following characteristic equation:
s L
(
L
C
)
s
L
–|
L
R
R C
S
P
S
P
|
N
P
1
0
(
)
+
+
+
+
+ =
For the power delivery to be efficient, it is required that
R
S
<< R
N
. For the system to be stable, however, the following
relationship must hold:
C
R
L
L
R
R
L
C
L
R
P
N
S
P
S
S
S
P
P
N
|
|(
>
)
or
(
)
|
|
+
>
+
Notice from this result that if (L
S
+ L
P
) is too large, or if R
S
is
too small, the system might be unstable. This condition would
first be observed at low input line and full load since the abso-
lute value of R
N
is smallest at this operating condition.
If an instability results and it cannot be corrected by changing
L
S
or R
S
, such as during the MIL-STD-461D tests due to the
LISN requirement, one possible solution is to place a capacitor
across the input of the POL converter. Another possibility is to
place a small resistor in series with this extra capacitor.
The analysis has so far assumed the source of power was a volt-
age source (e.g., a battery) with some source impedance. In
some cases, this source may be the output of a front-end (FE)
converter. Although each FE converter is different, a model for
a typical one would have an LC output filter driven by a voltage
source whose value was determined by the feedback loop. The
LC filter usually has a high Q, so the compensation of the feed-
back loop is chosen to help dampen any oscillations that result
from load transients. In effect, the feedback loop adds “positive
resistance” to the LC network.
When the POL converter is connected to the output of this FE
converter, the POL’s “negative resistance” counteracts the
effects of the FE’s “positive resistance” offered by the feedback
loop. Depending on the specific details, this might simply mean
that the FE converter’s transient response is slightly more oscil-
latory, or it may cause the entire system to be unstable.
For the ADDC02803SC and ADDC02805SA, L
P
is approxi-
mately 1
μ
H and C
P
is approximately 4
μ
F. Figures 13 and 14
show a more accurate depiction of the input impedance of the
converter as a function of frequency. The negative resistance is,
itself, a very good incremental model for the power state of the
converter for frequencies into the several kHz range.
NAVMAT DERATING
NAVMAT is a Navy power supply reliability manual frequently
cited by specifiers of power supplies. A key section of NAVMAT
P4855-1A discusses guidelines for derating designs and their
components. The two key derating criteria are voltage derating
and power derating. Voltage derating is done to reduce the possi-
bility of electrical breakdown, whereas power derating is done to
maintain the component material below a specified maximum
temperature. While power deratings are typically stated in terms
of current limits (e.g., derate to x% of maximum rating), NAVMAT
also specifies a maximum junction temperature of the semicon-
ductor devices in a power supply. The NAVMAT component
deratings applicable to the ADDC02805SA and ADDC02803SC
are as follows:
Resistors
80% voltage derating
50% power derating
Capacitors
50% voltage and ripple voltage derating
70% ripple current derating
Transformers and Inductors
60% continuous voltage and current derating
90% surge voltage and current derating
20
°
C less than rated core temperature
30
°
C below insulation rating for hot spot temperature
25% insulation breakdown voltage derating
40
°
C maximum temperature rise
Transistors
50% power derating
60% forward current (continuous) derating
75% voltage and transient peak voltage derating
110
°
C maximum junction temperature
Diodes (Switching, General Purpose, Rectifiers)
70% current (surge and continuous) derating
65% peak inverse voltage derating
110
°
C maximum junction temperature
Diodes (Zeners)
70% surge current derating
60% continuous current derating
50% power derating
110
°
C maximum junction temperature
Microcircuits (Linears)
70% continuous current derating
75% signal voltage derating
110
°
C maximum junction temperature
The ADDC02803SC and ADDC02805SA can meet all the
derating criteria listed above. There are, however, a few areas of
the NAVMAT deratings where meeting the guidelines unduly
sacrifices performance of the circuit. The standard unit therefore
makes the following exceptions.
Common-Mode EMI Filter Capacitors:
The standard sup-
ply uses 500 V capacitors to filter common-mode EMI. NAVMAT
guidelines would require 1000 V capacitors to meet the 50%
voltage derating (500 V dc input to output isolation), resulting
in less common-mode capacitance for the same space. In typi-
cal electrical power supply systems, where the load ground is
eventually connected to the source ground, common-mode
voltages never get near the 500 V dc rating of the standard
相關PDF資料 |
PDF描述 |
|---|---|
| ADDC02803SCTV | 28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02805SA | 28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02805SATV | 28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02805SAKV | 28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02808PB | 28 V, 200 W Pulsed DC/DC Converter with Integral EMI Filter |
相關代理商/技術參數 |
參數描述 |
|---|---|
| ADDC02803SCKV | 制造商:AD 制造商全稱:Analog Devices 功能描述:28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02803SCTV | 制造商:AD 制造商全稱:Analog Devices 功能描述:28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02805SA | 制造商:AD 制造商全稱:Analog Devices 功能描述:28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02805SAKV | 制造商:AD 制造商全稱:Analog Devices 功能描述:28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
| ADDC02805SATV | 制造商:AD 制造商全稱:Analog Devices 功能描述:28 V/66 W/100 W DC/DC Converters with Integral EMI Filter |
發布緊急采購,3分鐘左右您將得到回復。