參數(shù)資料
型號(hào): RC5041
廠(chǎng)商: Raytheon Company
元件分類(lèi): DC/DC變換器
英文描述: Programmable DC-DC Converter for Pentium P55C, K6 and 6x86MX (M2) Processors
中文描述: 可編程DC - DC轉(zhuǎn)換為奔騰P55C,K6和6x86MX量(M2)處理器
文件頁(yè)數(shù): 13/16頁(yè)
文件大?。?/td> 119K
代理商: RC5041
PRODUCT SPECIFICATION
RC5041
13
P
RC5041 Short Circuit Current Characteristics
The RC5041 has a short circuit current characteristic
that includes a hysteresis function that prevents the DC-DC
converter from oscillating in the event of a short circuit.
A typical V-I characteristic of the DC-DC converter output is
presented in the Operating Conditions table. The converter
performs with a normal load regulation characteristic until
the voltage across the resistor reaches the internal short cir-
cuit threshold of 120mV. At this point, the internal compara-
tor trips and sends a signal to the controller to turn off the
gate drive to the power MOSFET. This causes a drastic
reduction in the output voltage as the load regulation col-
lapses into the short circuit mode of control. The output volt-
age will not return to the normal load characteristic until the
output short circuit current is reduced to within the safe
range for the DC-DC converter.
Schottky Diode Selection
The application circuit of Figure 1 shows a Schottky diode,
DS1. DS1 is used as a flyback diode to provide a constant
current path for the inductor when M1 is turned off. A vital
selection criteria for DS1 is that it exhibits a very low for-
ward voltage drop, as this parameter will directly impact the
regulator efficiency as the output voltage is reduced. Table 7
presents several suitable Schottky diodes for this application.
Note that the diode MBR2015CTL has a very low forward
voltage drop. This diode is most ideal for applications where
output voltages below 2.8V are required.
Table 7. Schottky Diode Selection Table
Output Filter Capacitors
Optimal ripple performance and transient response are
functions of the filter capacitors used. Since the 5V supply of
a PC motherboard may be located several inches away from
the DC-DC converter, input capacitance can play an impor-
tant role in the load transient response of the RC5041.
The higher the input capacitance, the more charge storage is
available for improving the current transfer through the FET.
Low “ESR” capacitors are best suited for this type of appli-
cation and can influence the converter's efficiency if not
chosen carefully. The input capacitor should be placed as
close to the drain of the FET as possible to reduce the effect
of ringing caused by long trace lengths.
Manufacturer
Model #
Philips
PBYR1035
Motorola
MBR2035CT
Motorola
MBR1545CT
Motorola
MBR2015CTL
Conditions
I
F
= 20A; T
j
= 25
°
C
I
F
= 20A; T
j
= 125
°
C
I
F
= 20A; T
j
= 25
°
C
I
F
= 20A; T
j
= 125
°
C
I
F
= 15A; T
j
= 25
°
C
I
F
= 15A; T
j
= 125
°
C
I
F
= 20A; T
j
= 25
°
C
I
F
= 20A; T
j
= 150
°
C
Forward Voltage
V
F
< 0.84V
< 0.72V
< 0.84V
< 0.72V
< 0.84V
< 0.72V
< 0.58V
< 0.48V
The ESR rating of a capacitor is a difficult number to
quantify. ESR or Equivalent Series Resistance, is defined as
the resonant impedance of the capacitor. Since the capacitor
is actually a complex impedance device having resistance,
inductance and capacitance, it is quite natural for this device
to have a resonant frequency. As a rule, the lower the ESR,
the better suited the capacitor is for use in switching power
supply applications. Many capacitor manufacturers do not
supply ESR data. A useful estimate of the ESR can be
obtained using the following equation:
Where DF is the dissipation factor of the capacitor, f is the
operating frequency, and C is the capacitance in farads.
With this in mind, correct calculation of the output capaci-
tance is crucial to the performance of the DC-DC converter.
The output capacitor determines the overall loop stability,
output voltage ripple and load transient response. The calcu-
lation is as follows:
Where
V is the maximum voltage deviation due load tran-
sient
,
T is reaction time of the power source (Loop response
time of the RC5041) and it is approximately 8
μ
s), and I
O
is
the output load current.
For I
O
= 10A, and
V = 75mV, the bulk capacitor required
can be approximated as follows:
Input filter
We recommend that the design include an input inductor
between the system +5V supply and the DC-DC converter
input described below. This inductor will serve to isolate the
+5V supply from noise occurring in the switching portion of
the DC-DC converter and to also limit the inrush current into
the input capacitors on power up. We recommend a value of
around 2.5
μ
H.
Figure 9. Input Filter
ESR
2
fC
-DF
=
C
μ
F
(
)
I
V
I
O
ESR
-------------------------T
=
C
μ
F
(
)
I
V
I
O
ESR
-------------------------T
8
μ
s
×
×
75mV
10A
5m
-------------10A
3200
μ
F
=
=
=
1000
μ
F, 10V
Electrolytic
0.1
μ
F
65-5041-11
2.5
μ
H
5V
Vin
相關(guān)PDF資料
PDF描述
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相關(guān)代理商/技術(shù)參數(shù)
參數(shù)描述
RC5041M 制造商:RAYTHEON 制造商全稱(chēng):RAYTHEON 功能描述:Programmable DC-DC Converter for Pentium P55C, K6 and 6x86MX (M2) Processors
RC5042 制造商:RAYTHEON 制造商全稱(chēng):RAYTHEON 功能描述:Programmable DC-DC Converter
RC5042M 制造商:RAYTHEON 制造商全稱(chēng):RAYTHEON 功能描述:Programmable DC-DC Converter
RC5042MT 制造商:RAYTHEON 功能描述:*
RC5043 制造商:未知廠(chǎng)家 制造商全稱(chēng):未知廠(chǎng)家 功能描述:
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