Moteur de recherche de fiches techniques de composants électroniques
  French  ▼
ALLDATASHEET.FR

X  

CS51414 Fiches technique(PDF) 9 Page - ON Semiconductor

No de pièce CS51414
Description  1.5A, 260 kHz AND 520 kHz, LOW VOLTAGE BUCK REGULATORS WITH EXTERNAL BIAS OR SYNCHRONIZATION CAPABILITY
Download  16 Pages
Scroll/Zoom Zoom In 100%  Zoom Out
Fabricant  ONSEMI [ON Semiconductor]
Site Internet  http://www.onsemi.com
Logo ONSEMI - ON Semiconductor

CS51414 Fiches technique(HTML) 9 Page - ON Semiconductor

Back Button CS51414 Datasheet HTML 5Page - ON Semiconductor CS51414 Datasheet HTML 6Page - ON Semiconductor CS51414 Datasheet HTML 7Page - ON Semiconductor CS51414 Datasheet HTML 8Page - ON Semiconductor CS51414 Datasheet HTML 9Page - ON Semiconductor CS51414 Datasheet HTML 10Page - ON Semiconductor CS51414 Datasheet HTML 11Page - ON Semiconductor CS51414 Datasheet HTML 12Page - ON Semiconductor CS51414 Datasheet HTML 13Page - ON Semiconductor Next Button
Zoom Inzoom in Zoom Outzoom out
 9 / 16 page
background image
CS51411, CS51412, CS51413, CS51414
http://onsemi.com
9
inductor and diode. When the output is shorted, the DC
current of the inductor and diode can approach the current
limit threshold. Therefore, reducing the current limit by 40%
can result in an equal percentage drop of the inductor and
diode current. The short circuit waveforms are captured in
Figure 9, and the benefit of the foldback frequency and
current limit is self–evident.
Figure 9. In Short Circuit, the Foldback Current and
Foldback Frequency Limit the Switching Current to
Protect the IC, Inductor and Catch Diode
Thermal Considerations
A calculation of the power dissipation of the IC is always
necessary prior to the adoption of the regulator. The current
drawn by the IC includes quiescent current, pre–driver
current, and power switch base current. The quiescent
current drives the low power circuits in the IC, which
include comparators, error amplifier and other logic blocks.
Therefore, this current is independent of the switching
current and generates power equal to
WQ + VIN
IQ
where:
IQ = quiescent current.
The pre–driver current is used to turn on/off the power
switch and is approximately equal to 12 mA in worst case.
During steady state operation, the IC draws this current from
the Boost pin when the power switch is on and then receives
it from the VIN pin when the switch is off. The pre–driver
current always returns to the VSW pin. Since the pre–driver
current goes out to the regulator’s output even when the
power switch is turned off, a minimum load is required to
prevent overvoltage in light load conditions. If the Boost pin
voltage is equal to VIN + VO when the switch is on, the power
dissipation due to pre–driver current can be calculated by
WDRV + 12 mA
(VIN * VO )
VO2
VIN
)
The base current of a bipolar transistor is equal to collector
current divided by beta of the device. Beta of 60 is used here
to estimate the base current. The Boost pin provides the base
current when the transistor needs to be on. The power
dissipated by the IC due to this current is
WBASE +
VO2
VIN
IS
60
where:
IS = DC switching current.
When the power switch turns on, the saturation voltage
and conduction current contribute to the power loss of a
non–ideal switch. The power loss can be quantified as
WSAT +
VO
VIN
IS
VSAT
where:
VSAT = saturation voltage of the power switch which is
shown in Figure 5.
The switching loss occurs when the switch experiences
both high current and voltage during each switch transition.
This regulator has a 30 ns turn–off time and associated
power loss is equal to
WS +
IS
VIN
2
20 ns
fS
The turn–on time is much shorter and thus turn–on loss is
not considered here.
The total power dissipated by the IC is sum of all the above
WIC + WQ ) WDRV ) WBASE ) WSAT ) WS
The IC junction temperature can be calculated from the
ambient temperature, IC power dissipation and thermal
resistance of the package. The equation is shown as follows,
TJ + WIC
R
qJA ) TA
The maximum IC junction temperature shall not exceed
125
°C to guarantee proper operation and avoid any damages
to the IC.
Minimum Load Requirement
As pointed out in the previous section, a minimum load is
required for this regulator due to the pre–driver current
feeding the output. Placing a resistor equal to VO divided by
12 mA should prevent any voltage overshoot at light load
conditions. Alternatively, the feedback resistors can be
valued properly to consume 12 mA current.
COMPONENT SELECTION
Input Capacitor
In a buck converter, the input capacitor witnesses pulsed
current with an amplitude equal to the load current. This
pulsed current and the ESR of the input capacitors determine
the VIN ripple voltage, which is shown in Figure 10. For VIN
ripple, low ESR is a critical requirement for the input
capacitor selection. The pulsed input current possesses a
significant AC component, which is absorbed by the input
capacitors. The RMS current of the input capacitor can be
calculated using:


Numéro de pièce similaire - CS51414

FabricantNo de pièceFiches techniqueDescription
logo
ON Semiconductor
CS51414 ONSEMI-CS51414 Datasheet
252Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
February, 2007 ??Rev. 17
CS51414 ONSEMI-CS51414 Datasheet
706Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
September, 2007 - Rev. 18
CS51414E ONSEMI-CS51414E Datasheet
706Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
September, 2007 - Rev. 18
CS51414ED8 ONSEMI-CS51414ED8 Datasheet
252Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
February, 2007 ??Rev. 17
CS51414ED8 ONSEMI-CS51414ED8 Datasheet
706Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
September, 2007 - Rev. 18
More results

Description similaire - CS51414

FabricantNo de pièceFiches techniqueDescription
logo
ON Semiconductor
CS51411 ONSEMI-CS51411_07 Datasheet
252Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
February, 2007 ??Rev. 17
CS51411-D ONSEMI-CS51411-D Datasheet
706Kb / 20P
   1.5 A, 260 kHz and 520 kHz, Low Voltage Buck Regulators with External Bias or Synchronization Capability
September, 2007 - Rev. 18
CS51411 ONSEMI-CS51411_12 Datasheet
290Kb / 20P
   1.5 A, 260 kHz and 520 kHz Low Voltage Buck Regulators with External Bias or Synchronization Capability
November, 2012 ??Rev. 20
NCV51411 ONSEMI-NCV51411 Datasheet
182Kb / 16P
   1.5 A, 260 kHz, Low Voltage Buck Regulator with Synchronization Capability
May, 2010 ??Rev. 15
NCV51411 ONSEMI-NCV51411 Datasheet
224Kb / 16P
   1.5 A, 260 kHz, Low Voltage Buck Regulator with Synchronization Capability
May, 2010 ??Rev. 15
NCV8842 ONSEMI-NCV8842_11 Datasheet
377Kb / 16P
   1.5 A, 170 kHz, Buck Regulator with Synchronization Capability
July, 2011 ??Rev. 10
NCV8842 ONSEMI-NCV8842 Datasheet
180Kb / 15P
   1.5 A, 170 kHz, Buck Regulator with Synchronization Capability
October, 2006 ??Rev. 1
NCV8843 ONSEMI-NCV8843 Datasheet
187Kb / 15P
   1.5 A, 340 kHz, Buck Regulator with Synchronization Capability
October, 2006 ??Rev. 1
NCP1546 ONSEMI-NCP1546 Datasheet
152Kb / 13P
   1.5 A, 170 kHz, Buck Regulator with Synchronization Capability
March, 2007 ??Rev. 0
NCV8843 ONSEMI-NCV8843_10 Datasheet
385Kb / 16P
   1.5 A, 340 kHz, Buck Regulator with Synchronization Capability
May, 2010 ??Rev. 10
More results


Html Pages

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16


Fiches technique Télécharger

Go To PDF Page


Lien URL




Politique de confidentialité
ALLDATASHEET.FR
ALLDATASHEET vous a-t-il été utile ?  [ DONATE ] 

À propos de Alldatasheet   |   Publicité   |   Contactez-nous   |   Politique de confidentialité   |   Echange de liens   |   Fabricants
All Rights Reserved©Alldatasheet.com


Mirror Sites
English : Alldatasheet.com  |   English : Alldatasheet.net  |   Chinese : Alldatasheetcn.com  |   German : Alldatasheetde.com  |   Japanese : Alldatasheet.jp
Russian : Alldatasheetru.com  |   Korean : Alldatasheet.co.kr  |   Spanish : Alldatasheet.es  |   French : Alldatasheet.fr  |   Italian : Alldatasheetit.com
Portuguese : Alldatasheetpt.com  |   Polish : Alldatasheet.pl  |   Vietnamese : Alldatasheet.vn
Indian : Alldatasheet.in  |   Mexican : Alldatasheet.com.mx  |   British : Alldatasheet.co.uk  |   New Zealand : Alldatasheet.co.nz
Family Site : ic2ic.com  |   icmetro.com