ISL6506BCBZ Intersil, ISL6506BCBZ Datasheet - Page 7
ISL6506BCBZ
Manufacturer Part Number
ISL6506BCBZ
Description
IC PWR SUPPLY CTRLR/MONITR 8SOIC
Manufacturer
Intersil
Datasheet
1.ISL6506BCBZ.pdf
(8 pages)
Specifications of ISL6506BCBZ
Applications
Power Supply Controller/Monitor
Voltage - Supply
4.75 V ~ 5.25 V
Current - Supply
3.6mA
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width) Exposed Pad, 8-eSOIC. 8-HSOIC
Operating Temperature (max)
70C
Operating Temperature (min)
0C
Pin Count
8
Mounting
Surface Mount
Package Type
SOIC N EP
Screening Level
Commercial
Peak Reflow Compatible (260 C)
Yes
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Voltage - Input
-
Lead Free Status / Rohs Status
Compliant
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current demands. Thus, it is recommended that the output
capacitors be selected for transient load regulation, paying
attention to their parasitic components (ESR, ESL).
Also, during the transition between active and sleep states
on the 5V
which none of the power pass elements are conducting.
During this time the output capacitors have to supply all the
output current. The output voltage drop during this brief
period of time can be easily approximated using Equation 1:
where:
ΔV
ESR
I
C
t
typical)
The output voltage drop is heavily dependent on the ESR
(equivalent series resistance) of the output capacitor bank,
the choice of capacitors should be such as to maintain the
output voltage above the lowest allowable regulation level.
Input Capacitors Selection
The input capacitors for an ISL6506, ISL6506A application
must have a sufficiently low ESR so as not to allow the input
voltage to dip excessively when energy is transferred to the
output capacitors. If the ATX supply does not meet the
specifications, certain imbalances between the ATX’s
outputs and the ISL6506, ISL6506A’s regulation levels could
have as a result a brisk transfer of energy from the input
capacitors to the supplied outputs. At the transition between
active and sleep states, such phenomena could be
responsible for the 5V
affecting the output regulation. The solution to such a
potential problem is using larger input capacitors with a
lower total combined ESR.
Δ
OUT
t
V
OUT
= active-to-sleep/sleep-to-active transition time (10µs
OUT
OUT
OUT
= output current during transition
= output capacitor bank capacitance
=
= output voltage drop
DUAL
= output capacitor bank ESR
I
OUT
×
output, there is a short interval of time during
⎛
⎜
⎝
ESR
SB
OUT
voltage drooping excessively and
+
--------------- -
C
OUT
7
t
t
⎞
⎟
⎠
ISL6506, ISL6506A, ISL6506B
(EQ. 1)
Transistor Selection/Considerations
The ISL6506, ISL6506A usually requires one P-Channel and
two N-Channel MOSFETs. All three of these MOSFETs are
utilized as ON/OFF switching elements.
One important criteria for selection of transistors for all the
switching elements is package selection for efficient removal
of heat. The power dissipated in a switch element while on is
shown in Equation 2:
Select a package and heatsink that maintains the junction
temperature below the rating with the maximum expected
ambient temperature.
Q1, Q3
These N-Channel MOSFETs are used to switch the 3.3V and
5V inputs provided by the ATX supply into the 3.3V
5V
criteria for the selection of these transistors is output voltage
budgeting. The maximum r
temperature can be expressed using Equation 3:
where:
V
V
I
Q2
This is a P-Channel MOSFET used to switch the 5V
output of the ATX supply into the 5V
sleep states. The selection criteria of this device, as with the
N-Channel MOSFETs, is proper voltage budgeting. The
maximum r
4.5V of gate-to-source voltage, so a true logic level
MOSFET needs to be selected.
r
OUTmax
P
DS ON
INmin
OUTmin
LOSS
DUAL
(
)max
= minimum input voltage
=
outputs while in active (S0, S1) state. The main
= maximum output current
= minimum output voltage allowed
I
2
o
DS(ON)
×
=
r
DS ON
V
-------------------------------------------------- -
INmin
(
, however, has to be achieved with only
I
OUTmax
)
–
V
OUTmin
DS(ON)
allowed at highest junction
DUAL
output during
October 21, 2010
AUX
SB
(EQ. 2)
(EQ. 3)
FN9141.4
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