MIC2072PCM Micrel Inc, MIC2072PCM Datasheet - Page 14
MIC2072PCM
Manufacturer Part Number
MIC2072PCM
Description
IC USB PWR CTRLR DUAL 8-SOIC
Manufacturer
Micrel Inc
Datasheet
1.MIC2012ZM.pdf
(16 pages)
Specifications of MIC2072PCM
Controller Type
USB Power Controller
Interface
USB
Voltage - Supply
4.5 V ~ 5.5 V
Current - Supply
1mA
Operating Temperature
0°C ~ 70°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Short Circuit Current Limit
0.65 to 1.8A
Input Voltage Range
4.5 to 5.5V
Number Of Switches
Dual
Operating Temp Range
0C to 70C
Operating Temperature Classification
Commercial
Mounting
Surface Mount
Pin Count
8
Package Type
SOIC
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
MIC2012
Functional Diagram
Functional Description
The MIC2012/2072 are designed to support the power distri-
bution requirements for USB wakeup from the ACPI S3 state.
It integrates two independent channels under control of input
S3#. When S3# is asserted LOW (S3 state) the MIC2012/2072
will switch a 500mΩ, 100mA MOSFET switch from the AUX
input to each of its two outputs. Conversely when the S3#
input is HIGH (S0 state) the MIC2012/72 will switch a 100mΩ,
500mA MOSFET switch from the MAIN input to each of its
two outputs. The lower current limit during the ACPI S3 state
helps to ensure that the standby supply maintains regulation
even during fault conditions.
Thermal Shutdown
Thermal shutdown is employed to protect the device from
damage should the die temperature exceed safe margins
due mainly to short circuit faults. Thermal shutdown shuts off
the output MOSFET and asserts the FAULT output if the die
temperature reaches 140°C and the overheated channel is
in current limit. The other channel is not affected. If, however,
the die temperature exceeds 160°C, both channels will be
shut off even if neither channel is in current limit.
Power Dissipation
The device’s junction temperature depends on several fac-
tors such as the load, PCB layout, ambient temperature and
package type. The power dissipated in each channel is
P
the internal MOSFETs and I
current.
Total power dissipation of the device will be the summation of
P
the following equation can be used:
MIC2012/2072
D
D
= R
for both channels. To relate this to junction temperature,
DS(on)
× I
OUT
S3#
EN
2
where R
*MIC2070-1/2 Only
OUT
DS(on)
is the continuous output
To Other Channel
is the on-resistance of
Charge Pump
Gate Control
Thermal
Sense
+
Latch
14
where:
Current Sensing and Limiting
The current-limit thresholds are preset internally for each
state. The preset level prevents damage to the device and
external load but still allows a minimum current of 100mA or
500mA to be delivered to the load depending on the state of
the device according to the S3# input. When S3# is LOW the
current-limit is set at 100mA minimum. When S3# is HIGH
the current-limit is set at 500mA minimum.
Should an over-current condition last longer than t
MIC2072 will latch the faulty output off. The output will remain
off until either the load is removed or the EN signal (MIC2072-
1, -2) is toggled. When the MIC2072 enters a latched output
condition a 1mA pull-up current source is activated. This
provides a way to automatically reset the output once the
load is removed without the need to toggle the enable input
such as in the MIC2072. Please refer to Figure 7 for timing
details.
The MIC2012 will automatically reset its output when the
die temperature cools down to 120°C. The MIC2012 output
and FAULT signal will continue to cycle on and off until the
device is disabled or the fault is removed. Figure 6 depicts
typical timing. Depending on PCB layout, package, ambient
temperature, etc., it may take several hundred milliseconds
from the incidence of the fault to the output MOSFET being
shut off. This time duration will be shortest in the case of a
Current
Limit
Timer
10ms
TJ = P
T
T
θ
A
JA
J
MAIN
= junction temperature
= ambient temperature
= is the thermal resistance of the package
MAIN
FET
AUX
FET
Current
D
Limit
× θ
JA
AUX
*
+ T
A
/FAULT
OUT
AUX
* 'P' options only
January 2005
DLY
Micrel
, the
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