MIC2027-1BM Micrel Inc, MIC2027-1BM Datasheet - Page 13

MIC2027-1BM

Manufacturer Part Number

MIC2027-1BM

Description

IC USB DISTRIB SW QUAD 16-SOIC

Manufacturer

Micrel Inc

Type

High Side Switchr

Datasheet

1.MIC2027-2YM.pdf (17 pages)

Specifications of MIC2027-1BM

Number Of Outputs

Rds (on)

150 mOhm

Internal Switch(s)

Yes

Current Limit

900mA

Voltage - Input

2.7 ~ 5.5 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

16-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Functional Description

Input and Output

IN is the power supply connection to the logic circuitry

and the drain of the output MOSFET. OUT is the source

of the output MOSFET. In a typical circuit, current flows

from IN to OUT toward the load. If V

bidirectional when enabled. The output MOSFET and

driver circuitry are also designed to allow the MOSFET

source to be externally forced to a higher voltage than

the drain (V

situation, the MIC2027/77 prevents undesirable current

flow from OUT to IN.

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. Each channel

employs its own thermal sensor. Thermal shutdown

shuts off the output MOSFET and asserts the FLG

output if the die temperature reaches 140°C and the

overheated channel is in current limit. The other

channels are not affected. If however, the die

temperature exceeds 160°C, all channels will be shut off.

Upon determining a thermal shutdown condition, the

MIC2077 will latch the output off and activate a pull-up

current source. When the load is removed, this current

source will pull the output up and reset the latch.

Toggling EN will also reset the latch.

The MIC2027 will automatically reset its output when the

die temperature cools down to 120°C. The MIC2027

output and FLG signal will continue to cycle on and off

until the device is disabled or the fault is removed.

Figure 2 depicts typical timing.

Depending

temperature,

milliseconds from the incidence of the fault to the output

MOSFET being shut off. This time will be shortest in the

case of a dead short on the output.

Power Dissipation

The device’s junction temperature depends on several

factors such as the load, PCB layout, ambient

temperature and package type. Equations that can be

used to calculate power dissipation of each channel and

junction temperature are found below.

Total power dissipation of the device will be the

summation of P

junction temperature, the following equation can be

used:

Micrel, Inc.

September 2006

, current will flow from OUT to IN, since the switch is

= P

= R

OUT

DS(on)

etc.,

> V

× θ

PCB

for all channels. To relate this to

× I

) when the switch is disabled. In this

+ T

OUT

may

layout,

take

package,

OUT

several

is greater than

hundred

ambient

where:

Current Sensing and Limiting

The current-limit threshold is preset internally. The

preset level prevents damage to the device and external

load but still allows a minimum current of 500mA to be

delivered to the load.

The current-limit circuit senses a portion of the output

MOSFET switch current. The current-sense resistor

shown in the block diagram is virtual and has no voltage

drop. The reaction to an overcurrent condition varies

with three scenarios:

Switch Enabled into Short-Circuit

If a switch is enabled into a heavy load or short-circuit,

the switch immediately enters into a constant-current

mode, limiting the output voltage. The FLG signal is

asserted indicating an overcurrent condition.

Short-Circuit Applied to Enabled Output

When a heavy load or short-circuit is applied to an

enabled switch, a large transient current may flow until

the current-limit circuitry responds. Once this occurs the

device limits current to less than the short-circuit current

limit specification.

Current-Limit Response—Ramped Load

The MIC2027/77 current-limit profile exhibits a small

fold-back effect of about 100mA. Once this current-limit

threshold is exceeded the device switches into a

constant current mode. It is important to note that the

device will supply current up to the current-limit

threshold.

Fault Flag

The FLG signal is an N-channel open-drain MOSFET

output. FLG is asserted (active-low) when either an

overcurrent or thermal shutdown condition occurs. In the

case of an overcurrent condition, FLG will be asserted

only after the flag response delay time, t

This ensures that FLG is asserted only upon valid

overcurrent conditions and that erroneous error reporting

is eliminated. For example, false overcurrent conditions

can occur during hot-plug events when a highly

capacitive load is connected and causes a high transient

inrush current that exceeds the current-limit thresh-old.

The FLG response delay time t

Undervoltage Lockout

Undervoltage lockout (UVLO) prevents the output

MOSFET from turning on until V

imately 2.5V. Undervoltage detection functions only

when the switch is enabled.

= junction temperature

= ambient temperature

= is the thermal resistance of the package

is typically 3ms.

exceeds approx-

MIC2027/2077

M9999-091506

, has elapsed.

MIC2027-1BM Micrel Inc, MIC2027-1BM Datasheet - Page 13

MIC2027-1BM

Specifications of MIC2027-1BM

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