MIC2546/2547
Dual Programable Current Limit Switch
UL Recognized Component
Micrel Inc. • 2180 Fortune Drive • San Jose, CA 95131 • USA • tel +1 (408) 944-0800 • fax + 1 (408) 474-1000 • http://www.micrel.com
January 2008 M9999-012508-A
General Description
The MIC2546 and MIC2547 are integrated high-side dual
power switches optimized for low loss dc power switching
and other power management applications, including
Advanced Configuration and Power Interface (ACPI). The
MIC2546/47 is a cost-effective, highly integrated solution
that requires few external components to satisfy USB and
ACPI requirements.
Load current management features include a precision
resistor-programmable output current-limit and a soft-start
circuit which minimizes inrush current when the switch is
enabled. Thermal shutdown, along with current-limit,
protects theswitch and the attached device.
The MIC2546/47’s open-drain flag outputs are used to
indicate current-limiting or thermal shutdown to a local
controller. The MIC2547 has an additional internal latch
which turns the output off upon thermal shutdown
providing robust fault control. The enable signal is
compatible with both 3V and 5V logic, and is also used as
the thermal shutdown latch reset for the MIC2547.
The MIC2546 and MIC2547 are available in active-high
and active-low enable versions in 16-pin TSSOP and SOP
packages.
Data sheets and support documentation can be found on
Micrel’s web site at www.micrel.com.
Features
• 2.7V to 5.5V input
• Adjustable current-limit up to 1.5A
• Reverse current flow blocking (no “body diode”)
• 100A typical on-state supply current per channel
• 2A typical off-state supply current
• 120m maximum on-resistance
• Open-drain fault flag
• Thermal shutdown
• Thermal shutdown output latch (MIC2547)
• 2ms (slow) turn-on and fast turnoff
• Available with active-high or active-low enable
Applications
• USB power distribution
• PCI Bus Power Switching
• Notebook PC
• ACPI power distribution
• PC card hot swap applications
• Inrush current-limiting
• Ideal for dual supply applications
___________________________________________________________________________________________________________
Typical Application
Typical Advanced Configuration and Power Interface (ACPI) Application
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Ordering Information
Part Number
Standard Pb-Free
Enable Latch(1) Junction Temp. Range(1) Package
MIC2546-1BM MIC2546-1YM Active High –40° to +85°C 16-pin SOP
MIC2546-1BTS MIC2546-1YTS Active High –40° to +85°C 16-pin TSSOP
MIC2546-2BM MIC2546-2YM Active Low –40° to +85°C 16-pin SOP
MIC2546-2BTS MIC2546-2YTS Active Low –40° to +85°C 16-pin TSSOP
MIC2547-1BM MIC2547-1YM Active High
• –40° to +85°C 16-pin SOP
MIC2547-1BTS MIC2547-1YTS Active High • –40° to +85°C 16-pin TSSOP
MIC2547-2BM MIC2547-2YM Active Low
• –40° to +85°C 16-pin SOP
MIC2547-2BTS MIC2547-2YTS Active Low • –40° to +85°C 16-pin TSSOP
Note:
1. Thermal Shutdown Latch.
Pin Configur ation
LOGIC,
CHARGE
PUMP
(OUTA)
(INA)
(ENA)
(FLGA)
MIC2546/2547
(ILIMA)
LOGIC,
CHARGE
PUMP
(OUTB)
(INB)
(ENB)
(FLGB)
(ILIMB) (GND)
Function Pinout
16-Pin SOP (M)
16-Pin TSSOP (TS)
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Pin Description
Pin Number Pin Name Pin Function
1 INA Input A: Output A MOSFET drain. Also supplies internal circuitry.
2, 16 OUTA Switch A (Output): Output A MOSFET source. Pins 2 and 16 must be externally
connected.
3 ENA
Enable A (Input): Logic-compatible enable input. Active- activelow (–2). High
input >1.7V typical; low input <1.5V typical. MIC2547 only: Also resets thermal
shutdown latch.
4, 10 NC Not internally connected.
5 FLGA
Fault Flag A (Output): Active-low, open-drain output. Indicates overcurrent or
thermal shutdown conditions. MIC2547 only: latched low on thermal shutdown.
6, 14 GNDB,
GNDA
Ground. Both pins must be connected to GND.
7 ILIMB
Current Limit Channel B: Sets current-limit threshold using an resistor, RSET,
connected to ground. 154 < RSET < 2.29k.
8, 11 OUTB Switch B (Output): Pins 8 and 11 must be externally connected.
9 INB Input B
12 ENB Enable B (Input)
13 FLGB Fault Flag B (Output)
15 ILIMA Fault Flag B (Output)
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January 2008 4 M9999-012508-A
Absolute Maximum Ratings(1)
Supply Voltage (VIN) ...................................................+6.0V
Output Voltage (VOUT) ................................................+6.0V
Output Current (IOUT) ................................Internally Limited
Enable Input (VEN) ................................. –0.3V to VIN +0.3V
Fault Flag Voltage (VFLG)............................................+6.0V
Fault Flag Current (IFLG) .............................................50mA
Storage Temperature (TS) ........................–65°C to +150°C
Junction Temperature (TJ) ........................Internally Limited
Lead Temperature (soldering 5 sec.)......................... 260°C
ESD Rating, Note 3 .......................................................2kV
Operating Ratings(2)
Supply Voltage (VIN) .................................... +2.7V to +5.5V
Current Limit Set Range......................................0.1 to 1.5A
Ambient Temperature Range (TA) .............. –40°C to +85°C
Package Thermal Resistance
SOP (JA) .........................................................120°C/W
TSSOP (JA) ....................................................100°C/W
Electrical Characteristics(4)
VIN = +5V; TA = 25°C, bold values indicate –40°C to +85°C, unless noted.
Symbol Parameter Condition Min Typ Max Units
Switch off, OUT = open, Note 4 1.5
10 µA
Supply Current
Switch on, OUT = open, Note 4 200
320 µA
Enable High, Note 4 2.4 1.7 V
VEN Enable Input Voltage
Enable Low, Note 4 1.5
0.8 V
VEN = VOH(MIN) = 2.4V 0.01 1 µA Enable Input Current
VEN = VOH(MAX) = 0.8V 0.01 1 µA
Enable Input Capacitance Note 5 1 pF
RDS(ON) Switch Resistance IOUT = 500mA 80 120 m
Current Limit Factor, Note 6 IOUT = 500mA to 1.5A, VOUT = 1.0V to 4.0V
Note 6
184 230 276 V
Output Leakage Current Swich off 1 10 µA
tON Output Turn-On Delay RL = 10, CL = 1µF, Figure 1a and 1b 1 2 5 ms
tR Output Turn-On Rise Time RL = 10, CL = 1µF, Figure 1a and 1b 1 2 5 ms
tOFF Output Turn-Off Delay RL = 10, CL = 1µF, Figure 1a and 1b 22 µs
tF Output Turn-Off Fall Time RL = 10, CL = 1µF, Figure 1a and 1b 21 µs
TJ increasing 140 °C Overtemperature Threshold
Shutdown TJ decreasing 130 °C
VIN = 5V, IL = 10µA 4 15 Error Flag Output Resisitance
VIN = 3.3V, IL = 10µA 5 20
Error Flag Off Current VFLG = 5V 0.01 1 µA
EN Pulse Reset Width MIC2547 Thermal Shutdown Latch 5 µs
V
IN to EN Set-Up MIC2547, Note 5 0 µs
Current-Limit Response Time VOUT = oV 25 µs
Overcurrent FLG Response
Time
VOUT = VIN/2 to FLG low 5 µs
Notes:
Note 1. Exceeding the absolute maximum rating may damage the device.
Note 2. The device is not guaranteed to function outside its operating rating.
Note 3. Devices are ESD sensitive. Handling precautions recommended. Human body model, 1.5k in series with 100pF.
Note 4. Off is ″ 0.8V and on is ≥ 2.4V for the MIC2546-1 and MIC2547-1. Off is ≥ 2.4V and on is ″ 0.8V for the MIC2546-2 and MIC2547-2. The enable
input has about 200mV of hysteresis.
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January 2008 5 M9999-012508-A
Note 5. Guaranteed by design, but not production tested.
Note 6. Current limit threshold is determined by: SET
LIMIT R
230V
I=
, where RSET is in ohms.
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Typical Characteristics
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January 2008 7 M9999-012508-A
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Functional Characteristics
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Test Circuit
Functional Characteristics Test Circuit
Timing Diagrams
Figure 1a. MIC2546/47-1
Figure 1b. MIC2546/47-2
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January 2008 10 M9999-012508-A
Figure 2a. MIC2547-2 Timing: Output is reset by toggling EN
Figure 2b. MIC2546-2 Timing
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January 2008 11 M9999-012508-A
Block Diagram
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Functional Description
The MIC2546 and MIC2547 are dual high-side N-
channel switches available with active-high or active-low
enable inputs. Fault conditions turn off or inhibit turn-on
of the output transistor and activate the open-drain error
flag transistor making it sink current to ground.
Input and Output
INX is the power supply connection to the logic circuitry
and the drain of the output MOSFET. OUTX is the
source of the output MOSFET. In a typical circuit, current
flows from INX to OUTX toward the load. If VOUT is
greater than VIN, current will flow from OUTX to INX
since the switch is 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 (VOUT > VIN) when the
switch is disabled. In this situation, the MIC2546/47
avoids undesirable current flow from OUTX to INX. Both
OUT pins for a given channel must be connected
together.
Thermal Shutdown
Thermal shutdown shuts off the output MOSFET and
signals the fault flag if the die temperature exceeds
140°C. 10°C of hysteresis prevents the switch from
turning on until the die temperature drops to 130°C.
Overtemperature detection functions only when the
switch is enabled.
The MIC2547 features an internal latch which causes
the part to remain off after thermal shutdown until a reset
pulse is provided via the enable pin. While in current-
limit, the thermal shutdown latch prevents on/off cycling
of the output. Refer to Figure 2 for timing diagram. The
flag remains low until reset.
Enable Input
ENX must be driven logic high or logic low, or be pulled
high or low for a clearly defined input. Floating the input
may cause unpredictable operation. ENX should not be
allowed to go negative with respect to GND, and VENX
should be less than or equal to VINX.
Adjustable Current-Limit
The short-circuit current-limit is user-adjustable with an
external set resistor. Current-limit in the range of 100mA
to 1.5A is available with a set point accuracy of better
than ±20%. The current-limit circuit prevents damage to
the output MOSFET and external load.
The nominal current-limit value is set with an external
resistor between ILIMX and GND. For a desired current-
limit, the value of the external set resistor is given by:
⎟
⎟
⎠
⎞
⎜
⎜
⎝
⎛
=
LIMITX
SETX I
230V
R
where:
154 < RSET < 2.29k
For example, to set a 1A nominal current-limit, RSET is
calculated as:
230
1A
230V =
⎟
⎠
⎞
⎜
⎝
⎛
Current through RSETX increases with OUT current. The
voltage across RSETX could be monitored with a high
impedance comparator to provide an indication of output
current. RSETX should be between 154 and 2.29k
(0.5% resistor value).
Short-Circuit Protection
In the event of a short-circuit, the output current will fold
back to approximately 80% of the short-circuit current-
limit.
Fault Flag
FLGX is an N-channel, open-drain MOSFET output. The
fault-flag is active (low) for current-limit or thermal
shutdown conditions. The flag output MOSFET is
capable of sinking a 10mA load to typically 100mV
above ground.
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January 2008 13 M9999-012508-A
Application Information
Supply Filtering
A 0.1F to 1F bypass capacitor from INX to GND,
located near the MIC2546 and MIC2547, is strongly
recommended to control supply transients. Without a
bypass capacitor, an output short may cause sufficient
ringing on the input (from supply lead inductance) to
damage internal control circuitry.
Input transients must not exceed the absolute maximum
supply voltage (VIN max = 6V) even for a short duration.
Supply Bypassing
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 and junction
temperature are found below.
Calculation of power dissipation can be accomplished by
the following equation:
PD = RDS(ON) × (IOUT)2
To relate this to junction temperature, the following
equation can be used:
TJ = PD × JA + TA
where:
TJ = junction temperature
TA = ambient temperature
JA = is the thermal resistance of the package
Transient Overcurrent Fil ter
The inrush current from the connection of a heavy
capacitive load may cause the fault flag to fall for 10s to
200s while the switch is in a constant-current mode,
charging the capacitance.
Adding an optional series resistor-capacitor (RSET2) in
parallel with RSET, as shown in Figure 3, allows the
transient current-limit to be set to a different value than
steady state. A typical USB hot-plug inrush is 2A to 3A
for 10s to 20s. If RSET is 435 (510mA), an RSET2 of
88 (2.5A) and CSET of F (RC = 100s) allows transient
surge of 3A to pass for 100s without tripping the
overcurrent flag (FLG).
USB Power Distribution
The MIC2546 is ideal for meeting USB power distribution
requirements. Figure 3 depicts a USB Host application.
RSET should be set to a value providing a current-limit
>500mA. The accurate current-limit of the MIC2546 will
reduce power supply current requirements. Also, fast
reaction to short circuit faults prevent voltage droop in
mobile PC applications.
Printed Circuit Board Hot-Plug
The MIC2546/47 are ideal inrush current-limiters suitable
for hot-plug applications. Due to the integrated charge
pump, the MIC2546/47 presents a high impedance when
off and slowly becomes a low impedance as it turns on.
This “softstart” feature effectively isolates power supplies
from highly capacitive loads by reducing inrush current
during hot-plug events.
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January 2008 14 M9999-012508-A
Figure 3. USB Host Application
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January 2008 15 M9999-012508-A
Package Information
16-Pin SOP (M)
16-Pin TSSOP (TS)
MICREL, INC. 2180 FORTUNE DRIVE SAN JOSE, CA 95131 USA
TEL +1 (408) 944-0800 FAX +1 (408) 474-1000 WEB http://www.micrel.com
The information furnished by Micrel in this data sheet is believed to be accurate and reliable. However, no responsibility is assumed by Micrel for its
use. Micrel reserves the right to change circuitry and specifications at any time without notification to the customer.
Micrel Products are not designed or authorized for use as components in life support appliances, devices or systems where malfunction of a product
can reasonably be expected to result in personal injury. Life support devices or systems are devices or systems that (a) are intended for surgical implant
into the body or (b) support or sustain life, and whose failure to perform can be reasonably expected to result in a significant injury to the user. A
Purchaser’s use or sale of Micrel Products for use in life support appliances, devices or systems is a Purchaser’s own risk and Purchaser agrees to fully
indemnify Micrel for any damages resulting from such use or sale.
© 2001 Micrel, Incorporated.
