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19-3463; Rev 1; 2/10
KIT ATION EVALU BLE AVAILA
Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
General Description
The MAX1564 triple, current-limited USB switch comes in a space-saving, 16-pin, 4mm x 4mm thin QFN package. Each channel meets all IEC specifications for USB ports. The device is capable of supplying up to 1.2A from each output. The MAX1564 has multiple protection features, including thermal shutdown to limit junction temperature in case of a prolonged short or overload condition. Reverse-current protection circuitry blocks current flow from output to input regardless of the switch state. The IC has accurate, user-programmable current-limiting circuitry to protect the input supply against overload. Each output of the MAX1564 has short-circuit protection that latches off the switch when the output is shorted for more than 20ms, thereby saving system power. Auto-restart then tests the shorted output with a 25mA current to determine when the short is removed, then automatically restarts the output. Independent opendrain fault signals notify the microprocessor that the internal current limit has been reached. A 20ms faultblanking feature allows momentary faults to be ignored, such as those caused when hot-swapping into a capacitive load. This feature helps avoid issuing false alarms to the host system. Blanking also suppresses errant fault signals when the device is powering up. o Reverse-Current Blocking o Programmable Current Limit o Auto-Restart when Fault Is Removed o 12% Accurate Current Limit o Up to 1.2A Load Current for Each Output o Thermal-Overload Protection o Built-In 20ms Fault Blanking o Compliant with All USB Specifications o 2.7V to 5.5V Input Supply Range o Independent Fault Indicator Outputs o Active-High/Active-Low Select Pin o 15kV ESD Protection (with Caps)
Features
o Tiny 16-Pin 4mm x 4mm Thin QFN Package
MAX1564
Ordering Information
PART MAX1564ETE TEMP RANGE -40C to +85C PIN-PACKAGE 16 Thin QFN-EP* 4mm x 4mm
Applications
USB Ports USB Hubs Notebook Computers Desktop Computers Docking Stations
*EP = Exposed pad.
Pin Configuration
TOP VIEW OUTC 9 OUTB 10 OUTA 12 GND 11
FLTA 13 ONC 14
8 7
FLTC
FLTB SETI
MAX1564
ONB 15 ONA 16 1 INA 2 VCC 3 INB 4 INC 6 5
SEL
THIN QFN 4mm X 4mm
________________________________________________________________ Maxim Integrated Products
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN MAX1564
ABSOLUTE MAXIMUM RATINGS
IN_, ON_, OUT_, SEL, VCC to GND (Note 1)............-0.3V to +6V FLT_, SETI to GND .....................................-0.3V to (VCC + 0.3V) IN_ to OUT_ (when disabled, Note 2) .........................-6V to +6V IN_ to OUT_ (when enabled, Note 3)....................-1.5A to +2.3A FLT_ Sink Current................................................................20mA Continuous Power Dissipation 16-Pin 4mm x 4mm Thin QFN (derate 16.9mW/C above +70C) .............................1349mW Operating Temperature Range ...........................-40C to +85C Junction Temperature ......................................................+150C Storage Temperature Range .............................-65C to +150C Lead Temperature (soldering, 10s) ................................+300C
Note 1: Note 2: Note 3:
INA, INB, INC, and VCC must be connected together externally. Reverse current (current from OUT_ to IN_) is blocked when disabled. Forward and reverse current are internally limited.
Stresses beyond those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.
ELECTRICAL CHARACTERISTICS
(VIN_= VCC = VSEL = VON_= 5V, RSETI = 26.1k, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 4)
PARAMETER Supply Voltage Range VIN_ = VCC = 5V, TA = +25C Switch On-Resistance IN Standby Supply Current VIN_ = VCC = 3V, TA = +25C VIN_ = VCC = 5V, TA = -40C to +85C VON_ = 0V VONA = 5V, VONB = VONC = 0V IN Quiescent Supply Current IOUT_ = 0A VONA = VON0B = 5V, VONC = 0V VONA = VONB = VONC = 5V OUT_ Off-Leakage Current Undervoltage-Lockout Threshold Continuous Load Current RSETI = 26.1k Current-Limit Threshold RSETI = 39.2k RSETI = 60.4k Short-Circuit Current Limit (Peak Amps) RSETI = 26.1k VOUT_ = 0V RSETI = 39.2k RSETI = 60.4k Short-Circuit Current Limit (RMS Amps) Short-Circuit/Continuous CurrentLimit Transition Output Voltage Threshold RSETI = 26.1k VOUT_ = 0V RSETI = 39.2k RSETI = 60.4k (Note 5) VON_ = 0V, VOUT_ = 0V VIN_ rising, 3% hysteresis 2.2 1.2 1.20 0.79 0.49 1.46 1.37 0.91 0.59 1.8 1.2 0.77 0.55 0.37 0.23 1 V A(RMS) 1.54 1.03 0.68 2.20 A A 30 3 40 55 60 0.02 2.5 CONDITIONS MIN 2.75 60 80 100 7.5 80 100 120 10 2.7 A V A A A m TYP MAX 5.50 UNITS V
2
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
ELECTRICAL CHARACTERISTICS (continued)
(VIN_= VCC = VSEL = VON_= 5V, RSETI = 26.1k, TA = -40C to +85C, unless otherwise noted. Typical values are at TA = +25C.) (Note 4)
PARAMETER Current-Limit Fault-Blanking Timeout Period Turn-On Delay Output Rise Time Turn-Off Delay Time Output Fall Time Thermal Shutdown Threshold Logic-Input High Voltage (ONA, ONB, ONC, SEL) Logic-Input Low Voltage (ONA, ONB, ONC, SEL) Logic-Input Current FLT_ Output Low Voltage FLT_ Output High Leakage Current SETI Output Voltage SETI External Resistor Range OUT_ Auto-Restart Current OUT_ Auto-Restart Threshold OUT_ Auto-Restart Delay Time Reverse Current Detection Threshold Reverse Current Detection Blank Time 10 ISINK = 1mA VFLT_ = 5.5V 600 26.1k sets 1.37A maximum current limit In latched-off state, VOUT_ = 0V In latched-off state, VOUT_ rising In latched-off state, VOUT_ > 1V 26 10 0.4 10 25 0.5 20 0.9 20 40 60 50 0.6 40 CONDITIONS From current-limit condition to FLT_ low ROUT _= 10, COUT_= 1F, measured from ON_ high to 10% of VOUT_ ROUT_= 10, COUT_= 1F, measured from 10% to 90% of VOUT_ ROUT_ = 10, COUT_ = 1F, measured from ON_ low to 90% of VOUT_ ROUT_= 10, COUT_ = 1F, measured from 90% to 10% of VOUT_ 10C hysteresis VIN_ = 2.7V to 4.0V VIN_ = 4.0V to 5.5V VIN_ = 2.7V to 4.0V VIN_ = 4.0V to 5.5V -1 1.6 2.0 0.6 0.8 +1 0.4 1 MIN 10 0.5 TYP 20 1.5 3.5 100 4.0 +160 1000 MAX 40 4.0 UNITS ms ms ms s ms C V V A V A mV k mA V ms A ms
MAX1564
Note 4: Specifications to -40C are guaranteed by design and characterization and not production tested. Note 5: The output voltage at which the device transitions from short-circuit current limit to continuous current limit.
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN MAX1564
Typical Operating Characteristics
(Circuit of Figure 1, VINA = VINB = VINC = VSEL = VONA = VONB = VONC = 5V, TA = +25C, unless otherwise noted.)
QUIESCENT SUPPLY CURRENT vs. INPUT VOLTAGE
MAX1564 toc01 MAX1564 toc02
CURRENT LIMIT vs. RSETI
1.6 1.4 1.2 CURRENT LIMIT (A) 1.0 0.8 0.6 0.4 0.2 0 26 36 46 RSETI (k) 56 66 80 70 INPUT CURRENT (A) 60 50 40 30 20 10 0 0
QUIESCENT SUPPLY CURRENT vs. TEMPERATURE
VIN = 5.5V 70 INPUT CURRENT (A) 60 50 40 30 20 VIN = 5V VIN = 4.5V
MAX1564 toc03
80
1
2
3
4
5
6
-40
-15
10
35
60
85
INPUT VOLTAGE (V)
TEMPERATURE (C)
STANDBY CURRENT vs. TEMPERATURE
3.5 INPUT CURRENT (A) 3.0 2.5 2.0 1.5 1.0 0.5 0 -40 -15 10 35 60 85 TEMPERATURE (C) VONA = VONB = VONC = 0V 0.001 -40
MAX1564 toc04
SWITCH OFF LEAKAGE CURRENT vs. TEMPERATURE
MAX1564 toc05
REVERSE BLOCK LEAKAGE CURRENT vs. OUTPUT VOLTAGE
MAX1564 toc06
4.0
10
100
LEAKAGE CURRENT (A)
LEAKAGE CURRENT (A) VONA = VONB = VONC = 0V VOUT = 0V -15 10 35 60 85
1
0.1
10
0.01
1 2.7 3.4 4.1 OUPUT VOLTAGE (V) 4.8 5.5 TEMPERATURE (C)
NORMALIZED ON-RESISTANCE vs. TEMPERATURE
MAX1564 toc07
CONTINUOUS CURRENT LIMIT vs. TEMPERATURE
MAX1564 toc08
OUTPUT RISE TIME vs. TEMPERATURE
9 8 OUTPUT RISE TIME (ms) 7 6 5 4 3 2 1 0 VIN = 5V, NO LOAD VIN = 5.5V, NO LOAD VIN = 4.5V, NO LOAD VIN = 5.5V, RLOAD = 5 VIN = 5V, RLOAD = 5 VIN = 4.5V, RLOAD = 5
MAX1564 toc09
1.50
1.50 1.45 1.40 CURRENT LIMIT (A) 1.35 1.30 1.25 1.20 1.15 1.10 1.05
10
1.25 NORMALIZED RON
1.00
0.75
0.50 -40 -15 10 35 60 85 TEMPERATURE (C)
1.00 -40 -15 10 35 60 85 TEMPERATURE (C)
-40
-15
10
35
60
85
TEMPERATURE (C)
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
Typical Operating Characteristics (continued)
(Circuit of Figure 1, VINA = VINB = VINC = VSEL = VONA = VONB = VONC = 5V, TA = +25C, unless otherwise noted.)
MAX1564
OUTPUT FALL TIME vs. TEMPERATURE
3.8 OUTPUT FALL TIME (ms) 3.6 3.4 3.2 3.0 2.8 2.6 2.4 2.2 2.0 -40 -15 10 35 60 85 TEMPERATURE (C) RLOAD = 5
MAX1564 toc10
FAULT-BLANKING TIME vs. TEMPERATURE
24 FAULT-BLANKING TIME (ms) 23 22 21 20 19 18 17 -40 -15 10 35 60 85 TEMPERATURE (C) 75 125 VIN = 4.5V VIN = 5.5V VIN = 5V
MAX1564 toc11
FLT_ LOW VOLTAGE vs. TEMPERATURE
MAX1564 toc12
4.0 VIN = 5.5V VIN = 5V VIN = 4.5V
25
275
225 VIN = 5.5V VFLT_ (mV) 175
VIN = 5V VIN = 4.5V RPULLUP = 5k
-40
-15
10
35
60
85
TEMPERATURE (C)
AUTO-RESTART CURRENT vs. TEMPERATURE
MAX1564 toc13
AUTO-RESTART CURRENT vs. INPUT VOLTAGE
MAX1564 toc14
40 35 AUTO-RESTART CURRENT (mA) 30 25 20 15 10 5 0 -40 -15 10 35 60 VIN = 5V VIN = 4.5V VIN = 5.5V
28 AUTO-RESTART CURRENT (mA) 26 24 22 20 18 16 14 TA = +25C TA = -40C TA = +85C
85
2.7
3.4
4.1 INPUT VOLTAGE (V)
4.8
5.5
TEMPERATURE (C)
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN MAX1564
Typical Operating Characteristics (continued)
(Circuit of Figure 1, VINA = VINB = VINC = VSEL = VONA = VONB = VONC = 5V, TA = +25C, unless otherwise noted.)
OVERLOAD RESPONSE INTO 2.5
MAX1564 toc15
SHORT-CIRCUIT RESPONSE INTO 0
MAX1564 toc16
1A/div IOUT_ VOUT_ 2V/div
VFLT_
5V/div 5V/div
VOUT_ VIN (AC-COUPLED) 200mV/div
VIN (AC-COUPLED) VFLT_ 4ms/div
100mV/div 5V/div IOUT_ 1A/div
10ms/div
SWITCH TURN-ON TIME
MAX1564 toc17
SWITCH TURN-OFF TIME
MAX1564 toc18
2V/div VOUT_ VOUT_
2V/div
1V/div VON_ RLOAD = 5 1ms/div VON_ RLOAD = 5 1ms/div
1V/div
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
Pin Description
PIN 1 NAME INA FUNCTION Input Power Supply for OUTA. Provides power to OUTA. INA, INB, INC, and VCC must be connected together externally. Bypass with a 0.1F capacitor to GND. Additional capacitors can be used as required. Input Power Supply for the MAX1564. Provides power to the IC. INA, INB, INC, and VCC must be connected together externally. Input Power Supply for OUTB. Provides power to OUTB. INA, INB, INC, and VCC must be connected together externally. Input Power Supply for OUTC. Provides power to OUTC. INA, INB, INC, and VCC must be connected together externally. Polarity Control Input. Selects the polarity of ONA, ONB, and ONC. Connect to VCC for active-high ON_ inputs. Connect to GND for active-low ON_ inputs. Current-Limit Program Input. Connect a resistor from SETI to GND in the 26k to 60k range. ILIM = 1.37A x 26.1k / RSETI. Fault-Indicator Output for Switch B. FLTB is an open-drain output that goes low when INB is below the UVLO threshold, or when switch B is in current limit for greater than 20ms, or when switch B is in thermal shutdown. Fault Indicator Output for Switch C. FLTC is an open-drain output that goes low when INC is below the UVLO threshold, or when switch C is in current limit for greater than 20ms, or when switch C is in thermal shutdown. Power Output for Switch C. OUTC is high impedance during shutdown. Power Output for Switch B. OUTB is high impedance during shutdown. Ground. Connect ground to the exposed pad directly under the IC. Power Output for Switch A. OUTA is high impedance during shutdown. Fault Indicator Output for Switch A. FLTA is an open-drain output that goes low when INA is below the UVLO threshold, or when switch A is in current limit for greater than 20ms, or when switch A is in thermal shutdown. Control Input for Switch C. ONC is active high when SEL is connected to VCC and active low when SEL is connected to GND. Control Input for Switch B. ONB is active high when SEL is connected to VCC and active low when SEL is connected to GND. Control Input for Switch A. ONA is active high when SEL is connected to VCC and active low when SEL is connected to GND. Exposed Pad. Connect exposed pad to a large ground plane to improve thermal power dissipation.
MAX1564
2 3 4 5 6
VCC INB INC SEL SETI
7
FLTB
8 9 10 11 12 13
FLTC OUTC OUTB GND OUTA FLTA
14 15 16 --
ONC ONB ONA EP
Detailed Description
Undervoltage Lockout (UVLO) and Input Voltage Requirements
The MAX1564 includes undervoltage-lockout (UVLO) circuitry to prevent erroneous switch operation when the input voltage is low during startup and brownout conditions. The IC is disabled when the input voltage is
less than 2.5V (typ). FLT_ asserts low during a UVLO condition.
Current-Limit Fault Protection
The MAX1564 uses two methods to protect the circuit from overcurrent conditions. During an overcurrent event, the IC senses the switch output voltage and selects either continuous current limiting or short-circuit
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
current limiting. When VOUT_ is greater than 1V, the device operates in continuous current-limit mode and limits output current to a user-programmable level. When VOUT_ is less than 1V, the device operates in short-circuit current-limit mode and pulses the output current to levels that are 30% (typ) higher than the selected current limit. When either fault condition persists for 20ms (typ), the output turns off and its fault flag is asserted. The output automatically restarts 20ms after the short or overload is removed.
MAX1564
* The switch is in current-limit or short-circuit currentlimit mode after the fault-blanking period (20ms typ) expires. * The reverse current condition exists after the faultblanking period expires. The FLT_ output goes high impedance after a 20ms delay once the fault condition is removed. Ensure that the MAX1564 input bypass capacitance prevents glitches from triggering the FLT_ outputs. To differentiate large capacitive loads from short circuits or sustained overloads, the MAX1564 has an independent fault-blanking circuit for each switch. When a load transient causes the output to enter current limit, an internal counter monitors the duration of the fault. For load faults exceeding the 20ms fault-blanking time, the switch turns off, FLT_ asserts low, and the output enters auto-restart mode (see the Current-Limit Fault Protection and Auto-Restart Mode sections). Only current-limit and short-circuit faults are blanked. Thermaloverload faults and input voltages below the UVLO threshold immediately turn off the offending output and assert FLT_ low. Fault blanking allows the MAX1564 to handle USB loads that might not be fully compliant with USB specifications. The MAX1564 successfully powers USB
Auto-Restart Mode
The MAX1564 detects short-circuit removal by sourcing 25mA from the output and monitoring the output voltage. When the voltage at the output exceeds 0.5V for 20ms, the fault flag resets, the output turns back on, and the 25mA current source turns off. Active loads are not expected to draw measurable current when supplied with less than 0.5V. The MAX1564 can also be reset from a fault by toggling the ON_ input for the offending channel.
Reverse Current Blocking
The USB specification does not allow an output device to source current back into the USB port. However, the MAX1564 is designed to safely power noncompliant devices. During normal operation with the channel enabled, the IC immediately turns off the switch if the output voltage rises above the input voltage sufficiently to create a reverse current in excess of 0.9A (typ). If the output voltage condition persists for longer than 20ms (typ), the switch remains off and the FLT_ flag is asserted. When any channel is disabled, the output is switched to a high-impedance state, blocking reverse current flow from the output back to the input.
R2 100k INPUT 2.75V TO 5.5V 1 3 4 2 INA INB INC V CC MAX1564 FLTB
7
FLTA
13
C1 0.1F
R3 100k
Thermal Shutdown
Independent thermal shutdown of each channel permits delivering power to normal loads even if one load has a fault condition. The thermal limit does not have the 20ms fault blanking but sets the same fault latch that is used for other faults. Exiting this latched state is described in the Auto-Restart Mode section.
R4 100k FLTC
8
ACTIVE-HIGH/ ACTIVE-LOW SELECT INPUT
5 16
15 14 6
SEL ONA ONB ONC SETI GND
11
OUTA
12
C2 1F OUTB
10
USB PORT A
Fault Indicators and Fault Blanking
The MAX1564 provides an independent open-drain fault output (FLT_) for each switch. Connect FLT_ to IN_ through a 100k pullup resistor for most applications. FLT_ asserts low when any of the following conditions occur: * The input voltage is below the UVLO threshold. * The switch junction temperature exceeds the +160C thermal-shutdown temperature limit.
C3 1F OUTC
9
USB PORT B
R1 26.1k
C4 1F
USB PORT C
Figure 1. Typical Application Circuit
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
loads with additional bypass capacitance and/or large startup currents while protecting the upstream power source. No fault is reported if the output voltage rises nominal within the 20ms blanking period.
MAX1564
Table 1. SEL/ON_ Inputs
SEL High High Low Low ON_ High Low High Low OUT_ STATE Enabled Disabled Disabled Enabled
Applications Information
Setting the Current Limit
The current limit for the MAX1564 is user programmable using the SETI input. Connect a resistor from SETI to GND (R1) to set the current limit. The value for R1 is calculated as: ILIMIT = 1.37A x 26.1k / R1 R1 must be between 26k and 60k.
SEL sets the active polarity of the logic inputs of the MAX1564. Connect ON_ to the same voltage as SEL to enable the respective OUT_ switch. Connect ON_ to the opposite voltage as SEL to disable the respective output (see Table 1). The output of a disabled switch enters a high-impedance state.
Input Capacitor
To limit the input voltage drop during momentary output load transients, connect a capacitor from IN_ to ground. A 0.1F ceramic capacitor is required for local decoupling; however, higher capacitor values further reduce the voltage drop at the input. When driving inductive loads, a larger capacitance prevents voltage spikes from exceeding the MAX1564's absolute maximum ratings.
Layout and Thermal Dissipation
Keep all input/output traces as short as possible to reduce the effect of undesirable parasitic inductance and optimize the switch response time to output shortcircuit conditions. Place input and output capacitors no more than 5mm from device leads. Connect IN_ and OUT_ to the power bus with short traces. Wide power bus planes at IN_ and OUT_ provide superior heat dissipation as well. An active switch dissipates little power with minimal change in package temperature. Calculate the power dissipation for this condition as follows: P = IOUT_2 x RON At the normal operating current (IOUT_ = 0.5A) and the maximum on-resistance of the switch (100m), the power dissipation is: P = (0.5A)2 x 0.100 = 25mW per switch The worst-case power dissipation occurs when the output current is just below the current-limit threshold with an output voltage greater than 1V. In this case, the power dissipated in each switch is the voltage drop across the switch multiplied by the current limit: P = ILIM x (VIN - VOUT) For a 5.5V input and 1V output, the maximum power dissipation per switch is: P = 1.54A x (5.5V - 1V) = 6.9W Because the package power dissipation is 1349mW, the MAX1564 die temperature may exceed the +160C thermal-shutdown threshold, in which case the switch output shuts down until the junction temperature cools by 10C. In a continuous overload condition, this causes a cyclical on/off situation. The duty cycle and period of this situation are strong functions of the ambient temperature and the PC board layout (see the Thermal Shutdown section).
Output Capacitor
A capacitor as large as 2000F may be used on the output to smooth out transients and/or increase rise/fall times. Larger output capacitance may be used, but the resulting output charge time during startup may exceed the fault blanking period, resulting in a FLT_ flag.
Driving Inductive Loads
A wide variety of devices (mice, keyboards, cameras, and printers) typically connect to the USB port with cables, adding an inductive component to the load. This inductance causes the output voltage at the USB port to oscillate during a load step. The MAX1564 drives inductive loads; however, care must be taken to avoid exceeding the device's absolute maximum ratings. Usually, the load inductance is relatively small, and the MAX1564's input includes a substantial bulk capacitance from an upstream regulator, as well as local bypass capacitors, limiting overshoot. If severe ringing occurs because of large load inductance, clamp the MAX1564 outputs below +6V and above -0.3V.
Turn-On and Turn-Off Behavior
Slow turn-on and turn-off under normal operating conditions minimizes loading transients on the upstream power source. Rapid turn-off under fault conditions (thermal, short circuit, and UVLO) is done for maximum safety.
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN MAX1564
If the output current exceeds the current-limit threshold, or the output voltage is pulled below the short-circuit detect threshold, the MAX1564 enters a fault state after 20ms, at which point auto-restart mode is enabled and 25mA is sourced by the output. For a 5V input, OUT_ short circuited to GND, and auto-restart mode active, the power dissipation is as follows: P = 0.025A x 5V = 0.125W
Chip Information
PROCESS: BiCMOS
Package Information
For the latest package outline information and land patterns, go to www.maxim-ic.com/packages. Note that a "+", "#", or "-" in the package code indicates RoHS status only. Package drawings may show a different suffix character, but the drawing pertains to the package regardless of RoHS status. PACKAGE TYPE 16 TQFN-EP PACKAGE CODE T1644-4 DOCUMENT NO. 21-0139
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Triple 1.2A USB Switch in 4mm x 4mm Thin QFN
Revision History
REVISION NUMBER 0 1 REVISION DATE 4/01 2/10 Initial release Removed UL Certification Pending bullet from Features section DESCRIPTION PAGES CHANGED -- 1
MAX1564
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 11
(c) 2010 Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.

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